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APD_traits.csv
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APD_traits.csv
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Entity,trait,label,description,comments,trait_type,allowed_values_min,allowed_values_max,units,constraints,trait_groupings,structure_measured,characteristic_measured,keywords,references,reviewers,created,modified,exact_match,close_match,related_match,examples,description_encoded,deprecated_trait_name,identifier,inScheme
https://w3id.org/APD/traits/trait_0000012,leaf_Al_per_dry_mass,Leaf aluminium (Al) content per unit leaf dry mass,The ratio of the mass of aluminium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,12000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],aluminium atom [CHEBI_28984],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf aluminium content per leaf dry mass [TOP449] (https://top-thesaurus.org/index); exact match: Leaf aluminium (Al) content per leaf dry mass [TRY:249] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of aluminium [CHEBI:28984] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000014,leaf_B_per_dry_mass,Leaf boron (B) content per unit leaf dry mass,The ratio of the mass of boron in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,1000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],boron atom [CHEBI_27560]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf boron content per leaf dry mass [TOP450] (https://top-thesaurus.org/index); exact match: Leaf boron (B) content per leaf dry mass [TRY:250] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of boron [CHEBI:27560] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000016,leaf_C_per_dry_mass,Leaf carbon (C) content per unit leaf dry mass,The ratio of the mass of carbon in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],50,750,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594],NA,NA,14/07/2021,05/02/2024,leaf carbon content [http://purl.obolibrary.org/obo/TO_0003088]; Leaf carbon content [https://cropontology.org/rdf/CO_357:0000086],NA,NA,exact match: Leaf carbon content per leaf dry mass [TOP452] (https://top-thesaurus.org/index); exact match: Leaf carbon (C) content per leaf dry mass [TRY:13] (https://www.try-db.org/de/de.php); exact match: leaf carbon content per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000016,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000018,leaf_Ca_per_dry_mass,Leaf calcium (Ca) content per unit leaf dry mass,The ratio of the mass of calcium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,1000,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf calcium content per leaf dry mass [TOP451] (https://top-thesaurus.org/index); exact match: Leaf calcium (Ca) content per leaf dry mass [TRY:252] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000018,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000020,leaf_Cl_per_dry_mass,Leaf chlorine (Cl) content per unit leaf dry mass,The ratio of the mass of chlorine in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],10,10000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],chlorine atom [CHEBI_23116],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf chlorine content per leaf dry mass [TOP453] (https://top-thesaurus.org/index); exact match: Leaf chlorine (Cl) content per leaf dry mass [TRY:539] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorine [CHEBI:23116] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000020,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000022,leaf_Cr_per_dry_mass,Leaf chromium (Cr) content per unit leaf dry mass,The ratio of the mass of chromium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,150,ppm,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],chromium atom [CHEBI_28073],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf chromium (Cr) content per leaf dry mass [TRY:254] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chromium [CHEBI:28073] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000022,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000024,leaf_Co_per_dry_mass,Leaf cobalt (Co) content per unit leaf dry mass,The ratio of the mass of cobalt in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,150,ppm,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],cobalt atom [CHEBI_27638]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf cobalt content per leaf dry mass [TOP454] (https://top-thesaurus.org/index); exact match: Leaf cobalt (Co) content per leaf dry mass [TRY:253] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of cobalt [CHEBI:27638] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000024,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000026,leaf_Cu_per_dry_mass,Leaf copper (Cu) content per unit leaf dry mass,The ratio of the mass of copper in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,150,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],copper atom [CHEBI_28694]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf copper content per leaf dry mass [TOP455] (https://top-thesaurus.org/index); exact match: Leaf copper (Cu) content per leaf dry mass [TRY:255] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of copper [CHEBI:28694] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000026,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000028,leaf_Fe_per_dry_mass,Leaf iron (Fe) content per unit leaf dry mass,The ratio of the mass of iron in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,10000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],iron atom [CHEBI_18248]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf iron content per leaf dry mass [TOP456] (https://top-thesaurus.org/index); exact match: Leaf iron (Fe) content per leaf dry mass [TRY:256] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of iron [CHEBI:18248] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000028,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000029,leaf_K_per_area,Leaf potassium (K) content per unit leaf area,The ratio of the mass of potassium in a leaf to leaf area.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,10,g/m2,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,leaf potassium content [http://purl.obolibrary.org/obo/TO_0003049],NA,NA,exact match: Leaf potassium content per leaf area [TOP483] (https://top-thesaurus.org/index); exact match: Leaf potassium (K) content per leaf area [TRY:52] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in a leaf [PO:0025034] to leaf area [PATO:0001323].,NA,trait_0000029,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000030,leaf_K_per_dry_mass,Leaf potassium (K) content per unit leaf dry mass,The ratio of the mass of potassium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,100,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,leaf potassium content [http://purl.obolibrary.org/obo/TO_0003049],NA,NA,exact match: Leaf potassium content per leaf dry mass [TOP464] (https://top-thesaurus.org/index); exact match: Leaf potassium (K) content per leaf dry mass [TRY:44] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000030,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000032,leaf_Mg_per_dry_mass,Leaf magnesium (Mg) content per unit leaf dry mass,The ratio of the mass of magnesium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,10000,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf magnesium content per leaf dry mass [TOP457] (https://top-thesaurus.org/index); exact match: Leaf magnesium (Mg) content per leaf dry mass [TRY:257] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000032,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000034,leaf_Mn_per_dry_mass,Leaf manganese (Mn) content per unit leaf dry mass,The ratio of the mass of manganese in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,20000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],manganese atom [CHEBI_18291]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf manganese content per leaf dry mass [TOP458] (https://top-thesaurus.org/index); exact match: Leaf manganese (Mn) content per leaf dry mass [TRY:258] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of manganese [CHEBI:18291] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000034,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000036,leaf_Mo_per_dry_mass,Leaf molybdenum (Mo) content per unit leaf dry mass,The ratio of the mass of molybdenum in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0,100,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],molybdenum atom [CHEBI_28685]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf molybdenum content per leaf dry mass [TOP459] (https://top-thesaurus.org/index); exact match: Leaf molybdenum (Mo) content per leaf dry mass [TRY:259] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of molybdenum [CHEBI:28685] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000036,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000037,leaf_N_per_area,Leaf nitrogen (N) content per unit leaf area,The ratio of the mass of nitrogen in a leaf to leaf area.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.15,50,g/m2,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,Leaf nitrogen content [https://cropontology.org/rdf/CO_357:0000159]; leaf nitrogen content [http://purl.obolibrary.org/obo/TO_0000543]; leaf nitrogen concentration [http://vocabs.lter-europe.net/EnvThes/22160],NA,NA,exact match: Leaf nitrogen content per leaf area [TOP481] (https://top-thesaurus.org/index); exact match: Leaf nitrogen (N) content per leaf area [TRY:50] (https://www.try-db.org/de/de.php); exact match: leaf nitrogen content per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in a leaf [PO:0025034] to leaf area [PATO:0001323].,NA,trait_0000037,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000038,leaf_N_per_dry_mass,Leaf nitrogen (N) content per unit leaf dry mass,The ratio of the mass of nitrogen in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.5,100,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,Leaf nitrogen content [https://cropontology.org/rdf/CO_357:0000159]; leaf nitrogen content [http://purl.obolibrary.org/obo/TO_0000543]; leaf nitrogen concentration [http://vocabs.lter-europe.net/EnvThes/22160],NA,NA,exact match: Leaf nitrogen content per leaf dry mass [TOP462] (https://top-thesaurus.org/index); exact match: Leaf nitrogen (N) content per leaf dry mass [TRY:14] (https://www.try-db.org/de/de.php); exact match: leaf nitrogen content per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Mass-based leaf nitrogen content [BROT:7] (http://doi.org/10.1038/sdata.2018.135),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000038,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000040,leaf_Na_per_dry_mass,Leaf sodium (Na) content per unit leaf dry mass,The ratio of the mass of sodium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,20000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sodium atom [CHEBI_26708]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf sodium content per leaf dry mass [TOP460] (https://top-thesaurus.org/index); exact match: Leaf sodium (Na) content per leaf dry mass [TRY:260] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sodium [CHEBI:26708] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000040,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000042,leaf_Ni_per_dry_mass,Leaf nickel (Ni) content per unit leaf dry mass,The ratio of the mass of nickel in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,100,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nickel atom [CHEBI_28112],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf nickel content per leaf dry mass [TOP461] (https://top-thesaurus.org/index); exact match: Leaf nickel (Ni) content per leaf dry mass [TRY:261] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nickel [CHEBI:28112] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000042,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000043,leaf_P_per_area,Leaf phosphorus (P) content per unit leaf area,The ratio of the mass of phosphorus in a leaf to leaf area.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.005,1.2,g/m2,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,leaf phosphorus content [http://purl.obolibrary.org/obo/TO_0001025],NA,NA,exact match: Leaf phosphorus content per leaf area [TOP482] (https://top-thesaurus.org/index); exact match: Leaf phosphorus (P) content per leaf area [TRY:51] (https://www.try-db.org/de/de.php); exact match: leaf phosphorus content per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in a leaf [PO:0025034] to leaf area [PATO:0001323].,NA,trait_0000043,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000044,leaf_P_per_dry_mass,Leaf phosphorus (P) content per unit leaf dry mass,The ratio of the mass of phosphorus in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.03,12,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,leaf phosphorus content [http://purl.obolibrary.org/obo/TO_0001025],NA,NA,exact match: Leaf phosphorus content per leaf dry mass [TOP463] (https://top-thesaurus.org/index); exact match: Leaf phosphorus (P) content per leaf dry mass [TRY:15] (https://www.try-db.org/de/de.php); exact match: leaf phosphorus content per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000044,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000046,leaf_S_per_dry_mass,Leaf sulphur (S) content per unit leaf dry mass,The ratio of the mass of sulphur in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],50,50000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sulfur atom [CHEBI_26833]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf sulfur content per leaf dry mass [TOP466] (https://top-thesaurus.org/index); exact match: Leaf sulfur (S) content per leaf dry mass [TRY:262] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sulphur [CHEBI:26833] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000046,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000048,leaf_Se_per_dry_mass,Leaf selenium (Se) content per unit leaf dry mass,The ratio of the mass of selenium in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,100,ppm,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],selenium atom [CHEBI_27568],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf selenium (Se) content per leaf dry mass [TRY:263] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of selenium [CHEBI:27568] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000048,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000050,leaf_Si_per_dry_mass,Leaf silicon (Si) content per unit leaf dry mass,The ratio of the mass of silicon in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades. Leaf silicon (Si) must not be confused with leaf silica (SiO2). In plants, Si is mostly found as hydrated amorphous silica (SiO2 , nH2O).",continuous variable [STATO_0000251],0.01,200,mg/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],silicon atom [CHEBI_27573],Cooke & Leishman 2011 [https://doi.org/10.1016/j.tplants.2010.10.003]; de Tombeur 2023 [https://doi.org/10.1016/j.tree.2022.11.002],Félix de Tombeur [https://orcid.org/0000-0002-6012-8458],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf silicon content per leaf dry mass [TOP465] (https://top-thesaurus.org/index); exact match: Leaf silicon (Si) content per leaf dry mass [TRY:264] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of silicon [CHEBI:27573] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000050,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000052,leaf_Zn_per_dry_mass,Leaf zinc (Zn) content per unit leaf dry mass,The ratio of the mass of zinc in a leaf to leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,1000,mg/kg,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],zinc atom [CHEBI_27363]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf zinc content per leaf dry mass [TOP467] (https://top-thesaurus.org/index); exact match: Leaf zinc (Zn) content per leaf dry mass [TRY:268] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of zinc [CHEBI:27363] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0000052,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000090,leaf_CN_ratio,Leaf carbon to nitrogen ratio (C/N),The ratio of the mass of carbon in a leaf to the mass of nitrogen in the leaf.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],10,1000,g/g,none,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594]; macronutrient [CHEBI_33937]; nitrogen atom [CHEBI_25555],NA,NA,14/07/2021,05/02/2024,Ratio leaf nitrogen to leaf carbon [https://cropontology.org/rdf/CO_357:0000287]; C/N [https://cropontology.org/rdf/CO_357:0000512],NA,NA,exact match: Leaf carbon/nitrogen (C/N) ratio [TRY:146] (https://www.try-db.org/de/de.php); exact match: leaf carbon content per leaf nitrogen content [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in a leaf [PO:0025034] to the mass of nitrogen [CHEBI:25555] in the leaf.,NA,trait_0000090,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000091,leaf_NP_ratio,Leaf nitrogen to phosphorus ratio (N/P) per unit leaf dry mass,The ratio of the mass of nitrogen in a leaf to the mass of phosphorus in the leaf.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,100,g/g,NA,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; phosphorus atom [CHEBI_28659],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf nitrogen/phosphorus (N/P) ratio [TRY:56] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in a leaf [PO:0025034] to the mass of phosphorus [CHEBI:28659] in the leaf.,N_to_P_ratio,trait_0000091,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000112,leaf_senesced_Al_per_dry_mass,Senesced leaf aluminium (Al) content per unit leaf dry mass,The ratio of the mass of aluminium in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,10,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],aluminium atom [CHEBI_28984]; senescent [PATO_0001487]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter aluminium content per litter dry mass [TOP583] (https://top-thesaurus.org/index); exact match: Litter aluminium (Al ) content per litter dry mass [TRY:987] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of aluminium [CHEBI:28984] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Al_per_dry_mass,trait_0000112,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000114,leaf_senesced_B_per_dry_mass,Senesced leaf boron (B) content per unit leaf dry mass,The ratio of the mass of boron in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.001,10,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],boron atom [CHEBI_27560]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter boron content per litter dry mass [TOP584] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of boron [CHEBI:27560] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_B_per_dry_mass,trait_0000114,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000116,leaf_senesced_C_per_dry_mass,Senesced leaf carbon (C) content per unit leaf dry mass,The ratio of the mass of carbon in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,1,g/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594]; senescent [PATO_0001487]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter carbon content per litter dry mass [TOP586] (https://top-thesaurus.org/index); exact match: Litter carbon (C) content per litter dry mass [TRY:72] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_C_per_dry_mass,trait_0000116,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000118,leaf_senesced_Ca_per_dry_mass,Senesced leaf calcium (Ca) content per unit leaf dry mass,The ratio of the mass of calcium in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,1000,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter calcium content per litter dry mass [TOP585] (https://top-thesaurus.org/index); exact match: Litter (leaf) calcium (Ca) content per leaf litter dry mass [TRY:943] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Ca_per_dry_mass,trait_0000118,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000126,leaf_senesced_Cu_per_dry_mass,Senesced leaf copper (Cu) content per unit leaf dry mass,The ratio of the mass of copper in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,100,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],copper atom [CHEBI_28694]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter copper content per litter dry mass [TOP589] (https://top-thesaurus.org/index); exact match: Litter (leaf) copper (Cu) content per leaf litter dry mass [TRY:947] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of copper [CHEBI:28694] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Cu_per_dry_mass,trait_0000126,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000128,leaf_senesced_Fe_per_dry_mass,Senesced leaf iron (Fe) content per unit leaf dry mass,The ratio of the mass of iron in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,10000,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],iron atom [CHEBI_18248]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter iron content per litter dry mass [TOP590] (https://top-thesaurus.org/index); exact match: Litter (leaf) iron (Fe) content per leaf litter dry mass [TRY:950] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of iron [CHEBI:18248] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Fe_per_dry_mass,trait_0000128,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000130,leaf_senesced_K_per_dry_mass,Senesced leaf potassium (K) content per unit leaf dry mass,The ratio of the mass of potassium in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,100,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; senescent [PATO_0001487]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter potassium content per litter dry mass [TOP598] (https://top-thesaurus.org/index); exact match: Litter (leaf) potassium (K) content per leaf litter dry mass [TRY:958] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_K_per_dry_mass,trait_0000130,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000132,leaf_senesced_Mg_per_dry_mass,Senesced leaf magnesium (Mg) content per unit leaf dry mass,The ratio of the mass of magnesium in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,100,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter magnesium content per litter dry mass [TOP591] (https://top-thesaurus.org/index); exact match: Litter (leaf) magnesium (Mg) content per leaf litter dry mass [TRY:952] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Mg_per_dry_mass,trait_0000132,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000134,leaf_senesced_Mn_per_dry_mass,Senesced leaf manganese (Mn) content per unit leaf dry mass,The ratio of the mass of manganese in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,10000,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],manganese atom [CHEBI_18291]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter manganese content per litter dry mass [TOP592] (https://top-thesaurus.org/index); exact match: Litter (leaf) manganese (Mn) content per leaf litter dry mass [TRY:953] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of manganese [CHEBI:18291] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Mn_per_dry_mass,trait_0000134,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000136,leaf_senesced_Mo_per_dry_mass,Senesced leaf molybdenum (Mo) content per unit leaf dry mass,The ratio of the mass of molybdenum in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0,30,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],molybdenum atom [CHEBI_28685]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter molybdenum content per litter dry mass [TOP593] (https://top-thesaurus.org/index); exact match: Litter molybdenium (Mo) content per litter dry mass [TRY:999] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of molybdenum [CHEBI:28685] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Mo_per_dry_mass,trait_0000136,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000138,leaf_senesced_N_per_dry_mass,Senesced leaf nitrogen (N) content per unit leaf dry mass,The ratio of the mass of nitrogen in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1,100,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; senescent [PATO_0001487]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter nitrogen content per litter dry mass [TOP596] (https://top-thesaurus.org/index); exact match: Litter (leaf) nitrogen (N) content per leaf litter dry mass [TRY:954] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_N_per_dry_mass,trait_0000138,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000140,leaf_senesced_Na_per_dry_mass,Senesced leaf sodium (Na) content per unit leaf dry mass,The ratio of the mass of sodium in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],10,20000,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sodium atom [CHEBI_26708]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter sodium content per litter dry mass [TOP594] (https://top-thesaurus.org/index); exact match: Litter sodium (Na) content per litter dry mass [TRY:1004] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sodium [CHEBI:26708] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Na_per_dry_mass,trait_0000140,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000142,leaf_senesced_Ni_per_dry_mass,Senesced leaf nickel (Ni) content per unit leaf dry mass,The ratio of the mass of nickel in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],10,100000,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nickel atom [CHEBI_28112]; senescent [PATO_0001487]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of nickel [CHEBI:28112] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Ni_per_dry_mass,trait_0000142,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000144,leaf_senesced_P_per_dry_mass,Senesced leaf phosphorus (P) content per unit leaf dry mass,The ratio of the mass of phosphorus in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.005,15,mg/g,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; senescent [PATO_0001487]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter phosphorus content per litter dry mass [TOP597] (https://top-thesaurus.org/index); exact match: Litter (leaf) phosphorus (P) content per leaf litter dry mass [TRY:957] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_P_per_dry_mass,trait_0000144,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000146,leaf_senesced_S_per_dry_mass,Senesced leaf sulphur (S) content per unit leaf dry mass,The ratio of the mass of sulphur in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],100,50000,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sulfur atom [CHEBI_26833]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter sulfur content per litter dry mass [TOP600] (https://top-thesaurus.org/index); exact match: Litter (leaf) sulfur (S) content per leaf litter dry mass [TRY:961] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sulphur [CHEBI:26833] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_S_per_dry_mass,trait_0000146,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000152,leaf_senesced_Zn_per_dry_mass,Senesced leaf zinc (Zn) content per unit leaf dry mass,The ratio of the mass of zinc in a senescent leaf (leaf litter) to the senescent leaf dry mass.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0,100,mg/kg,NA,senesced leaf mineral and ion content trait [trait_group_0000108],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],zinc atom [CHEBI_27363]; senescent [PATO_0001487]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Litter zinc content per litter dry mass [TOP601] (https://top-thesaurus.org/index); exact match: Litter (leaf) zinc (Zn) content per leaf litter dry mass [TRY:962] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of zinc [CHEBI:27363] in a senescent [PATO:0001487] leaf [PO:0025034] (leaf litter [ENVO:01000628]) to the senescent leaf dry mass [TO:0001014].,senesced_leaf_Zn_per_dry_mass,trait_0000152,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0022012,leaf_N_resorption,Leaf nitrogen resorption efficiency,"A leaf nutrient recycling trait which is one minus the ratio of leaf nitrogen content in a senescent leaf (leaf litter) to leaf nitrogen content in a live leaf, indicating what proportion of nitrogen is resorbed from the senescent leaf before it is shed.",NA,continuous variable [STATO_0000251],-1.1,1,mg/mg,NA,nutrient recycling trait [trait_group_0022002],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],nitrogen atom [CHEBI_25555]; senescent [PATO_0001487]; resorption [NCIT_C93204]; plant litter [ENVO_01000628]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A leaf [PO:0025034] nutrient recycling trait which is one minus the ratio [PATO:0001470] of leaf nitrogen [CHEBI:25555] content in a senescent [PATO:0001487] leaf (leaf litter [ENVO:01000628]) to leaf nitrogen content in a live [PATO:0001421] leaf, indicating what proportion of nitrogen is resorbed [NCIT:C93204] from the senescent leaf before it is shed.",resorption_leaf_N,trait_0022012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0022013,leaf_P_resorption,Leaf phosphorus resorption efficiency,"A leaf nutrient recycling trait which is one minus the ratio of leaf phosphorus content in a senescent leaf (leaf litter) to leaf phosphorus content in a live leaf, indicating what proportion of phosphorus is resorbed from the senescent leaf before it is shed.",NA,continuous variable [STATO_0000251],-1.1,1,mg/mg,NA,nutrient recycling trait [trait_group_0022002],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],phosphorus atom [CHEBI_28659]; senescent [PATO_0001487]; resorption [NCIT_C93204]; plant litter [ENVO_01000628]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A leaf [PO:0025034] nutrient recycling trait which is one minus the ratio [PATO:0001470] of leaf phosphorus [CHEBI:28659] content in a senescent [PATO:0001487] leaf (leaf litter [ENVO:01000628]) to leaf phosphorus content in a live [PATO:0001421] leaf, indicating what proportion of phosphorus is resorbed [NCIT:C93204] from the senescent leaf before it is shed.",resorption_leaf_P,trait_0022013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000216,stem_C_per_dry_mass,Stem carbon (C) content per unit stem dry mass,The ratio of the mass of carbon in a stem to stem dry mass.,NA,continuous variable [STATO_0000251],100,1000,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594],NA,NA,14/07/2021,05/02/2024,stem carbon content [http://purl.obolibrary.org/obo/TO_0003089],NA,NA,exact match: Stem carbon content per stem dry mass [TOP491] (https://top-thesaurus.org/index); exact match: Stem carbon (C) content per stem dry mass [TRY:407] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in a stem [PO:0009047] to stem dry mass.,NA,trait_0000216,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000238,stem_N_per_dry_mass,Stem nitrogen (N) content per unit stem dry mass,The ratio of the mass of nitrogen in a stem to stem dry mass.,NA,continuous variable [STATO_0000251],0.1,1000,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Stem nitrogen content per stem dry mass [TOP501] (https://top-thesaurus.org/index); exact match: Stem nitrogen (N) content per stem dry mass [TRY:406] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in a stem [PO:0009047] to stem dry mass.,NA,trait_0000238,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000416,wood_C_per_dry_mass,Wood carbon (C) content per unit wood dry mass,The ratio of the mass of carbon in wood to wood dry mass.,NA,continuous variable [STATO_0000251],50,750,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594]; wood [NCIT_C93062]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood carbon content per wood dry mass trait [TOP732] (https://top-thesaurus.org/index); close match: Stem carbon (C) content per stem dry mass [TRY:407] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in wood [PO:0005848] to wood dry mass.,NA,trait_0000416,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000418,wood_Ca_per_dry_mass,Wood calcium (Ca) content per unit wood dry mass,The ratio of the mass of calcium in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood calcium content per wood dry mass trait [TOP731] (https://top-thesaurus.org/index); close match: Stem calcium (Ca) content per stem dry mass [TRY:623] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in wood [PO:0005848] to wood dry mass.,NA,trait_0000418,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000430,wood_K_per_dry_mass,Wood potassium (K) content per unit wood dry mass,The ratio of the mass of potassium in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.01,100,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood potassium content per wood dry mass trait [TOP744] (https://top-thesaurus.org/index); close match: Stem potassium (K) content per stem dry mass [TRY:628] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in wood [PO:0005848] to wood dry mass.,NA,trait_0000430,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000432,wood_Mg_per_dry_mass,Wood magnesium (Mg) content per unit wood dry mass,The ratio of the mass of magnesium in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood magnesium content per wood dry mass trait [TOP737] (https://top-thesaurus.org/index); close match: Stem magnesium (Mg) content per stem dry mass [TRY:624] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in wood [PO:0005848] to wood dry mass.,NA,trait_0000432,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000438,wood_N_per_dry_mass,Wood nitrogen (N) content per unit wood dry mass,The ratio of the mass of nitrogen in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood nitrogen content per wood dry mass trait [TOP742] (https://top-thesaurus.org/index); exact match: Wood nitrogen (N) content per wood dry mass [TRY:1229] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in wood [PO:0005848] to wood dry mass.,NA,trait_0000438,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000440,wood_Na_per_dry_mass,Wood sodium (Na) content per unit wood dry mass,The ratio of the mass of sodium in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sodium atom [CHEBI_26708]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood sodium content per wood dry mass trait [TOP740] (https://top-thesaurus.org/index); close match: Stem sodium (Na) content per stem dry mass [TRY:627] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sodium [CHEBI:26708] in wood [PO:0005848] to wood dry mass.,NA,trait_0000440,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000444,wood_P_per_dry_mass,Wood phosphorus (P) content per unit wood dry mass,The ratio of the mass of phosphorus in wood to wood dry mass.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,wood mineral and ion content trait [trait_group_0000408],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood phosphorus content per wood dry mass trait [TOP743] (https://top-thesaurus.org/index); close match: Stem phosphorus (P) content per stem dry mass [TRY:616] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in wood [PO:0005848] to wood dry mass.,NA,trait_0000444,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000518,wood_dead_Ca_per_dry_mass,Dead wood calcium (Ca) content per unit dead wood dry mass,The ratio of the mass of calcium in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; senescent [PATO_0001487]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Coarse woody debris calcium content per coarse woody debris dry mass trait [TOP750] (https://top-thesaurus.org/index); close match: Litter (other than leaf: twigs, bark, flowers...) calcium (Ca) content per litter dry mass [TRY:2892] (https://www.try-db.org/de/de.php)",The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_Ca_per_dry_mass,trait_0000518,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000530,wood_dead_K_per_dry_mass,Dead wood potassium (K) content per unit dead wood dry mass,The ratio of the mass of potassium in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; senescent [PATO_0001487]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Coarse woody debris potassium content per coarse woody debris dry mass trait [TOP763] (https://top-thesaurus.org/index); close match: Litter (other than leaf: twigs, bark, flowers...) potassium (K) content per litter dry mass [TRY:2891] (https://www.try-db.org/de/de.php)",The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_K_per_dry_mass,trait_0000530,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000532,wood_dead_Mg_per_dry_mass,Dead wood magnesium (Mg) content per unit dead wood dry mass,The ratio of the mass of magnesium in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; senescent [PATO_0001487]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Coarse woody debris magnesium content per coarse woody debris dry mass trait [TOP756] (https://top-thesaurus.org/index); close match: Litter (other than leaf: twigs, bark, flowers...) magnesium (Mg) content per litter dry mass [TRY:2893] (https://www.try-db.org/de/de.php)",The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_Mg_per_dry_mass,trait_0000532,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000538,wood_dead_N_per_dry_mass,Dead wood nitrogen (N) content per unit dead wood dry mass,The ratio of the mass of nitrogen in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; senescent [PATO_0001487]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Coarse woody debris nitrogen content per coarse woody debris dry mass trait [TOP761] (https://top-thesaurus.org/index); close match: Litter twig nitrogen (N) content per twig dry mass [TRY:1199] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_N_per_dry_mass,trait_0000538,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000540,wood_dead_Na_per_dry_mass,Dead wood sodium (Na) content per unit dead wood dry mass,The ratio of the mass of sodium in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.001,1,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sodium atom [CHEBI_26708]; senescent [PATO_0001487]; wood [NCIT_C93062]; micronutrient [CHEBI_27027]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Coarse woody debris sodium content per coarse woody debris dry mass trait [TOP759] (https://top-thesaurus.org/index); close match: Litter (other than leaf: twigs, bark, flowers...) sodium (Na) content per litter dry mass [TRY:2898] (https://www.try-db.org/de/de.php)",The ratio [PATO:0001470] of the mass [PATO:0000125] of sodium [CHEBI:26708] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_Na_per_dry_mass,trait_0000540,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000544,wood_dead_P_per_dry_mass,Dead wood phosphorus (P) content per unit dead wood dry mass,The ratio of the mass of phosphorus in senescent wood (litter) to the dry mass of the senesced wood.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,senesced wood mineral and ion content trait [trait_group_0000508],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; senescent [PATO_0001487]; wood [NCIT_C93062]; macronutrient [CHEBI_33937]; plant litter [ENVO_01000628],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Coarse woody debris phosphorus content per coarse woody debris dry mass trait [TOP762] (https://top-thesaurus.org/index); close match: Litter other than leaf phosphorus (P) content per litter dry mass [TRY:2890] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in senescent [PATO:0001487] wood [PO:0005848] (litter [ENVO:01000628]) to the dry mass of the senesced wood.,dead_wood_P_per_dry_mass,trait_0000544,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000612,bark_Al_per_dry_mass,Bark aluminium (Al) content per unit bark dry mass,The ratio of the mass of aluminium in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],aluminium atom [CHEBI_28984],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark aluminium content per bark dry mass [TOP373] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of aluminium [CHEBI:28984] in bark [PO:0004518] to bark dry mass.,NA,trait_0000612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000614,bark_B_per_dry_mass,Bark boron (B) content per unit bark dry mass,The ratio of the mass of boron in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.001,1,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],boron atom [CHEBI_27560]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark boron content per bark dry mass [TOP374] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of boron [CHEBI:27560] in bark [PO:0004518] to bark dry mass.,NA,trait_0000614,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000616,bark_C_per_dry_mass,Bark carbon (C) content per unit bark dry mass,The ratio of the mass of carbon in bark to bark dry mass.,NA,continuous variable [STATO_0000251],50,750,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark carbon content per bark dry mass [TOP376] (https://top-thesaurus.org/index); exact match: Bark carbon (C) content per bark dry mass [TRY:617] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in bark [PO:0004518] to bark dry mass.,NA,trait_0000616,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000618,bark_Ca_per_dry_mass,Bark calcium (Ca) content per unit bark dry mass,The ratio of the mass of calcium in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark calcium content per bark dry mass [TOP375] (https://top-thesaurus.org/index); exact match: Bark calcium (Ca) content per bark dry mass [TRY:2957] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in bark [PO:0004518] to bark dry mass.,NA,trait_0000618,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000626,bark_Cu_per_dry_mass,Bark copper (Cu) content per unit bark dry mass,The ratio of the mass of copper in bark to bark dry mass.,NA,continuous variable [STATO_0000251],1e-4,1,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],copper atom [CHEBI_28694]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark copper content per bark dry mass [TOP379] (https://top-thesaurus.org/index); exact match: Bark copper (Cu) content per bark dry mass [TRY:2958] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of copper [CHEBI:28694] in bark [PO:0004518] to bark dry mass.,NA,trait_0000626,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000628,bark_Fe_per_dry_mass,Bark iron (Fe) content per unit bark dry mass,The ratio of the mass of iron in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],iron atom [CHEBI_18248]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark iron content per bark dry mass [TOP380] (https://top-thesaurus.org/index); exact match: Bark iron (Fe) content per bark dry mass [TRY:2959] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of iron [CHEBI:18248] in bark [PO:0004518] to bark dry mass.,NA,trait_0000628,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000630,bark_K_per_dry_mass,Bark potassium (K) content per unit bark dry mass,The ratio of the mass of potassium in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,100,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark potassium content per bark dry mass [TOP388] (https://top-thesaurus.org/index); exact match: Bark potassium (K) content per bark dry mass [TRY:2960] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in bark [PO:0004518] to bark dry mass.,NA,trait_0000630,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000632,bark_Mg_per_dry_mass,Bark magnesium (Mg) content per unit bark dry mass,The ratio of the mass of magnesium in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark magnesium content per bark dry mass [TOP381] (https://top-thesaurus.org/index); exact match: Bark magnesium (Mg) content per bark dry mass [TRY:2961] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in bark [PO:0004518] to bark dry mass.,NA,trait_0000632,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000634,bark_Mn_per_dry_mass,Bark manganese (Mn) content per unit bark dry mass,The ratio of the mass of manganese in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.001,1,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],manganese atom [CHEBI_18291]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark manganese content per bark dry mass [TOP382] (https://top-thesaurus.org/index); exact match: Bark manganese (Mn) content per bark dry mass [TRY:2962] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of manganese [CHEBI:18291] in bark [PO:0004518] to bark dry mass.,NA,trait_0000634,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000638,bark_N_per_dry_mass,Bark nitrogen (N) content per unit bark dry mass,The ratio of the mass of nitrogen in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark nitrogen content per bark dry mass [TOP386] (https://top-thesaurus.org/index); exact match: Bark nitrogen (N) content per bark dry mass [TRY:618] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in bark [PO:0004518] to bark dry mass.,NA,trait_0000638,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000640,bark_Na_per_dry_mass,Bark sodium (Na) content per unit bark dry mass,The ratio of the mass of sodium in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,100,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sodium atom [CHEBI_26708]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark sodium content per bark dry mass [TOP384] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of sodium [CHEBI:26708] in bark [PO:0004518] to bark dry mass.,NA,trait_0000640,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000644,bark_P_per_dry_mass,Bark phosphorus (P) content per unit bark dry mass,The ratio of the mass of phosphorus in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark phosphorus content per bark dry mass [TOP387] (https://top-thesaurus.org/index); exact match: Bark phosphorus (P) content per bark dry mass [TRY:619] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in bark [PO:0004518] to bark dry mass.,NA,trait_0000644,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000646,bark_S_per_dry_mass,Bark sulphur (S) content per unit bark dry mass,The ratio of the mass of sulphur in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sulfur atom [CHEBI_26833]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark sulfur content per bark dry mass [TOP390] (https://top-thesaurus.org/index); exact match: Bark sulfur (S) content per bark dry mass [TRY:2963] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of sulphur [CHEBI:26833] in bark [PO:0004518] to bark dry mass.,NA,trait_0000646,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000652,bark_Zn_per_dry_mass,Bark zinc (Zn) content per unit bark dry mass,The ratio of the mass of zinc in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.001,10,mg/g,NA,stem mineral and ion content trait [trait_group_0000206],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],zinc atom [CHEBI_27363]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark zinc content per bark dry mass [TOP391] (https://top-thesaurus.org/index); exact match: Bark zinc (Zn) content per bark dry mass [TRY:2964] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of zinc [CHEBI:27363] in bark [PO:0004518] to bark dry mass.,NA,trait_0000652,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000816,root_C_per_dry_mass,Root carbon (C) content per unit root dry mass,The ratio of the mass of carbon in roots to root dry mass.,NA,continuous variable [STATO_0000251],50,750,mg/g,NA,root mineral and ion content trait [trait_group_0000808],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon atom [CHEBI_27594],NA,NA,14/07/2021,05/02/2024,root carbon content [http://purl.obolibrary.org/obo/TO_0003090],NA,NA,exact match: Root carbon content per root dry mass trait [TOP713] (https://top-thesaurus.org/index); exact match: Root carbon (C) content per root dry mass [TRY:84] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carbon [CHEBI:27594] in roots [PO:0009005] to root dry mass.,NA,trait_0000816,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000838,root_N_per_dry_mass,Root nitrogen (N) content per unit root dry mass,The ratio of the mass of nitrogen in roots to root dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,root mineral and ion content trait [trait_group_0000808],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,root nitrogen content [http://purl.obolibrary.org/obo/TO_0003074],NA,NA,exact match: Root nitrogen content per root dry mass trait [TOP723] (https://top-thesaurus.org/index); exact match: Root nitrogen (N) content per root dry mass [TRY:80] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in roots [PO:0009005] to root dry mass.,NA,trait_0000838,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0000844,root_P_per_dry_mass,Root phosphorus (P) content per unit root dry mass,The ratio of the mass of phosphorus in roots to root dry mass.,NA,continuous variable [STATO_0000251],0.01,100,mg/g,NA,root mineral and ion content trait [trait_group_0000808],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,root system phosphorus content [http://purl.obolibrary.org/obo/TO_1000043],NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in roots [PO:0009005] to root dry mass.,NA,trait_0000844,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001038,flower_N_per_dry_mass,Flower nitrogen (N) content per unit flower dry mass,The ratio of the mass of nitrogen in flowers to flower dry mass.,NA,continuous variable [STATO_0000251],0.5,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; flower [PO_0009046],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],reproduction [GO_0000003]; nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in flowers [PO:0009046] to flower dry mass.,NA,trait_0001038,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001118,fruit_Ca_per_dry_mass,Fruit calcium (Ca) content per unit fruit dry mass,The ratio of the mass of calcium in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.5,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001118,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001130,fruit_K_per_dry_mass,Fruit potassium (K) content per unit fruit dry mass,The ratio of the mass of potassium in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.5,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001130,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001132,fruit_Mg_per_dry_mass,Fruit magnesium (Mg) content per unit fruit dry mass,The ratio of the mass of magnesium in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.05,10,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001132,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001138,fruit_N_per_dry_mass,Fruit nitrogen (N) content per unit fruit dry mass,The ratio of the mass of nitrogen in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.5,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001138,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001144,fruit_P_per_dry_mass,Fruit phosphorus (P) content per unit fruit dry mass,The ratio of the mass of phosphorus in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.01,10,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001144,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001146,fruit_S_per_dry_mass,Fruit sulphur (S) content per unit fruit dry mass,The ratio of the mass of sulphur in fruit to fruit dry mass.,NA,continuous variable [STATO_0000251],0.05,10,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sulfur atom [CHEBI_26833]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of sulphur [CHEBI:26833] in fruit [PO:0009001] to fruit dry mass.,NA,trait_0001146,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001218,seed_Ca_per_seed_dry_mass,Seed calcium (Ca) content per unit seed dry mass,The ratio of the mass of calcium in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],1,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],calcium atom [CHEBI_22984]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed calcium content per seed dry mass [TOP566] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in seeds [PO:0009010] to seed dry mass.,seed_Ca_concentration,trait_0001218,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001230,seed_K_per_seed_dry_mass,Seed potassium (K) content per unit seed dry mass,The ratio of the mass of potassium in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],1,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],potassium atom [CHEBI_26216]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed potassium content per seed dry mass [TOP579] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of potassium [CHEBI:26216] in seeds [PO:0009010] to seed dry mass.,seed_K_concentration,trait_0001230,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001232,seed_Mg_per_seed_dry_mass,Seed magnesium (Mg) content per unit seed dry mass,The ratio of the mass of magnesium in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],magnesium atom [CHEBI_25107]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed magnesium content per seed dry mass [TOP572] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of magnesium [CHEBI:25107] in seeds [PO:0009010] to seed dry mass.,seed_Mg_concentration,trait_0001232,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001238,seed_N_per_seed_dry_mass,Seed nitrogen (N) content per unit seed dry mass,The ratio of the mass of nitrogen in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],10,1000,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,concentration of nitrogen in seeds [http://vocabs.lter-europe.net/EnvThes/22087],NA,NA,exact match: Seed nitrogen content per seed dry mass [TOP577] (https://top-thesaurus.org/index); exact match: Seed nitrogen (N) content per dry mass (or diaspore) [TRY:2945] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in seeds [PO:0009010] to seed dry mass.,seed_N_concentration,trait_0001238,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001244,seed_P_per_seed_dry_mass,Seed phosphorus (P) content per unit seed dry mass,The ratio of the mass of phosphorus in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],1,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phosphorus atom [CHEBI_28659]; macronutrient [CHEBI_33937]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,seed phosphorus content [http://purl.obolibrary.org/obo/TO_0002666],NA,NA,exact match: Seed phosphorus content per seed dry mass [TOP578] (https://top-thesaurus.org/index); exact match: Seed phosphorus (P) content per dry mass (or diaspore) [TRY:3000] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in seeds [PO:0009010] to seed dry mass.,seed_P_concentration,trait_0001244,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001246,seed_S_per_seed_dry_mass,Seed sulphur (S) content per unit seed dry mass,The ratio of the mass of sulphur in seeds to seed dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,reproductive shoot system mineral and ion content trait [trait_group_0001006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],sulfur atom [CHEBI_26833]; micronutrient [CHEBI_27027]; reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed sulfur content per seed dry mass [TOP581] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of sulphur [CHEBI:26833] in seeds [PO:0009010] to seed dry mass.,seed_S_concentration,trait_0001246,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001511,leaf_cell_wall_N_per_cell_wall_dry_mass,Leaf cell wall nitrogen (N) per unit cell wall dry mass,The ratio of the mass of nitrogen in the plant cell wall in a leaf to the cell wall dry mass in the leaf.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.1,10,mmol{N}/g,NA,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; cell [CL_0000000]; plant-type cell wall [GO_0009505],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf cell wall nitrogen (N) content per cell wall dry mass [TRY:3376] (https://www.try-db.org/de/de.php); close match: Leaf cell wall nitrogen (N) content per leaf area [TRY:96] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in the plant cell wall [GO:0009505] in a leaf [PO:0025034] to the cell wall dry mass in the leaf.,leaf_cell_wall_N,trait_0001511,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001512,leaf_cell_wall_N_per_leaf_N,Leaf cell wall nitrogen (N) per unit leaf N content,The ratio of the mass of nitrogen in the plant cell wall in a leaf to the mass of nitrogen in the leaf.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],0.01,1,mg/mg,NA,live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; cell [CL_0000000]; plant-type cell wall [GO_0009505],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in the plant cell wall [GO:0009505] in a leaf [PO:0025034] to the mass of nitrogen in the leaf.,leaf_cell_wall_N_fraction,trait_0001512,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001513,leaf_rubisco_N_per_total_leaf_N,Leaf rubisco nitrogen (N) content per unit leaf N content,The ratio of the mass of nitrogen in rubisco in a leaf to the mass of nitrogen in a leaf.,"This trait is most commonly measured on leaf tissue. If the Rubisco concentration of a different tissue is measured, this should be explicitly noted in the methods or as a method context.",continuous variable [STATO_0000251],0.05,0.5,g/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; cell [CL_0000000]; protein [CHEBI_36080]; Ribulose-Bisphosphate Carboxylase [D012273]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,NA,NA,rubisco to nitrogen content ratio [http://purl.obolibrary.org/obo/TO_0000321],exact match: Leaf nitrogen (N) fraction in Rubisco [TRY:187] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in rubisco [MESH:D012273] in a leaf [PO:0025034] to the mass of nitrogen in a leaf.,cell_rubisco_N_per_total_N,trait_0001513,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001514,leaf_thylakoid_N_per_total_leaf_N,Leaf thylakoid protein nitrogen (N) content per unit leaf N content,The ratio of the mass of nitrogen in thylakoid proteins in a leaf to the mass of nitrogen in a leaf.,"This trait is most commonly measured on leaf tissue. If the Rubisco concentration of a different tissue is measured, this should be explicitly noted in the methods or as a method context.",continuous variable [STATO_0000251],0.05,0.3,g/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],nitrogen atom [CHEBI_25555]; macronutrient [CHEBI_33937]; cell [CL_0000000]; protein [CHEBI_36080]; thylakoid [GO_0009579]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of nitrogen [CHEBI:25555] in thylakoid [GO:0009579] proteins [CHEBI:36080] in a leaf [PO:0025034] to the mass of nitrogen in a leaf.,cell_thylakoid_N_per_total_N,trait_0001514,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001611,leaf_epidermis_Ca_per_fresh_mass,Leaf epidermis calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in epidermal cells to epidermal cell fresh mass.,NA,continuous variable [STATO_0000251],1,500,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; epidermal cell [PO_0004013]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in epidermal cells [PO:0004013] to epidermal cell fresh mass [APD:glossary/40044].,cell_epidermis_Ca_per_fresh_mass,trait_0001611,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001612,leaf_hypodermis_Ca_per_fresh_mass,Leaf hypodermis calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in the hypodermis to hypodermis fresh mass.,NA,continuous variable [STATO_0000251],1,500,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; hypodermis [PO_0005051]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in the hypodermis [PO:0005051] to hypodermis fresh mass [APD:glossary/40044].,cell_hypodermis_Ca_per_fresh_mass,trait_0001612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001613,leaf_internal_parenchyma_Ca_per_fresh_mass,Leaf internal parenchyma cell calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in parenchyma cells to parenchyma cell fresh mass.,NA,continuous variable [STATO_0000251],1,500,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; parenchyma cell [PO_0000074]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in parenchyma cells [PO:0000074] to parenchyma cell fresh mass [APD:glossary/40044].,cell_internal_parenchyma_Ca_per_fresh_mass,trait_0001613,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001614,leaf_palisade_mesophyll_Ca_per_fresh_mass,Leaf palisade mesophyll cell calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in palisade mesophyll cells to palisade mesophyll cell fresh mass.,NA,continuous variable [STATO_0000251],1,100,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; palisade mesophyll cell [PO_0006206]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in palisade mesophyll cells [PO:0006206] to palisade mesophyll cell fresh mass [APD:glossary/40044].,cell_palisade_mesophyll_Ca_per_fresh_mass,trait_0001614,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001615,leaf_sclerenchyma_Ca_per_fresh_mass,Leaf sclerenchyma cell calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in sclerenchyma cells to sclerenchyma cell fresh mass.,NA,continuous variable [STATO_0000251],1,100,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; sclerenchyma cell [PO_0000077]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in sclerenchyma cells [PO:0000077] to sclerenchyma cell fresh mass [APD:glossary/40044].,cell_sclerenchyma_Ca_per_fresh_mass,trait_0001615,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001616,leaf_spongy_mesophyll_Ca_per_fresh_mass,Leaf spongy mesophyll cell calcium (Ca) content per unit leaf fresh mass,The ratio of the mass of calcium in spongy mesophyll cells to spongy mesophyll cell fresh mass.,NA,continuous variable [STATO_0000251],1,1000,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],calcium atom [CHEBI_22984]; spongy mesophyll cell [PO_0006205]; cell [CL_0000000]; micronutrient [CHEBI_27027],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of calcium [CHEBI:22984] in spongy mesophyll cells [PO:0006205] to spongy mesophyll cell fresh mass [APD:glossary/40044].,cell_spongy_mesophyll_Ca_per_fresh_mass,trait_0001616,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001661,leaf_epidermis_P_per_fresh_mass,Leaf epidermis phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in epidermal cells to epidermal cell fresh mass.,NA,continuous variable [STATO_0000251],0,10,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; epidermal cell [PO_0004013]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in epidermal cells [PO:0004013] to epidermal cell fresh mass [APD:glossary/40044].,cell_epidermis_P_per_fresh_mass,trait_0001661,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001662,leaf_hypodermis_P_per_fresh_mass,Leaf hypodermis phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in the hypodermis to hypodermis fresh mass.,NA,continuous variable [STATO_0000251],0,10,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; hypodermis [PO_0005051]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in the hypodermis [PO:0005051] to hypodermis fresh mass [APD:glossary/40044].,cell_hypodermis_P_per_fresh_mass,trait_0001662,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001663,leaf_internal_parenchyma_P_per_fresh_mass,Leaf internal parenchyma cell phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in parenchyma cells to parenchyma cell fresh mass.,NA,continuous variable [STATO_0000251],0,10,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; parenchyma cell [PO_0000074]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in parenchyma cells [PO:0000074] to parenchyma cell fresh mass [APD:glossary/40044].,cell_internal_parenchyma_P_per_fresh_mass,trait_0001663,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001664,leaf_palisade_mesophyll_P_per_fresh_mass,Leaf palisade mesophyll cell phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in palisade mesophyll cells to palisade mesophyll cell fresh mass.,NA,continuous variable [STATO_0000251],0,30,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; palisade mesophyll cell [PO_0006206]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in palisade mesophyll cells [PO:0006206] to palisade mesophyll cell fresh mass [APD:glossary/40044].,cell_palisade_mesophyll_P_per_fresh_mass,trait_0001664,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001665,leaf_sclerenchyma_P_per_fresh_mass,Leaf sclerenchyma cell phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in sclerenchyma cells to sclerenchyma cell fresh mass.,NA,continuous variable [STATO_0000251],0,10,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; sclerenchyma cell [PO_0000077]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in sclerenchyma cells [PO:0000077] to sclerenchyma cell fresh mass [APD:glossary/40044].,cell_sclerenchyma_P_per_fresh_mass,trait_0001665,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0001666,leaf_spongy_mesophyll_P_per_fresh_mass,Leaf spongy mesophyll cell phosphorus (P) content per unit leaf fresh mass,The ratio of the mass of phosphorus in spongy mesophyll cells to spongy mesophyll cell fresh mass.,NA,continuous variable [STATO_0000251],0,30,umol/g,NA,cell or tissue mineral and ion content trait [trait_group_0001502],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; NA [APD:glossary/40044],phosphorus atom [CHEBI_28659]; spongy mesophyll cell [PO_0006205]; cell [CL_0000000]; macronutrient [CHEBI_33937],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of phosphorus [CHEBI:28659] in spongy mesophyll cells [PO:0006205] to spongy mesophyll cell fresh mass [APD:glossary/40044].,cell_spongy_mesophyll_P_per_fresh_mass,trait_0001666,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002021,leaf_total_non-structural_carbohydrates_per_area,Leaf total non-structural carbohydrate content per unit leaf area,"The ratio of the mass of non-structural carbohydrates (sugars) in a leaf to leaf area, where non-structural carbohydrates are carbohydrates that do not comprise the cell wall.",NA,continuous variable [STATO_0000251],0.1,50,g/m2,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; starch [CHEBI_28017]; NA [glossary_40106]; NA [glossary_40062],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"The ratio [PATO:0001470] of the mass [PATO:0000125] of non-structural carbohydrates [CHEBI:16646] (sugars [APD:glossary/40106]) in a leaf [PO:0025034] to leaf area [PATO:0001323], where non-structural carbohydrates are carbohydrates that do not comprise the cell wall [GO:0009505].",NA,trait_0002021,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002022,leaf_total_non-structural_carbohydrates_per_mass,Leaf total non-structural carbohydrate content per unit leaf dry mass,"The ratio of the mass of non-structural carbohydrates (sugars) in a leaf to leaf dry mass, where non-structural carbohydrates are carbohydrates that do not comprise the cell wall.",NA,continuous variable [STATO_0000251],10,200,mg/g,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; starch [CHEBI_28017]; NA [glossary_40106]; NA [glossary_40062],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"The ratio [PATO:0001470] of the mass [PATO:0000125] of non-structural carbohydrates [CHEBI:16646] (sugars [APD:glossary/40106]) in a leaf [PO:0025034] to leaf dry mass [TO:0001014], where non-structural carbohydrates are carbohydrates that do not comprise the cell wall [GO:0009505].",NA,trait_0002022,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002024,leaf_cellulose_per_dry_mass,Leaf cellulose content per unit leaf dry mass,The ratio of the mass of cellulose in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],0.01,1,mg/mg,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],amorphous cellulose [CHEBI_62967]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,cellulose content [http://purl.obolibrary.org/obo/TO_0000993],exact match: Leaf cellulose content per leaf dry mass [TOP819] (https://top-thesaurus.org/index); exact match: Leaf cellulose content per leaf dry mass [TRY:92] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of cellulose [CHEBI:62967] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0002024,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002025,leaf_starch_per_area,Leaf starch content per unit leaf area,The ratio of the mass of total starch in a leaf to leaf area.,NA,continuous variable [STATO_0000251],0.1,50,g/m2,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],starch [CHEBI_28017]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,starch content [http://purl.obolibrary.org/obo/TO_0000696],exact match: Leaf starch content per leaf dry mass [TRY:505] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of total starch [CHEBI:28017] in a leaf [PO:0025034] to leaf area [PATO:0001323].,starch_per_area,trait_0002025,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002027,leaf_soluble_starch_per_area,Leaf soluble starch content per unit leaf area,The ratio of the mass of water soluble starch in a leaf to leaf area.,NA,continuous variable [STATO_0000251],0.1,100,g/m2,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],starch [CHEBI_28017]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf starch content per leaf dry mass [TRY:505] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] soluble [PATO:0001537] starch [CHEBI:28017] in a leaf [PO:0025034] to leaf area [PATO:0001323].,soluble_starch_per_area,trait_0002027,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002028,leaf_soluble_starch_per_mass,Leaf soluble starch content per unit leaf dry mass,The ratio of the mass of water soluble starch in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],0.1,200,mg/g,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],starch [CHEBI_28017]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf starch content per leaf dry mass [TRY:505] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] soluble [PATO:0001537] starch [CHEBI:28017] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0002028,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002031,leaf_soluble_sugars_per_area,Leaf soluble sugar content per unit leaf area,"The ratio of the mass of sugar in a leaf to leaf area, where 'sugar' refers to an informal grouping of carbohydrates that are soluble in water, including both monosaccharides and disaccharides.",NA,continuous variable [STATO_0000251],0.1,100,g/m2,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; monosaccharide [CHEBI_35381]; disaccharide [CHEBI_36233]; NA [glossary_40106],NA,NA,14/07/2021,05/02/2024,NA,NA,total soluble sugar content [http://purl.obolibrary.org/obo/TO_0000340],exact match: Leaf sugar content per leaf area [TOP920] (https://top-thesaurus.org/index); exact match: Leaf sugar content per leaf dry mass [TRY:506] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of sugar [APD:glossary/40106] in a leaf [PO:0025034] to leaf area [PATO:0001323], where 'sugar' refers to an informal grouping of carbohydrates [CHEBI:16646] that are soluble in [PATO:0001537] water [CHEBI:15377], including both monosaccharides [CHEBI:35381] and disaccharides [CHEBI:36233].",soluble_sugars_per_area,trait_0002031,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002032,leaf_soluble_sugars_per_mass,Leaf soluble sugar content per unit leaf dry mass,"The ratio of the mass of sugar in a leaf to leaf dry mass, where 'sugar' refers to an informal grouping of carbohydrates that are soluble in water, including both monosaccharides and disaccharides.",NA,continuous variable [STATO_0000251],1,200,mg/g,NA,carbohydrate content trait [trait_group_0002005],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; monosaccharide [CHEBI_35381]; disaccharide [CHEBI_36233]; NA [glossary_40106],NA,NA,14/07/2021,05/02/2024,NA,NA,total soluble sugar content [http://purl.obolibrary.org/obo/TO_0000340],exact match: Leaf sugar content per leaf dry mass [TOP919] (https://top-thesaurus.org/index); exact match: Leaf sugar content per leaf dry mass [TRY:506] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of sugar [APD:glossary/40106] in a leaf [PO:0025034] to leaf dry mass [TO:0001014], where 'sugar' refers to an informal grouping of carbohydrates [CHEBI:16646] that are soluble in [PATO:0001537] water [CHEBI:15377], including both monosaccharides [CHEBI:35381] and disaccharides [CHEBI:36233].",NA,trait_0002032,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002035,leaf_soluble_protein_per_area,Leaf soluble protein content per unit leaf area,The ratio of the mass of water soluble protein in a leaf to leaf area.,NA,continuous variable [STATO_0000251],0.1,20,g/m2,NA,protein content trait [trait_group_0002009],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],protein [CHEBI_36080],NA,NA,14/07/2021,05/02/2024,Leaf soluble protein content [https://cropontology.org/rdf/CO_357:0000281],NA,soluble protein content [http://purl.obolibrary.org/obo/TO_0000325],close match: Leaf protein content per leaf dry mass [TRY:503] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] soluble [PATO:0001537] protein [CHEBI:36080] in a leaf [PO:0025034] to leaf area [PATO:0001323].,soluble_protein_per_area,trait_0002035,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002037,leaf_insoluble_protein_per_area,Leaf insoluble protein content per unit leaf area,The ratio of the mass of water insoluble protein in a leaf to leaf area.,NA,continuous variable [STATO_0000251],0.1,20,g/m2,NA,protein content trait [trait_group_0002009],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],protein [CHEBI_36080],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Leaf protein content per leaf dry mass [TRY:503] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] insoluble [PATO:0001538] protein [CHEBI:36080] in a leaf [PO:0025034] to leaf area [PATO:0001323].,insoluble_protein_per_area,trait_0002037,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002050,leaf_lignin_per_dry_mass,Leaf lignin content per unit leaf dry mass,The ratio of the mass of lignin in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],10,1000,mg/g,NA,phenolic compound content trait [trait_group_0002007],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],lignin [CHEBI_6457],NA,Félix de Tombeur [https://orcid.org/0000-0002-6012-8458],14/07/2021,05/02/2024,NA,NA,lignin content [http://purl.obolibrary.org/obo/TO_0000731],exact match: Leaf lignin content per leaf dry mass [TOP844] (https://top-thesaurus.org/index); exact match: Leaf lignin content per leaf dry mass [TRY:87] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of lignin [CHEBI:6457] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0002050,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002052,leaf_phenol_per_dry_mass,Total leaf phenolic content per unit leaf dry mass,"The ratio of the mass of phenol in a leaf to leaf dry mass, where phenol content is measured as gallic acid equivalents.",NA,continuous variable [STATO_0000251],1,1000,mg/g,NA,phenolic compound content trait [trait_group_0002007],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phenol [CHEBI_33853]; gallic acid [CHEBI_30778],Salminen & Karonen 2011 [https://doi.org/10.1111/j.1365-2435.2010.01826.x],Félix de Tombeur [https://orcid.org/0000-0002-6012-8458],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf phenols content per leaf dry mass [TRY:147] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of phenol [CHEBI:33853] in a leaf [PO:0025034] to leaf dry mass [TO:0001014], where phenol content is measured as gallic acid [CHEBI:30778] equivalents.",leaf_phenol_content_per_dry_mass,trait_0002052,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002054,leaf_tannin_per_dry_mass,Leaf tannin content per unit leaf dry mass,The ratio of the mass of tannins (a class of polyphenols) in a leaf to leaf dry mass.,Tannins are a specific class of polyphenolic compounds found in plants.,continuous variable [STATO_0000251],1,1000,mg/g,NA,phenolic compound content trait [trait_group_0002007],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],phenol [CHEBI_33853]; tannin [CHEBI_26848]; polyphenol [CHEBI_26195],Salminen & Karonen 2011 [https://doi.org/10.1111/j.1365-2435.2010.01826.x],Félix de Tombeur [https://orcid.org/0000-0002-6012-8458],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf tannin content per leaf dry mass [TRY:148] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of tannins [CHEBI:26848] (a class of polyphenols [CHEBI:26195]) in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0002054,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002055,leaf_carotenoid_per_area,Leaf carotenoid content per unit leaf area,The ratio of the mass of carotenoids in a leaf to leaf area.,NA,continuous variable [STATO_0000251],10,1000,umol/m2,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],carotenoid [CHEBI_23044],NA,NA,14/07/2021,05/02/2024,NA,NA,carotenoid content [http://purl.obolibrary.org/obo/TO_0000496],exact match: Leaf carotenoid content per leaf area [TRY:491] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carotenoids [CHEBI:23044] in a leaf [PO:0025034] to leaf area [PATO:0001323].,carotenoid_per_area,trait_0002055,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002056,leaf_carotenoid_per_dry_mass,Leaf carotenoid content per unit leaf dry mass,The ratio of the mass of carotenoids in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],0.1,10,mmol/kg,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carotenoid [CHEBI_23044],NA,NA,14/07/2021,05/02/2024,NA,NA,carotenoid content [http://purl.obolibrary.org/obo/TO_0000496],exact match: Leaf carotenoid content per leaf dry mass [TRY:809] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of carotenoids [CHEBI:23044] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,carotenoid_per_dry_mass,trait_0002056,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002081,leaf_chlorophyll_per_area,Leaf total chlorophyll content (chlorophyll A + B) per unit leaf area,"The ratio of the mass of chlorophyll in a leaf to leaf area, where chlorophyll content is the sum of chlorophyll a and chlorophyll b content.",NA,continuous variable [STATO_0000251],10,2000,umol/m2,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],chlorophyll [CHEBI_28966]; chlorophyll a [CHEBI_18230]; chlorophyll b [CHEBI_27888]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,Leaf chlorophyll content [https://cropontology.org/rdf/CO_357:0000249],leaf chlorophyll content [http://purl.obolibrary.org/obo/TO_0012002],chlorophyll content [http://vocabs.lter-europe.net/EnvThes/30127],exact match: Leaf chlorophyll content per leaf area [TRY:413] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll [CHEBI:28966] in a leaf [PO:0025034] to leaf area [PATO:0001323], where chlorophyll content is the sum of chlorophyll a [CHEBI:18230] and chlorophyll b [CHEBI:27888] content.",chlorophyll_per_area,trait_0002081,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002082,leaf_chlorophyll_per_dry_mass,Leaf total chlorophyll content (chlorophyll A + B) per unit leaf dry mass,"The ratio of the mass of chlorophyll in a leaf to leaf dry mass, where chlorophyll content is the sum of chlorophyll a and chlorophyll b content.",NA,continuous variable [STATO_0000251],0.1,15,mmol/kg,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],chlorophyll [CHEBI_28966]; chlorophyll a [CHEBI_18230]; chlorophyll b [CHEBI_27888]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,Leaf chlorophyll content [https://cropontology.org/rdf/CO_357:0000250],leaf chlorophyll content [http://purl.obolibrary.org/obo/TO_0012002],chlorophyll content [http://vocabs.lter-europe.net/EnvThes/30127],exact match: Leaf chlorophyll content per leaf dry mass [TRY:164] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll [CHEBI:28966] in a leaf [PO:0025034] to leaf dry mass [TO:0001014], where chlorophyll content is the sum of chlorophyll a [CHEBI:18230] and chlorophyll b [CHEBI:27888] content.",chlorophyll_per_dry_mass,trait_0002082,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002083,leaf_chlorophyll_A_per_area,Leaf chlorophyll A content per unit leaf area,The ratio of the mass of chlorophyll a in a leaf to leaf area.,NA,continuous variable [STATO_0000251],50,2000,umol/m2,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],chlorophyll a [CHEBI_18230]; chlorophyll [CHEBI_28966]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,NA,Chlorophyll a [https://cropontology.org/rdf/CO_357:0000514]; chlorophyll a content [http://purl.obolibrary.org/obo/TO_0000293],NA,exact match: Leaf chlorophyll content per leaf area (Chl a) [TRY:3476] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll a [CHEBI:18230] in a leaf [PO:0025034] to leaf area [PATO:0001323].,chlorophyll_A_per_area,trait_0002083,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002084,leaf_chlorophyll_A_per_dry_mass,Leaf chlorophyll A content per unit leaf dry mass,The ratio of the mass of chlorophyll a in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],0.1,10,mmol/kg,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],chlorophyll a [CHEBI_18230]; chlorophyll [CHEBI_28966]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,Chlorophyll a [https://cropontology.org/rdf/CO_357:0000514],chlorophyll a content [http://purl.obolibrary.org/obo/TO_0000293],NA,exact match: Leaf chlorophyll content per leaf dry mass (Chl a) [TRY:3474] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll a [CHEBI:18230] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,chlorophyll_A_per_dry_mass,trait_0002084,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002085,leaf_chlorophyll_B_per_area,Leaf chlorophyll B content per unit leaf area,The ratio of the mass of chlorophyll b in a leaf to leaf area.,NA,continuous variable [STATO_0000251],10,1000,umol/m2,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],chlorophyll b [CHEBI_27888]; chlorophyll [CHEBI_28966]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,NA,Chlorophyll b [https://cropontology.org/rdf/CO_357:0000515]; chlorophyll b content [http://purl.obolibrary.org/obo/TO_0000295],NA,exact match: Leaf chlorophyll content per leaf area (Chl b) [TRY:3477] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll b [CHEBI:27888] in a leaf [PO:0025034] to leaf area [PATO:0001323].,chlorophyll_B_per_area,trait_0002085,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002086,leaf_chlorophyll_B_per_dry_mass,Leaf chlorophyll B content per unit leaf dry mass,The ratio of the mass of chlorophyll b in a leaf to leaf dry mass.,NA,continuous variable [STATO_0000251],0.01,10,mmol/kg,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],chlorophyll b [CHEBI_27888]; chlorophyll [CHEBI_28966]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,Chlorophyll b [https://cropontology.org/rdf/CO_357:0000515],chlorophyll b content [http://purl.obolibrary.org/obo/TO_0000295],NA,exact match: Leaf chlorophyll content per leaf dry mass (Chl b) [TRY:3475] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll b [CHEBI:27888] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,chlorophyll_B_per_dry_mass,trait_0002086,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002087,leaf_chlorophyll_A_B_ratio,Ratio of leaf chlorophyll A content to leaf chlorophyll B content,The ratio of the mass of chlorophyll a in a leaf to the mass of chlorophyll b in the leaf.,NA,continuous variable [STATO_0000251],0.1,6,umol/umol,NA,pigment content trait [trait_group_0002008],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],chlorophyll a [CHEBI_18230]; chlorophyll b [CHEBI_27888]; chlorophyll [CHEBI_28966]; chloroplast [GO_0009507],NA,NA,14/07/2021,05/02/2024,Chlorophyll a to b ratio [https://cropontology.org/rdf/CO_357:0000516]; chlorophyll ratio [http://purl.obolibrary.org/obo/TO_0000298],NA,NA,exact match: Leaf chlorophyll a/b ratio [TRY:416] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of chlorophyll a [CHEBI:18230] in a leaf [PO:0025034] to the mass of chlorophyll b [CHEBI:27888] in the leaf.,chlorophyll_A_B_ratio,trait_0002087,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002090,leaf_rubisco_per_leaf_dry_mass,Leaf rubisco content per unit leaf dry mass,The ratio of the mass of rubisco in a leaf to leaf dry mass.,"This trait is most commonly measured on leaf tissue. If the Rubisco concentration of a different tissue is measured, this should be explicitly noted in the methods or as a method context.",continuous variable [STATO_0000251],5,50,mg/g,NA,protein content trait [trait_group_0002009],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],Ribulose-Bisphosphate Carboxylase [D012273]; chloroplast [GO_0009507]; protein [CHEBI_36080],NA,NA,14/07/2021,05/02/2024,Leaf rubisco content [https://cropontology.org/rdf/CO_357:0000273],rubisco content [http://purl.obolibrary.org/obo/TO_0000319],NA,close match: Leaf Rubisco content per leaf area [TRY:504] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of rubisco [MESH:D012273] in a leaf [PO:0025034] to leaf dry mass [TO:0001014].,cell_rubisco_concentration,trait_0002090,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002127,stem_soluble_starch_per_mass,Stem soluble starch content per unit stem dry mass,The ratio of the mass of water soluble starch in a stem to stem dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,carbohydrate content trait [trait_group_0002005],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],starch [CHEBI_28017]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] soluble [PATO:0001537] starch [CHEBI:28017] in a stem [PO:0009047] to stem dry mass.,NA,trait_0002127,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002131,stem_soluble_sugars_per_mass,Stem soluble sugar content per unit stem dry mass,"The ratio of the mass of sugar in a stem to stem dry mass, where 'sugar' refers to an informal grouping of carbohydrates that are soluble in water, including both monosaccharides and disaccharides.",NA,continuous variable [STATO_0000251],1,200,mg/g,NA,carbohydrate content trait [trait_group_0002005],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; monosaccharide [CHEBI_35381]; disaccharide [CHEBI_36233]; NA [glossary_40106],NA,NA,14/07/2021,05/02/2024,NA,NA,sugar content [http://purl.obolibrary.org/obo/TO_0000333],exact match: Stem sugar content per stem dry mass [TOP914] (https://top-thesaurus.org/index),"The ratio [PATO:0001470] of the mass [PATO:0000125] of sugar [APD:glossary/40106] in a stem [PO:0009047] to stem dry mass, where 'sugar' refers to an informal grouping of carbohydrates [CHEBI:16646] that are soluble in [PATO:0001537] water [CHEBI:15377], including both monosaccharides [CHEBI:35381] and disaccharides [CHEBI:36233].",NA,trait_0002131,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002224,bark_cellulose_per_dry_mass,Bark cellulose content per unit bark dry mass,The ratio of the mass of cellulose in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.1,1,mg/mg,NA,carbohydrate content trait [trait_group_0002005],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],amorphous cellulose [CHEBI_62967],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark cellulose content per bark dry mass [TOP813] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of cellulose [CHEBI:62967] in bark [PO:0004518] to bark dry mass.,NA,trait_0002224,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002250,bark_lignin_per_dry_mass,Bark lignin content per unit bark dry mass,The ratio of the mass of lignin in bark to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,1,mg/mg,NA,phenolic compound content trait [trait_group_0002007],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],lignin [CHEBI_6457],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark lignin content per bark dry mass [TOP838] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of lignin [CHEBI:6457] in bark [PO:0004518] to bark dry mass.,NA,trait_0002250,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002255,bark_tannin_per_dry_mass,Bark tannin content per unit bark dry mass,The ratio of the mass of tannins (polyphenols) in bark to bark dry mass.,Tannins are a specific class of polyphenolic compounds found in plants.,continuous variable [STATO_0000251],1e-5,1,mg/mg,NA,phenolic compound content trait [trait_group_0002007],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],tannin [CHEBI_26848]; polyphenol [CHEBI_26195],Salminen & Karonen 2011 [https://doi.org/10.1111/j.1365-2435.2010.01826.x],NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of tannins [CHEBI:26848] (polyphenols [CHEBI:26195]) in bark [PO:0004518] to bark dry mass.,NA,trait_0002255,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002327,root_soluble_starch_per_mass,Root soluble starch content per unit root dry mass,The ratio of the mass of water soluble starch in roots to root dry mass.,NA,continuous variable [STATO_0000251],0.1,100,mg/g,NA,carbohydrate content trait [trait_group_0002005],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],starch [CHEBI_28017]; carbohydrate [CHEBI_16646],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root starch content per dry mass [TRY:3147] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] soluble [PATO:0001537] starch [CHEBI:28017] in roots [PO:0009005] to root dry mass.,NA,trait_0002327,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002331,root_soluble_sugars_per_mass,Root soluble sugar content per unit root dry mass,"The ratio of the mass of sugar in roots to root dry mass, where 'sugar' refers to an informal grouping of carbohydrates that are soluble in water, including both monosaccharides and disaccharides.",NA,continuous variable [STATO_0000251],1,200,mg/g,NA,carbohydrate content trait [trait_group_0002005],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbohydrate [CHEBI_16646]; monosaccharide [CHEBI_35381]; disaccharide [CHEBI_36233]; NA [glossary_40106],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root sugar content per root dry mass trait [TOP921] (https://top-thesaurus.org/index); exact match: Root sugar content per root dry mass [TRY:662] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of the mass [PATO:0000125] of sugar [APD:glossary/40106] in roots [PO:0009005] to root dry mass, where 'sugar' refers to an informal grouping of carbohydrates [CHEBI:16646] that are soluble in [PATO:0001537] water [CHEBI:15377], including both monosaccharides [CHEBI:35381] and disaccharides [CHEBI:36233].",NA,trait_0002331,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002534,seed_protein_per_seed_dry_mass,Seed protein content per unit seed dry mass,The ratio of the mass of protein in a seed to seed dry mass.,"It is best practice for the denominator to be seed dry mass. If data are reported on a `per seed fresh mass` basis, this should be explicitly noted in the methods or as a method context.",continuous variable [STATO_0000251],1e-5,1,g/g,NA,protein content trait [trait_group_0002009],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"protein [CHEBI_36080]; seed weight, seed mass [TO_0000181]",NA,NA,14/07/2021,05/02/2024,seed protein content [http://purl.obolibrary.org/obo/TO_0000490],NA,NA,exact match: Seed protein content per seed mass [TRY:97] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of protein [CHEBI:36080] in a seed [PO:0009010] to seed dry mass [TO:0000181].,seed_protein_content,trait_0002534,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002544,seed_oil_per_seed_dry_mass,Seed oil content per unit seed dry mass,The ratio of the mass of lipids in a seed to seed dry mass.,"It is best practice for the denominator to be seed dry mass. If data are reported on a `per seed fresh mass` basis, this should be explicitly noted in the methods or as a method context.",continuous variable [STATO_0000251],1e-4,1,g/g,NA,lipid content trait [trait_group_0002006],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"lipid [CHEBI_18059]; seed weight, seed mass [TO_0000181]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed lipid content per seed dry mass [TOP880] (https://top-thesaurus.org/index); exact match: Seed oil content per seed mass [TRY:96] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of lipids [CHEBI:18059] in a seed [PO:0009010] to seed dry mass [TO:0000181].,seed_oil_content,trait_0002544,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002822,leaf_ash_per_dry_mass,Leaf ash content per unit leaf dry mass,The ratio of the mass of leaf ash remaining after a combustion process to the leaf dry mass before the combustion process.,"Includes measurements on leaf analogs, including cladodes and phylloclades.",continuous variable [STATO_0000251],1e-4,1,g/g,NA,live leaf mineral and ion content trait [trait_group_0000008]; fire response trait [trait_group_0030602],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],ash [ENVO_02000090]; combustion process [ENVO_01000839]; fire [ENVO_01000786],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf ash content per leaf dry mass [TRY:333] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the mass [PATO:0000125] of leaf [PO:0025034] ash [ENVO:02000090] remaining after a combustion process [ENVO:01000839] to the leaf dry mass before the combustion process.,leaf_ash_content_per_dry_mass,trait_0002822,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0002824,bark_ash_per_dry_mass,Bark ash content per unit bark dry mass,The ratio of the mass of bark ash remaining after a combustion process to the bark dry mass before the combustion process.,NA,continuous variable [STATO_0000251],1e-4,1,g/g,NA,stem mineral and ion content trait [trait_group_0000206]; fire response trait [trait_group_0030602],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],ash [ENVO_02000090]; combustion process [ENVO_01000839]; fire [ENVO_01000786],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of bark [PO:0004518] ash [ENVO:02000090] remaining after a combustion process [ENVO:01000839] to the bark dry mass before the combustion process.,bark_ash_content_per_dry_mass,trait_0002824,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003011,bark_delta13C,Bark stable carbon isotope composition (delta13C),"Carbon stable isotope ratio, d13C, of bark.","delta13C is calculated as the ratio of, 13C/12C in a sample to 13C/12C in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A more negative value for delta13C indicates the sample has a lower ratio of 13C/12C relative to the standard.",continuous variable [STATO_0000251],-50,0,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon stable isotope ratio [ECSO_00001142]; d13C [ECSO_00000669]; carbon-13 atom [CHEBI_36928]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark carbon (C) isotope signature (delta 13C) [TRY:829] (https://www.try-db.org/de/de.php); related match: Integrated water-use efficiency [BROT:16] (http://doi.org/10.1038/sdata.2018.135),"Carbon stable isotope ratio [ECSO:00001142], d13C [ECSO:00000669], of bark [PO:0004518].",NA,trait_0003011,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003012,leaf_delta13C,Leaf stable carbon isotope composition (delta13C),"Carbon stable isotope ratio, d13C, of leaves.","delta13C is calculated as the ratio of, 13C/12C in a sample to 13C/12C in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A more negative value for delta13C indicates the sample has a lower ratio of 13C/12C relative to the standard.",continuous variable [STATO_0000251],-50,0,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon stable isotope ratio [ECSO_00001142]; d13C [ECSO_00000669]; carbon-13 atom [CHEBI_36928]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,Delta C13 [https://cropontology.org/rdf/CO_357:0000085],NA,NA,exact match: Leaf carbon (C) isotope signature (delta 13C) [TRY:89] (https://www.try-db.org/de/de.php); related match: Integrated water-use efficiency [BROT:16] (http://doi.org/10.1038/sdata.2018.135),"Carbon stable isotope ratio [ECSO:00001142], d13C [ECSO:00000669], of leaves [PO:0025034].",NA,trait_0003012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003013,stem_delta13C,Stem stable carbon isotope composition (delta13C),"Carbon stable isotope ratio, d13C, of stems.","delta13C is calculated as the ratio of, 13C/12C in a sample to 13C/12C in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A more negative value for delta13C indicates the sample has a lower ratio of 13C/12C relative to the standard.",continuous variable [STATO_0000251],-50,0,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon stable isotope ratio [ECSO_00001142]; d13C [ECSO_00000669]; carbon-13 atom [CHEBI_36928]; isotope [NCIT_C47933],NA,NA,29/03/2023,05/02/2024,NA,NA,NA,exact match: Root carbon (C) isotope signature (delta 13C) [TRY:90] (https://www.try-db.org/de/de.php); related match: Integrated water-use efficiency [BROT:16] (http://doi.org/10.1038/sdata.2018.135),"Carbon stable isotope ratio [ECSO:00001142], d13C [ECSO:00000669], of stems [PO:0009047].",NA,trait_0003013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003014,root_delta13C,Root stable carbon isotope composition (delta13C),"Carbon stable isotope ratio, d13C, of roots.","delta13C is calculated as the ratio of, 13C/12C in a sample to 13C/12C in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A more negative value for delta13C indicates the sample has a lower ratio of 13C/12C relative to the standard.",continuous variable [STATO_0000251],-50,0,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon stable isotope ratio [ECSO_00001142]; d13C [ECSO_00000669]; carbon-13 atom [CHEBI_36928]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root carbon (C) isotope signature (delta 13C) [TRY:90] (https://www.try-db.org/de/de.php); related match: Integrated water-use efficiency [BROT:16] (http://doi.org/10.1038/sdata.2018.135),"Carbon stable isotope ratio [ECSO:00001142], d13C [ECSO:00000669], of roots [PO:0009005].",NA,trait_0003014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003015,wood_delta13C,Wood stable carbon isotope composition (delta13C),"Carbon stable isotope ratio, d13C, of wood.","delta13C is calculated as the ratio of, 13C/12C in a sample to 13C/12C in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A more negative value for delta13C indicates the sample has a lower ratio of 13C/12C relative to the standard.",continuous variable [STATO_0000251],-50,0,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon stable isotope ratio [ECSO_00001142]; d13C [ECSO_00000669]; wood [NCIT_C93062]; carbon-13 atom [CHEBI_36928]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,Wood Carbon content [https://cropontology.org/rdf/CO_357:0000113],NA,NA,exact match: Wood carbon (C) isotope signature (delta 13C) [TRY:1213] (https://www.try-db.org/de/de.php); related match: Integrated water-use efficiency [BROT:16] (http://doi.org/10.1038/sdata.2018.135),"Carbon stable isotope ratio [ECSO:00001142], d13C [ECSO:00000669], of wood [NCIT:C93062].",NA,trait_0003015,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003031,bark_delta15N,Bark stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of bark.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark nitrogen (N) isotope signature (delta 15N) [TRY:832] (https://www.try-db.org/de/de.php),"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of bark [PO:0004518].",NA,trait_0003031,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003032,leaf_delta15N,Leaf stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of leaves.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,Delta 15N [https://cropontology.org/rdf/CO_357:0000513],NA,NA,exact match: Leaf nitrogen (N) isotope signature (delta 15N) [TRY:78] (https://www.try-db.org/de/de.php),"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of leaves [PO:0025034].",NA,trait_0003032,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003033,stem_delta15N,Stem stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of stems.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933],NA,NA,29/03/2023,05/02/2024,NA,NA,NA,exact match: Root nitrogen (N) isotope signature (delta 15N) [TRY:81] (https://www.try-db.org/de/de.php),"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of stems [PO:0009047].",NA,trait_0003033,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003034,root_delta15N,Root stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of roots.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root nitrogen (N) isotope signature (delta 15N) [TRY:81] (https://www.try-db.org/de/de.php),"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of roots [PO:0009005].",NA,trait_0003034,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003035,wood_delta15N,Wood stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of wood.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],"stem [PO_0009047]; wood, secondary xylem [PO_0005848]",mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; wood [NCIT_C93062]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood nitrogen (N) isotope signature (delta 15N) [TRY:1230] (https://www.try-db.org/de/de.php),"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of wood [NCIT:C93062].",NA,trait_0003035,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003052,leaf_xylem_delta15N,Leaf xylem stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of xylem sap from leaf xylem vessels.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; xylem vessel [PO_0025417]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933]; xylem sap [PO_0025539],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of xylem sap [PO:0025539] from leaf [PO:0025034] xylem vessels [PO:0025417].",NA,trait_0003052,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003053,root_xylem_delta15N,Root xylem stable nitrogen isotope composition (delta15N),"Nitrogen stable isotope ratio, d15N, of xylem sap from root xylem vessels.","delta15N is calculated as the ratio of, 15N/14N in a sample to 15N/14N in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta15N indicates the sample has a lower ratio of 15N/14N relative to the standard.",continuous variable [STATO_0000251],-25,75,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable nitrogen isotope ratio [ECSO_00001737]; d15N [ECSO_00001738]; xylem vessel [PO_0025417]; nitrogen-15 atom [CHEBI_36934]; isotope [NCIT_C47933]; xylem sap [PO_0025539],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"Nitrogen stable isotope ratio [ECSO:00001737], d15N [ECSO:00001738], of xylem sap [PO:0025539] from root [PO:0009005] xylem vessels [PO:0025417].",NA,trait_0003053,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003072,leaf_delta18O,Leaf stable oxygen isotope composition (delta18O),"Oxygen stable isotope ratio, d18O, of leaves.","delta18O is calculated as the ratio of, 18O/16O in a sample to 18O/16O in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta18O indicates the sample has a lower ratio of 18O/16O relative to the standard.",continuous variable [STATO_0000251],-10,50,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable oxygen isotope ratio [ECSO_00001740]; d18O [ECSO_00001677]; oxygen-18 atom [CHEBI_33815],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf oxygen (O) isotope signature (delta 18O) [TRY:3358] (https://www.try-db.org/de/de.php),"Oxygen stable isotope ratio [ECSO:00001740], d18O [ECSO:00001677], of leaves [PO:0025034].",NA,trait_0003072,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0003092,stem_water_delta18O,Stem water stable oxygen isotope composition (delta18O),"Oxygen stable isotope ratio, d18O, of water in stems.","delta18O is calculated as the ratio of, 18O/16O in a sample to 18O/16O in a standard, minus 1. The result is expressed in parts per thousand, commonly referred to as per mille. A lower value for delta18O indicates the sample has a lower ratio of 18O/16O relative to the standard.",continuous variable [STATO_0000251],-10,50,{delta}[ppth],NA,stable isotope ratio determination [trait_group_0003004],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],stable oxygen isotope ratio [ECSO_00001740]; d18O [ECSO_00001677]; water [CHEBI_15377]; oxygen-18 atom [CHEBI_33815]; d18O in water [ECSO_00001671],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"Oxygen stable isotope ratio [ECSO:00001740], d18O [ECSO:00001677], of water [CHEBI:15377] in stems [PO:0009047].",NA,trait_0003092,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010021,plant_width,Plant canopy width,Maximum width dimension of a plant's vegetative canopy for a taxon in a given location; this is the larger width dimension and is orthogonal to its height and breadth.,"This trait is not meant to document the width of all individuals sampled, but instead the maximum width for a typical mature individual within a population or across a taxon.",continuous variable [STATO_0000251],0.001,20,m,NA,whole plant morphology trait [trait_group_0010004],whole plant [PO_0000003],width [PATO_0000921]; size [PATO_0000117],canopy [ENVO_01001242]; vegetation [EnvThes:20535],NA,NA,14/07/2021,05/02/2024,plant width [http://purl.obolibrary.org/obo/TO_0006062],Crown size [https://cropontology.org/rdf/CO_357:0000101],NA,exact match: Crown (canopy) width [TRY:325] (https://www.try-db.org/de/de.php),A whole plant morphology trait [TO:0000398] which is the maximum [NCIT:C25564] width [PATO:0000600] dimension of a plant canopy [ENVO:01001242] for a taxon [NCIT:C40098] in a given population [PCO:0000001] or location [NCIT:C25341]. This is a plant's larger [NCIT:C49508] width dimension and is orthogonal to its height and breadth.,NA,trait_0010021,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010022,plant_breadth,Plant canopy breadth,Shortest width dimension of a plant's vegetative canopy; orthogonal to its height and width.,"This trait is not meant to document the breadth of all individuals sampled, but instead the maximum breadth for a typical mature individual within a population or across a taxon.",continuous variable [STATO_0000251],0.001,20,m,NA,whole plant morphology trait [trait_group_0010004],whole plant [PO_0000003],width [PATO_0000921]; size [PATO_0000117],canopy [ENVO_01001242]; vegetation [EnvThes:20535],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A whole plant morphology trait [TO:0000398] which is the smaller [NCIT:C25376] width [PATO:0000600] dimension of a plant canopy [ENVO:01001242].,NA,trait_0010022,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010023,plant_height,Plant vegetative height,Maximum vertical height of the vegetative shoot system for a taxon in a given location.,"This trait is not meant to document the height of all individuals sampled, but instead the maximum height for a typical mature individual within a population or across a taxon. The trait should only be scored for self-supporting plants, not climbers whose height is dependent on the surrounding vegetation. The documented height should be the maximum height achieved by vegetative shoots, not the height reached by reproductive shoots, as it represents the plant's access to light.",continuous variable [STATO_0000251],0.001,130,m,self-supporting plants,whole plant morphology trait [trait_group_0010004],whole plant [PO_0000003]; stem [PO_0009047],height [PATO_0000119]; size [PATO_0000117],canopy [ENVO_01001242]; vegetation [EnvThes:20535]; vegetative shoot system [PO_0025607],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Falster 2003a [https://doi.org/10.1016/S0169-5347(03)00061-2],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,Tree height [https://cropontology.org/rdf/CO_357:0000111]; Tree height [https://cropontology.org/rdf/CO_357:0000048]; plant height [http://vocabs.lter-europe.net/EnvThes/22192],plant height [http://purl.obolibrary.org/obo/TO_0000207],NA,exact match: Plant height vegetative [TOP69] (https://top-thesaurus.org/index); exact match: Plant height vegetative [TRY:3106] (https://www.try-db.org/de/de.php); exact match: plant_height_max [GIFT:1.6.2] (https://gift.uni-goettingen.de); exact match: maximum whole plant height [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: whole plant height [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Average height [BROT:10] (http://doi.org/10.1038/sdata.2018.135); exact match: MaxStemHeight_m [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); related match: minimum whole plant height [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A whole plant morphology trait [TO:0000398] which is the maximum [NCIT:C25564] vertical [PATO:0001854] height [PATO:0000119] of the vegetative shoot system [PO:0025607] for a taxon [NCIT:C40098] in a given population [PCO:0000001] or location [NCIT:C25341].,NA,trait_0010023,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010024,plant_diameter_breast_height,Stem diameter at breast height,"Maximum diameter at breast height (DBH) for a taxon in a given location. It is commonly referred to as ""DBH"".","This trait is always meant to be measured at ""breast height"", 1.4 m above the ground surface. However, for short plants this will not always be the case, so it is advised to read the methods to confirm at what height plant diameters have been recorded. This trait is not meant to document the DBH of all individuals sampled, but instead the maximum DBH for a typical mature individual within a population or across a taxon.",continuous variable [STATO_0000251],0.01,5000,mm,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047]; whole plant [PO_0000003],diameter [PATO_0001334]; size [PATO_0000117],tree diameter at breast height [ECSO_00000549]; vegetation [EnvThes:20535],NA,NA,14/07/2021,05/02/2024,Stem diameter [https://cropontology.org/rdf/CO_357:0000022]; tree breast height diameter [http://vocabs.lter-europe.net/EnvThes/10031],Stem diameter [https://cropontology.org/rdf/CO_357:0000526]; stem diameter [http://purl.obolibrary.org/obo/TO_0020083],NA,exact match: Stem diameter [TRY:21] (https://www.try-db.org/de/de.php); exact match: DBH_max [GIFT:1.8.2] (https://gift.uni-goettingen.de); exact match: diameter at breast height (1.3 m) [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: MaxStemDia_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0),A stem morphology trait [TO:0000361] which is the maximum [NCIT:C25564] diameter at breast height [ECSO:00000549] for a taxon [NCIT:C40098] in a given population [PCO:0000001] or location [NCIT:C25341].,basal_diameter,trait_0010024,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010025,stem_count,Stem count,Count of stems on multi-stemmed plants.,NA,continuous variable [STATO_0000251],0,5,{count},NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],has number of [PATO_0001555]; count [NCIT_C25463],branchiness [PATO_0002009],NA,NA,14/07/2021,05/02/2024,stem number [http://purl.obolibrary.org/obo/TO_0000953],NA,NA,close match: Plant biomass and allometry: Shoots per plant [TRY:1034] (https://www.try-db.org/de/de.php),A shoot system morphology trait [TO:0000077] which is the count [NCIT:C25463] of stems [PO:0009047] on multi-stemmed plants [PO:0000003].,stem_count_categorical,trait_0010025,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010070,plant_spinescence,Plant spinescence,"Degree to which a plant is defended by spines, thorns and/or prickles, as defined by Pérez-Harguindeguy et al. 2013.",The values for this trait are exactly those defined by Pérez-Harguindeguy et al. 2013 (doi:10.1071/BT12225). See the trait `plant_physical_defence` for individual plant structures a plant uses for physical defence.,categorical variable [STATO_0000252],NA,NA,NA,none,leaf shape trait [trait_group_0011304]; whole plant phenotype trait [trait_group_0030006]; plant structure morphology trait [trait_group_0011001],leaf [PO_0025034]; stem [PO_0009047]; whole plant [PO_0000003],structure [PATO_0000141]; surface feature shape [PATO_0001925],spine leaf [PO_0025173]; spine stipule [PO_0025174]; thorn [PO_0025172]; prickle [PO_0025169]; defense [NCIT_C61556]; pain [HP_0012531]; spiny [PATO_0001365],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,"close match: Leaf emergences (pubescence, pruinescence, hairs, spines, thorns) [TRY:677] (https://www.try-db.org/de/de.php); close match: Spinescence [BROT:21] (http://doi.org/10.1038/sdata.2018.135); close match: Armature [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0)","A plant structure morphology trait [TO:0000839] which summarises the extent of physical structures a plant uses for defence [NCIT:C61556], including the size [PATO:0000117], strength [PATO:0001230], and density [PATO:0001019] of spine leaves [PO:0025173], spine stipules [PO:0025174], thorns [PO:0025172], and/or prickles [PO:0025169] and the pain [HP:0012531] inflicted by these structures.",spinescence,trait_0010070,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010110,embryo_colour,Embryo colour,Binary variable distinguishing between embryos that are green versus colourless.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003],colour / color [PATO_0000014],plant embryo cotyledon [PO_0025470]; plant embryo [PO_0009009],NA,NA,14/07/2021,05/02/2024,plant embryo cotyledon color [http://purl.obolibrary.org/obo/TO_0000980],NA,NA,NA,A plant embryo cotyledon morphology trait [TO:0000775] which is the colour [PATO:0000014] of the plant embryo cotyledon [PO:0025470].,NA,trait_0010110,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010111,cotyledon_function,Cotyledon function,Binary variable distinguishing between cotyledons that function as leaves and can photosynthesise versus ones that function as energy reserve organs.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104]; leaf morphology trait [trait_group_0011202],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995]; function [NCIT_C25518],cotyledon [PO_0020030]; photosynthesis [GO_0015979]; energy [PATO_0001021]; storage [OBI_0302893]; plant embryo [PO_0009009]; seedling [EnvThes:20698]; plant embryo cotyledon [PO_0025470]; storage organ [EFO:0000997],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant embryo morphology trait [TO:0000064] which indicates if the cotyledons [PO:0020030] have a photosynthesis [GO:0015979] or energy [PATO:0001021] storage [OBI:0302893] function [NCIT:C25518].,NA,trait_0010111,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010112,cotyledon_position,Cotyledon position at germination,Binary variable distinguishing between seedlings where the cotyledon remains within the seed coat versus emerges from the seed coat at germination.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995]; structure [PATO_0000141]; position [PATO_0000140],cotyledon [PO_0020030]; seed coat [PO_0009088]; seed germination [GO_0009845]; plant embryo [PO_0009009]; seedling [EnvThes:20698]; plant embryo cotyledon [PO_0025470],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant embryo morphology trait [TO:0000064] which indicates if the cotyledons [PO:0020030] emerge from the seed coat [PO:0009088] at germination [GO:0009845].,NA,trait_0010112,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010113,cotyledon_hairs,Cotyledon hairiness,Binary variable distinguishing between glabrous versus hairy cotyledons.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],cotyledon [PO_0020030]; plant embryo [PO_0009009]; hairy [PATO_0000454]; seedling [EnvThes:20698]; plant embryo cotyledon [PO_0025470],NA,NA,14/07/2021,05/02/2024,cotyledon pilosity [http://purl.obolibrary.org/obo/FLOPO_0001888],NA,NA,NA,A plant embryo cotyledon morphology trait [TO:0000775] which is the pilosity [PATO:0000066] of the cotyledons [PO:0020030].,NA,trait_0010113,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010114,seedling_hypocotyl_hairs,Hypocotyl hairiness,"Binary variable distinguishing between glabrous versus hairy hypocotyls, where the hypocotyl is the embryonic axis to which the cotyledons are attached.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],seedling hypocotyl morphology trait [TO_0000769]; hypocotyl [PO_0020100]; plant embryo [PO_0009009]; hairy [PATO_0000454]; seedling [EnvThes:20698],NA,NA,14/07/2021,05/02/2024,hypocotyl pilosity [http://purl.obolibrary.org/obo/FLOPO_0003626],NA,NA,NA,A seedling hypocotyl morphology trait [TO:0000769] which is the pilosity [PATO:0000066] of the hypocotyl [PO:0020100].,hypocotyl_type,trait_0010114,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010160,seedling_first_node_leaf_type,Seedling first true leaf type,Binary variable distinguishing between seedlings where the first leaf is scale-like (cataphyll) versus leaf-like.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995]; structure [PATO_0000141],plant embryo true leaf formation stage [PO_0001095]; stem node [PO_0020141]; epicotyl [PO_0020035]; seedling [EnvThes:20698],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant embryo true leaf formation stage [PO:0001095] morphology trait which is whether the leaf [PO:0025034] at the first stem node [PO:0020141] above the epicotyl [PO:0020035] in a true leaf or a scale leaf.,seedling_first_leaf,trait_0010160,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010161,seedling_first_node_leaf_count,Seedling first node leaf count,Binary variable distinguishing between seedlings where the leaves at the first node are single versus paired.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],has number of [PATO_0001555]; count [NCIT_C25463],plant embryo true leaf formation stage [PO_0001095]; stem node [PO_0020141]; epicotyl [PO_0020035]; seedling [EnvThes:20698],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant embryo true leaf formation stage [PO:0001095] morphology trait which is the leaf count [NCIT:C25463] at the first stem node [PO:0020141] above the epicotyl [PO:0020035].,seedling_first_node,trait_0010161,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0010162,seedling_germination_location,Seedling germination location,Binary variable distinguishing between seedlings that germinate above versus below ground.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant embryo morphology trait [trait_group_0010104],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995]; position [PATO_0000140],seed germination [GO_0009845]; plant embryo [PO_0009009]; seedling [EnvThes:20698],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant embryo cotyledon morphology trait [TO:0000775] which is the position [PATO:0000140] of seed germination [GO:0009845] relative to the soil surface.,NA,trait_0010162,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011211,leaf_area,Leaf area,"The 2-dimensional projected (scanned) area of the surface of a leaf or a leaf analogue (leaflet, cladode, phyllode).","This trait includes measurements of leaves and leaf analogues, including leaflets, cladodes, and phyllodes. When a measurement is made on a leaf analogue, the tissue measured should be documented as part of the methods or noted as a `context` or under `measurement_remarks`. Leaflet area can alternatively be mapped to the trait `leaflet_area`. It is most common for leaf area measurements to include the petiole; the measurement methods should indicate if the petiole is included in or excluded from the leaf area measurements. For terete leaves, leaf area should still be recorded as the 2-dimensional projected area.",continuous variable [STATO_0000251],0.1,10000000,mm2,Plants with leaves.,leaf size trait [trait_group_0011204],leaf [PO_0025034],area [PATO_0001323]; 2-D extent [PATO_0001709]; size [PATO_0000117],leaf lamina [PO_0020039]; petiole [PO_0020038]; leaflet [PO_0020049]; cladode [PO_0025354]; phyllode [PO_0025335],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf area trait [http://purl.obolibrary.org/obo/TO_0000540]; Leaf area [https://cropontology.org/rdf/CO_357:0000257],NA,leaf size [http://vocabs.lter-europe.net/EnvThes/22162],"exact match: Leaf area [TOP25] (https://top-thesaurus.org/index); exact match: Leaf area (in case of compound leaves: leaf, undefined if petiole in- or excluded) [TRY:3112] (https://www.try-db.org/de/de.php); exact match: Leaf size [GIFT:4.4] (https://gift.uni-goettingen.de); exact match: leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Average leaf area [BROT:6] (http://doi.org/10.1038/sdata.2018.135); close match: Leaf size SLA, leaf mass & LDMC [LEDA:2.1] (https://uol.de/en/landeco/research/leda/standards)","A leaf area trait [TO:0000540] which is the 2-D [PATO:0001709] area [PATO:0001323] of the leaf lamina [PO:0020039] and petiole [PO:0020038]. For some species the area of a leaf analogue is reported, possibly a leaflet [PO:0020049], cladode [PO:0025354], or phyllode [PO:0025335].",NA,trait_0011211,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011212,leaflet_area,Leaflet area,The 2-dimensional projected (scanned) area of the surface of the lamina of a single leaflet.,NA,continuous variable [STATO_0000251],0.1,1000000,mm2,NA,leaf size trait [trait_group_0011204],leaf [PO_0025034],area [PATO_0001323]; 2-D extent [PATO_0001709]; size [PATO_0000117],leaflet [PO_0020049]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,leaflet area [http://purl.obolibrary.org/obo/TO_0001114],NA,leaf size [http://vocabs.lter-europe.net/EnvThes/22162],close match: leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Average leaf area [BROT:6] (http://doi.org/10.1038/sdata.2018.135),A leaf area trait [TO:0000540] which is the 2-D [PATO:0001709] area [PATO:0001323] of a single leaflet [PO:0020049] lamina [PO:0025060]. This measurement will not include the petiole [PO:0020038].,NA,trait_0011212,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011213,leaf_length,Leaf length,"Length of a leaf or a leaf analogue, from the leaf apex to the leaf axil (base), including the petiole.","If a leaf analogue (leaflet, cladode, or phyllode) is measured instead of a true leaf, this should be noted as a `context` or under `measurement_remarks`.",continuous variable [STATO_0000251],0.1,100000,mm,Plants with leaves.,leaf size trait [trait_group_0011204],leaf [PO_0025034],length [PATO_0000122]; size [PATO_0000117],petiole [PO_0020038]; leaf apex [PO_0020137]; leaf base [PO_0020040]; leaf lamina [PO_0020039],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf length [http://purl.obolibrary.org/obo/TO_0000135],NA,leaf size [http://vocabs.lter-europe.net/EnvThes/22162],exact match: Leaf length [TOP13] (https://top-thesaurus.org/index); exact match: Leaf length [TRY:144] (https://www.try-db.org/de/de.php); exact match: Leaf length [GIFT:4.6] (https://gift.uni-goettingen.de); close match: maximum leaf length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: minimum leaf length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Max_Blade_Length_m [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); close match: Max_Rachis_Length_m [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); close match: Max_Petiole_length_m [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0),"Length [PATO:0000122] of the leaf [PO:0025034] (including the petiole [PO:0020038]), from the leaf apex [PO:0020137] to the leaf axil [PO:0009023] (leaf base [PO:0020040]).",NA,trait_0011213,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011214,leaf_width,Leaf width,"Maximum width axis of a leaf or a leaf analogue (a leaflet, cladode, or phyllode), measured perpendicular to the leaf length.","This trait refers to the single line marking the maximum width of the leaf lamina. For a compound leaf the correct measure is the maximum width of the total leaf blade. It is the width measure that will be reported in taxonomic treatments. It is not the `effective_leaf_width`, a trait that records the diameter of the largest circle that can be drawn within the leaf lamina. If a leaf analogue (leaflet, cladode, or phyllode) is measured instead of a true leaf, this should be noted as a `context` or under `measurement_remarks`.",continuous variable [STATO_0000251],0.01,100000,mm,Plants with leaves.,leaf size trait [trait_group_0011204],leaf [PO_0025034],width [PATO_0000921]; size [PATO_0000117],leaf lamina [PO_0020039],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf width [http://purl.obolibrary.org/obo/TO_0000370],NA,leaf size [http://vocabs.lter-europe.net/EnvThes/22162],exact match: Leaf width [TOP17] (https://top-thesaurus.org/index); exact match: Leaf width [TRY:145] (https://www.try-db.org/de/de.php); exact match: Leaf width [GIFT:4.7] (https://gift.uni-goettingen.de); close match: maximum leaf width [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: minimum leaf width [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The maximum [NCIT:C25564] width [PATO:0000921] axis of a leaf [PO:0025034] measured perpendicular to [PATO:0002434] the leaf length [PATO:0000122].,NA,trait_0011214,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011215,leaf_thickness,Leaf thickness,"Thickness of the leaf lamina, generally measured away from the midrib.","Leaf thickness measurements submitted from the ecological literature will generally avoid the midrib, but not avoid lower order leaf veins. In contrast, leaf thickness measurements from the taxonomic literature will usually include any veins or midribs, because in this literature leaf thickness is generally measured on succulent plants. The `methods` field should document whether the midrib was explicitly included, excluded, or ignored.",continuous variable [STATO_0000251],0.01,51,mm,Plants with leaves.,leaf size trait [trait_group_0011204],leaf [PO_0025034],thickness [PATO_0000915]; size [PATO_0000117],leaf lamina [PO_0020039],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf thickness [http://purl.obolibrary.org/obo/TO_0000258],NA,NA,exact match: Leaf thickness [TOP20] (https://top-thesaurus.org/index); exact match: Leaf thickness [TRY:46] (https://www.try-db.org/de/de.php); exact match: Leaf thickness [GIFT:4.8] (https://gift.uni-goettingen.de); exact match: leaf thickness [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"The thickness [PATO:0000915] of the leaf lamina [PO:0020039], measured away from the midrib [PO:0020139].",NA,trait_0011215,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011216,leaf_dry_mass,Leaf dry mass,"The oven dry mass of a leaf or leaf analogue (leaflet, cladode, phyllode).","This trait includes measurements of leaves and leaf analogues, including leaflets, cladodes, and phyllodes. When a measurement is made on a leaf analogue, the tissue measured should be documented as part of the methods or noted as a `context` or under `measurement_remarks`. Leaflet dry mass can alternatively be mapped to the trait `leaflet_dry_mass`. It is most common for leaf dry mass measurements to include the petiole; the measurement methods should indicate if the petiole is included in or excluded from the leaf dry mass measurements.",continuous variable [STATO_0000251],0.01,15000,mg,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125],"leaf weight, leaf mass [TO_0000505]; leaflet [PO_0020049]; cladode [PO_0025354]; phyllode [PO_0025335]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,"leaf dry weight, leaf dry mass [http://purl.obolibrary.org/obo/TO_0001014]; Leaf dry mass [https://cropontology.org/rdf/CO_357:0000518]",NA,leaf size [http://vocabs.lter-europe.net/EnvThes/22162],"exact match: Leaf dry mass [TOP40] (https://top-thesaurus.org/index); exact match: Leaf dry mass (single leaf) [TRY:55] (https://www.try-db.org/de/de.php); exact match: leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf size SLA, leaf mass & LDMC [LEDA:2.1] (https://uol.de/en/landeco/research/leda/standards)","A leaf mass trait [TO:0000505] which is the dry [PATO:0001824] mass [PATO:0000125] of a leaf [PO:0025034] or leaf analogue (a leaflet [PO:0020049], cladode [PO:0025354], or phyllode [PO:0025335]).",NA,trait_0011216,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011217,leaflet_dry_mass,Leaflet dry mass,The oven dry mass of a single leaflet.,NA,continuous variable [STATO_0000251],0.005,15000,mg,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125],"leaflet [PO_0020049]; leaf weight, leaf mass [TO_0000505]",NA,NA,14/07/2021,05/02/2024,NA,leaflet weight [http://purl.obolibrary.org/obo/TO_0001117],NA,NA,A leaf dry mass trait [TO:0001014] which is the dry mass of a single leaflet [PO:0020049]. This measurement will not include the petiole [PO:0020038].,NA,trait_0011217,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011218,leaf_fresh_mass,Leaf fresh mass,"The fresh mass of a leaf or leaf analogue (leaflet, cladode, phyllode).","This trait includes measurements of leaves and leaf analogues, including leaflets, cladodes, and phyllodes. When a measurement is made on a leaf analogue, the tissue measured should be documented as part of the methods or noted as a `context` or under `measurement_remarks`. It is most common for leaf fresh mass measurements to include the petiole; the measurement methods should indicate if the petiole is included in or excluded from the leaf fresh mass measurements. A source of variation for this trait will be how leaves are stored and if they are partially rehydrated before weighing; these details should be documented in the methods.",continuous variable [STATO_0000251],0.1,30000,mg,Plants with leaves,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; NA [APD:glossary/40044],"leaf weight, leaf mass [TO_0000505]; leaflet [PO_0020049]; cladode [PO_0025354]; phyllode [PO_0025335]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf wet weight [http://purl.obolibrary.org/obo/TO_0000891],NA,NA,exact match: Leaf fresh mass [TOP35] (https://top-thesaurus.org/index); exact match: Leaf fresh mass [TRY:163] (https://www.try-db.org/de/de.php); exact match: leaf fresh mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"A leaf mass trait [TO:0000505] which is the mass [PATO:0000125] of a fresh [EnvThes:21976] leaf [PO:0025034], indicating its mass at the time it is picked. For some species the mass of a leaf analogue is reported, possibly a leaflet [PO:0020049], cladode [PO:0025354], or phyllode [PO:0025335].",NA,trait_0011218,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011219,petiole_length,Petiole length,Length of the petiole from the leaf base to the leaf axil.,NA,continuous variable [STATO_0000251],0,1000,cm,NA,leaf size trait [trait_group_0011204],leaf [PO_0025034],length [PATO_0000122]; size [PATO_0000117],petiole [PO_0020038],NA,NA,31/05/2023,05/02/2024,petiole length [http://purl.obolibrary.org/obo/TO_0000766]; Petiole length [https://cropontology.org/rdf/CO_357:0000268],NA,NA,NA,"Length [PATO:0000122] of the petiole [PO:0020038]), from the leaf base [PO:0020040] to the leaf axil [PO:0009023].",NA,trait_0011219,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011220,petiole_width,Petiole width,Width of the petiole.,NA,continuous variable [STATO_0000251],0,200,cm,NA,leaf size trait [trait_group_0011204],leaf [PO_0025034],width [PATO_0000921]; size [PATO_0000117],petiole [PO_0020038],NA,NA,31/05/2023,05/02/2024,NA,NA,NA,NA,Width [PATO:0000921] of the petiole [PO:0020038].,NA,trait_0011220,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011230,leaf_mass_per_area,Leaf mass per area,"The ratio of leaf dry mass to leaf area, measured on an entire leaf including the petiole; LMA. (The inverse of specific leaf area, SLA.)","Leaf mass per area includes measurements submitted as `specific_leaf_area` (SLA); they are simply inverted. Leaf mass per area is explicitly measured on an entire leaf, including the petiole. Measurements made on a piece of the leaf lamina, excluding petiole and midrib, are a separate trait `leaf_lamina_mass_per_area`. If measurements are made on the entire leaf lamina, but the petiole is excluded, this should be noted in the methods or under `measurement_remarks`.",continuous variable [STATO_0000251],1,3000,g/m2,NA,leaf size trait [trait_group_0011204]; leaf mass trait [trait_group_0011206],leaf [PO_0025034],area [PATO_0001323]; ratio; proportion [PATO_0001470]; mass [PATO_0000125]; per unit area [EnvThes:22003]; area density [PATO_0001351],"leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]; leaf lamina [PO_0020039]; petiole [PO_0020038]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Wright 2004 [https://doi.org/10.1038/nature02403],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,specific leaf area [http://purl.obolibrary.org/obo/TO_0000562]; Leaf mass per leaf area [https://cropontology.org/rdf/CO_357:0000255],NA,NA,"exact match: Leaf mass per area [TOP53] (https://top-thesaurus.org/index); exact match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA): undefined if petiole is in- or exclu [TRY:3117] (https://www.try-db.org/de/de.php); exact match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA): petiole included [TRY:3116] (https://www.try-db.org/de/de.php); exact match: Specific Leaf Area (SLA) [GIFT:4.1] (https://gift.uni-goettingen.de); exact match: leaf area per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Average specific leaf area [BROT:8] (http://doi.org/10.1038/sdata.2018.135); close match: Specific leaf area [TOP50] (https://top-thesaurus.org/index); close match: Leaf size SLA, leaf mass & LDMC [LEDA:2.1] (https://uol.de/en/landeco/research/leda/standards)","A leaf morphology trait [TO:0000748] which is the ratio [PATO:0001470] of the leaf dry [PATO:0001824] mass [PATO:0000125] to the leaf [PO:0025034] area [PATO:0001323], measured on an entire leaf, including the entire leaf lamina [PO:0020039] and the petiole [PO:0020038].",specific_leaf_area,trait_0011230,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011231,leaf_lamina_mass_per_area,Leaf lamina mass per area,"The ratio of leaf dry mass to leaf area, measured on a piece of the leaf lamina that does not include the petiole or major veins.","This trait only includes data made on subsamples of a leaf, usually a leaf punch sample associated with leaf strength measurements or from the herbivory literature. For whole-leaf LMA/SLA data, see the trait `leaf_mass_per_area`",continuous variable [STATO_0000251],0.1,500,g/m2,Plants with leaves.,leaf size trait [trait_group_0011204]; leaf mass trait [trait_group_0011206],leaf [PO_0025034],area [PATO_0001323]; ratio; proportion [PATO_0001470]; mass [PATO_0000125]; per unit area [EnvThes:22003]; area density [PATO_0001351],"leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]; leaf lamina [PO_0020039]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,NA,specific leaf area [http://purl.obolibrary.org/obo/TO_0000562],"exact match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA): petiole excluded [TRY:3115] (https://www.try-db.org/de/de.php); related match: Leaf mass per area [TOP53] (https://top-thesaurus.org/index); related match: Specific leaf area [TOP50] (https://top-thesaurus.org/index); related match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA): undefined if petiole is in- or exclu [TRY:3117] (https://www.try-db.org/de/de.php); related match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA): petiole included [TRY:3116] (https://www.try-db.org/de/de.php); related match: Leaf size SLA, leaf mass & LDMC [LEDA:2.1] (https://uol.de/en/landeco/research/leda/standards); close match: Leaf area per leaf dry mass (specific leaf area, SLA or 1/LMA) petiole, rhachis and midrib excluded [TRY:3086] (https://www.try-db.org/de/de.php)","A leaf morphology trait [TO:0000748] which is the ratio [PATO:0001470] of the leaf dry [PATO:0001824] mass [PATO:0000125] to leaf [PO:0025034] area [PATO:0001323], measured on a piece of the leaf lamina [PO:0020039] located away from major leaf lamina veins [PO:0020138].",NA,trait_0011231,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011232,leaf_density,Leaf tissue density,The ratio of leaf dry mass to leaf fresh volume.,NA,continuous variable [STATO_0000251],0.05,1.1,mg/mm3,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],"mass density, density [PATO_0001019]; mass [PATO_0000125]; ratio; proportion [PATO_0001470]","leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]",NA,NA,14/07/2021,05/02/2024,leaf mass density [http://purl.obolibrary.org/obo/FLOPO_0000692],NA,NA,"exact match: Leaf density [TOP56] (https://top-thesaurus.org/index); exact match: Leaf density (leaf tissue density, leaf dry mass per leaf volume) [TRY:48] (https://www.try-db.org/de/de.php)",The ratio [PATO:0001470] of leaf [PO:0025034] dry [PATO:0001824] mass [PATO:0000125] to leaf fresh [EnvThes:21976] volume [PATO:0000918].,NA,trait_0011232,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011260,leaf_area_ratio,Leaf area ratio (LAR),The ratio of total plant leaf area to total plant dry mass; LAR.,"Since the total plant dry mass is required for leaf area ratio measurements, this is standardly measured only on young plants or plants grown for experiments where the entire plant can be harvested. It is best practice for leaf area measurements to include the petiole.",continuous variable [STATO_0000251],0.05,100,mm2/mg,Plants with leaves.,leaf size trait [trait_group_0011204],leaf [PO_0025034]; whole plant [PO_0000003],area [PATO_0001323]; size [PATO_0000117]; ratio; proportion [PATO_0001470],NA [glossary_40081]; biomass allocation [EnvThes:21360],Poorter & Remkes 1990 [https://doi.org/10.1007/BF00317209],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf area ratio [http://vocabs.lter-europe.net/EnvThes/22158],Leaf area [https://cropontology.org/rdf/CO_357:0000257],NA,"exact match: Leaf area ratio [TOP88] (https://top-thesaurus.org/index); exact match: Leaf area per plant dry mass (leaf area ratio, LAR) [TRY:109] (https://www.try-db.org/de/de.php)",A leaf area trait [TO:0000540] which is the ratio [PATO:0001470] of a plant's [PO:0000003] total [NCIT:C25304] leaf [PO:0025034] area [PATO:0001323] to total plant dry mass [TO_0000352].,NA,trait_0011260,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011261,leaf_mass_fraction,Leaf mass fraction,The ratio of leaf dry mass to total plant dry mass.,NA,continuous variable [STATO_0000251],0.01,1,g/g,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]; NA [glossary_40081]; NA [glossary_40080]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Leaf mass ratio [TOP85] (https://top-thesaurus.org/index); exact match: Plant biomass and allometry: Leaf dry mass per plant dry mass (leaf weight ratio, LWR) [TRY:110] (https://www.try-db.org/de/de.php)",A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of a plant's total leaf dry mass [APD:glossary/40080] to total plant dry mass [TO:0000352].,NA,trait_0011261,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011262,leaf_dry_matter_content,Leaf dry matter content (LDMC),The ratio of leaf dry mass to leaf fresh mass; LDMC.,"Two similar traits are `leaf_water_content_per_dry_mass`, the ratio of leaf water content to leaf dry mass and `leaf_water_content_per_fresh_mass`, the ratio of leaf water content to leaf fresh mass.",continuous variable [STATO_0000251],0.001,2,g/g,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]; NA [glossary_40044]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Leaf dry matter content [TOP45] (https://top-thesaurus.org/index); exact match: Leaf dry mass per leaf fresh mass (leaf dry matter content, LDMC) [TRY:47] (https://www.try-db.org/de/de.php); exact match: Leaf dry matter content (LDMC) [GIFT:4.9] (https://gift.uni-goettingen.de); exact match: leaf dry mass per leaf fresh mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Leaf dry matter content [BROT:14] (http://doi.org/10.1038/sdata.2018.135)",A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of leaf dry mass [TO:0001014] to leaf [PO:0025034] fresh mass [APD:glossary/40044].,NA,trait_0011262,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011263,leaf_fresh_mass_per_area,Leaf fresh mass per leaf area,"The ratio of leaf fresh mass to leaf area, measured on an entire leaf including the petiole.","Leaf fresh mass per area is explicitly measured on an entire leaf, including the petiole.",continuous variable [STATO_0000251],200,2000,g/m2,Plants with leaves.,leaf size trait [trait_group_0011204]; leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; biomass allocation [EnvThes:21360]; NA [glossary_40044]; leaf lamina [PO_0020039]; petiole [PO_0020038]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf area per leaf fresh mass (specific leaf area (SLA or 1/LMA) based on leaf fresh mass) [TRY:125] (https://www.try-db.org/de/de.php),"A leaf area trait [TO:0000540] which is the ratio [PATO:0001470] of the leaf [PO:0025034] fresh mass [APD:glossary/40044]. to the leaf area [PATO:0001323], measured on an entire leaf, including the entire leaf lamina [PO:0020039] and the petiole [PO:0020038].",NA,trait_0011263,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011264,leaf_water_content_per_area,Leaf water content per unit leaf area (leaf succulence),The ratio of the mass of water in a fresh leaf (leaf water content) to leaf surface area; leaf succulence.,NA,continuous variable [STATO_0000251],10,5000,g/m2,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; water [CHEBI_15377]; NA [glossary_40050]",NA,NA,14/07/2021,05/02/2024,NA,tissue succulence [http://purl.obolibrary.org/obo/FLOPO_0900041],leaf moisture content [http://purl.obolibrary.org/obo/TO_0003034],NA,A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a fresh [EnvThes:21976] leaf [PO:0025034] to leaf area [PATO:0001323].,NA,trait_0011264,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011265,leaf_water_content_per_dry_mass,Leaf water content per unit leaf dry mass,The ratio of the mass of water in a fresh leaf (leaf water content) to leaf dry mass.,"A similar trait that is recorded by a greater number of studies is `leaf_dry_matter_content`, the ratio of a leaf dry mass to leaf fresh mass.",continuous variable [STATO_0000251],0.01,20,g/g,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; water [CHEBI_15377]; NA [glossary_40050]",NA,NA,14/07/2021,05/02/2024,NA,NA,leaf moisture content [http://purl.obolibrary.org/obo/TO_0003034],exact match: Leaf water content per leaf dry mass (not saturated) [TRY:14] (https://www.try-db.org/de/de.php),A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a fresh [EnvThes:21976] leaf [PO:0025034] to leaf dry mass [TO:0001014].,NA,trait_0011265,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011266,leaf_water_content_per_fresh_mass,Leaf water content per unit leaf fresh mass,The ratio of the mass of water in a fresh leaf (leaf water content) to leaf fresh mass,"A similar trait that is recorded by a greater number of studies is `leaf_dry_matter_content`, the ratio of a leaf dry mass to leaf fresh mass.",continuous variable [STATO_0000251],0.01,10,g/g,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; water [CHEBI_15377]; NA [glossary_40050]; NA [glossary_40044]",NA,NA,14/07/2021,05/02/2024,NA,NA,leaf moisture content [http://purl.obolibrary.org/obo/TO_0003034],NA,A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a fresh [EnvThes:21976] leaf [PO:0025034] to leaf fresh mass [APD:glossary/40044].,NA,trait_0011266,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011267,leaf_water_content_per_saturated_mass,Leaf water content per unit saturated leaf mass,The ratio of the mass of water in a leaf (leaf water content) to the mass of a saturated leaf. A saturated leaf is one that has been hydrated to its maximal water holding capacity and is at full turgor.,NA,continuous variable [STATO_0000251],0.1,10,g/g,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; water [CHEBI_15377]; NA [glossary_40050]; NA [glossary_40044]; water holding capacity [IOBC:200906064703668091]; turgor [PATO_0001620]",NA,NA,14/07/2021,05/02/2024,NA,NA,leaf moisture content [http://purl.obolibrary.org/obo/TO_0003034],close match: Leaf water content per leaf dry mass (at saturation) [TRY:3122] (https://www.try-db.org/de/de.php),"A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a saturated leaf [PO:0025034] to the mass of a saturated leaf. A saturated leaf is one that has been hydrated to its maximum [NCIT:C25564] water holding capacity [IOBC:200906064703668091], known as full turgor [PATO:0001620].",NA,trait_0011267,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011268,leaf_cell_wall_fraction,Leaf cell wall fraction,The ratio of leaf cell wall dry mass to leaf dry mass. This is the fraction of cell wall material that can be recovered from total leaf biomass.,NA,continuous variable [STATO_0000251],0.1,1,mg/mg,NA,leaf mass trait [trait_group_0011206],leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],"leaf weight, leaf mass [TO_0000505]; plant-type cell wall [GO_0009505]; biomass allocation [EnvThes:21360]; cell [CL_0000000]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf cell wall mass per leaf dry mass [TRY:3375] (https://www.try-db.org/de/de.php),A leaf mass trait [TO:0000505] which is the ratio [PATO:0001470] of cell wall [GO:0009505] dry mass to leaf dry mass [TO:0001014].,NA,trait_0011268,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011310,leaf_type,Leaf type,Variable distinguishing between general leaf form (shape) categories.,"Terms identifying the plant organ responsible for photosynthesis are mapped to the trait `plant_photosynthetic_organ`, while `leaf_form_general` only includes terms pertaining to the general form of the leaf. The trait `leaf_shape` provides detailed vocabulary to describe a leaf's shape.",categorical variable [STATO_0000252],NA,NA,NA,none,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; structure [PATO_0000141],leaf shape [TO_0000492],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Burrows 2001 [https://doi.org/10.1086/319579],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,exact match: leaf_form_1 [GIFT:4.11.1] (https://gift.uni-goettingen.de); related match: Leaf form [TOP225] (https://top-thesaurus.org/index); related match: Leaf type [TRY:43] (https://www.try-db.org/de/de.php); close match: Basic leaf shape [BROT:5] (http://doi.org/10.1038/sdata.2018.135),"A leaf shape trait [TO:0000492] which is inclusive [NCIT:C166400] categories describing the shape [PATO:0000052] of a leaf [PO:0025034] as broad, needle-like, or scale-like.",NA,trait_0011310,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011311,leaf_shape,Leaf shape,Shapes of a leaf or leaflet.,"This trait includes terms to describe the shape of leaves, regardless of if they are broad leaves, scale-like leaves, or needle-like leaves. For compound leaves, it is generally the shape of the leaflet that is recorded. See the trait `leaf_type` for broad terms referencing leaf form (broadleaf, needle, scale) and `plant_photosynthetic_organ` for terms indicating which plant organ or tissue functions as the plant's primary photosynthetic organ (e.g. phyllode, cladode, article).",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; length [PATO_0000122]; curvature [PATO_0001591]; structure [PATO_0000141],leaf shape [TO_0000492]; leaf margin [PO_0020128],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Systematics Association Committee for Descriptive Terminology 1962 [https://doi.org/10.2307/1217034],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf shape [http://purl.obolibrary.org/obo/TO_0000492],NA,leaflet shape [http://purl.obolibrary.org/obo/TO_0001116],close match: Leaf form [TOP225] (https://top-thesaurus.org/index); close match: Leaf shape [TRY:154] (https://www.try-db.org/de/de.php),"A leaf shape trait [TO:0000492] which is the shape [PATO:0000052] and form of a leaf [PO:0025034], considering the ratio [PATO:0001470] of leaf length [PATO:0000122] to leaf width [PATO:0000921], the position [PATO:0000140] of the maximum [NCIT:C25564] width dimension relative to the length axis [NCIT:C25154], and the curvature [PATO:0001591] of the leaf margin [PO:0020128].",NA,trait_0011311,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011312,leaf_base_shape,Leaf base shape,The shape of the basal margin of a leaf.,NA,categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; curvature [PATO_0001591],leaf shape [TO_0000492]; leaf base [PO_0020040]; leaf margin [PO_0020128]; petiole [PO_0020038],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,Lamina shape [https://cropontology.org/rdf/CO_357:0000251],NA,NA,NA,"A leaf shape trait [TO:0000492] which is the variation in shapes and forms of a leaf base [PO:0020040], especially considering the curvature [PATO:0001591] of the leaf margin [PO:0020128] near where it attaches to the petiole [PO:0020038].",NA,trait_0011312,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011313,leaf_margin,Leaf margin,"Shape of the leaf margin, referencing incisions or projections in the outermost 1/8 of the leaf lamina.",Terms describing leaf lamina projections and incisions that are greater than 1/8 of the distance to the midrib are captured under the traits `leaf_lobation` and `leaf_division_detailed`.,categorical variable [STATO_0000252],NA,NA,NA,Plants with broad leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; edge shape [PATO_0002267]; curvature [PATO_0001591],leaf shape [TO_0000492]; leaf margin [PO_0020128]; leaf lamina tooth [PO_0025518],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Hickey 1973 [https://doi.org/10.2307/2441319],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf margin morphology trait [http://purl.obolibrary.org/obo/TO_0002635],leaf margin serrated [http://purl.obolibrary.org/obo/TO_0006063],NA,exact match: Leaf margin type [TRY:963] (https://www.try-db.org/de/de.php); exact match: leaf_margin_1 [GIFT:4.12.1] (https://gift.uni-goettingen.de),"A leaf shape trait [TO:0000492] which is the edge shape [PATO:0002267] of the leaf margin [PO:0020128], in particular the presence or absence of leaf lamina teeth [PO:0025518] and the shape [PATO:0000052] of the leaf lamina teeth (serrate, dentate, or crenate).",NA,trait_0011313,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011314,leaf_margin_posture,Leaf margin posture,The posture (curvature or curling) of the leaf margin.,"This trait captures the posture of the leaf margin, where posture refers to the placement of different parts of the leaf's margin relative to a flat plane. This trait's definition and allowable levels will be further refined once more data are available to map onto possible trait values.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; curvature [PATO_0001591],leaf shape [TO_0000492]; curled [PATO_0000405]; leaf margin [PO_0020128]; leaf apex [PO_0020137]; leaf base [PO_0020040],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,NA,NA,NA,"A leaf shape trait [TO:0000492] which is the degree of curvature [PATO:0001591] or curling [PATO:0000405] of the leaf margin [PO:0020128] along the side of the leaf, at the leaf apex [PO:0020137], and at the leaf base [PO:0020040].",NA,trait_0011314,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011315,leaf_lobation,Leaf lobation,A trait that indicates whether a leaf lamina or leaflets display any divisions or dissections on a 2-dimensional plane that extend greater than 1/8 of the distance to the midrib.,"For terms pertaining to 2-dimensional leaf lamina divisions and incisions that are less than 1/8 of the distance to the midrib, see the trait `leaf_margin`. See also the trait `leaf_division` for more detailed leaf lobation (and leaf compoundness) trait values. Note that there might be some species that grade from deeply lobed simple leaves to compound leaves.",categorical variable [STATO_0000252],NA,NA,NA,Plants with well-developed leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; edge shape [PATO_0002267]; curvature [PATO_0001591],"leaf shape [TO_0000492]; leaf lamina lobes [PO_0025517]; leaf margin [PO_0020128]; leaf midvein, midrib [PO_0020139]",Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Hickey 1973 [https://doi.org/10.2307/2441319]; Wikipedia 2022 Glossary of leaf morphology [https://en.wikipedia.org/wiki/Glossary_of_leaf_morphology],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,leaf lamina lobes [http://purl.obolibrary.org/obo/PO_0025517],NA,NA,NA,A leaf shape trait [TO:0000492] which is the presence or absence of leaf lamina lobes [PO:0025517] along the leaf margin [PO:0020128] and how far the lobes extend toward the midrib [PO:0020139].,NA,trait_0011315,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011316,leaf_compoundness,Leaf compoundness,A binary trait that indicates whether a leaf lamina is simple or divided into discontinuous leaflets (compound).,See also the trait ‘leaf_division' for more detailed leaf compoundness trait values. Note that there might be some species that grade from deeply lobed simple leaves (see trait `leaf_lobation`) to compound leaves.,categorical variable [STATO_0000252],NA,NA,NA,Plants with well-developed leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],"shape [PATO_0000052]; spatial pattern, distribution [PATO_0000060]","leaf shape [TO_0000492]; simple leaf [PO_0020042]; leaflet [PO_0020049]; compound leaf [PO_0020043]; leaf midvein, midrib [PO_0020139]",Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf compoundness [TOP222] (https://top-thesaurus.org/index); exact match: Leaf compoundness [TRY:17] (https://www.try-db.org/de/de.php); exact match: leaf compoundness [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Leaf division degree [BROT:2] (http://doi.org/10.1038/sdata.2018.135),A leaf shape trait [TO:0000492] which is whether a leaf [PO:0025034] is a simple leaf [PO:0020042] or is divided into leaflets [PO:0020049] making it a compound leaf [PO:0020043].,NA,trait_0011316,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011317,leaf_lamina_division,Leaf divisions,"A trait that captures the types of lobed leaves and compound leaves, including the arrangement of the lobes or leaflets relative to the midrib or other primary veins and the number of orders of axes across which there are incisions or divisions.","This trait provides detailed description of leaf divisions, beyond what is captured in `leaf_compoundness` (simple versus compound) and `leaf_lobation` (entire versus lobed). The term 'divided' is meant to indicate lobing, such as ""trichotomously divided"", but as 'divided' is also used in some context to indicate the divisions of leaves into leaflets, it is avoided as a trait value for this trait.",categorical variable [STATO_0000252],NA,NA,NA,Plants with broad leaves.,leaf shape trait [trait_group_0011304],leaf [PO_0025034],"spatial pattern, distribution [PATO_0000060]; shape [PATO_0000052]; arrangement [NCIT_C61532]","leaf shape [TO_0000492]; leaf lamina lobes [PO_0025517]; compound leaf [PO_0020043]; leaflet [PO_0020049]; leaf midvein, midrib [PO_0020139]; leaf margin [PO_0020128]; pinnate [PATO_0000410]",Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Hickey 1973 [https://doi.org/10.2307/2441319],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,related match: Leaf compoundness [TOP222] (https://top-thesaurus.org/index); related match: Leaf compoundness [TRY:17] (https://www.try-db.org/de/de.php),"A leaf shape trait [TO:0000492] which indicates types [NCIT:C25284] of lobed leaves [PO:0025517] and compound leaves [PO:0020043], including the arrangement [NCIT:C61532] of the lobes or leaflets [PO:0020049] with respect to the midrib [PO:0020139] or other primary leaf veins [PO:0025413] and the number of orders of axes [NCIT:C25154] across which there are incisions or divisions.",leaf_division,trait_0011317,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011318,leaf_posture_numeric,Leaf lamina posture (leaf 3-dimensionality),The maximum perpendicular height of a leaf when positioned on a flat surface.,A measure of how planar versus 3-dimensional a leaf is. The term posture refers to the placement of different parts of the leaf's lamina relative to a flat plane.,continuous variable [STATO_0000251],0,100,mm,Plants with leaves,leaf shape trait [trait_group_0011304],leaf [PO_0025034],height [PATO_0000119]; shape [PATO_0000052]; 3-D extent [PATO_0001710],leaf shape [TO_0000492]; leaf lamina [PO_0020039],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Grootemaat 2017 [https://doi.org/10.1111/oik.03886],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,NA,"A leaf shape trait [TO:0000492] which is the maximum [NCIT:C25564] perpendicular [PATO:0002434] height [PATO:0000119] of a leaf [PO:0025034] placed on a flat surface, indicating the 3-D extent [PATO:0001710] of the leaf. This generally corresponds with whether the leaf is curled [FLOPO:0010468].",leaf_curliness,trait_0011318,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011319,leaf_lamina_posture,Leaf lamina posture (leaf 3-dimensional shape),"The 3-dimension shape of the surface of the leaf lamina, including its degree of curvature and bending.",NA,categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves,leaf shape trait [trait_group_0011304],leaf [PO_0025034],shape [PATO_0000052]; 3-D shape [PATO_0002266]; 3-D extent [PATO_0001710],leaf shape [TO_0000492]; leaf lamina [PO_0020039],NA,NA,7/6/2023,05/02/2024,NA,NA,NA,NA,"A leaf shape trait [TO:0000492] which is the 3-D shape [PATO:0002266] of the surface [NCIT:C25245] of the leaf lamina [PO:0020039], including its degree of curvature [PATO:0001591] and whether it is bent [PATO:0000617].",NA,trait_0011319,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011360,leaf_glaucousness,Leaf glaucousness,"Variable describing whether mature adult phase leaves have a glaucous appearance, the colour due to being covered with a smooth, usually whitish to bluish epicuticular wax that can easily be rubbed off.","The accompanying methods should specify if the trait was scored on the upper (adaxial) or lower (abaxial) surface of the leaf; in the absence of any notes, it is assumed the trait was scored on the upper (adaxial) leaf surface.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf morphology trait [trait_group_0011202],leaf [PO_0025034],colour / color [PATO_0000014]; texture [PATO_0000150],epicuticular wax [PO_0025388]; leaf lamina [PO_0020039]; waxy [PATO_0002384],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf gloss [http://purl.obolibrary.org/obo/TO_0000709],NA,NA,NA,"A leaf morphology trait [TO:0000748] which is the presence or absence of epicuticular wax [PO:0025388] on the leaf lamina [PO:0020039] of a fully expanded adult phase leaf [PO:0006340], giving the leaf lamina surface a white-coloured [PATO:0000014] or blue-coloured waxy [PATO:0002384] appearance, termed glaucous.",glaucous,trait_0011360,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011361,leaf_hairs_adult_leaves,Mature leaf hairiness,Variable describing whether mature (fully expanded) adult phase leaves on adult plants have hairs (trichomes).,"This trait captures the presence or absence of hairs on mature (fully expanded), adult phase leaves on adult plants. Best practice is to sample leaves that are recently fully expanded, since older leaves have often shed many of their hairs. The accompanying methods should specify if the trait was scored on the upper (adaxial) or lower (abaxial) surface of the leaf; in the absence of any notes, it is assumed the trait was scored on the upper (adaxial) leaf surface.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf morphology trait [trait_group_0011202],leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],leaf pubescence [TO_0002722]; leaf trichome [PO_0006504]; leaf lamina [PO_0020039]; NA [glossary_40114]; hairy [PATO_0000454]; adult vascular leaf [PO_0006340]; pilosity [PATO_0000066],Hanley 2007 [https://doi.org/10.1016/j.ppees.2007.01.001]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf lamina pubescence [http://purl.obolibrary.org/obo/TO_0000055],NA,leaf trichome density [http://purl.obolibrary.org/obo/TO_0006066],"close match: Leaf emergences (pubescence, pruinescence, hairs, spines, thorns) [TRY:677] (https://www.try-db.org/de/de.php)",A leaf pubescence trait [TO:0002722] which is the presence or absence of trichomes [PO:0006504] (hairs) on the leaf lamina [PO:0020039] of a fully expanded adult phase leaf [PO:0006340].,leaf_hairs_adult,trait_0011361,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011362,leaf_hairs_juvenile_leaves,Juvenile phase leaf hairiness,Variable describing whether fully expanded juvenile phase leaves (on adult or juvenile plants) have hairs (trichomes).,"This trait captures the presence or absence of hairs on fully-expanded juvenile phase leaves. It is best practice for the methods to specify whether these leaves were sampled from adult or juvenile plants. The accompanying methods should also specify if the trait was scored on the upper (adaxial) or lower (abaxial) surface of the leaf; in the absence of any notes, it is assumed the trait was scored on the upper (adaxial) leaf surface.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf morphology trait [trait_group_0011202],leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],leaf pubescence [TO_0002722]; leaf trichome [PO_0006504]; leaf lamina [PO_0020039]; NA [glossary_40114]; hairy [PATO_0000454]; juvenile vascular leaf [PO_0006339]; pilosity [PATO_0000066],Hanley 2007 [https://doi.org/10.1016/j.ppees.2007.01.001]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,leaf lamina pubescence [http://purl.obolibrary.org/obo/TO_0000055],leaf trichome density [http://purl.obolibrary.org/obo/TO_0006066],"close match: Leaf emergences (pubescence, pruinescence, hairs, spines, thorns) [TRY:677] (https://www.try-db.org/de/de.php)",A leaf pubescence trait [TO:0002722] which is the presence or absence of trichomes [PO:0006504] (hairs) on the leaf lamina [PO:0020039] of a juvenile vascular leaf [PO:0006339] (on adult or juvenile plants).,leaf_hairs_juvenile,trait_0011362,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011363,leaf_hairs_immature_leaves,Immature leaf hairiness,Variable describing whether immature (still expanding) adult phase leaves on adult plants have hairs (trichomes).,"This trait captures the presence or absence of hairs on immature (still expanding) leaves on adult plants. The accompanying methods should specify if the trait was scored on the upper (adaxial) or lower (abaxial) surface of the leaf; in the absence of any notes, it is assumed the trait was scored on the upper (adaxial) leaf surface.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf morphology trait [trait_group_0011202],leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],leaf pubescence [TO_0002722]; leaf trichome [PO_0006504]; leaf lamina [PO_0020039]; NA [glossary_40114]; hairy [PATO_0000454]; adult vascular leaf [PO_0006340]; vascular leaf expansion stage [PO_0001052],Hanley 2007 [https://doi.org/10.1016/j.ppees.2007.01.001]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,leaf lamina pubescence [http://purl.obolibrary.org/obo/TO_0000055],leaf trichome density [http://purl.obolibrary.org/obo/TO_0006066],"close match: Leaf emergences (pubescence, pruinescence, hairs, spines, thorns) [TRY:677] (https://www.try-db.org/de/de.php)",A leaf pubescence trait [TO:0002722] which is the presence or absence of trichomes [PO:0006504] (hairs) on the leaf lamina [PO:0020039] of an adult phase leaf [PO:0006340] still in the vascular leaf expansion stage [PO:0001052].,NA,trait_0011363,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011410,leaf_phyllotaxis,Leaf phyllotaxis,"Leaf arrangement at a stem node, indicating the relative number and position of leaves at a single stem note.","This trait only includes true phyllotaxis, the arrangement of leaves at a single node, while the trait `leaf arrangement` indicates how the leaves are presented along the entire shoot system. See the trait `stem_growth_habit` for whole-plant leaf pattern terms, such as `rosette`.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf position trait [trait_group_0011402],leaf [PO_0025034],"spatial pattern, distribution [PATO_0000060]; arrangement [NCIT_C61532]",phyllotaxy [TO_0006014]; stem node [PO_0020141],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Wikipedia 2022 Leaf arrangement on the stem [https://en.wikipedia.org/wiki/Leaf#Arrangement_on_the_stem],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,phyllotaxy [http://purl.obolibrary.org/obo/TO_0006014],NA,NA,close match: Leaf distribution along the shoot axis (arrangement type) [TRY:16] (https://www.try-db.org/de/de.php); close match: leaf_arrangement [GIFT:4.15.1] (https://gift.uni-goettingen.de),"A leaf [PO:0025034] spatial pattern [PATO:0000060] trait which is the phyllotaxy [TO:0006014] of leaves, indicating a leaf's position [TO:0000541] relative to other leaves at a stem node [PO:0020141].",NA,trait_0011410,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011411,leaf_arrangement,Leaf arrangement,"Leaf arrangement across stem nodes, indicating the 3-dimensional arrangement of leaves along the length of the stem.","Leaf arrangement, as defined for this trait, indicates patterns of leaf arrangement across nodes, including both formal terms (decussate, distichous, spiral) as well as indications of leaf clustering due to variation in internode length. See the trait `leaf phyllotaxis` for terms describing leaf arrangement at a single node. See the trait `stem_growth_habit` for whole-plant leaf pattern terms, such as `rosette`.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,leaf position trait [trait_group_0011402],leaf [PO_0025034],"spatial pattern, distribution [PATO_0000060]; arrangement [NCIT_C61532]",stem node [PO_0020141]; vegetative shoot system [PO_0025607]; phyllotaxy [TO_0006014],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ellis 2009 [https://books.google.com/books?vid=ISBN9780801475184]; Wikipedia 2022 Leaf arrangement on the stem [https://en.wikipedia.org/wiki/Leaf#Arrangement_on_the_stem],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,close match: Leaf distribution along the shoot axis (arrangement type) [TRY:16] (https://www.try-db.org/de/de.php); close match: leaf_arrangement [GIFT:4.15.1] (https://gift.uni-goettingen.de),"A leaf [PO:0025034] spatial pattern [PATO:0000060] trait which is the position [TO:0000541] and arrangement [NCIT:C61532] of leaves between stem nodes [PO:0020141], indicating how leaves align and cluster along the vegetative shoot system [PO:0025607].",NA,trait_0011411,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011412,leaf_axil_angle,Leaf axil angle,The angle between a shoot and a leaf that connects to the shoot axis.,"This trait records the angle between the upper surface of a leaf and the stem to which it is attached. The slope of the leaf lamina relative to the solar zenith is a separate trait, `leaf_inclination_angle`.",continuous variable [STATO_0000251],0,180,deg,Plants with leaves,leaf position trait [trait_group_0011402],leaf [PO_0025034],"angle [PATO_0002326]; orientation [PATO_0000133]; spatial pattern, distribution [PATO_0000060]",leaf axil [PO_0009023]; leaf attitude [TO_0000824]; leaf lamina [PO_0020039]; leaf angle [TO_0000206],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,leaf angle [http://purl.obolibrary.org/obo/TO_0000206],NA,NA,"related match: Leaf angle (inclination, orientation) [TRY:3] (https://www.try-db.org/de/de.php)","A leaf position trait [TO:0000541] which is the angle [PATO:0002326] of a leaf axil [PO:0009023], the space between a leaf [PO:0025034] and the stem [PO:0009047] to which it is attached.",NA,trait_0011412,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011413,leaf_inclination_angle,Leaf inclination angle,"The inclination angle of the upper (adaxial) leaf lamina surface relative to a horizontal plane, such that a leaf surface facing the solar zenith has an angle of 0.","This trait records the slope of the leaf lamina relative to the ground surface. The angle between a stem and the leaf lamina is a separate trait, `leaf_axil_angle`. Complanate leaves can be scored as having a `leaf_inclination_angle` of 0.",continuous variable [STATO_0000251],-90,90,deg,Plants with leaves,leaf position trait [trait_group_0011402],leaf [PO_0025034],"angle [PATO_0002326]; orientation [PATO_0000133]; spatial pattern, distribution [PATO_0000060]",leaf lamina [PO_0020039]; solar zenith angle [ECSO_00002723]; leaf attitude [TO_0000824],Niinemets 2010 [https://doi.org/10.1007/s11284-010-0712-4]; Falster 2003b [https://doi.org/10.1046/j.1469-8137.2003.00765.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,leaf attitude [http://purl.obolibrary.org/obo/TO_0000824],NA,"exact match: Leaf angle (inclition, orientation) [TRY:3] (https://www.try-db.org/de/de.php)","A leaf position trait [TO:0000541] which is the inclination angle [PATO:0002326] of the adaxial [PATO:0002047] leaf lamina [PO:0020039] surface relative to a horizontal [PATO:0001855] plane, such that an adaxial leaf surface facing the solar zenith [ECSO:00002723] has an angle of 0.",leaf_angle,trait_0011413,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011414,leaf_pendulousness,Leaf pendulousness,"Binary variable describing whether leaves are pendulous, hanging loosely downward and possessing the ability to flutter.","This is a binary categorical trait, scoring whether leaves are pendulous and therefore hanging loosely downward and able to flutter. Two additional traits, `leaf_inclination_angle` and `leaf_axil_angle` document the actual angle of the leaf lamina relative to, respectively, the solar zenith and the stem.",categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves,leaf position trait [trait_group_0011402],leaf [PO_0025034],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]; angle [PATO_0002326]",leaf angle [TO_0000206]; NA [glossary_40066],Curtis 2012 [https://doi.org/10.1071/BT11284],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,leaf attitude [http://purl.obolibrary.org/obo/TO_0000824],NA,"close match: Leaf angle (inclination, orientation) [TRY:3] (https://www.try-db.org/de/de.php)","A leaf position trait [TO:0000541] which indicates whether leaves [PO:0025034] are pendulous [APD:glossary/40066], hanging loosely downward and possessing the ability to flutter.",pendulous_leaves,trait_0011414,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011510,leaf_cuticle_thickness_abaxial,Cuticle thickness on the lower leaf surface,Thickness of the cuticle on the lower leaf surface.,NA,continuous variable [STATO_0000251],0.1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],plant cuticle [PO_0000022]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,plant cuticle thickness [http://purl.obolibrary.org/obo/FLOPO_0004243],NA,close match: Leaf cuticula thickness [TRY:716] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of cuticle [PO:0000022] on the abaxial [PATO:0002046] (lower) leaf lamina [PO:0020039].,lower_cuticle_thickness,trait_0011510,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011511,leaf_cuticle_thickness_adaxial,Cuticle thickness on the upper leaf surface,Thickness of the cuticle on the upper leaf surface.,NA,continuous variable [STATO_0000251],0.1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],plant cuticle [PO_0000022]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,plant cuticle thickness [http://purl.obolibrary.org/obo/FLOPO_0004243],NA,close match: Leaf cuticula thickness [TRY:716] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of cuticle [PO:0000022] on the adaxial [PATO:0002047] (upper) leaf lamina [PO:0020039].,upper_cuticle_thickness,trait_0011511,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011512,leaf_epidermis_thickness,Leaf epidermis thickness,"Thickness of the epidermis, where the leaf lamina side is not specified.",NA,continuous variable [STATO_0000251],1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; epidermis [PO_0005679]; leaf lamina [PO_0020039]; abaxial [PATO_0002046]; adaxial [PATO_0002047],NA,NA,14/07/2021,05/02/2024,NA,epidermis thickness [http://purl.obolibrary.org/obo/FLOPO_0018653],NA,exact match: Leaf epidermis thickness [TRY:101] (https://www.try-db.org/de/de.php),"A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of epidermis [PO:0005679] tissue [CARO:0000043] , in samples where the leaf lamina [PO:0020039] side (abaxial [PATO:0002046] versus adaxial [PATO:0002047]) is not specified.",epidermis_thickness,trait_0011512,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011513,leaf_epidermis_thickness_abaxial,Lower leaf side epidermis thickness,Thickness of the epidermis on the lower side of the leaf.,NA,continuous variable [STATO_0000251],1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; epidermis [PO_0005679]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,epidermis thickness [http://purl.obolibrary.org/obo/FLOPO_0018653],NA,close match: Leaf epidermis thickness [TRY:101] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of epidermis [PO:0005679] tissue [CARO:0000043] on the abaxial [PATO:0002046] (lower) side of the leaf lamina [PO:0020039].,epidermis_thickness_lower_leaf_surface,trait_0011513,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011514,leaf_epidermis_thickness_adaxial,Upper leaf side epidermis thickness,Thickness of the epidermis on the upper side of the leaf.,NA,continuous variable [STATO_0000251],1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; epidermis [PO_0005679]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,epidermis thickness [http://purl.obolibrary.org/obo/FLOPO_0018653],NA,close match: Leaf epidermis thickness [TRY:101] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of epidermis [PO:0005679] tissue [CARO:0000043] on the adaxial [PATO:0002047] (upper) side of the leaf lamina [PO:0020039].,epidermis_thickness_upper_leaf_surface,trait_0011514,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011515,leaf_epidermal_cell_density_both_sides,Average leaf epidermal cell density,Epidermal cell density averaged across the upper and lower sides of the leaf.,NA,continuous variable [STATO_0000251],100,10000,{count}/mm2,NA,plant cell morphology trait [trait_group_0011503]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],cell [CL_0000000]; epidermal cell [PO_0004013]; abaxial [PATO_0002046]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A plant cell morphology trait [TO:0002683] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of epidermal cells [PO:0004013] to leaf lamina [PO:0020039] area [PATO_0001323], averaged across the abaxial [PATO:0002046] (lower) and adaxial [PATO:0002047] (upper) sides of the leaf lamina.",epidermal_cell_density_both_sides,trait_0011515,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011516,leaf_epidermal_cell_density_abaxial,Lower leaf side epidermal cell density,Epidermal cell density on the lower side of the leaf.,NA,continuous variable [STATO_0000251],100,10000,{count}/mm2,NA,plant cell morphology trait [trait_group_0011503]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],cell [CL_0000000]; epidermal cell [PO_0004013]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant cell morphology trait [TO:0002683] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of epidermal cells [PO:0004013] on the abaxial [PATO:0002046] (lower) side of the leaf lamina [PO:0020039] to leaf lamina area [PATO_0001323].,epidermal_cell_density_abaxial,trait_0011516,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011517,leaf_epidermal_cell_density_adaxial,Upper leaf side epidermal cell density,Epidermal cell density on the upper side of the leaf.,NA,continuous variable [STATO_0000251],100,10000,{count}/mm2,NA,plant cell morphology trait [trait_group_0011503]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],cell [CL_0000000]; epidermal cell [PO_0004013]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant cell morphology trait [TO:0002683] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of epidermal cells [PO:0004013] on the adaxial [PATO:0002047] (upper) side of the leaf lamina [PO:0020039] to leaf lamina area [PATO_0001323].,epidermal_cell_density_adaxial,trait_0011517,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011518,leaf_hypodermis_thickness_abaxial,Lower leaf side hypodermis thickness,Thickness of the hypodermis on the lower side of the leaf.,NA,continuous variable [STATO_0000251],1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; hypodermis [PO_0005051]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Leaf hypodermis thickness [TRY:806] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of hypodermis [PO:0005051] tissue [CARO:0000043] on the abaxial [PATO:0002046] (lower) side of the leaf lamina [PO:0020039].,lower_hypodermis_thickness,trait_0011518,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011519,leaf_hypodermis_thickness_adaxial,Upper leaf side hypodermis thickness,Thickness of the hypodermis on the upper side of the leaf.,NA,continuous variable [STATO_0000251],1,100,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; hypodermis [PO_0005051]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Leaf hypodermis thickness [TRY:806] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of hypodermis [PO:0005051] tissue [CARO:0000043] on the adaxial [PATO:0002047] (upper) side of the leaf lamina [PO:0020039].,upper_hypodermis_thickness,trait_0011519,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011520,leaf_palisade_tissue_thickness_abaxial,Lower palisade mesophyll thickness,Thickness of palisade mesophyll tissue on the lower side of the leaf.,NA,continuous variable [STATO_0000251],10,1000,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; palisade mesophyll [PO_0005648]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of palisade mesophyll [PO:0005648] tissue [CARO:0000043] on the abaxial [PATO:0002046] (lower) side of the leaf lamina [PO:0020039].,lower_palisade_cell_thickness,trait_0011520,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011521,leaf_palisade_tissue_thickness_adaxial,Upper palisade mesophyll thickness,Thickness of palisade mesophyll tissue on the upper side of the leaf.,NA,continuous variable [STATO_0000251],10,1000,um,NA,portion of plant tissue morphology trait [trait_group_0011502],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; palisade mesophyll [PO_0005648]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of palisade mesophyll [PO:0005648] tissue [CARO:0000043] on the adaxial [PATO:0002047] (upper) side of the leaf lamina [PO:0020039].,upper_palisade_cell_thickness,trait_0011521,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011522,leaf_palisade_cell_length,Palisade cell length,Length of individual leaf palisade cells.,NA,continuous variable [STATO_0000251],10,1000,um,NA,plant cell morphology trait [trait_group_0011503]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],length [PATO_0000122],cell [CL_0000000]; palisade mesophyll cell [PO_0006206]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,plant cell length [http://purl.obolibrary.org/obo/TO_0020107],NA,A plant cell morphology trait [TO:0002683] which is the length [PATO:0000122] of individual palisade mesophyll cells [PO:0006206].,palisade_cell_length,trait_0011522,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011523,leaf_palisade_cell_width,Palisade cell width,Width of individual leaf palisade cells.,NA,continuous variable [STATO_0000251],1,50,um,NA,plant cell morphology trait [trait_group_0011503]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],width [PATO_0000921],cell [CL_0000000]; palisade mesophyll cell [PO_0006206]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant cell morphology trait [TO:0002683] which is the width [PATO:0000921] of individual palisade mesophyll cells [PO:0006206].,palisade_cell_width,trait_0011523,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011524,leaf_palisade_layer_number,Number of layers of palisade cells,The number of layers of palisade cells in a leaf.,NA,continuous variable [STATO_0000251],1,10,{count},NA,portion of plant tissue morphology trait [trait_group_0011502]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],has number of [PATO_0001555]; count [NCIT_C25463],cell [CL_0000000]; palisade mesophyll cell [PO_0006206]; palisade mesophyll [PO_0005648]; leaf lamina [PO_0020039]; tissue [CARO_0000043],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A portion of plant tissue morphology trait [TO:0000843] which is the count [NCIT:C25463] of cell layers [UBERON:0000119] of palisade mesophyll cells [PO:0006206].,palisade_layer_number,trait_0011524,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011525,leaf_spongy_mesophyll_thickness,Spongy mesophyll cell thickness,Thickness of spongy mesophyll tissue in a leaf.,NA,continuous variable [STATO_0000251],10,1000,um,NA,portion of plant tissue morphology trait [trait_group_0011502]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],thickness [PATO_0000915],tissue [CARO_0000043]; spongy mesophyll [PO_0005647]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf mesophyll spongiophyll thickness [TRY:805] (https://www.try-db.org/de/de.php),A portion of plant tissue morphology trait [TO:0000843] which is the thickness [PATO:0000915] of spongy mesophyll [PO:0005647] tissue [CARO:0000043] within the leaf lamina [PO:0020039].,spongy_mesophyll_thickness,trait_0011525,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011526,cell_cross-sectional_area,Cell cross-sectional area,Cell cross-sectional area.,This trait can be used to map the area of cell types that are not already explicitly listed as their own trait. The cell type and tissue/organ being measured needs to be specified under `measurement_remarks` or as a `method_context`.,continuous variable [STATO_0000251],100,10000,um2,NA,plant cell morphology trait [trait_group_0011503],whole plant [PO_0000003],area [PATO_0001323]; 2-D extent [PATO_0001709]; size [PATO_0000117],cell [CL_0000000]; plant cell size [TO_0002684]; cross section [NCIT_C63795],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Leaf epidermis cell area [TRY:338] (https://www.try-db.org/de/de.php); close match: Leaf mesophyll cell area [TRY:573] (https://www.try-db.org/de/de.php),A plant cell size [TO:0002684] trait which is the cross-sectional [NCIT:C63795] area [PATO:0001323] of a cell [CL:0000000].,NA,trait_0011526,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011610,leaf_stomatal_density_abaxial,Stomatal density on the lower leaf surface,Density of stomata on the lower leaf surface.,NA,continuous variable [STATO_0000251],1,1000,{count}/mm2,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],leaf stomatal complex frequency [TO_0000566]; stomata; stomatal pore [PO_0008032]; abaxial [PATO_0002046]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,abaxial stomatal frequency [http://purl.obolibrary.org/obo/TO_0000529],Stomatal density [https://cropontology.org/rdf/CO_357:0000245],NA,exact match: Stomata density abaxial [TOP371] (https://top-thesaurus.org/index); close match: Stomata density [TRY:63] (https://www.try-db.org/de/de.php),A leaf stomatal complex frequency trait [TO:0000566] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of stomata [PO:0008032] on the abaxial [PATO:0002046] (lower) leaf lamina [PO:0020039] to the leaf lamina area [PATO:0001323].,stomatal_density_abaxial,trait_0011610,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011611,leaf_stomatal_density_adaxial,Stomatal density on the upper leaf surface,Density of stomata on the upper leaf surface.,NA,continuous variable [STATO_0000251],0,1000,{count}/mm2,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],leaf stomatal complex frequency [TO_0000566]; stomata; stomatal pore [PO_0008032]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,adaxial stomatal frequency [http://purl.obolibrary.org/obo/TO_0000530],Stomatal density [https://cropontology.org/rdf/CO_357:0000245],NA,exact match: Stomata density adaxial [TOP372] (https://top-thesaurus.org/index); close match: Stomata density [TRY:63] (https://www.try-db.org/de/de.php),A leaf stomatal complex frequency trait [TO:0000566] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of stomata [PO:0008032] on the adaxial [PATO:0002047] (upper) leaf lamina [PO:0020039] to the leaf lamina area [PATO:0001323].,stomatal_density_adaxial,trait_0011611,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011612,leaf_stomatal_density_average,Stomatal density averaged across both leaf surfaces,Density of stomata averaged across both leaf surfaces.,NA,continuous variable [STATO_0000251],0,1000,{count}/mm2,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; per unit area [EnvThes:22003],leaf stomatal complex frequency [TO_0000566]; stomata; stomatal pore [PO_0008032]; abaxial [PATO_0002046]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,Stomatal density [https://cropontology.org/rdf/CO_357:0000245],NA,NA,exact match: Stomata density trait [TOP370] (https://top-thesaurus.org/index); exact match: Stomata density [TRY:63] (https://www.try-db.org/de/de.php),"A leaf stomatal complex frequency trait [TO:0000566] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of stomata [PO:0008032] to leaf lamina [PO:0020039] area [PATO:0001323], averaged the across the abaxial [PATO:0002046] and adaxial [PATO:0002047] sides of the leaf lamina.",stomatal_density_average,trait_0011612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011613,leaf_stomatal_distribution,Stomatal distribution,Distribution of stomatal across the two leaf surfaces.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],"spatial pattern, distribution [PATO_0000060]",leaf stomatal complex frequency [TO_0000566]; stomata; stomatal pore [PO_0008032]; abaxial [PATO_0002046]; adaxial [PATO_0002047]; leaf lamina [PO_0020039],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Stomata distribution to ab- and adaxial leaf surfaces [TRY:781] (https://www.try-db.org/de/de.php),A leaf stomatal complex frequency trait [TO:0000566] which indicates whether stomata [PO:0008032] occur on the abaxial [PATO:0002046] and/or adaxial [PATO:0002047] leaf lamina [PO:0020039].,stomatal_distribution,trait_0011613,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011614,leaf_stomatal_hairs,Stomatal hairiness,"Variable indicating if stomata are covered by hairs and, if hairy, the density of hairs present.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],texture [PATO_0000150]; pilosity [PATO_0000066],leaf stomatal complex frequency [TO_0000566]; stomata; stomatal pore [PO_0008032]; hairy [PATO_0000454],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A leaf stomatal complex frequency trait [TO:0000566] which is the pilosity [PATO:0000066] (hairiness) of the stomatal pores [PO:0008032].,stomatal_hairs,trait_0011614,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011615,leaf_guard_cell_length,Guard cell length,Length of guard cells.,NA,continuous variable [STATO_0000251],10,200,um,NA,leaf stomatal complex morphology trait [trait_group_0011602],leaf [PO_0025034],length [PATO_0000122],cell [CL_0000000]; leaf stomatal complex frequency [TO_0000566]; guard cell [PO_0000293]; stomata; stomatal pore [PO_0008032],NA,NA,14/07/2021,05/02/2024,NA,NA,plant cell length [http://purl.obolibrary.org/obo/TO_0020107],exact match: Stomata guard cell size [TRY:733] (https://www.try-db.org/de/de.php),A leaf stomatal complex frequency trait [TO:0000566] which indicates the length [PATO:0000122] of a guard cell [PO:0000293].,guard_cell_length,trait_0011615,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011710,leaf_transmission,Leaf visible light transmission,Proportion of incoming visible light (between 400-700 nm) that is transmitted through a leaf.,NA,continuous variable [STATO_0000251],0.001,1,umol/umol,NA,leaf optical properties trait [trait_group_0011702],leaf [PO_0025034],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; electromagnetic property [ElectromagneticProperty]; radiation [ENVO_01001023],optics [NCIT_C16940]; visible light [NCIT_C17732]; transmission [Transmission]; photosynthetically active radiation [ENVO_01001864],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf light transmittance [TRY:535] (https://www.try-db.org/de/de.php),A leaf [PO:0025034] optical [NCIT:C16940] properties trait which is the proportion [PATO:0001470] of incoming visible light [NCIT:C17732] that is transmitted [SWEET:procWave/Transmission] through a leaf.,NA,trait_0011710,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011711,leaf_absorption,Leaf visible light absorption,Proportion of incoming visible light (between 400-700 nm) that is absorbed by a leaf.,NA,continuous variable [STATO_0000251],0.01,1,umol/umol,NA,leaf optical properties trait [trait_group_0011702],leaf [PO_0025034],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; electromagnetic property [ElectromagneticProperty]; radiation [ENVO_01001023],optics [NCIT_C16940]; visible light [NCIT_C17732]; absorption [Absorption]; photosynthetically active radiation [ENVO_01001864],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf light absorption (extinction) [TRY:10] (https://www.try-db.org/de/de.php),A leaf [PO:0025034] optical [NCIT:C16940] properties trait which is the proportion [PATO:0001470] of incoming visible light [NCIT:C17732] that is absorbed [SWEET:procWave/Absorption] by a leaf.,NA,trait_0011711,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011712,leaf_reflectance,Leaf visible light reflection,Proportion of incoming visible light (between 400-700 nm) that is reflected by a leaf.,NA,continuous variable [STATO_0000251],0.01,1,umol/umol,NA,leaf optical properties trait [trait_group_0011702],leaf [PO_0025034],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; electromagnetic property [ElectromagneticProperty]; radiation [ENVO_01001023],optics [NCIT_C16940]; visible light [NCIT_C17732]; reflection [Reflection]; photosynthetically active radiation [ENVO_01001864],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A leaf [PO:0025034] optical [NCIT:C16940] properties trait which is the proportion [PATO:0001470] of incoming visible light [NCIT:C17732] that is reflected [SWEET:procWave/Reflection] by a leaf.,NA,trait_0011712,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011713,leaf_reflectance_near_infrared,Leaf infra-red light reflection,Proportion of incoming near infra-red light (between 750-10500 nm) that is reflected by a leaf.,NA,continuous variable [STATO_0000251],0.1,1,umol/umol,NA,leaf optical properties trait [trait_group_0011702],leaf [PO_0025034],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; electromagnetic property [ElectromagneticProperty]; radiation [ENVO_01001023],infrared radiation [ENVO_21001214]; optics [NCIT_C16940]; reflection [Reflection]; radiation [ENVO_01001023],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A leaf [PO:0025034] optical [NCIT:C16940] properties trait which is the proportion [PATO:0001470] of incoming infrared radiation [ENVO:21001214] that is reflected [SWEET:procWave/Reflection] by a leaf.,NA,trait_0011713,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011811,stem_cross_sectional_area,Stem cross-sectional area,"Cross-sectional area of a stem, including both wood and bark.","This is not a trait itself, since it is dependent on the location sampled. However, values might be reported that are effectively contexts for another trait, such as bark thickness or Huber value.",continuous variable [STATO_0000251],1,1000,mm2,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],area [PATO_0001323]; size [PATO_0000117],cross section [NCIT_C63795],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A stem morphology trait [TO:0000361] which is the cross-sectional [NCIT:C63795] area [PATO:0001323] of a stem [PO:0009047] segment which includes the bark [PO:0004518].,stem_cross_section_area,trait_0011811,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011812,sapwood_cross_sectional_area,Wood cross-sectional area,Cross-sectional area of a stem without bark.,"This is not a trait itself, since it is dependent on the location sampled. However, values might be reported that are effectively contexts for another trait, such as bark thickness or Huber value. Although it is defined as the diameter of the entire stem without bark, it is generally measured on narrow branches that have not yet developed heartwood and therefore is the cross-section of sapwood.",continuous variable [STATO_0000251],1,1000,mm2,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],area [PATO_0001323]; size [PATO_0000117],"sapwood [PO_0004513]; cross section [NCIT_C63795]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A stem morphology trait [TO:0000361] which is the cross-sectional [NCIT:C63795] area [PATO:0001323] of a stem [PO:0009047] segment from which the bark [PO:0004518] has been removed; this includes both sapwood [PO:0004513] and, if present heartwood [PO:0004512].",stem_cross_sectional_area_no_bark,trait_0011812,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011813,branch_terminal_twig_cross_sectional_area,Terminal twig cross-sectional area,"Cross-sectional area of the terminal twig, measured just beyond the final branching node.",NA,continuous variable [STATO_0000251],0.05,50,mm2,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],area [PATO_0001323]; size [PATO_0000117],branch [PO_0025073]; cross section [NCIT_C63795],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A stem morphology trait [TO:0000361] which is the cross-sectional [NCIT:C63795] area [PATO:0001323] of the most distal [PATO:0001234] branch [PO:0025073].,twig_area,trait_0011813,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011814,branch_terminal_twig_length,Terminal twig length,"Length of the terminal twig, the length of stem beyond the final branching node.",NA,continuous variable [STATO_0000251],1,1000,mm,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],length [PATO_0000122],branch [PO_0025073],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Twig length [TRY:1202] (https://www.try-db.org/de/de.php),A stem morphology trait [TO:0000361] which is the length [PATO:0000122] of the most distal [PATO:0001234] branch [PO:0025073].,twig_length,trait_0011814,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011815,wood_density,Wood density,"The ratio of wood dry mass to wood fresh volume, measured on a stem segment without bark.",NA,continuous variable [STATO_0000251],0.05,1.4,mg/mm3,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],"mass [PATO_0000125]; volume density [PATO_0001353]; ratio; proportion [PATO_0001470]; mass density, density [PATO_0001019]","wood [NCIT_C93062]; wood, secondary xylem [PO_0005848]; biomass allocation [EnvThes:21360]",NA,NA,14/07/2021,05/02/2024,"secondary xylem volumetric density, wood volumetric density [http://purl.obolibrary.org/obo/TO_1000002]; Wood density [https://cropontology.org/rdf/CO_357:0000133]",NA,NA,exact match: Wood density [TOP284] (https://top-thesaurus.org/index); exact match: Stem specific density (SSD) or wood density (stem dry mass per stem fresh volume) [TRY:4] (https://www.try-db.org/de/de.php); exact match: Stem specific density (SSD) [GIFT:4.3] (https://gift.uni-goettingen.de); exact match: stem wood density [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Stem specific density [BROT:11] (http://doi.org/10.1038/sdata.2018.135),A stem morphology trait [TO:0000361] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of a unit of wood [NCIT:C93062] from a stem [PO:0009047] assessed after drying to its volume [PATO:0000918] assessed without drying.,NA,trait_0011815,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011816,stem_density,Herbaceous stem density,"The ratio of stem dry mass to stem fresh volume, measured on an herbaceous stem segment.",This trait is specifically for non-woody or partially woody stems that otherwise are outliers for wood density,continuous variable [STATO_0000251],0.1,1.4,mg/mm3,NA,stem morphology trait [trait_group_0011802],stem [PO_0009047],"mass [PATO_0000125]; volume density [PATO_0001353]; ratio; proportion [PATO_0001470]; mass density, density [PATO_0001019]",herbaceous [PATO_0002352]; biomass allocation [EnvThes:21360],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Stem specific density (SSD) or wood density (stem dry mass per stem fresh volume) [TRY:4] (https://www.try-db.org/de/de.php); exact match: Stem specific density (SSD) [GIFT:4.3] (https://gift.uni-goettingen.de); exact match: stem wood density [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Stem specific density [BROT:11] (http://doi.org/10.1038/sdata.2018.135),A stem morphology trait [TO:0000361] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of a unit of herbaceous [PATO:0002352] stem [PO:0009047] assessed after drying to its volume [PATO:0000918] assessed without drying.,NA,trait_0011816,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011911,huber_value,Huber value,"For a single branch, the ratio of sapwood cross-sectional area at the base of the branch to the branch's total leaf area.",NA,continuous variable [STATO_0000251],1e-6,0.2,mm2{sapwood}/mm2{leaf},NA,stem morphology trait [trait_group_0011802],leaf [PO_0025034]; stem [PO_0009047],area [PATO_0001323]; size [PATO_0000117]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470],sapwood [PO_0004513]; biomass allocation [EnvThes:21360],Tyree & Ewers 1991 [https://doi.org/10.1111/j.1469-8137.1991.tb00035.x],NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Stem sapwood cross-sectional area per supported leaf surface area (Huber value) [TRY:171] (https://www.try-db.org/de/de.php),A stem morphology trait [TO:0000361] which is the ratio [PATO:0001470] of sapwood [PO:0004513] area [PATO:0001323] to the total distal [PATO:0001234] leaf [PO:0025034] area.,NA,trait_0011911,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011912,leaf_mass_to_stem_mass_ratio,Leaf dry mass to stem dry mass ratio,The ratio of whole plant leaf dry mass to whole plant stem dry mass.,NA,continuous variable [STATO_0000251],0.01,10,g/g,NA,leaf mass trait [trait_group_0011206]; stem mass trait [trait_group_0011902],leaf [PO_0025034]; stem [PO_0009047]; whole plant [PO_0000003],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],biomass allocation [EnvThes:21360]; NA [glossary_40080]; NA [glossary_40076],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A plant dry mass trait [TO:0000352] which is the ratio [PATO:0001470] of a plant's total leaf [PO:0025034] dry [PATO:0001824] mass [PATO:0000125] to its total stem [PO:0009047] and branch [PO:0025073] dry mass.,leaf_mass_to_stem_mass,trait_0011912,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011913,stem_mass_to_shoot_mass_ratio,Stem dry mass to vegetative shoot dry mass ratio (support fraction),"The ratio of whole plant stem dry mass to whole plant vegetative shoot dry mass. That is, the proportion of aboveground vegetative biomass that is comprised of stems and branches, rather than leaves; support fraction.",NA,continuous variable [STATO_0000251],0,1,g/g,NA,leaf mass trait [trait_group_0011206]; stem mass trait [trait_group_0011902],leaf [PO_0025034]; stem [PO_0009047]; whole plant [PO_0000003],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],branch [PO_0025073]; vegetative shoot system [PO_0025607]; biomass allocation [EnvThes:21360]; NA [glossary_40080]; NA [glossary_40076],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"close match: Plant biomass and allometry: Supportive structure (stem, twig, leaf petiole, leaf sheeth) dry mass p [TRY:3059] (https://www.try-db.org/de/de.php)",A plant dry mass trait [TO:0000352] which is the ratio [PATO:0001470] of stem [PO:0009047] and branch [PO:0025073] dry [PATO:0001824] mass [PATO:0000125] to vegetative shoot system [PO:0025607] dry mass.,support_fraction,trait_0011913,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011914,branch_mass_fraction,Side branch dry mass to whole plant dry mass ratio,"The ratio of side branch dry mass to whole plant dry mass. That is, the proportion of total plant biomass that is comprised of all branches off the main shoot axis.",NA,continuous variable [STATO_0000251],0,1,mg/mg,NA,stem mass trait [trait_group_0011902],stem [PO_0009047]; whole plant [PO_0000003],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],branch [PO_0025073]; biomass allocation [EnvThes:21360]; NA [glossary_40081],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Plant biomass and allometry: branch dry mass per plant dry mass [TRY:137] (https://www.try-db.org/de/de.php),A plant dry mass trait [TO:0000352] which is the ratio [PATO:0001470] of side branch [PO:0025073] dry [PATO:0001824] mass [PATO:0000125] to whole plant [PO:0000003] dry mass.,NA,trait_0011914,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011915,stem_dry_matter_content,Stem dry matter content (SDMC),The ratio of stem (or branch) dry mass to stem (or branch) fresh mass; SDMC.,A related trait is `stem_water_content_per_saturated_mass`.,continuous variable [STATO_0000251],100,1000,mg/g,NA,stem mass trait [trait_group_0011902],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],branch [PO_0025073]; NA [glossary_40044]; water [CHEBI_15377],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Stem dry mass per stem fresh mass (stem dry matter content, StDMC) [TRY:1181] (https://www.try-db.org/de/de.php)",A stem mass trait [TO:0000952] which is the ratio [PATO:0001470] of stem [PO:0009047] (or branch [PO:0025073]) dry [PATO:0001824] mass [PATO:0000125] to stem (or branch) fresh mass [APD:glossary/40044].,NA,trait_0011915,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011916,stem_water_content_per_saturated_mass,Stem water content per unit saturated stem mass,"The ratio of the mass of water in a stem (stem water content) to total stem mass, measured in a saturated stem. A saturated stem is one that has been hydrated to its maximal water holding capacity and is at full turgor.",A related trait is `stem_dry_matter_content`.,continuous variable [STATO_0000251],0.1,10,g/g,NA,stem mass trait [trait_group_0011902],stem [PO_0009047],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],water [CHEBI_15377]; water holding capacity [IOBC:200906064703668091]; turgor [PATO_0001620]; NA [glossary_40044],NA,NA,14/07/2021,05/02/2024,NA,NA,stem moisture content [http://purl.obolibrary.org/obo/TO_0003035],close match: Wood (sapwood) water content [TRY:1097] (https://www.try-db.org/de/de.php),"A stem mass trait [TO:0000952] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a stem [PO:0009047] to stem fresh mass [APD:glossary/40044] in a stem that is at maximum [NCIT:C25564] water holding capacity [IOBC:200906064703668091], known as full turgor [PATO:0001620].",NA,trait_0011916,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0011917,stem_mass_fraction,Stem mass fraction,"The ratio of stem dry mass to whole plant dry mass. That is, the proportion of total plant biomass that is comprised of stems and branches.",NA,continuous variable [STATO_0000251],0.01,1,g/g,NA,stem mass trait [trait_group_0011902],stem [PO_0009047]; whole plant [PO_0000003],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],biomass allocation [EnvThes:21360]; NA [glossary_40080]; NA [glossary_40081],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Plant biomass and allometry: Stem dry mass per plant dry mass per plant [TRY:136] (https://www.try-db.org/de/de.php); related match: stem dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A plant dry mass trait [TO:0000352] which is the ratio [PATO:0001470] of whole plant [PO:0000003] stem [PO:0009047] dry [PATO:0001824] mass [PATO:0000125] to whole plant dry mass [APD:glossary/40080].,NA,trait_0011917,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012010,bark_morphology_eucalyptus,"Bark morphology, Eucalyptus",Broad categories that describe the texture of Eucalyptus bark.,"This trait just records the morphology of taxa in the genera Eucalyptus, Corymbia, and Angophora.",categorical variable [STATO_0000252],NA,NA,NA,"taxa in the genera Eucalyptus, Corymbia, and Angophora",bark morphology trait [trait_group_0012002],bark [PO_0004518],structure [PATO_0000141]; texture [PATO_0000150],NA,NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A bark morphology trait which is the texture [PATO:0000150] of the bark [PO:0004518] of Eucalyptus taxa.,NA,trait_0012010,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012011,bark_thickness,Bark thickness,Thickness of the bark on the stem.,"The corresponding stem diameter should also be recorded so that a scaled measure, the bark thickness to stem diameter ratio, can also be calculated.",continuous variable [STATO_0000251],0.01,200,mm,NA,bark morphology trait [trait_group_0012002],bark [PO_0004518],thickness [PATO_0000915],NA,NA,NA,14/07/2021,05/02/2024,Bark thickness [https://cropontology.org/rdf/CO_357:0000007],NA,NA,exact match: Bark thickness [TOP283] (https://top-thesaurus.org/index); exact match: Bark thickness [TRY:24] (https://www.try-db.org/de/de.php); exact match: Bark thickness (inner bark) [TRY:3355] (https://www.try-db.org/de/de.php); exact match: Bark thickness (outer bark) [TRY:3356] (https://www.try-db.org/de/de.php); exact match: Average bark thickness [BROT:9] (http://doi.org/10.1038/sdata.2018.135),"A bark morphology trait which is the thickness [PATO:0000915] of the bark [PO:0004518]. The corresponding stem [PO:0009047] diameter [PATO:0001334] should also be recorded so that a scaled measure, the bark thickness to stem diameter ratio, can also be calculated.",NA,trait_0012011,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012012,bark_thickness_index,Scaled bark thickness,"The ratio of two times a single bark thickness measure to stem diameter, to adjust for increasing bark thickness with increasing stem diameter.",NA,continuous variable [STATO_0000251],0.001,1,mm/mm,NA,bark morphology trait [trait_group_0012002],bark [PO_0004518]; stem [PO_0009047],thickness [PATO_0000915]; index [NCIT_C25390],biomass allocation [EnvThes:21360],Lawes 2013 [https://doi.org/10.1111/1365-2745.12035],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Bark thickness [TOP283] (https://top-thesaurus.org/index); close match: Bark thickness [TRY:24] (https://www.try-db.org/de/de.php); close match: Bark thickness (inner bark) [TRY:3355] (https://www.try-db.org/de/de.php); close match: Bark thickness (outer bark) [TRY:3356] (https://www.try-db.org/de/de.php),A bark morphology trait which is the ratio [PATO:0001470] of two times bark [PO:0004518] thickness [PATO:0000915] to the stem [PO:0009047] diameter [PATO:0001334].,NA,trait_0012012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012013,bark_density,Bark density,The ratio of bark dry mass to bark fresh volume.,NA,continuous variable [STATO_0000251],0.1,1.1,mg/mm3,NA,bark morphology trait [trait_group_0012002],bark [PO_0004518],"mass [PATO_0000125]; volume density [PATO_0001353]; ratio; proportion [PATO_0001470]; mass density, density [PATO_0001019]",biomass allocation [EnvThes:21360],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Bark density [TOP282] (https://top-thesaurus.org/index); exact match: Bark density (bark dry mass per bark volume) [TRY:248] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of bark [PO:0004518] dry [PATO:0001824] mass [PATO:0000125] to the corresponding fresh [EnvThes:21976] bark volume [PATO:0000918].,NA,trait_0012013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012014,bark_dry_mass_per_surface_area,Bark dry mass per unit bark surface area,The ratio of bark dry mass to bark surface area.,NA,continuous variable [STATO_0000251],0.01,1,g/cm2,NA,bark morphology trait [trait_group_0012002],bark [PO_0004518],"mass [PATO_0000125]; area density [PATO_0001351]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; mass density, density [PATO_0001019]",biomass allocation [EnvThes:21360],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of bark [PO:0004518] dry [PATO:0001824] mass [PATO:0000125] to the corresponding bark surface area [EnvThes:21564].,bark_mass_area,trait_0012014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012015,bark_water_content_per_dry_mass,Bark water content per unit bark dry mass,The ratio of the mass of water in bark (bark water content) to bark dry mass.,NA,continuous variable [STATO_0000251],0.01,1,g/g,NA,bark morphology trait [trait_group_0012002],bark [PO_0004518],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],water [CHEBI_15377]; NA [glossary_40014],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in bark [PO:0004518] (bark water content [APD:glossary/40014]) to bark dry [PATO:0001824] mass.,NA,trait_0012015,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012016,bark_water_content_per_saturated_mass,Bark water content per unit saturated bark mass,"The ratio of the mass of water in bark (bark water content) to total bark mass, measured in saturated bark. Saturated bark is bark that has been hydrated to its maximal water holding capacity and is at full turgor.",NA,continuous variable [STATO_0000251],0.1,10,g/g,NA,bark morphology trait [trait_group_0012002],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],water [CHEBI_15377]; water holding capacity [IOBC:200906064703668091]; turgor [PATO_0001620]; NA [glossary_40044],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A bark mass trait [TO:0000952] which is the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in bark [PO:0004518] to the fresh mass [APD:glossary/40044] of bark that is at maximum [NCIT:C25564] water holding capacity [IOBC:200906064703668091], known as full turgor [PATO:0001620].",NA,trait_0012016,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012111,root_diameter,Root diameter,Maximum root diameter.,NA,continuous variable [STATO_0000251],0.01,1000,mm,NA,root morphology trait [trait_group_0012104],root [PO_0009005],diameter [PATO_0001334]; size [PATO_0000117],root morphology trait [TO_0000043],NA,NA,14/07/2021,05/02/2024,root width [http://purl.obolibrary.org/obo/TO_0001112],NA,NA,NA,A root morphology trait [TO:0000043] which is the maximum [NCIT:C25564] root [PO:0009005] diameter [PATO:0001334] of a plant.,NA,trait_0012111,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012112,root_system_classification,Root system morphology,Categorical root system descriptions that indicate the branchiness and texture of the root system and the depth of the root system.,The trait values listed are those specified in the root system classification scheme proposed by Cannon in 1949.,categorical variable [STATO_0000252],NA,NA,NA,NA,root morphology trait [trait_group_0012104],root [PO_0009005],"volume [PATO_0000918]; 3-D extent [PATO_0001710]; size [PATO_0000117]; texture [PATO_0000150]; spatial pattern, distribution [PATO_0000060]",root system [PO_0025025]; root system depth [TO_0001058]; root branchiness [FLOPO_0003673]; root texture [FLOPO_0013872],Cannon 1949 [https://doi.org/10.2307/1932458],NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A root system morphology trait [TO:0000985] which are categorical [STATO:0000252] trait values that capture the branchiness [PATO:0002009] and texture [PATO:0000150] of the root system [PO:0025025] and the root system depth [TO:0001058].,root_morphology,trait_0012112,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012113,root_fine_root_coarse_root_ratio,Fine root volume to coarse root volume ratio,The ratio of the volume of fine roots (<0.5mm diameter) to the volume of coarse roots (>0.5mm diameter).,NA,continuous variable [STATO_0000251],0.05,50,mm3/mm3,NA,root morphology trait [trait_group_0012104],root [PO_0009005],volume [PATO_0000918]; ratio; proportion [PATO_0001470],fine root [EnvThes:20581]; root branchiness [FLOPO_0003673]; NA [glossary_40026],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Fine root dry mass fraction that is taproot (taproot dry mass per fine root dry mass) [TRY:2011] (https://www.try-db.org/de/de.php),A root system morphology trait [TO:0000985] which is the ratio [PATO:0001470] of the volume [PATO:0000918] of fine roots [EnvThes:20581] (those <0.5mm in diameter) to the volume of coarse roots [APD:glossary/40026] (those >0.5 mm in diameter).,NA,trait_0012113,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012114,root_distribution_coefficient,Root biomass depth distribution coefficient,"Root biomass depth distribution coefficient ('B' from Gale & Grigal 1987), where high values indicate that root biomass is allocated deeper in the soil. To calculate the model parameter, the required input is a plot of the cumulative root distribution from the surface, where [Y] is the cumulative fraction of roots from the surface to a depth [d]. An asymptotic nonlinear model is used to describe the vertical root distribution: Y = 1 - b^d where Y is the cumulative root fraction from the surface to soil depth d in centimeters and b the estimated parameter.",NA,continuous variable [STATO_0000251],0.5,1,{dimensionless},NA,root morphology trait [trait_group_0012104],root [PO_0009005],"mass [PATO_0000125]; model parameter [STATO_0000034]; spatial pattern, distribution [PATO_0000060]",root branchiness [FLOPO_0003673]; root system depth [TO_0001058]; root system [PO_0025025],Gale and Grigal 1987 [https://doi.org/10.1139/x87-131],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Root evenness of dry mass vertical distribution [TRY:3033] (https://www.try-db.org/de/de.php),"A root system morphology trait [TO:0000985] which is a model parameter [STATO:0000034] indicating the distribution [PATO:0000060] of a plant's roots [PO:0009005] with depth [PATO:0001595]. To calculate the model parameter, the required input is a plot of the cumulative root distribution from the surface, where [Y] is the cumulative fraction of roots from the surface to a depth [d]. An asymptotic nonlinear model is used to describe the vertical root distribution: Y = 1 - b^d where Y is the cumulative root fraction from the surface to soil depth d in centimeters and b the estimated parameter.",NA,trait_0012114,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012115,root_system_type,Root system type (presence of taproot),Variable describing whether a plant has a tap root.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,root morphology trait [trait_group_0012104],root [PO_0009005],"structure [PATO_0000141]; spatial pattern, distribution [PATO_0000060]",root system [PO_0025025]; primary root [PO_0020127]; lateral root [PO_0020121]; root branchiness [FLOPO_0003673],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A root system morphology trait [TO:0000985] which indicates if the root system [PO:0025025] is one where the primary root [PO:0020127] remains the dominant root, developing into a taproot, a long [PATO:0000573], thick [PATO:0000591] root with few branches, or whether the lateral roots [PO:0020121] are of similar length to the primary root.",tap_root; root_tap_root_status,trait_0012115,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012116,root_specific_root_length,Specific root length (SRL),The ratio of root length to root dry mass; SRL.,NA,continuous variable [STATO_0000251],0.5,5000,m/g,NA,root morphology trait [trait_group_0012104],root [PO_0009005],length [PATO_0000122]; ratio; proportion [PATO_0001470]; mass [PATO_0000125],biomass allocation [EnvThes:21360]; root system [PO_0025025]; primary root [PO_0020127]; lateral root [PO_0020121],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Specific root length trait [TOP935] (https://top-thesaurus.org/index); exact match: Root length per root dry mass (specific root length, SRL) [TRY:1080] (https://www.try-db.org/de/de.php)",A root morphology trait [TO:0000043] which is the ratio [PATO:0001470] of root [PO:0009005] length [PATO:0000122] to root dry mass [TO:0000078].,specific_root_length,trait_0012116,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012117,root_specific_taproot_length,Specific tap root length (STRL),The ratio of taproot length (primary root length) to taproot dry mass; STRL.,"This trait is usually measured during the very early stage of growth, capturing how efficiently seedlings reach reliable water.",continuous variable [STATO_0000251],0.5,5000,m/g,NA,root morphology trait [trait_group_0012104],root [PO_0009005],length [PATO_0000122]; ratio; proportion [PATO_0001470]; mass [PATO_0000125],biomass allocation [EnvThes:21360]; root system [PO_0025025]; primary root [PO_0020127],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"close match: Coarse root length per coarse root dry mass (specific coarse root length, SRL) [TRY:1550] (https://www.try-db.org/de/de.php)",A root morphology trait [TO:0000043] which is the ratio [PATO:0001470] of primary root [PO:0020127] length [PATO:0000122] to primary root dry mass [TO:0000078],specific_taproot_length,trait_0012117,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012118,root_specific_root_area,Root surface area per unit root dry mass (specific root area),The ratio of root surface area to root dry mass; specific root area.,NA,continuous variable [STATO_0000251],0.001,1,mm2/mg,NA,root morphology trait [trait_group_0012104],root [PO_0009005],"area [PATO_0001323]; size [PATO_0000117]; ratio; proportion [PATO_0001470]; area density [PATO_0001351]; mass density, density [PATO_0001019]",biomass allocation [EnvThes:21360]; root system [PO_0025025],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root surface area per root dry mass (specific root area) [TRY:1089] (https://www.try-db.org/de/de.php),A root morphology trait [TO:0000043] which is the ratio [PATO:0001470] of root [PO:0009005] surface area [EnvThes:21564] to root dry mass [TO:0000078].,specific_root_area,trait_0012118,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012119,root_wood_density,Root wood density,The ratio of woody root dry mass to woody root fresh volume.,NA,continuous variable [STATO_0000251],0.05,10,mg/mm3,NA,root morphology trait [trait_group_0012104],root [PO_0009005],"mass [PATO_0000125]; volume density [PATO_0001353]; ratio; proportion [PATO_0001470]; mass density, density [PATO_0001019]","biomass allocation [EnvThes:21360]; root system [PO_0025025]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Root tissue density (root dry mass per root volume) [TRY:82] (https://www.try-db.org/de/de.php),A root morphology trait [TO:0000043] which is the ratio [PATO:0001470] of the dry mass [PATO:0000125] of a unit of wood [PO_0005848] from a root [PO:0009005]to its fresh fresh [EnvThes:21976] volume [PATO:0000918].,NA,trait_0012119,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012120,root_shoot_ratio,Root to shoot ratio,The ratio of total root system dry mass to total shoot system dry mass.,This trait is usually measured on experimentally grown seedlings where it is possible to collect the entire root system.,continuous variable [STATO_0000251],0.01,15,mg{root}/mg{shoot},NA,root morphology trait [trait_group_0012104]; stem morphology trait [trait_group_0011802],root [PO_0009005]; whole plant [PO_0000003]; stem [PO_0009047],"mass [PATO_0000125]; ratio; proportion [PATO_0001470]; ratio; proportion [PATO_0001470]; mass fraction [ECSO_00000619]; mass density, density [PATO_0001019]",biomass allocation [EnvThes:21360]; root system [PO_0025025],NA,NA,14/07/2021,05/02/2024,root to shoot ratio [http://purl.obolibrary.org/obo/TO_0000278],NA,NA,exact match: Root/shoot ratio [TRY:9] (https://www.try-db.org/de/de.php); exact match: Shoot:root ratio [BROT:22] (http://doi.org/10.1038/sdata.2018.135),A whole plant morphology trait [TO:0000398] which is the ratio [PATO:0001470] of a plant's root dry mass [TO:0000078] to its shoot dry mass [TO:0000552].,NA,trait_0012120,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012121,root_dry_matter_content,Root dry matter content (RDMC),"The ratio of root dry mass to root fresh mass; root dry matter content, RDMC.",NA,continuous variable [STATO_0000251],10,1000,mg/g,NA,root morphology trait [trait_group_0012104],root [PO_0009005],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],biomass allocation [EnvThes:21360]; root system [PO_0025025]; NA [glossary_40044],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Root dry mass per root fresh mass (root dry matter content, RDMC) [TRY:785] (https://www.try-db.org/de/de.php)",A root mass trait [TO:0000279] which is the ratio [PATO:0001470] of root dry mass [TO:0000078] to root [PO:0009005] fresh mass [APD:glossary/40044].,NA,trait_0012121,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012122,root_mass_fraction,Root mass fraction,The ratio of total root system dry mass to whole plant dry mass.,NA,continuous variable [STATO_0000251],0.01,1,mg/mg,NA,root morphology trait [trait_group_0012104],root [PO_0009005]; whole plant [PO_0000003],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],biomass allocation [EnvThes:21360]; NA [glossary_40081]; root system [PO_0025025],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Plant biomass and allometry: Root mass fraction (fraction of root dry mass per whole plant dry mass) [TRY:470] (https://www.try-db.org/de/de.php); related match: root dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A root mass trait [TO:0000279] which is the ratio [PATO:0001470] of the total root dry mass [TO:0000078] to whole plant [PO:0000003] dry mass [APD:glossary/40080].,NA,trait_0012122,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012221,accessory_cost_fraction,Seed accessory cost fraction,"The fraction of total reproductive investment required to mature a seed that is invested in non-seed tissues. It is calculated as one minus, the ratio of total biomass investment in seeds to total biomass investment in all reproductive tissues, including flower buds, flowers, fruits, dispersal tissues, aborted seeds, and successfully matured seeds.",NA,continuous variable [STATO_0000251],0.01,1,mg/mg,NA,reproductive shoot system morphology trait [trait_group_0012202],reproductive shoot system [PO_0025082]; flower [PO_0009046]; fruit [PO_0009001]; seed [PO_0009010],mass [PATO_0000125],biomass allocation [EnvThes:21360]; reproduction [GO_0000003]; NA [glossary_40004],Lord & Westoby 2006 [https://doi.org/10.1007/s00442-006-0523-z],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Plant biomass and allometry: Reproductive dry mass per plant dry mass (reproductive weight fraction) [TRY:1046] (https://www.try-db.org/de/de.php),"A reproductive shoot system [PO:0025082] biomass allocation [EnvThes:21360] trait which is one minus the ratio [PATO:0001470] of total plant seed [PO:0009010] dry [PATO:0001824] mass [PATO:0000125] to total plant reproductive shoot system tissue dry mass where reproductive tissues include all flower buds [PO:0000056], flowers [PO:0009046], fruits [PO:0009001], dispersal [EnvThes:21038] tissues, and seeds produced during the developmental process involved in reproduction [GO:0003006].",NA,trait_0012221,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012222,accessory_cost_mass,Seed accessory cost mass,"The mass of seed accessory costs, which is the total biomass investment in all reproductive tissues, excluding biomass invested in successfully matured seeds; it includes all biomass invested in flower buds, flowers, fruits, dispersal tissues and aborted seeds.",NA,continuous variable [STATO_0000251],0.01,10000,mg,NA,reproductive shoot system morphology trait [trait_group_0012202],reproductive shoot system [PO_0025082]; flower [PO_0009046]; fruit [PO_0009001]; seed [PO_0009010],mass [PATO_0000125],biomass allocation [EnvThes:21360]; reproduction [GO_0000003]; NA [glossary_40004],Lord & Westoby 2006 [https://doi.org/10.1007/s00442-006-0523-z],NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A reproductive shoot system [PO:0025082] biomass allocation [EnvThes:21360] trait which is the sum of the dry [PATO:0001824] mass [PATO:0000125] of all flower buds [PO:0000055], flowers [PO:0009046], fruits [PO:0009001], aborted seeds, and dispersal [EnvThes:21038] tissues produced during the developmental process involved in reproduction [GO:0003006], but excludes mature [PATO:0001701] seed [PO:0009010] dry mass.",NA,trait_0012222,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012301,bud_length,Bud length,"Linear dimension from the base to the apex of a bud, even if this is not the longest dimension.",NA,continuous variable [STATO_0000251],0.01,200,cm,NA,floral organ morphology trait [trait_group_0012404],reproductive shoot system [PO_0025082]; bud [PO_0000055],length [PATO_0000122]; size [PATO_0000117],NA,NA,NA,05/02/2024,05/02/2024,reproduction [http://purl.obolibrary.org/obo/GO_0000003]; corolla [http://purl.obolibrary.org/obo/PO_0009059]; perianth [http://purl.obolibrary.org/obo/PO_0009058],NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the length [PATO:0000122] of the bud [PO:0000055] from the base of the receptable [PO:0009064] or the base of an inferior ovary [PO:0009072] to the tip of the bud.,NA,trait_0012301,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012302,bud_width,Bud width,"Greatest linear width dimension of a bud, sometimes referred to as 'diameter' in buds where the width and height are identical; orthogonal to the bud length, the base-to-apex dimension.",NA,continuous variable [STATO_0000251],0.01,200,cm,NA,floral organ morphology trait [trait_group_0012404],reproductive shoot system [PO_0025082]; bud [PO_0000055],width [PATO_0000921]; size [PATO_0000117],NA,NA,NA,05/02/2024,05/02/2024,reproduction [http://purl.obolibrary.org/obo/GO_0000003]; corolla [http://purl.obolibrary.org/obo/PO_0009059]; perianth [http://purl.obolibrary.org/obo/PO_0009058],NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the width [PATO:0000921] of the bud [PO:0000055] from the base of the receptable [PO:0009064] or the base of an inferior ovary [PO:0009072] to the tip of the bud. Width is the greatest linear dimension [PATO:0001708] perpendicular to [PATO:0002434] to the bud length [PATO:0000122],NA,trait_0012302,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012351,buds_per_inflorescence,Buds per inflorescence,"The count of buds in an inflorescence, where an inflorescence can be either a single cluster of flowers or the entire reproductive shoot system.",NA,continuous variable [STATO_0000251],1,1000,{count}/{count},NA,floral organ morphology trait [trait_group_0012404],reproductive shoot system [PO_0025082]; bud [PO_0000055]; inflorescence [PO_0009049],has number of [PATO_0001555]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],NA,NA,NA,05/02/2024,05/02/2024,reproduction [http://purl.obolibrary.org/obo/GO_0000003]; reproductive shoot system [http://purl.obolibrary.org/obo/PO_0025082]; inflorescence [http://purl.obolibrary.org/obo/PO_0009049],NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the count [NCIT:C25463] of buds [PO:0000055] in an inflorescence [PO:0009049], where an inflorescence can be either a single cluster of flowers or the entire reproductive shoot system [PO:0025082].",NA,trait_0012351,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012410,flower_androecium_structural_merism,Number of androecium parts in each whorl (Androecium structural merism),"The number of stamens or stamen bundles (fascicles) in one whorl, considering both fertile stamens and staminodes.","This character is not applicable for spiral or irregular stamen arrangements, nor when there is a single structural stamen (i.e., one stamen, no staminodes; e.g., Chloranthus, Chloranthaceae). Definition derived from Schoenenberger et al. (2020) for their character '332. Androecium structural merism (C1)'",continuous variable [STATO_0000251],0,100,{count},NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],"reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; staminode [PO_0009077]; fascicle [NCIT_C79692]; NA [glossary_40060]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"An androecium morphology trait [TO:0000994] which is the total count [NCIT:C25463] of stamens [PO:0009029], staminodes [PO:0009077] or stamen bundles (fascicles [NCIT:C79692]) in each floral whorl [PO:0025023].",NA,trait_0012410,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012411,flower_androecium_structural_phyllotaxis,Androecium structural phyllotaxis,"Structural phyllotaxy of the androecium, considering both fertile stamens and staminodes. In cases of stamen fascicles, it is the phyllotaxis of fascicles, not individual stamens that are recorded.","This character is not applicable when there is a single structural stamen (i.e., one stamen, no staminodes; e.g., Chloranthus, Chloranthaceae). Definition and trait values derived from Schoenenberger et al. (2020) for their character '330. Androecium structural phyllotaxy (D1)'",categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]","reproduction [GO_0000003]; androecium [PO_0009061]; phyllotaxy [TO_0006014]; stamen [PO_0009029]; staminode [PO_0009077]; fascicle [NCIT_C79692]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"An androecium morphology trait [TO:0000994] which is the spatial pattern or distribution [PATO:0000060] (phyllotaxy [TO:0006014]) of stamen [PO:0009029], staminodes [PO:0009077] or stamen bundles (fascicles [NCIT:C79692]) in each floral whorl [PO:0025023].",NA,trait_0012411,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012412,flower_androecium_structural_whorls_count,Number of androecium structural whorls,"The number of whorls, considering both fertile stamens and staminodes. In cases of stamen fascicles, the count of whorls of fascicles is recorded.","This character is not applicable for spiral or irregular stamen arrangements, or when there is a single structural stamen (i.e., one stamen, no staminodes; e.g., Chloranthus, Chloranthaceae). Definition derived from Schoenenberger et al. (2020) for their character '331. Number of androecium structural whorls (C1)'",continuous variable [STATO_0000251],0,100,{count},NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],"reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; staminode [PO_0009077]; fascicle [NCIT_C79692]; NA [glossary_40060]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"An androecium morphology trait [TO:0000994] which is the total count [NCIT:C25463] of whorls [PO:0025023] comprising the androecium [PO:0009061], considering both stamen [PO:0009029] and staminodes [PO:0009077]. If stamens are grouped into fascicles [NCIT:C79692], the trait is the count of whorls of fascicles.",NA,trait_0012412,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012413,flower_anther_attachment,Anther attachment,Anther attachment refers to the area of insertion of the filament on the anther connective (i.e. the tissue connecting the two thecae of an anther).,Definition and trait values derived from Schoenenberger et al. (2020) for their character '312. Anther attachment (D1)',categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]",reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen [PO_0025281]; connective [PO_0009068]; anther theca [PO_0009069]; filament [PO_0009067],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,anther attachment quality [http://purl.obolibrary.org/obo/FLOPO_0003076],NA,"An androecium morphology trait [TO:0000994] which indicates how the filament [PO:0009067] is attached to [PATO:0001667] the tissue [CARO:0000043] connecting the two thecae [PO:0009069] (pollen [PO:0025281] sacs) of the anthers [PO:0009066], affecting the spatial pattern [PATO:0000060] of the stamens [PO:0009029].",NA,trait_0012413,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012414,flower_anther_connective_extension,Connective extension (apical),"Apical (distal) connective extensions (also called 'distal connective protrusions') are sterile anther structures that distally extend beyond the level of the thecae (i.e., the two lateral pairs of pollen sacs of a tetrasporangiate anther).",This trait records both absence or presence of anther connective extensions and also the shape of these extensions in terms of length in relation to the length of the thecae. Definition and trait values derived from Schoenenberger et al. (2020) for their character '314. Connective extension (apical) (D1)',categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],structure [PATO_0000141]; shape [PATO_0000052]; length [PATO_0000122],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen [PO_0025281]; connective [PO_0009068]; anther theca [PO_0009069],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"An androecium morphology trait [TO:0000994] which is whether anthers [PO:0009066] have protrusions [NCIT:C50710] that extend above the two theca [PO:0009069] (pollen [PO:0025281] sacs), and, if present, the shape [PATO:0000052] and the relative length [PATO:0000122] of the protrusion relative to the length of the entire anther.",NA,trait_0012414,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012415,flower_anther_dehiscence,Anther dehiscence,Anther dehiscence refers to the type of opening of the anther when releasing its pollen through the stomia.,Definition and trait values derived from Schoenenberger et al. (2020) for their character '313. Anther dehiscence (D1)',categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],structure [PATO_0000141]; shape [PATO_0000052]; length [PATO_0000122],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen [PO_0025281]; stomium [PO_0020101]; anther dehiscence zone [PO_0005011],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,An androecium morphology trait [TO:0000994] which is the length [PATO:0000122] and shape [PATO:0000052] of the stomia [PO:0020101] that form the anther dehiscence zone [PO:0005011]; stomia are the usually slit-like [PATO:0002482] openings in the anther [PO:0009066] through which pollen [PO:0025281] is released.,NA,trait_0012415,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012416,flower_anther_orientation,Anther orientation,Orientation of anther at anthesis.,"Anthers of angiosperms are rather uniform in their basic structure. They normally have four microsporangia (pollen sacs) that are arranged pair-wise in two thecae. The two microsporangia of a theca usually release their pollen grains through a common opening (stomium). Often, it is difficult to establish anther orientation clearly in a flower as this is a gradual feature with many intermediate stages. Definition and trait values derived from Schoenenberger et al. (2020) for their character '311. Anther orientation (D1)'",categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]; position [PATO_0000140]",reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen [PO_0025281]; stomium [PO_0020101]; anther dehiscence zone [PO_0005011],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,anther orientation [http://purl.obolibrary.org/obo/FLOPO_0024051],NA,NA,An androecium morphology trait [TO:0000994] which is the position [PATO:0000140] and orientation [PATO:0000133] of the stomia [PO:0020101] that form the anther dehiscence zone [PO:0005011]; stomia are the slit-like [PATO:0002482] openings in the anther [PO:0009066] through which pollen [PO:0025281] is released.,NA,trait_0012416,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012417,flower_colour,Flower colour,"The dominant flower colour, where the entire flower, the petals, or the sepals may be responsible for the observed colour.","Most data mapped to `flower_colour` has probably been scored based on perianth colour, but if a dataset does not differentiate between the two traits it is mapped to `flower_colour`.",categorical variable [STATO_0000252],NA,NA,NA,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],colour / color [PATO_0000014],reproduction [GO_0000003]; petal [PO_0009032]; corolla [PO_0009059]; sepal [PO_0009031]; calyx [PO_0009060]; perianth [PO_0009058],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,flower color [http://purl.obolibrary.org/obo/TO_0000537],corolla color [http://purl.obolibrary.org/obo/TO_0000951],NA,exact match: Flower color [TOP242] (https://top-thesaurus.org/index); exact match: Flower color [TRY:207] (https://www.try-db.org/de/de.php); exact match: flower_colour [GIFT:3.21.1] (https://gift.uni-goettingen.de); exact match: flower color [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"A floral organ morphology trait [TO:0000862] which is the dominant (primary [NCIT:C25251]) colour [PATO:0000014] of the flower [PO:0009046. The petals [PO:0009032] (corolla [PO:0009059]), sepals [PO:0009031] (calyx [PO:0009060]), or the entire perianth [PO:0009058] may be responsible for the main colour observed.",NA,trait_0012417,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012418,perianth_colour,Perianth colour,"The dominant colour of the perianth parts (sepals, petals and tepals).","This trait refers explicitly to the colour of the petals, sepals and tepals, while the trait ""flower colour"" refers to the colour of the entire flower. See also data under `flower_colour`. Most data mapped to `flower_colour` has probably been scored based on perianth colour, but if a dataset does not differentiate between the two traits it is mapped to `flower_colour`.",categorical variable [STATO_0000252],NA,NA,NA,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],colour / color [PATO_0000014],reproduction [GO_0000003]; petal [PO_0009032]; corolla [PO_0009059]; sepal [PO_0009031]; calyx [PO_0009060]; perianth [PO_0009058],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],19/05/2023,05/02/2024,NA,corolla color [http://purl.obolibrary.org/obo/TO_0000951],NA,exact match: Flower color [TOP242] (https://top-thesaurus.org/index); exact match: Flower color [TRY:207] (https://www.try-db.org/de/de.php); exact match: flower_colour [GIFT:3.21.1] (https://gift.uni-goettingen.de); exact match: flower color [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"A floral organ morphology trait [TO:0000862] which is the dominant (primary [NCIT:C25251]) colour [PATO:0000014] of the perianth [PO:0009058] parts (sepals [PO:0009031], petals [PO:0009032], and tepals [PO:0009033]).",NA,trait_0012418,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012419,flower_length,Flower length,The length of the flower.,NA,continuous variable [STATO_0000251],0.01,200,cm,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],length [PATO_0000122],reproduction [GO_0000003]; petal [PO_0009032]; corolla [PO_0009059]; sepal [PO_0009031]; calyx [PO_0009060]; perianth [PO_0009058],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],19/05/2023,05/02/2024,flower length [http://purl.obolibrary.org/obo/TO_0000860],NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the length [PATO:0000122] of the flower [PO:0009046] from the base of the receptable [PO:0009064] or the base of an inferior ovary [PO:0009072] to the tip of the flower, measured at anthesis [PO:0009068]. It excludes the length of the pedicel [PO:0030112].",NA,trait_0012419,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012420,flower_diameter,Flower diameter,"The maximum diameter of the flower at anthesis, considering all floral organs, but most commonly the diameter from petal tip to petal tip.",NA,continuous variable [STATO_0000251],0.01,200,cm,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],diameter [PATO_0001334],reproduction [GO_0000003]; petal [PO_0009032]; corolla [PO_0009059]; sepal [PO_0009031]; calyx [PO_0009060]; perianth [PO_0009058],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],19/05/2023,05/02/2024,flower diameter [http://purl.obolibrary.org/obo/TO_0000858],NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the maximum diameter [PATO:0001334] of the flower [PO:0009046] at anthesis [PO:0009068], considering all floral organs, but most commonly the diameter from petal [PO:0009032] tip to petal tip.",NA,trait_0012420,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012421,flower_orientation,Floral orientation,The position and orientation of the flower.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]; position [PATO_0000140]",reproduction [GO_0000003]; petal [PO_0009032]; corolla [PO_0009059]; sepal [PO_0009031]; calyx [PO_0009060]; perianth [PO_0009058],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],19/05/2023,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the position [PATO:0000140] and orientation [PATO:0000133] of the flower [PO:0009046].,NA,trait_0012421,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012422,flower_count_maximum,Maximum flower number,Maximum flower number produced.,NA,continuous variable [STATO_0000251],0,1000000,{count},NA,floral organ morphology trait [trait_group_0012404],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463]; maximum [NCIT_C25564],reproduction [GO_0000003]; perianth [PO_0009058]; corolla [PO_0009059],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,exact match: Flower number per plant [TRY:2999] (https://www.try-db.org/de/de.php),A floral organ morphology trait [TO:0000862] which is the maximum [NCIT:C25564] count [NCIT:C25463] of flowers [PO:0009046] on an individual [EFO:0000542].,NA,trait_0012422,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012431,flower_fertile_stamens_count,Number of fertile stamens,Count of fertile stamens in bisexual or male flowers; does not score female flowers.,Definition derived from Schoenenberger et al. (2020) for their character '301. Number of fertile stamens (C1)',continuous variable [STATO_0000251],0,10000,{count},male or hermaphroditic flowers,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,stamen number [http://purl.obolibrary.org/obo/TO_0000225],NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the count [NCIT:C25463] of fertile [PATO:0000955] stamens [PO:0009029] on a hermaphrodite [PATO:0001340] flower [PO:0009046] or male [PATO:0000384] flower.,NA,trait_0012431,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012432,flower_filament,Filament presence and shape,"Trait that considers the absence or presence of the filament, and in the latter case, the shape of the filament. Shape is considered in terms of length and width and is defined in relation to anther length/width.","The width of the filament may thus either be broad as in laminar (e.g., Eupomatiaceae) or bulky stamens (e.g., Chloranthaceae), or narrow (filamentous) as found in many core eudicots groups (e.g., Rosaceae). This trait is considered inapplicable when filaments are entirely fused with each other or to the perianth. Definition and trait values derived from Schoenenberger et al. (2020) for their character '305. Filament (D1)'",categorical variable [STATO_0000252],NA,NA,NA,inapplicable when filaments are entirely fused with each other or to the perianth,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],shape [PATO_0000052]; structure [PATO_0000141],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; filament [PO_0009067]; anther [PO_0009066],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,filament 2-D shape [http://purl.obolibrary.org/obo/FLOPO_0003507],NA,NA,"A floral organ morphology trait [TO:0000862] which is whether a filament [PO:0009067] is present [PATO:0000467] or absent [PATO:0000462], and if present, the shape [PATO:0000052] and the relative length [PATO:0000122], width [PATO:0000921], and thickness [PATO:0000915] of the filament.",NA,trait_0012432,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012433,flower_filament_fusion,Fusion of filaments,"Fusion of stamen (and staminode) filaments among each other at anthesis (congenitally or postgenitally) is recorded on a continuous scale, from 0 (free filaments) to 1 (filaments fused along their entire length).","Partial fusion is recorded using an approximate number between these two extremes (e.g., 0.1 corresponds to basal fusion, 0.5 to fusion along half of the length of filaments). Definition derived from Schoenenberger et al. (2020) for their character '306. Fusion of filaments (C1)'",continuous variable [STATO_0000251],0,1,{dimensionless},NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; filament [PO_0009067]; connective [PO_0009068]; staminode [PO_0009077],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,filament attached to [http://purl.obolibrary.org/obo/FLOPO_0004574],NA,A floral organ morphology trait [TO:0000862] which is the proportion [PATO:0001470] of the length [PATO:0000122] of the stamen [PO:0009029] (or staminode [PO:0009077]) filaments [PO:0009067] that is fused [NCIT:C124537] together at anthesis [PO:0009068].,NA,trait_0012433,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012434,flower_filament_fusion_to_inner_perianth,Fusion of filaments to inner perianth series,"The fusion of filaments with the innermost perianth organs at anthesis on a continuous scale, from 0 (filaments completely free from perianth) to 1 (filaments fused along their entire length with the perianth; the 'entire length' of the filament is defined as the distance between the floral base and the joint between filament and anther).","Partial fusion is recorded using an approximate number between these two extremes (e.g., 0.1 corresponds to basal fusion, 0.5 to fusion along half of the length of perianth parts). If two (or more) stamen whorls (including staminodial whorls) differ in their extent of filament fusion with the perianth, this trait is recorded as a range of values. For example, if the filaments of an outermost stamen whorl are fused, up to 90% of their length, but an inner whorl only up to 50%, the trait is assigned a range of 0.5 to 0.9. The rationale for this is to provide a general trait that allows comparison of fusion among all angiosperms. Definition derived from Schoenenberger et al. (2020) for their character '308. Fusion of filaments to inner perianth series (C1)'",continuous variable [STATO_0000251],0,1,{dimensionless},NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; filament [PO_0009067]; connective [PO_0009068]; staminode [PO_0009077]; perianth [PO_0009058],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,filament attached to [http://purl.obolibrary.org/obo/FLOPO_0004574],NA,A floral organ morphology trait [TO:0000862] which is the proportion [PATO:0001470] of the length [PATO:0000122] of the stamen [PO:0009029] (or staminode [PO:0009077]) filaments [PO:0009067] that are fused [NCIT:C124537] to the innermost perianth [PO:0009058] organ [PO:0009008] at anthesis [PO:0009068].,NA,trait_0012434,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012441,flower_gynoecium_phyllotaxis,Gynoecium phyllotaxis,Structural phyllotaxy of the gynoecium.,This trait is not applicable to unicarpellate flowers. Definition and trait values derived from Schoenenberger et al. (2020) for their character '400. Gynoecium phyllotaxy (D1)',categorical variable [STATO_0000252],NA,NA,NA,Not applicable to unicarpellate flowers,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]; structure [PATO_0000141]; has number of [PATO_0001555]; count [NCIT_C25463]","reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030]; whorl, floral whorl [PO_0025023]; phyllotaxy [TO_0006014]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A gynoecium [PO:0009062] morphology trait which is either the count [NCIT:C25463] of whorls [PO:0025023] of carpels [PO:0009030] comprising the gynoecium or other descriptors of carpel phyllotaxy [TO:0006014].,NA,trait_0012441,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012442,flower_gynoecium_placentation,Placentation,The different types of placentation in apocarpous/unicarpellate and in syncarpous gynoecia.,"In apocarpous and unicarpellate gynoecia, placentation is often described as marginal as the ovules are usually attached along the ventral slit (i.e., the zone where the carpel margins become postgenitally closed during carpel development). In syncarpous gynoecia there are three main types of placentation, 1) axile placentation refers to ovaries where the ovules are placed in the angle between carpel flanks in the center of the ovary; 2) in ovaries with parietal placentation the ovules attach to the ovary wall where two carpels meet; 3) in ovaries with free-central placentation the ovules are attached to a central column that emerges from the base of the ovary and protrudes into the non-septate ovary. It is not unusual that syncarpous gynoecia show a transition from proximally axile to a distally parietal placentation (e.g., Polemoniaceae). Basal and apical placentation may occur both in apocarpous/unicarpellate and in syncarpous gynoecia. Usually there is one longitudinal series of ovules attached to each carpel margin. However, both in apocarpous/unicarpellate and in syncarpous gynoecia there may be more than one series of ovules at the flanks of a carpel. These latter cases are referred to as laminar (or laminar-diffuse) placentation (e.g., in some Nymphaeaceae). A placenta that is protruding from its surroundings and has more than two series of ovules (either axile or parietal) is called protruding-diffuse. Definition and trait values derived from Schoenenberger et al. (2020) for their character '412. Placentation (D1)'",categorical variable [STATO_0000252],NA,NA,NA,NA,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],"structure [PATO_0000141]; spatial pattern, distribution [PATO_0000060]; position [PATO_0000140]",reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030]; plant ovary [PO_0009072]; NA [glossary_40074]; plant ovule [PO_0020003],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the position [PATO:0000140] of the ovules [PO:0020003] within the ovary [PO:0009072], known as placentation [APD:glossary/40074].",NA,trait_0012442,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012443,flower_ovary_fusion,Fusion of ovaries,Degree of ovary fusion expressed as a fraction of the total length of the ovary (from the floral base to the apex of the ovary).,Fusion of styles and stigmas is not taken into account for this trait. Not applicable when there is a single carpel. Definition derived from Schoenenberger et al. (2020) for their character '403. Fusion of ovaries (C1)',continuous variable [STATO_0000251],0,1,{dimensionless},Not applicable when there is a single carpel.,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; structure [PATO_0000141],reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030]; plant ovary [PO_0009072],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which, for flowers with multiple carpels, is the proportion [PATO:0001470] of the length [PATO:0000122] of the ovaries [PO:0009072] that are fused [NCIT:C124537] together.",NA,trait_0012443,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012444,flower_ovary_position,Ovary position,The position of the flower ovary relative to the insertion level of the remaining floral organs.,"The ovary is the part of the gynoecium where the ovules are produced. The ovary may be located on the receptacle and thus be positioned above the insertion level of the remaining floral organs (i.e., the ovary is superior and the flower is hypogynous). Alternatively, the ovary may be embedded in the receptacle and therefore be located below the insertion level of the remaining floral organs (i.e., the ovary is inferior and the flower is epigynous). Flowers with a hypanthium may either have a superior ovary (perigyny; e.g., many Rosaceae) or an inferior ovary (epiperigyny). It is also possible that the ovary is inferior to a certain degree only, such as half-inferior, if the receptacle is surrounding the ovary to its mid-level. Definition and trait values derived from Schoenenberger et al. (2020) for their character '102. Ovary position (D1)'",categorical variable [STATO_0000252],NA,NA,NA,NA,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]; position [PATO_0000140]",reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030]; plant ovary [PO_0009072]; perianth [PO_0009058],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the position [PATO:0000140] of the plant ovary [PO:0009072] relative to the other flower [PO:0009046] organs [PO:0009008], in particular whether the ovary is attached above or below the perianth [PO:0009058] organs (the petals [PO:0009032] and sepals [PO:0009031]).",NA,trait_0012444,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012445,flower_ovules_per_functional_carpel_count,Number of ovules per functional carpel,Number of ovules per carpel recorded as a continuous character (with integer values of 1 and above).,Reduced (sterile) carpels are not taken into account here. Definition derived from Schoenenberger et al. (2020) for their character '411. Number of ovules per functional carpel (C1)',continuous variable [STATO_0000251],0,100000,{count},Only applicable to fertile carpels.,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030]; plant ovary [PO_0009072]; plant ovule [PO_0020003],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the count [NCIT:C25463] of ovules [PO:0020003] per fertile [PATO:0000955] carpel [PO:0009030].,NA,trait_0012445,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012461,flower_perianth_differentiation,Perianth differentiation,The ways in which perianth organs may look different from each other in a given flower.,"Typically, outer perianth parts are sepaloid and protect the other floral organs during floral development, while inner organs are often petaloid and play a role in pollinator attraction (Endress, 1994). However, it is also possible that all parts are either sepaloid or petaloid but remain differentiated in shape, size, and/or texture. In case of spiral perianths, differentiation may be continuous (i.e., gradual), whereby two successively initiated organs are very similar or only slightly different, while the outermost and innermost organs at both ends of the spiral are very different from each other (e.g., Chimonanthus). In the special case of perianths consisting of a single whorl, they are scored as undifferentiated. This perianth differentiation trait may be seen as both functional (the parting vs. sharing of functions among perianth parts) and developmental (the expression of a genetic program for different forms of perianth parts vs. a single program for a single type of perianth part morphology). Within-whorl differentiation, whereby organs of the same whorl take different forms, is common in zygomorphic flowers (e.g., Balsaminaceae, Fabaceae, Orchidaceae) but is not taken into account with this trait. This trait is not applicable when the perianth is absent. Definition and trait values derived from Schoenenberger et al. (2020) for their character '234. Perianth differentiation (D1)'",categorical variable [STATO_0000252],NA,NA,NA,Not applicable when the perianth is absent,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],structure [PATO_0000141]; shape [PATO_0000052],reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which indicates whether petals [PO:0009032] and sepals [PO:0009031] are differentiated or identical and the various ways they can be identical or different.,NA,trait_0012461,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012462,flower_perianth_fusion,Fusion of perianth,"Fusion of perianth organs (congenital or postgenital) at anthesis, recorded on a continuous scale, from 0 (free parts) to 1 (parts fused along their entire length).","Partial fusion was recorded using an approximate number between these two extremes (e.g., 0.1 corresponds to basal fusion, 0.5 to fusion along half of the length of perianth parts). In case of multiple whorls, this trait records within-whorl fusion. For example, if organs within each whorl are fused along their entire length, a trait value of 1 is recorded. In cases where organs of two whorls are fused into a common tubular structure, such as frequently observed in monocots (e.g., Polygonatum), the perianth is considered to be fused. If the two (or more) whorls differed in their extent of fusion, a range of trait values may be recorded. For example, if the calyx is only basally fused, up to 10% of its length, but the corolla is entirely fused, a range of 0.1 to 1 is recorded as the trait value for the species. Definition derived from Schoenenberger et al. (2020) for their character '204. Fusion of perianth (C1)'",continuous variable [STATO_0000251],0,1,{dimensionless},NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; structure [PATO_0000141],reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the proportion [PATO:0001470] of the length [PATO:0000122] of perianth [PO:0009058] parts (sepals [PO:0009031], petals [PO:0009032], and tepals [PO:0009033]) that are fused [NCIT:C124537] together at anthesis [PO:0009068].",NA,trait_0012462,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012463,flower_perianth_merism,Number of perianth parts in each whorl (Perianth merism),"The number of perianth parts in each whorl, recorded as a continuous trait (with integer values of 1 and above).",Not applicable when perianth phyllotaxis is spiral or irregular or when the perianth is absent. Definition derived from Schoenenberger et al. (2020) for their character '232. Perianth merism (C1)',continuous variable [STATO_0000251],0,50,{count},Not applicable when perianth phyllotaxis is spiral or irregular or when the perianth is absent.,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463]; orientation [PATO_0000133],"reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060]; NA [glossary_40060]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A perianth morphology trait [TO:0000275] which is the count [NCIT:C25463] of perianth [PO:0009058] parts (sepals [PO:0009031], petals [PO:0009032], and tepals [PO:0009033]) in each floral whorl [PO:0025023].",NA,trait_0012463,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012464,flower_perianth_parts_count,Number of perianth parts,"The total number of perianth parts, including sepals, petals, or any form of tepal.","A value of zero was scored when the perianth is absent. In flowers with perianth whorls fused along their complete length (e.g., Convolvulus), perianth parts are counted based on merism (e.g., if a calyx has 5 distinct sepals and the corolla is entirely fused, then the corolla is often interpreted to consist of five fused petals), anatomy (e.g., number of vascular traces), development (e.g., number of primordia), or comparison with closely related taxa. Definition derived from Schoenenberger et al. (2020) for their character '201. Number of perianth parts (C1)'",continuous variable [STATO_0000251],0,1000,{count},NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,tepal number [http://purl.obolibrary.org/obo/TO_0006041],NA,NA,NA,"A perianth morphology trait [TO:0000275] which is the total count [NCIT:C25463] of perianth [PO:0009058] parts, including sepals [PO:0009031], petals [PO:0009032], and any form of tepal [PO:0009033].",NA,trait_0012464,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012465,flower_perianth_phyllotaxis,Perianth phyllotaxis,Perianth phyllotaxis at anthesis.,"Perianth parts may be organised in one or more whorls or along a continuous spiral, usually with wide divergence angles more or less equal to 137.5 degrees. Less frequently, perianth phyllotaxis may be irregular. Perianth phyllotaxis at anthesis may differ from phyllotaxis of perianth part primordia at their inception and it is not uncommon that spirally initiated perianths become whorled later through development. Definition and trait values derived from Schoenenberger et al. (2020) for their character '230. Perianth phyllotaxy (D1)', with more information of differentiating between trait values in this manuscript.",categorical variable [STATO_0000252],NA,NA,NA,NA,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; orientation [PATO_0000133]","reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060]; whorl, floral whorl [PO_0025023]; phyllotaxy [TO_0006014]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A perianth morphology trait [TO:0000275] which is the phyllotaxy [TO:0006014] of the perianth [PO:0009058] parts (petals [PO:0009032], sepals [PO:0009031], and tepals [PO:0009033]), at anthesis [PO:0009068]",NA,trait_0012465,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012466,flower_perianth_symmetry,Symmetry of perianth,Trait capturing the symmetry of the perianth.,"This trait is applied to the perianth as a whole. In case of flowers with two or more perianth whorls, species are considered actinomorphic if all whorls are actinomorphic and as zygomorphic if one or more whorls are zygomorphic. Trait is not applicable when the perianth is missing. Definition and trait values derived from Schoenenberger et al. (2020) for their character '207. Symmetry of perianth (D1)'",categorical variable [STATO_0000252],NA,NA,NA,Not applicable when the perianth is missing,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],"spatial pattern, distribution [PATO_0000060]; symmetry [PATO_0000965]; orientation [PATO_0000133]","reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A perianth morphology trait [TO:0000275] which is the symmetry [PATO:0000965] of the perianth [PO:0009058] (petals [PO:0009032], sepals [PO:0009031], and tepals [PO:0009033]), whereby a perianth is only considered actinomorphic [PATO:0001328] if all perianth whorls [PO:0025023] are actinomorphic.",NA,trait_0012466,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012467,flower_perianth_whorls_count,Number of perianth whorls,The number of perianth whorls as a continuous trait (with integer values of 1 and above).,Not applicable when perianth phyllotaxis is spiral or irregular or when the perianth is absent. Definition derived from Schoenenberger et al. (2020) for their character '231. Number of perianth whorls (C1)',continuous variable [STATO_0000251],0,15,{count},Not applicable when perianth phyllotaxis is spiral or irregular or when the perianth is absent.,perianth morphology trait [trait_group_0012406],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],"reproduction [GO_0000003]; perianth [PO_0009058]; sepal [PO_0009031]; petal [PO_0009032]; corolla [PO_0009059]; calyx [PO_0009060]; whorl, floral whorl [PO_0025023]",Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A perianth morphology trait [TO:0000275] which is the count [NCIT:C25463] of floral whorls [PO:0025023] that comprise the perianth [PO:0009058] (petals [PO:0009032], sepals [PO:0009031], and tepals [PO:0009033]).",NA,trait_0012467,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012471,flower_pollen_aperture_shape,Pollen grain aperture shape,"Pollen grains are often described according to the shape, structure, and position of their apertures. This trait describes the main shape of the many described aperture types.","Aperture terminology is partly determined by the position of the aperture on the pollen grain (either at the pole or at the equator) and pollen grain polarity, in turn, is determined by the spatial orientation of the microspore in the meiotic tetrad. Definition and trait values derived from Schoenenberger et al. (2020) for their character '5002. Aperture shape (D1)''",categorical variable [STATO_0000252],NA,NA,NA,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],"shape [PATO_0000052]; structure [PATO_0000141]; position [PATO_0000140]; spatial pattern, distribution [PATO_0000060]",reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen aperture [GO_0062074]; pollen [PO_0025281]; pollen tube [GO_0090406]; anther theca [PO_0009069],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the shape [PATO:0000052], structure [PATO:0000141], and position [PATO:0000140] of the pollen grain [PO:0025281] apertures [GO:0062074].",NA,trait_0012471,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012472,flower_pollen_apertures_count,Number of pollen grain apertures,The number of apertures per pollen grain as a continuous character.,A pollen aperture is a structurally delimited region of the pollen grain wall through which the pollen tube emerges during pollen germination and which plays a role in harmomegathy. A value of zero is scored when pollen is inaperturate (i.e. when there is no distinct aperture). Aperturate pollen is scored with integer values of 1 and above. Definition derived from Schoenenberger et al. (2020) for their character '5000. Number of apertures (C1)',continuous variable [STATO_0000251],0,100,{count},NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],reproduction [GO_0000003]; androecium [PO_0009061]; stamen [PO_0009029]; anther [PO_0009066]; pollen aperture [GO_0062074]; pollen [PO_0025281]; pollen tube [GO_0090406]; anther theca [PO_0009069],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the count [NCIT:C25463] of pollen apertures [GO:0062074] per pollen [PO:0025281] grain.,NA,trait_0012472,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012473,flower_pollen_length,Pollen grain length,The largest dimension of the pollen grain.,"Palynologists typically describe pollen dimensions (and shape) using two measures, the polar axis (P) and the total breadth or diameter of the equatorial axis. Here we use P or E or another measure, whichever is the longest.",continuous variable [STATO_0000251],0,1000,um,NA,androecium morphology trait [trait_group_0012408],reproductive shoot system [PO_0025082]; flower [PO_0009046],length [PATO_0000122],reproduction [GO_0000003]; pollen [PO_0025281],NA,Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],19/05/2023,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the length [PATO:0000122] of a pollen [PO:0025281] grain.,NA,trait_0012473,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012481,flower_structural_carpels_count,Number of structural carpels,"Number of fertile or sterile carpels in bisexual or female flowers, recorded as a continuous character (with integer values of 1 and above).","Includes the number of co-occurring carpellodes (sterile carpels) because this number is often more easily obtained from the literature than the actual number of fertile carpels. However, the number of carpellodes in male flowers is ignored for this character. In multicarpellate, unilocular gynoecia with complete carpel fusion up to the stigma (e.g., Primula), it may be difficult to assess the number of carpels unequivocally. In such cases, the number of carpels is scored only if it is well established based on atomical or developmental investigations. Similarly, in gynoecia where one or more carpels are reduced (e.g., in the pseudomonomerous gynoecia of some Arecaceae, Stauffer et al., 2002), the total number of structural carpels is only scored when unequivocally determined in the literature. Definition derived from Schoenenberger et al. (2020) for their character '401. Number of structural carpels (C1)'",continuous variable [STATO_0000251],0,10000,{count},NA,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],has number of [PATO_0001555]; count [NCIT_C25463],reproduction [GO_0000003]; gynoecium [PO_0009062]; carpel [PO_0009030],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the count [NCIT:C25463] of both fertile [PATO:0000955] and female sterile [PATO:0000892] carpels [PO:0009030] in a hermaphrodite [PATO:0001340] flower [PO:0009046] or female [PATO:0000383] flower.,NA,trait_0012481,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012482,flower_structural_sex_type,Floral structural sex,"Trait that captures floral sex, distinguishing among three states, bisexual, incompletely unisexual, and unisexual.",Defined by Schoenenberger et al. (2020) for their character '100. Floral structural sex (D1)'. See the trait 'sex_type' for plant sex type.,categorical variable [STATO_0000252],NA,NA,NA,NA,floral organ morphology trait [trait_group_0012404],reproductive shoot system [PO_0025082]; flower [PO_0009046],structure [PATO_0000141]; organismal quality [PATO_0001995],reproduction [GO_0000003]; phenotypic sex [PATO_0001894]; perianth [PO_0009058]; corolla [PO_0009059]; hermaphrodite [PATO_0001340],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is the phenotypic sex [PATO:0001894] of a flower [PO:0009046], indicating whether individual flowers have both male [PATO:0000384] and female [PATO:0000383] reproductive structures [UBERON:0005156] (bisexual) or only one type of reproductive organ (unisexual).",NA,trait_0012482,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012483,flower_style_differentiation,Style differentiation,"Presence or absence of a style, and, when present, the shape of the style in terms of length and width in relation to ovary length and width.",This trait does not distinguish between fused or free styles. Definition and trait values derived from Schoenenberger et al. (2020) for their character '404. Style differentiation (D1)',categorical variable [STATO_0000252],NA,NA,NA,NA,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],shape [PATO_0000052]; amount (presence or absence in organism) [PATO_0000070]; 2-D extent [PATO_0001709]; structure [PATO_0000141],reproduction [GO_0000003]; gynoecium [PO_0009062]; style [PO_0006469]; plant ovary [PO_0009072]; carpel [PO_0009030],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,"A floral organ morphology trait [TO:0000862] which is whether a style [PO:0006469] is present [PATO:0000467] or absent [PATO:0000462], and if present, the shape [PATO:0000052] and the length [PATO:0000122], width [PATO:0000921], and thickness [PATO:0000915] of the style relative to the dimensions of the ovary [PO:0009072].",NA,trait_0012483,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012484,flower_style_fusion,Fusion of styles,"The degree of fusion of styles at anthesis, recorded on a continuous scale, from 0 (free styles) to 1 (styles fused along their entire length, but excluding the stigmatic region).","Partial fusion is recorded using an approximate number between these two extremes (e.g., 0.1 corresponds to basal fusion, 0.5 to fusion along half of the total length of the styles). This character is not applicable in unicarpellate flowers. Definition derived from Schoenenberger et al. (2020) for their character '406. Fusion of styles (C1)'",continuous variable [STATO_0000251],0,1,{dimensionless},NA,gynoecium morphology trait [trait_group_0012409],reproductive shoot system [PO_0025082]; flower [PO_0009046],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; structure [PATO_0000141],reproduction [GO_0000003]; gynoecium [PO_0009062]; style [PO_0006469]; carpel [PO_0009030],Schönenberger 2020 [https://doi.org/10.1002/ajb2.1538],Hervé Sauquet [https://orcid.org/0000-0001-8305-3236],14/07/2021,05/02/2024,NA,NA,NA,NA,A floral organ morphology trait [TO:0000862] which is the proportion [PATO:0001470] of the length [PATO:0000122] of styles [PO:0006469] that are fused [NCIT:C124537] together.,NA,trait_0012484,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012511,fruit_dry_mass,Fruit dry mass,"Fruit dry mass, including seeds. Fruits will generally be oven-dried.",NA,continuous variable [STATO_0000251],1e-4,1000000,mg,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],mass [PATO_0000125],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,fruit dry weight [http://purl.obolibrary.org/obo/TO_0003005],NA,NA,exact match: Fruit dry mass [TOP112] (https://top-thesaurus.org/index); exact match: Fruit mass [TRY:919] (https://www.try-db.org/de/de.php); exact match: Fruit dry mass [BROT:25] (http://doi.org/10.1038/sdata.2018.135),"A fruit morphology trait [TO:0002629] which is the dry [PATO:0001824] mass [PATO:0000125] of a fruit [PO:0009001], including seeds [PO:0009010].",NA,trait_0012511,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012512,fruit_length,Fruit length,"Linear dimension from the base to the apex of a fresh fruit, even if this is not the longest dimension.",NA,continuous variable [STATO_0000251],0.01,2000,mm,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],length [PATO_0000122]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,fruit length [http://purl.obolibrary.org/obo/TO_0002626],NA,NA,exact match: Fruit length [TOP92] (https://top-thesaurus.org/index); exact match: Fruit length [TRY:918] (https://www.try-db.org/de/de.php); exact match: fruit_length [GIFT:3.13] (https://gift.uni-goettingen.de); exact match: AverageFruitLength_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); exact match: MinFruitLength_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); exact match: MaxFruitLength_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); close match: maximum fruit length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: minimum fruit length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A fruit morphology trait [TO:0002629] which is the length [PATO:0000122] of a fresh [EnvThes:21976] fruit [PO:0009001] from the fruit proximal end [PO:0008002] (base) to the fruit distal end [PO:0008001] (apex).,NA,trait_0012512,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012513,fruit_width,Fruit width,"Greatest linear width dimension of a fresh fruit, sometimes referred to as 'diameter' in fruits where the width and height are identical; orthogonal to the fruit length, the base-to-apex dimension.",NA,continuous variable [STATO_0000251],0.01,2000,mm,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],width [PATO_0000921]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,fruit width [http://purl.obolibrary.org/obo/TO_0002627],NA,NA,exact match: Fruit width [TOP96] (https://top-thesaurus.org/index); exact match: Fruit diameter [TRY:917] (https://www.try-db.org/de/de.php); exact match: fruit_width [GIFT:3.14] (https://gift.uni-goettingen.de); exact match: AverageFruitWidth_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); exact match: MinFruitWidth_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); exact match: MaxFruitWidth_cm [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0),"A fruit morphology trait [TO:0002629] which is the width [PATO:0000921] of a fresh [EnvThes:21976] fruit [PO:0009001], where width is the greatest linear dimension [PATO:0001708] perpendicular to [PATO:0002434] to the fruit length [PATO:0000122] and fruit height [PATO:0000119].",NA,trait_0012513,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012514,fruit_height,Fruit breadth,"Shorter linear width dimension of a fresh fruit and generally not reported in fruits where the width and height are identical; orthogonal to the length, the base-to-apex dimension.",NA,continuous variable [STATO_0000251],0.01,2000,mm,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],height [PATO_0000119]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Fruit thickness [TOP100] (https://top-thesaurus.org/index); exact match: fruit_height [GIFT:3.15] (https://gift.uni-goettingen.de),"A fruit morphology trait [TO:0002629] which is the height [PATO:0000119] of a fresh [EnvThes:21976] fruit [PO:0009001], where height is the shorter linear width dimension [PATO:0001708] perpendicular to [PATO:0002434] both the fruit length [PATO:0000122] and fruit width [PATO:0000921].",fruit_breadth,trait_0012514,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012515,fruit_wall_thickness,Fruit wall thickness,"Fruit wall thickness of a mature fresh fruit. This term sometimes applies explicitly to the entire pericarp (exocarp + mesocarp + endocarp), but more frequently will have a functional meaning, referring to the outer fleshy layer which might be just some components of the peripcarp (most frequently the exocarp and mesocarp).",NA,continuous variable [STATO_0000251],0.01,1000,mm,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],thickness [PATO_0000915],reproduction [GO_0000003]; pericarp [PO_0009084]; exocarp [PO_0009085]; mesocarp [PO_0009087]; endocarp [PO_0009086],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,NA,"A fruit morphology trait [TO:0002629] which is the thickness [PATO:0000915] of the entire pericarp [PO:0009084] (the exocarp [PO:0009085], mesocarp [PO:0009087], and endocarp [PO:0009086] combined), although it often refers just to the fleshy [PATO:0002351] components of the pericarp (most frequently the exocarp and mesocarp).",fruit_wall_width,trait_0012515,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012516,fruit_type,Fruit type,Botanical fruit type classification.,"Although this trait is explicitly for fruit types, it includes a single term `strobilus` to describe the ""fruiting body"" of non-flowering plants.",categorical variable [STATO_0000252],NA,NA,NA,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],structure [PATO_0000141]; composition [PATO_0000025]; shape [PATO_0000052],reproduction [GO_0000003],Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Beentje 2010 [https://books.google.com/books?vid=ISBN1842464221]; Spjut 2003 [https://www.worldbotanical.com/fruit_types.htm],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,fruit type [http://purl.obolibrary.org/obo/TO_0000850],NA,NA,exact match: Fruit type [TRY:99] (https://www.try-db.org/de/de.php); exact match: fruit_type_1 [GIFT:3.16.1] (https://gift.uni-goettingen.de); exact match: fruit type [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Fruit type [BROT:26] (http://doi.org/10.1038/sdata.2018.135),A fruit morphology trait [TO:0002629] which is the botanical classification [NCIT:C25161] or type [NCIT:C25284] of a fruit [PO:0009001].,NA,trait_0012516,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012517,fruit_fleshiness,Fruit fleshiness,"Binary variable, dividing entire, true fruits into 'dry' versus 'fleshy' based on whether their botanical fruit type is fleshy when mature and fresh.","This trait explicitly refers to fruit fleshiness, not diaspore or seed fleshiness; diaspore fleshiness is a separate trait.",categorical variable [STATO_0000252],NA,NA,NA,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],composition [PATO_0000025]; structure [PATO_0000141]; texture [PATO_0000150],reproduction [GO_0000003]; fleshy [PATO_0002351],Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Beentje 2010 [https://books.google.com/books?vid=ISBN1842464221]; Spjut 2003 [https://www.worldbotanical.com/fruit_types.htm],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: fruit_dryness_1 [GIFT:3.18.1] (https://gift.uni-goettingen.de); close match: Fruit type [TRY:99] (https://www.try-db.org/de/de.php),A fruit morphology trait [TO:0002629] which indicates whether a mature [PATO:0001701] fresh [EnvThes:21976] fruit [PO:0009001] is fleshy [PATO:0002351].,NA,trait_0012517,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012518,fruit_dehiscence,Fruit dehiscence,"Binary variable, dividing fruits into 'dehiscent' versus 'indehiscent' based on whether the individual fruit units are dehiscent when mature.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],structure [PATO_0000141],reproduction [GO_0000003]; dehiscence [GO_0009900],Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Beentje 2010 [https://books.google.com/books?vid=ISBN1842464221]; Spjut 2003 [https://www.worldbotanical.com/fruit_types.htm],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: dehiscence_1 [GIFT:3.17.1] (https://gift.uni-goettingen.de); close match: Fruit type [TRY:99] (https://www.try-db.org/de/de.php),A fruit morphology trait [TO:0002629] which indicates whether mature [PATO:0001701] fruits [PO:0009001] are dehiscent [GO:0009900].,NA,trait_0012518,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012519,fruit_colour,Fruit colour,Human visible dominant colour of a fresh fruit's exocarp (outermost layer) at maturity.,"If a fruit is multiple colours, they are listed as a space-delimited string.",categorical variable [STATO_0000252],NA,NA,NA,NA,fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; fruit [PO_0009001],colour / color [PATO_0000014],reproduction [GO_0000003]; exocarp [PO_0009085]; pericarp [PO_0009084],Kissling 2019 [https://doi.org/10.1038/s41597-019-0189-0]; Delmas 2020 [https://doi.org/10.1111/geb.13065],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,fruit color [http://purl.obolibrary.org/obo/TO_0002617]; exocarp color [http://purl.obolibrary.org/obo/TO_0002620],NA,NA,exact match: Fruit/seed color [TRY:585] (https://www.try-db.org/de/de.php); exact match: fruit_colour [GIFT:3.22.1] (https://gift.uni-goettingen.de); exact match: MainFruitColors [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); close match: Dispersal unit color [TRY:392] (https://www.try-db.org/de/de.php); close match: FruitColorDescription [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0),A fruit morphology trait [TO:0002629] which is the primary [NCIT:C25251] colour [PATO:0000014] of the exocarp [PO:0009085] of a mature [PATO:0001701] fruit [PO:0009001].,NA,trait_0012519,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012610,seed_dry_mass,Seed dry mass,"Dry mass of a mature seed, including both oven dried and air-dried samples.","Standard methods people will have used to dry seeds include, 'fresh' (at dispersal, mature); 'air dried' (at local ambient conditions); 'seed bank air dried' (to 15% relative humidity); and 'oven dried' (>100 deg C for a set number of hours; e.g. seed bank standard is 103 deg C for 17 hours). It is expected that some observations in AusTraits mapped onto ‘seed_dry_mass' will actually include both the seed and some dispersal tissue, if the two cannot easily be separated; these should be mapped to 'diaspore_dry_mass'.",continuous variable [STATO_0000251],1e-5,1000000,mg,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,"seed weight, seed mass [http://purl.obolibrary.org/obo/TO_0000181]; seed mass [http://vocabs.lter-europe.net/EnvThes/22229]",NA,NA,exact match: Seed dry mass [TOP111] (https://top-thesaurus.org/index); exact match: Seed dry mass [TRY:26] (https://www.try-db.org/de/de.php); exact match: seed_mass [GIFT:3.2] (https://gift.uni-goettingen.de); exact match: seed mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Seed dry mass [BROT:27] (http://doi.org/10.1038/sdata.2018.135); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the dry [PATO:0001824] mass [PATO:0000125] of a mature [PATO:0001701] seed [PO:0009010].,seed_mass,trait_0012610,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012611,diaspore_dry_mass,Diaspore dry mass,"Dry mass of a plant's dispersal unit, including the seed and any dispersal appendages; synonymous with the term dispersule and often synonymous with the term disseminule.","Data mapped onto this trait have been very explicitly defined as a 'diaspore'. There will be additional values mapped as either 'seed_dry_mass' or 'fruit_dry_mass' that are also diaspores, but have identified only as being a 'seed' or 'fruit'. In addition, it is expected that some observations in AusTraits mapped onto 'seed_dry_mass' will actually include both the seed and some dispersal tissue, if the two cannot easily be separated.",continuous variable [STATO_0000251],1e-5,1000000,mg,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125],dispersal [EnvThes:21038]; reproduction [GO_0000003]; seed dispersal [EnvThes:21042],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Dispersule dry mass trait [TOP110] (https://top-thesaurus.org/index); exact match: Dispersal unit dry mass [TRY:233] (https://www.try-db.org/de/de.php); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the dry [PATO:0001824] mass [PATO:0000125] of a seed [PO:0009010] and the seed dispersal [EnvThes:21042] structures [PATO:0000141].,diaspore_mass,trait_0012611,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012612,seed_dry_mass_reserve,Seed embryo and endosperm dry mass,"Dry mass of a seed's embryo and endosperm (if present), the components of a seed that provide energy to a seedling. These tissues are distinct from a seed's dispersal structures or protective tissues.",NA,continuous variable [STATO_0000251],1e-5,100000,mg,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],mass [PATO_0000125],energy [PATO_0001021]; plant embryo [PO_0009009]; endosperm [PO_0009089]; reproduction [GO_0000003]; seedling [EnvThes:20698]; storage organ [EFO:0000997],Westoby 1990 [https://doi.org/10.2307/1938268]; Lamont & Groom 2013 [https://doi.org/10.4236/ajps.2013.45A005],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,NA,"A seed morphology trait [TO:0000184] which is the dry [PATO:0001824] mass [PATO:0000125] of the components of a seed [PO:0009010] that provide energy [PATO:0001021] to a seedling [EnvThes:20698], generally the embryo [PO:0009009] and, if present, the endosperm [PO:0009089].",seed_mass_reserve,trait_0012612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012613,seed_length,Seed length,Longest linear seed dimension.,"Observations of this trait in AusTraits are almost certainly an undocumented mix of dimensions of true seeds and diaspores. When all or part of the fruit is not easily separated from the true seed, many researchers will have recorded and submitted a diaspore length, but labeled the data 'seed length'. The intent of this measurement is that it excludes appendages, although it is likely some submitted measurements include small appendages that are not easily separated from the seed.",continuous variable [STATO_0000251],0.01,1000,mm,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],length [PATO_0000122]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed length [http://purl.obolibrary.org/obo/TO_0000146],NA,NA,exact match: Seed length [TOP91] (https://top-thesaurus.org/index); exact match: Seed length [TRY:27] (https://www.try-db.org/de/de.php); exact match: seed_length [GIFT:3.10] (https://gift.uni-goettingen.de); exact match: seed length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the greatest linear dimension [PATO:0001708] (axis) of a seed [PO:0009010] and is perpendicular to [PATO:0002434] the seed width [PATO:0000921] and seed height [PATO:0000119] axes [NCIT:C25154].,NA,trait_0012613,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012614,seed_width,Seed width,Longest width dimension of a seed; orthogonal to the length and height axes.,"Observations of this trait in AusTraits are almost certainly an undocumented mix of dimensions of true seeds and diaspores. When all or part of the fruit is not easily separated from the true seed, many researchers will have recorded and submitted a diaspore width, but labeled the data 'seed width'. The intent of this measurement is that it excludes appendages, although it is likely some submitted measurements include small appendages that are not easily separated from the seed.",continuous variable [STATO_0000251],0.01,1000,mm,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],width [PATO_0000921]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed width [http://purl.obolibrary.org/obo/TO_0000149],NA,NA,exact match: Seed width [TOP95] (https://top-thesaurus.org/index); exact match: Seed width [TRY:239] (https://www.try-db.org/de/de.php); exact match: seed_width [GIFT:3.11] (https://gift.uni-goettingen.de); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the longest [NCIT:C25558] width [PATO:0000921] dimension of a seed [PO:0009010] and is perpendicular to [PATO:0002434] the seed length [PATO:0000122] and seed height [PATO:0000119] axes [NCIT:C25154].,NA,trait_0012614,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012615,seed_height,Seed height,Shorter width dimension of a seed; orthogonal to its length and width axes.,"Observations of this trait in AusTraits are almost certainly an undocumented mix of dimensions of true seeds and diaspores. When all or part of the fruit is not easily separated from the true seed, many researchers will have recorded and submitted a diaspore height, but labeled the data 'seed height. The intent of this measurement is that it excludes appendages, although it is likely some submitted measurements include small appendages that are not easily separated from the seed.",continuous variable [STATO_0000251],0.01,1000,mm,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],height [PATO_0000119]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed thickness [http://purl.obolibrary.org/obo/TO_0000304],NA,NA,exact match: Seed thickness [TOP99] (https://top-thesaurus.org/index); exact match: seed_height [GIFT:3.12] (https://gift.uni-goettingen.de); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the shortest diameter [NCT:C120715] axis [NCIT:C25154] of a seed [PO:0009010] and is perpendicular to [PATO:0002434] the seed length [PATO:0000122] and seed width [PATO:0000921] axes.,seed_breadth,trait_0012615,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012616,seed_volume,Seed volume,Volume of a seed.,NA,continuous variable [STATO_0000251],0.001,100000,mm3,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],volume [PATO_0000918]; 3-D extent [PATO_0001710]; size [PATO_0000117],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed volume [http://purl.obolibrary.org/obo/TO_0007000],NA,NA,exact match: Seed volume [TRY:3042] (https://www.try-db.org/de/de.php); exact match: seed_volume [GIFT:3.19] (https://gift.uni-goettingen.de); close match: seed weight & seed shape [LEDA:5.2] (https://uol.de/en/landeco/research/leda/standards),A seed morphology trait [TO:0000184] which is the volume [PATO:0000918] of a seed [PO:0009010].,NA,trait_0012616,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012617,seed_count,Seed count,Number of seeds produced by a plant.,"This trait should be used to document the seed output of a large, healthy individual in a population, representing the maximum seed output by the taxon under given environmental conditions.",continuous variable [STATO_0000251],0,100000,{count},NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],has number of [PATO_0001555]; count [NCIT_C25463]; maximum [NCIT_C25564],reproduction [GO_0000003],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A seed morphology trait [TO:0000184] which is the count [NCIT:C25463] of seeds [PO:0009010] produced by an individual [EFO:0000542] in a given location [NCIT:C25341].,NA,trait_0012617,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012618,seed_shape,Seed shape,Three-dimensional shape of the seed.,"The trait values indicate the approximate shape of the seed, acknowledging few seeds are exactly ellipsoid, globoid, etc. The list of terms has been chosen to represent different length:width:height ratios and different levels of symmetry. Terms that suggest very specific shapes have generally been grouped into a broader category for increased interoperability across datasets.",categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],shape [PATO_0000052]; 3-D extent [PATO_0001710]; morphology [PATO_0000051]; curvature [PATO_0001591],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed shape [http://purl.obolibrary.org/obo/TO_0000484],NA,NA,exact match: Seed shape [TRY:349] (https://www.try-db.org/de/de.php); close match: Basic seed shape [BROT:29] (http://doi.org/10.1038/sdata.2018.135),"A seed morphology trait [TO:0000184] which is the 3-D [PATO:0001710] shape [PATO:0000052] of a seed [PO:0009010] considering the relative seed length [PATO:0000122], seed width [PATO:0000921], and seed height PATO:0000119] dimensions and the curvature [PATO:0001591] of the seed's surface [NCIT:C25245].",NA,trait_0012618,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012619,seed_surface_hairs,Seed surface hairs,"Surface hairiness of a mature seed, including vestiture (trichome cover) and bristles.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],texture [PATO_0000150]; morphology [PATO_0000051]; pilosity [PATO_0000066],leaf trichome [PO_0006504]; NA [glossary_40114]; reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,NA,A seed morphology trait [TO:0000184] which is the presence or absence of trichomes [PO:0006504] on the surface [NCIT:C25245] of a mature [PATO:0001701] seed [PO:0009010].,seed_texture,trait_0012619,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012620,seed_surface_texture,Seed surface texture,"Surface texture of a mature seed, including descriptions of configuration (overall surface patterns of the epidermal cells) and epidermal excrescence (surface patterns caused by structural outgrowths of the epidermis).",This trait does not include values that capture seed appendages; see the trait `dispersal_appendages` for descriptions of seed appendages.,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],texture [PATO_0000150]; morphology [PATO_0000051],reproduction [GO_0000003],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed texture [http://purl.obolibrary.org/obo/TO_0020016]; seed coat texture [http://purl.obolibrary.org/obo/TO_0000903],NA,NA,NA,A seed morphology trait [TO:0000184] which is the texture [PATO:0000150] of the surface [NCIT:C25245] of a mature [PATO:0001701] seed [PO:0009010].,seed_texture,trait_0012620,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012621,seed_surface_reflectivity,Seed surface reflectivity,"Surface reflectivity of a seed, indicating whether a seed is shiny or dull.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604],reproductive shoot system [PO_0025082]; seed [PO_0009010],texture [PATO_0000150]; morphology [PATO_0000051]; reflectivity [PATO_0001297],reproduction [GO_0000003],NA,NA,20/04/2023,05/02/2024,seed coat luster [http://purl.obolibrary.org/obo/TO_0000888],NA,NA,NA,A seed morphology trait [TO:0000184] which is the reflectivity [PATO:0001297] of the surface [NCIT:C25245] of a mature [PATO:0001701] seed [PO:0009010].,NA,trait_0012621,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012622,diaspore_fleshiness,Diaspore fleshiness,"Binary variable, dividing diaspores (dispersal units) into 'dry' versus 'fleshy' based on whether they have fleshy pericarps, fleshy accessory tissues (such as the receptacle in Podocarpus), or fleshy appendages (e.g. aril, thalamus, receptacle, calyx, rachis or bract or succulent pedicel) when mature. Dispersal units where none of these tissues is fleshy are designated as 'non-fleshy'.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604]; fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],composition [PATO_0000025]; structure [PATO_0000141],fleshy [PATO_0002351]; dispersal [EnvThes:21038]; seed dispersal [EnvThes:21042]; reproduction [GO_0000003],Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html]; Beentje 2010 [https://books.google.com/books?vid=ISBN1842464221]; Spjut 2003 [https://www.worldbotanical.com/fruit_types.htm]; Chen 2015 [https://doi.org/10.1111/geb.12346],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,close match: Fruit type [TRY:99] (https://www.try-db.org/de/de.php),"A seed morphology trait [TO:0002629] which indicates whether a mature [PATO:0001701] fresh [EnvThes:21976] diaspore is fleshy [PATO:0002351], where a diaspore is a plant's dispersal [EnvThes:21038] unit and includes both the seed [PO:0009010] and the seed dispersal [EnvThes:21042] structures [PATO:0000141].",NA,trait_0012622,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012623,dispersal_appendage,Dispersal appendage,External appendages of the dispersule presumed to facilitate seed dispersal away from the parent plant.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604]; fruit morphology trait [trait_group_0012504]; interspecific interactions trait [trait_group_0030009],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],shape [PATO_0000052]; structure [PATO_0000141]; mechanism [NCIT_C25343],"seed dispersal [EnvThes:21042]; dispersal [EnvThes:21038]; reproduction [GO_0000003]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; appendage [NCIT_C61460]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502]; Wigley 2020 [https://doi.org/10.1071/BT20048]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,close match: Dispersal unit type [TRY:231] (https://www.try-db.org/de/de.php),A seed morphology trait [TO:0002629] which indicates external [NCIT:C44280] appendages [NCIT:C61460] on the seed [PO:0009010] or the seed's dispersal [OMIT: 0027297] structures [PATO:0000141] whose presumed function [NCIT:C25518] is to facilitate seed dispersal [EnvThes:21042].,NA,trait_0012623,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0012624,dispersal_unit,Dispersal unit,"Broad terms indicating the plant structure involved in dispersal, distinguishing between taxonomic groups whose main dispersal units are spores, seeds, or fruit.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,seed morphology trait [trait_group_0012604]; fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],organismal quality [PATO_0001995]; structure [PATO_0000141],seed dispersal [EnvThes:21042]; dispersal [EnvThes:21038]; reproduction [GO_0000003]; spore [NCIT_C79672],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Diaspore [BROT:24] (http://doi.org/10.1038/sdata.2018.135); close match: Dispersal unit type [TRY:231] (https://www.try-db.org/de/de.php),"A reproductive shoot system morphology trait [TO:0000786] which is the plant structure [PO:0009011] involved in dispersal [EnvThes:21038], broadly distinguishing between taxa [NCIT:C40098] whose main dispersal units are spores [NCIT:C79672], seeds [PO:0009010] or fruit [PO:0009001].",NA,trait_0012624,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013011,leaf_secondary_vein_angle,Leaf secondary vein angle,Angle between the primary vein (midrib) and a secondary vein in a leaf lamina.,"For a palmate leaf, the main veins radiating from the base are generally referred to as primary veins, with secondary veins branching off each primary vein.",continuous variable [STATO_0000251],0,90,deg,Vascular plants with leaves.,"leaf vein morphology trait [trait_group_0013006]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],angle [PATO_0002326],primary leaf vein [PO_0025413]; secondary leaf vein [PO_0020140]; leaf lamina [PO_0020039]; leaf lamina vein [PO_0020138]; water transport [GO_0006833],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Sack 2013 [https://doi.org/10.1111/nph.12253],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,NA,A vascular tissue morphology trait [TO:0000470] which is the angle [PATO:0002326] between the primary leaf vein [PO:0025413] and the secondary leaf vein [PO:0020140] in a leaf lamina [PO:0020039].,vein_angle_secondary,trait_0013011,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013012,leaf_major_vein_density,Major leaf vein density,"The length of major leaf lamina veins per unit leaf area, where primary, secondary and tertiary leaf lamina veins are considered `major` veins.","This trait records the length of only major veins (primary, secondary and tertiary veins), while the trait `leaf_total_vein_density` records the length of all orders of leaf veins.",continuous variable [STATO_0000251],0.01,20,mm/mm2,Vascular plants with leaves.,"leaf vein morphology trait [trait_group_0013006]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],length [PATO_0000122]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; count density [ECSO_00001160],leaf lamina vein [PO_0020138]; primary leaf vein [PO_0025413]; secondary leaf vein [PO_0020140]; tertiary leaf vein [PO_0008021]; water transport [GO_0006833],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Sack 2013 [https://doi.org/10.1111/nph.12253],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,leaf vein morphology trait [http://purl.obolibrary.org/obo/TO_0000820],close match: Leaf vein density [TRY:740] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the total length [PATO:0000122] of major leaf lamina veins [PO:0020138] (defined as primary leaf veins [PO:0025413], secondary leaf veins [PO:0020140], and tertiary leaf veins [PO:0008021]) to leaf lamina [PO_0020039] area [PATO:0001323].",vein_density,trait_0013012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013013,leaf_total_vein_density,Length of all minor and major leaf lamina veins per unit area,The length of all minor and major leaf lamina veins per unit leaf area.,"This trait records the length of all orders of leaf lamina veins, while the trait `leaf_major_vein_density` records only the length of major veins (primary, secondary and tertiary veins).",continuous variable [STATO_0000251],0.01,20,mm/mm2,Vascular plants with leaves.,"leaf vein morphology trait [trait_group_0013006]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],length [PATO_0000122]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; count density [ECSO_00001160],leaf lamina vein [PO_0020138]; water transport [GO_0006833],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Sack 2013 [https://doi.org/10.1111/nph.12253],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,NA,leaf vein morphology trait [http://purl.obolibrary.org/obo/TO_0000820],close match: Leaf vein density [TRY:740] (https://www.try-db.org/de/de.php),A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the total length [PATO:0000122] of all leaf lamina veins [PO:0020138] to leaf lamina [PO_0020039] area [PATO:0001323].,vein_density,trait_0013013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013014,leaf_vein_frequency,Leaf vein frequency,"A measure of vein density, which is the number of veins intersecting the perimeter of a square of the leaf lamina divided by the length of the perimeter of the square.",NA,continuous variable [STATO_0000251],0.01,20,{count}/mm,Vascular plants with leaves.,"leaf vein morphology trait [trait_group_0013006]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470]; count [NCIT_C25463],leaf lamina vein [PO_0020138]; leaf lamina [PO_0020039]; water transport [GO_0006833],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Sack 2013 [https://doi.org/10.1111/nph.12253]; Brooker & Nicolle 2013 [https://doi.org/10.1071/9780643109865],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,NA,leaf vein morphology trait [http://purl.obolibrary.org/obo/TO_0000820],NA,A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of all leaf lamina veins [PO:0020138] intersecting the perimeter [PATO:0001711] of a square of the leaf lamina divided by the length of the perimeter of the square.,vein_density,trait_0013014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013111,stem_vessel_density,Stem xylem vessel density,The ratio of the count of xylem vessels in a stem cross-section to stem cross-sectional area.,NA,continuous variable [STATO_0000251],0.4,2000,{count}/mm2,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],has number of [PATO_0001555]; count density [ECSO_00001160]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; count [NCIT_C25463],xylem vessel [PO_0025417]; cross section [NCIT_C63795]; water transport [GO_0006833]; sapwood [PO_0004513],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056]; Zanne 2010 [https://doi.org/10.3732/ajb.0900178],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood vessel density [TRY:1237] (https://www.try-db.org/de/de.php); exact match: Branch vessel density [TRY:3390] (https://www.try-db.org/de/de.php); exact match: vessel number [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of xylem vessels [PO:0025417] in a stem [PO:0009047] cross-section [NCIT:C63795] to stem cross-sectional area [PATO:0001323].,vessel_density,trait_0013111,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013112,leaf_vessel_density,Leaf xylem vessel density,The ratio of the count of xylem vessels in a leaf cross-section to leaf cross-sectional area.,NA,continuous variable [STATO_0000251],1,50000,{count}/mm2,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],has number of [PATO_0001555]; count density [ECSO_00001160]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; count [NCIT_C25463],xylem vessel [PO_0025417]; cross section [NCIT_C63795]; water transport [GO_0006833],NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,NA,A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of xylem vessels [PO:0025417] in a leaf [PO:0025034] cross-section [NCIT:C63795] to leaf cross-sectional area [PATO:0001323].,vessel_density_leaves,trait_0013112,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013113,stem_vessel_diameter,Stem xylem vessel diameter,Diameter of xylem vessels in a stem.,"As the adjacent vessels in an individual stem vary notably in size, this trait should never document a single vessel diameter from an individual, but instead the mean (or possibly maximum) vessel diameter from a much larger sample size. Note as well, that vessel diameters increase from a growing tip to the base of a plant and the location sampled should be specified in either the methods or as a context property.",continuous variable [STATO_0000251],1,1000,um,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],diameter [PATO_0001334],xylem vessel [PO_0025417]; water transport [GO_0006833]; sapwood [PO_0004513],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056]; Zanne 2010 [https://doi.org/10.3732/ajb.0900178],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,Wood vessels diameter [https://cropontology.org/rdf/CO_357:0000151],NA,NA,exact match: Wood vessel diameter [TRY:1238] (https://www.try-db.org/de/de.php); exact match: Branch vessel diameter [TRY:3391] (https://www.try-db.org/de/de.php); exact match: vessel lumen area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A vascular tissue morphology trait [TO:0000470] which is the diameter [PATO:0001334] of xylem vessels [PO:0025417] in a stem [PO:0009047].,vessel_diameter,trait_0013113,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013114,stem_vessel_diameter_hydraulic,Stem xylem vessel hydraulic mean diameter,"Hydraulic diameter (or hydraulically weighted diameter) is a weighted arithmetic mean diameter of xylem vessels in a stem, reflecting the greater contribution of wide vessels to actual hydraulic conductivity. It is based on the Hagen-Poiseuille law, a fluid dynamics equation that describes laminar flow through a tube. It shows that a few large conduits transport an equal amount of water as many small ones, as flow rate is proportional to the 4th power of the conduit's diameter.",NA,continuous variable [STATO_0000251],1,500,um,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],diameter [PATO_0001334]; weighted arithmetic mean [STATO_0000398],xylem vessel [PO_0025417]; hydraulic conductivity [EnvThes:22133]; water transport [GO_0006833]; sapwood [PO_0004513]; Hagen Poiseuille equation [SCAIVPH_00000131],Tyree & Ewers 1991 [https://doi.org/10.1111/j.1469-8137.1991.tb00035.x]; Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056]; Tyree & Zimmerman 2002 [https://doi.org/10.1007/978-3-662-04931-0],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,NA,"A vascular tissue morphology trait [TO:0000470] which is a weighted arithmetic mean [STATO:0000398] diameter [PATO:0001334] of xylem vessels [PO:0025417] in a stem [PO:0009047], reflecting the greater relative contribution of wider vessels to hydraulic conductivity [EnvThes:22133] as described by the Hagen-Poiseuille equation [hupson:SCAIVPH_00000131] .",vessel_diameter_hydraulic,trait_0013114,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013115,leaf_vessel_diameter,Leaf xylem vessel diameter,Diameter of xylem vessels in a leaf.,"As the adjacent vessels in an individual stem vary notably in size, this trait should never document a single vessel diameter from an individual, but instead the mean (or possibly maximum) vessel diameter from a much larger sample size. Note as well, that vessel diameters increase from a growing tip to the base of a plant and the location sampled should be specified in either the methods or as a context property.",continuous variable [STATO_0000251],1,250,um,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; leaf morphology trait [trait_group_0011202]",leaf [PO_0025034],diameter [PATO_0001334],xylem vessel [PO_0025417]; hydraulic conductivity [EnvThes:22133]; water transport [GO_0006833],NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf vessel diameter [TRY:367] (https://www.try-db.org/de/de.php),A vascular tissue morphology trait [TO:0000470] which is the diameter [PATO:0001334] of xylem vessels [PO:0025417] in a leaf [PO:0025034].,vessel_diameter_leaves,trait_0013115,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013116,stem_vessel_lumen_fraction,Stem xylem vessel lumen fraction,The fraction of a stem cross-section comprised of lumen and calculated as the ratio of the total cross-sectional area comprised of xylem vessels (lumen fraction) to the total stem cross-sectional area.,NA,continuous variable [STATO_0000251],0.001,1,mm2/mm2,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; per unit area [EnvThes:22003]; cross section [NCIT_C63795]; ratio; proportion [PATO_0001470],xylem vessel [PO_0025417]; plant anatomical space; lumen [PO_0025117]; NA [glossary_40112]; water transport [GO_0006833]; sapwood [PO_0004513],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056]; Zanne 2010 [https://doi.org/10.3732/ajb.0900178],NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Stem conduit lumen cross-sectional area (vessels and tracheids) per stem sapwood cross-sectional are [TRY:172] (https://www.try-db.org/de/de.php),A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of total xylem vessel [PO:0025417] lumen [PO:0025117] cross-sectional [NCIT:C63795] area [PATO:0001323] to stem [PO:0009047] cross-sectional area.,vessel_lumen_fraction,trait_0013116,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013117,stem_vessel_multiple_fraction,Stem xylem vessel multiple fraction,"Vmf; A vessel grouping index, calculated as the number of groups of vessels divided by the total number of vessels, where vessels are considered to be part of the same group if they are in contact with one another. A Vmf value approximating 1 denotes a tendency towards solitary vessels while a smaller value indicates a tendency of vessels to occur in clusters.",NA,continuous variable [STATO_0000251],0.001,1,{dimensionless},NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; has number of [PATO_0001555]; count [NCIT_C25463]; ratio; proportion [PATO_0001470],xylem vessel [PO_0025417]; water transport [GO_0006833]; sapwood [PO_0004513],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056],NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood vessel grouping [TRY:276] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of the count [NCIT:C25463] of groups of xylem vessels [PO:0025417] to the total count of xylem vessels, with a value approximating 1 indicating a tendency towards solitary vessels.",vessel_multiple_fraction,trait_0013117,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013118,stem_vessel_non_lumen_fraction,Stem non-lumen fraction,The fraction of a stem cross-section not comprised of lumen (the empty space in xylem vessels and tracheids) and calculated as one minus the ratio of the total cross-sectional area comprised of xylem vessels and tracheids (lumen fraction) to the total stem cross-sectional area.,NA,continuous variable [STATO_0000251],0.001,1,mm2/mm2,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; per unit area [EnvThes:22003]; cross section [NCIT_C63795]; ratio; proportion [PATO_0001470],xylem vessel [PO_0025417]; plant anatomical space; lumen [PO_0025117]; NA [glossary_40112]; water transport [GO_0006833]; sapwood [PO_0004513]; tracheids [PO_0000301],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056]; Zanne 2010 [https://doi.org/10.3732/ajb.0900178],NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood (sapwood) cross-sectional fraction of Vessel (conduit) area [TRY:3018] (https://www.try-db.org/de/de.php),A vascular tissue morphology trait [TO:0000470] which is the proportion of a cross-section of stem that is not comprised of lumen (`empty space`) and is calculated at 1 minus the ratio [PATO:0001470] of total xylem vessel [PO:0025417] and tracheid [PO:0000301] lumen [PO:0025117] cross-sectional [NCIT:C63795] area [PATO:0001323] to stem [PO:0009047] cross-sectional area.,vessel_non_lumen_fraction,trait_0013118,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013119,stem_vessel_wall_fraction,xylem vessel wall fraction,"Fraction of xylem vessels comprised of cell wall, calculated as the ratio of xylem vessel cell wall cross-sectional area to total xylem vessel cross-sectional area.",NA,continuous variable [STATO_0000251],0.001,1,mm2/mm2,NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; per unit area [EnvThes:22003]; cross section [NCIT_C63795]; ratio; proportion [PATO_0001470],xylem vessel [PO_0025417]; plant-type cell wall [GO_0009505]; water transport [GO_0006833]; sapwood [PO_0004513],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of xylem vessel [PO:0025417] cell wall [GO:0009505] cross-sectional [NCIT:C63795] area [PATO:0001323] to total xylem vessel cross-sectional area.,vessel_wall_fraction,trait_0013119,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013120,stem_xylem_vulnerability_index,Xylem vulnerability index,"The ratio of a stem's average xylem vessel diameter to the stem's xylem vessel density, an index of sap conductance and xylem vessel susceptibility to vessel cavitation.",NA,continuous variable [STATO_0000251],0.05,1000,um.m2/{count},NA,"xylem vessel morphology trait [trait_group_0013102]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],diameter [PATO_0001334]; count density [ECSO_00001160]; ratio; proportion [PATO_0001470],xylem [PO_0005352]; water transport [GO_0006833]; sapwood [PO_0004513],Scholz 2013 [https://doi.org/10.3389/fpls.2013.00056],NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A vascular tissue morphology trait [TO:0000470] which is the ratio [PATO:0001470] of a stem' [PO:0009047] average xylem vessel [PO:0025417] diameter [PATO:0001334] to the stem's xylem vessel count density [ECSO:00001160].,vulnerability_index,trait_0013120,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013161,wood_axial_parenchyma_fraction,Wood axial parenchyma fraction,The fraction of a cross-section of sapwood comprised of axial parenchyma. It is calculated as the ratio of total axial parenchyma cross-sectional area to sapwood cross-sectional area.,NA,continuous variable [STATO_0000251],0.001,1,mm2/mm2,NA,"vascular tissue morphology trait [trait_group_0013001]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; per unit area [EnvThes:22003]; cross section [NCIT_C63795],"sapwood [PO_0004513]; axial secondary xylem parenchyma [PO_0004533]; wood [ENVO_00002040]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood (sapwood) cross-sectional fraction of axial parenchyma area [TRY:3021] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the fraction of a cross-section [NCIT:C63795] of sapwood [PO:0004513] comprised of axial secondary xylem parenchyma [PO:0004533], calculated as ratio [PATO:0001470] of axial parenchyma cross-sectional area [PATO:0001323] to sapwood cross-sectional area.",NA,trait_0013161,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013162,wood_conduit_fraction,Wood conduit fraction,"The fraction of a cross-section of sapwood comprised of all water transport conduits, including both xylem vessels and tracheids. It is calculated as the ratio of total conduit cross-sectional area to sapwood cross-sectional area.",NA,continuous variable [STATO_0000251],0.01,1,mm2/mm2,NA,"vascular tissue morphology trait [trait_group_0013001]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; per unit area [EnvThes:22003]; cross section [NCIT_C63795],"sapwood [PO_0004513]; tracheids [PO_0000301]; xylem [PO_0005352]; wood [ENVO_00002040]; water transport [GO_0006833]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood (sapwood) cross-sectional fraction of Vessel (conduit) area [TRY:3018] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the fraction of a cross-section [NCIT:C63795] of sapwood [PO:0004513] comprised of all water [CHEBI:15377] transport conduits (both tracheids [PO:0000301] and xylem vessels [PO:0025417]), calculated as the ratio [PATO:0001470] of total cross-sectional area [PATO:0001323] of conduits to sapwood cross-sectional area.",NA,trait_0013162,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013163,wood_fibre_fraction,Wood fibre fraction,The fraction of a cross-section of sapwood comprised of fibres. It is calculated as the ratio of total fibre cross-sectional area to sapwood cross-sectional area.,NA,continuous variable [STATO_0000251],0.01,1,mm2/mm2,NA,"vascular tissue morphology trait [trait_group_0013001]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; per unit area [EnvThes:22003]; cross section [NCIT_C63795],"sapwood [PO_0004513]; plant fiber cell [PO_0025407]; wood [ENVO_00002040]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood (sapwood) cross-sectional fraction of fibre area [TRY:3019] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the fraction of a cross-section [NCIT:C63795] of sapwood [PO:0004513] comprised of plant fiber cells [PO:0025407], calculated as the ratio [PATO:0001470] of total fiber cell cross-sectional area [PATO:0001323] to sapwood cross-sectional area.",NA,trait_0013163,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013164,wood_ray_parenchyma_fraction,Wood ray parenchyma fraction,The fraction of a cross-section of sapwood comprised of rays. It is calculated as the ratio of total ray cross-sectional area to sapwood cross-sectional area.,NA,continuous variable [STATO_0000251],0.01,1,mm2/mm2,NA,"vascular tissue morphology trait [trait_group_0013001]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; per unit area [EnvThes:22003]; cross section [NCIT_C63795],"sapwood [PO_0004513]; ray secondary xylem parenchyma [PO_0004534]; wood [ENVO_00002040]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Wood (sapwood) cross-sectional fraction of wod ray area [TRY:3020] (https://www.try-db.org/de/de.php),"A vascular tissue morphology trait [TO:0000470] which is the fraction of a cross-section [NCIT:C63795] of sapwood [PO:0004513] comprised of ray secondary xylem parenchyma cells [PO:0004534], calculated as the ratio [PATO:0001470] of total ray parenchyma cross-sectional area [PATO:0001323] to sapwood cross-sectional area.",wood_ray_fraction,trait_0013164,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0013165,wood_tracheid_fraction,Wood tracheid fraction,The fraction of a cross-section of sapwood comprised of tracheids. It is calculated as the ratio of total tracheid cross-sectional area to sapwood cross-sectional area.,NA,continuous variable [STATO_0000251],0,1,mm2/mm2,NA,"vascular tissue morphology trait [trait_group_0013001]; water transport trait, hydraulic trait [trait_group_0021002]; stem morphology trait [trait_group_0011802]",stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; per unit area [EnvThes:22003]; cross section [NCIT_C63795],"sapwood [PO_0004513]; tracheids [PO_0000301]; wood [ENVO_00002040]; water transport [GO_0006833]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A vascular tissue morphology trait [TO:0000470] which is the fraction of a cross-section [NCIT:C63795] of sapwood [PO:0004513] comprised of tracheids [PO:0000301], calculated as the ratio [PATO:0001470] of total tracheid cross-sectional area [PATO:0001323] to sapwood cross-sectional area.",NA,trait_0013165,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014011,leaf_work_to_punch,Leaf work to punch,"The force (work) required to punch a hole through a leaf lamina, generally with a punch and die. This is a measure of leaf compressive strength or toughness.","Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait are listed as N/m, which is identical to J/m2; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied.",continuous variable [STATO_0000251],0.5,10000,N/m,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035],leaf lamina [PO_0020039]; strength [PATO_0001230]; compressive strength [D019245]; fracture [Fracture]; NA [glossary_40088],Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)",A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] compressive strength [SWEET:propPressure/CompressiveStrength; MESH:D019245]. It is the force [PATO:0001035] (work) required to punch a hole in a leaf lamina (fracture [SWEET:phenSolid/Fracture]) with a punch and die.,NA,trait_0014011,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014012,leaf_work_to_punch_adjusted,Leaf specific work to punch,"The force (work) required to punch a hole through a leaf lamina, generally with a punch and die, adjusted for leaf thickness. This is a measure of leaf compressive strength or toughness.","Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait are listed as N/m2, which is identical to J/m3; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied.",continuous variable [STATO_0000251],1000,30000000,N/m2,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035]; ratio; proportion [PATO_0001470]; thickness [PATO_0000915],leaf lamina [PO_0020039]; strength [PATO_0001230]; compressive strength [D019245]; fracture [Fracture]; NA [glossary_40088],Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] compressive strength [SWEET:propPressure/CompressiveStrength; MESH:D019245]. It is the force [PATO:0001035] (work) required to punch a hole in a leaf lamina (fracture [SWEET:phenSolid/Fracture]) with a punch and die, scaled by leaf thickness [PATO:0000915].",NA,trait_0014012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014013,leaf_work_to_shear,Leaf work to shear,The force (work) required to shear a leaf. This is a measure of leaf compressive strength or toughness that is equivalent to cutting a leaf with scissors.,"Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait, N is the same as J/m; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied.",continuous variable [STATO_0000251],0.01,10,N,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035],leaf lamina [PO_0020039]; strength [PATO_0001230]; compressive strength [D019245]; shear [Shear],Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)",A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] compressive strength [SWEET:propPressure/CompressiveStrength; MESH:D019245]. It is the force [PATO:0001035] required to shear [SWEET:phenSolid/Shear] a leaf lamina with a pair of scissors.,NA,trait_0014013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014014,leaf_work_to_shear_adjusted,Leaf specific work to shear (fracture toughness),"The force (work) required to shear a leaf, adjusted to leaf thickness; also referred to as 'fracture toughness'. This is a measure of leaf compressive strength or toughness that is equivalent to cutting a leaf with scissors.","Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait, N/m is the same as J/m2; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied.",continuous variable [STATO_0000251],100,10000,N/m,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035]; ratio; proportion [PATO_0001470]; thickness [PATO_0000915],leaf lamina [PO_0020039]; strength [PATO_0001230]; compressive strength [D019245]; shear [Shear],Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"exact match: Leaf lamina fracture toughness [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] compressive strength [SWEET:propPressure/CompressiveStrength; MESH:D019245]. It is the force [PATO:0001035] required to shear [SWEET:phenSolid/Shear] a leaf lamina with a pair of scissors, scaled by leaf thickness [PATO:0000915].",NA,trait_0014014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014015,leaf_work_to_tear,Leaf work to tear,The force (work) required to tear/rip a leaf. This is a measure of leaf tensile strength.,"Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait, N is the same as J/m; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied. (Work to tear is also sometimes reported in J.)",continuous variable [STATO_0000251],0.01,50,N,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035],"leaf lamina [PO_0020039]; strength [PATO_0001230]; tensile strength [D013718]; rip, tear [Rip]",Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)",A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] tensile strength [SWEET:propPressure/TensileStrength; MESH:D013718]. It is the force [PATO:0001035] required to tear or rip [SWEET:phenSolid/Rip] a leaf lamina.,NA,trait_0014015,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014016,leaf_work_to_tear_adjusted,Leaf specific work to tear,"The force (work) required to tear/rip a leaf, adjusted to leaf thickness. This is a measure of leaf tensile strength.","Variation in methods used will mean that, in some cases, values are not perfectly comparable across studies. The expected units for this trait, N/m is the same as J/m2; Newtons are a unit of force, while Joules are a unit of work, indicating how much work (force per distance) is done when force is applied.",continuous variable [STATO_0000251],10,15000,N/m,NA,plant structure strength trait [trait_group_0014001]; leaf morphology trait [trait_group_0011202],leaf [PO_0025034],work [PATO_0001026]; force [PATO_0001035]; ratio; proportion [PATO_0001470]; thickness [PATO_0000915],"leaf lamina [PO_0020039]; strength [PATO_0001230]; tensile strength [D013718]; rip, tear [Rip]",Sanson 2001 [https://doi.org/10.1046/j.1442-9993.2001.01154.x],NA,14/07/2021,05/02/2024,NA,NA,NA,"related match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A leaf lamina [PO:0025060] strength [PATO:0001230] trait which is a measure of a leaf's [PO:0025034] tensile strength [SWEET:propPressure/TensileStrength; MESH:D013718]. It is the force [PATO:0001035] required to tear or rip [SWEET:phenSolid/Rip] a leaf lamina, scaled by leaf thickness [PATO:0000915].",NA,trait_0014016,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014017,bark_modulus_of_elasticity,Bark modulus of elasticity,"A measure of stem stiffness and elasticity, which is how much the bark is deformed elastically (bends) under stress. It is calculated as the ratio of the force applied to bark per unit area (stress) to the bark's deformation (bending). The trait is also called Young's modulus for bark.",NA,continuous variable [STATO_0000251],10,100000,MPa,NA,plant structure strength trait [trait_group_0014001]; bark morphology trait [trait_group_0012002],bark [PO_0004518],work [PATO_0001026]; force [PATO_0001035],elasticity [PATO_0001031]; modulus of elasticity [ModulusOfElasticity]; deform [Deform],NA,NA,14/07/2021,05/02/2024,NA,NA,osmotic adjustment capacity [http://purl.obolibrary.org/obo/TO_0000507],NA,"A bark [PO:0004518] physical quality [PATO:0002079] trait which is the bark's modulus of elasticity [SWEET:propPressure/ModulusOfElasticity], its resistance to being deformed [SWEET:phenSolid/Deform] elastically [PATO:0001031] (non-permanently) when a force [PATO:0001035] is applied. It is calculated as the ratio of the force applied to bark per unit area (stress) to the bark's deformation (bending).",modulus_of_elasticity_bark,trait_0014017,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014018,stem_modulus_of_elasticity,Stem modulus of elasticity,"A measure of stem stiffness and elasticity, which is how much the stem is deformed elastically (bends) under stress. It is calculated as the ratio of the force applied to stem per unit area (stress) to the stem's deformation (bending). This is the modulus of a compound tissue made up of bark and wood (or xylem) and potentially pith and could also be called structural modulus of elasticity. Trait is also called Young's modulus for a stem.",NA,continuous variable [STATO_0000251],10,100000,MPa,NA,plant structure strength trait [trait_group_0014001]; stem morphology trait [trait_group_0011802],stem [PO_0009047],work [PATO_0001026]; force [PATO_0001035],"elasticity [PATO_0001031]; modulus of elasticity [ModulusOfElasticity]; deform [Deform]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,osmotic adjustment capacity [http://purl.obolibrary.org/obo/TO_0000507],"close match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A stem [PO:0009047] physical quality [PATO:0002079] trait which is the stem's modulus of elasticity [SWEET:propPressure/ModulusOfElasticity], its resistance to being deformed [SWEET:phenSolid/Deform] elastically [PATO:0001031] (non-permanently) when a force [PATO:0001035] is applied. It is calculated as the ratio of the force applied to wood per unit area (stress) to the stem's deformation (bending).",modulus_of_elasticity_stem,trait_0014018,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014019,xylem_modulus_of_elasticity,Xylem modulus of elasticity,"A measure of wood stiffness and elasticity, which is how much wood (secondary xylem) is deformed elastically (bends) under stress. It is calculated as the ratio of the force applied to wood per unit area (stress) to the stem's deformation (bending). This is the modulus of elasticity explicitly for xylem (wood). Trait is also called Young's modulus for xylem.",NA,continuous variable [STATO_0000251],10,100000,MPa,NA,plant structure strength trait [trait_group_0014001]; stem morphology trait [trait_group_0011802],stem [PO_0009047],work [PATO_0001026]; force [PATO_0001035],"elasticity [PATO_0001031]; modulus of elasticity [ModulusOfElasticity]; deform [Deform]; xylem [PO_0005352]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,osmotic adjustment capacity [http://purl.obolibrary.org/obo/TO_0000507],"close match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A secondary xylem [PO:0005848] physical quality [PATO:0002079] trait which is the xylem's modulus of elasticity [SWEET:propPressure/ModulusOfElasticity], its resistance to being deformed [SWEET:phenSolid/Deform] elastically [PATO:0001031] (non-permanently) when a force [PATO:0001035] is applied.",modulus_of_elasticity_xylem,trait_0014019,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0014020,modulus_of_rupture,Modulus of rupture,"A measure of wood bending strength, which is the force per unit surface area applied to a length of bent stem (surface stress) that causes it to break. This is also the force required to rupture xylem vessels.",NA,continuous variable [STATO_0000251],1,10000,MPa,NA,plant structure strength trait [trait_group_0014001]; stem morphology trait [trait_group_0011802],stem [PO_0009047],pressure [PATO_0001025]; force [PATO_0001035]; strength [PATO_0001230],"xylem [PO_0005352]; plant-type cell wall [GO_0009505]; water stress trait [TO_0000237]; wood, secondary xylem [PO_0005848]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,"close match: Wood mechanical property: flexual stiffness, elasticity, rupture [TRY:1226] (https://www.try-db.org/de/de.php)","A secondary xylem [PO:0005848] physical quality [PATO:0002079] trait which is the xylem [PO:0005352] cell wall's [GO:0009505] mechanical [MESH:D055595] bending strength [PATO:0001230], reported as the force [PATO:0001035] applied to a stem [PO:0009047] that causes it to stop bending and break (fail).",NA,trait_0014020,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020221,photosynthetic_pathway,Plant photosynthetic pathway,Type of photosynthetic pathway displayed by a plant.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,photosynthetic trait [trait_group_0020202],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995],"Calvin cycle; C3 photosynthesis (reductive pentose-phosphate cycle) [GO_0019253]; C4 photosynthesis [GO_0009760]; CAM photosynthesis [GO_0009761]; biochemical reaction [NCIT_C19899]; photosynthesis, dark reaction [GO_0019685]; photosynthesis [GO_0015979]",NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf photosynthesis pathway [TRY:22] (https://www.try-db.org/de/de.php); exact match: photosynthetic_pathway [GIFT:4.2.1] (https://gift.uni-goettingen.de),"The photosynthetic pathway, or biochemical reaction [NCIT:C19899], used by a plant to convert carbon dioxide [ENVO:01000451] into carbohydrates [CHEBI:16646], with options being C3 photosynthesis [GO:0019253], C4 photosynthesis [GO:0009760], and CAM photosynthesis [GO:0009761].",NA,trait_0020221,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020222,bark_photosynthetic_status,Bark photosynthesis,Binary variable indicating whether bark is photosynthetic.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,photosynthetic rate trait [trait_group_0020206],bark [PO_0004518],organismal quality [PATO_0001995],photosynthetic rate [TO_0001015]; biochemical reaction [NCIT_C19899],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,A photosynthetic trait [TO:0001015] which indicates whether a plant's bark [PO:0004518] does or does not have a photosynthetic rate greater than zero.,photosynthetic_bark,trait_0020222,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020240,leaf_photosynthetic_rate_per_area_ambient,Leaf photosynthesis rate per unit leaf area under ambient light and CO2 (A),"The photosynthetic rate of a leaf exposed to ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, air temperature and vapour pressure deficit, per unit leaf area.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],0.01,40,umol{CO2}/m2/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; per unit area [EnvThes:22003]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40006],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527],photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf area [TOP357] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf area [TRY:53] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323].",photosynthetic_rate_per_area_ambient,trait_0020240,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020241,leaf_photosynthetic_rate_per_area_maximum,Leaf photosynthesis rate per unit leaf area under saturating light and CO2 (Amax),"The photosynthetic rate of a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations, at optimal leaf temperature and VPD conditions, per unit leaf area; maximum photosynthetic rate.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],2,65,umol{CO2}/m2/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; per unit area [EnvThes:22003]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40058],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527],photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf area [TOP357] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf area [TRY:53] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323].",photosynthetic_rate_per_area_maximum,trait_0020241,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020242,leaf_photosynthetic_rate_per_area_saturated,Leaf photosynthesis rate per unit leaf area under saturating light and ambient CO2 (Asat),"The photosynthetic rate of a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, air temperature and vapour pressure deficit, per unit leaf area; light-saturated photosynthetic rate.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],0.01,50,umol{CO2}/m2/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; per unit area [EnvThes:22003]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40092],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527],photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf area [TOP357] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf area [TRY:53] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and ambient [NCIT:C62306] atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323].",photosynthetic_rate_per_area_saturated,trait_0020242,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020243,leaf_photosynthetic_rate_per_dry_mass_ambient,Leaf photosynthesis rate per unit leaf dry mass under ambient light and CO2 (A),"The photosynthetic rate of a leaf exposed to ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, at ambient carbon dioxide concentrations, air temperature and vapour pressure deficit, per unit leaf dry mass.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],0.01,0.8,umol{CO2}/g/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; NA [APD:glossary/40068]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40006],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527]; photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf dry mass [TOP359] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf dry mass [TRY:40] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf dry mass [TO:0001014].",photosynthetic_rate_per_dry_mass_ambient,trait_0020243,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020244,leaf_photosynthetic_rate_per_dry_mass_maximum,Leaf photosynthesis rate per unit leaf dry mass under saturating light and CO2 (Amax),"The photosynthetic rate of a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations, at optimal leaf temperature and VPD conditions, per unit leaf dry mass; maximum photosynthetic rate.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],0.01,1,umol{CO2}/g/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; NA [APD:glossary/40068]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40058],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Field & Mooney 1986 [https://books.google.com/books?vid=ISBN0521262968],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527]; photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf dry mass [TOP359] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf dry mass [TRY:40] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf dry mass [TO:0001014].",photosynthetic_rate_per_dry_mass_maximum,trait_0020244,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020245,leaf_photosynthetic_rate_per_dry_mass_saturated,Leaf photosynthesis rate per unit leaf dry mass under saturating light and ambient CO2 (Asat),"The photosynthetic rate of a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, air temperature and vapour pressure deficit, per unit leaf dry mass; saturated photosynthetic rate.","Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],0.001,0.8,umol{CO2}/g/s,NA,photosynthetic rate trait [trait_group_0020206],leaf [PO_0025034],reaction rate [STATO_0000071]; NA [APD:glossary/40068]; rate [PATO_0000161],photosynthetic rate [TO_0001015]; photosystem [GO_0009521]; photosynthetically active radiation [ENVO_01001864]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899]; NA [glossary_40092],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Field & Mooney 1986 [https://books.google.com/books?vid=ISBN0521262968],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Photosynthetic rate [https://cropontology.org/rdf/CO_357:0000527]; photosynthetic rate [http://purl.obolibrary.org/obo/TO_0001015]; photosynthetic rate [http://vocabs.lter-europe.net/EnvThes/21422],NA,exact match: leaf photosynthetic rate per leaf dry mass [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Leaf photosynthetic rate per leaf dry mass [TOP359] (https://top-thesaurus.org/index); close match: Leaf photosynthesis rate per leaf dry mass [TRY:40] (https://www.try-db.org/de/de.php),"The photosynthetic rate [TO:0001015] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and ambient [NCIT:C62306] atmospheric carbon dioxide [ENVO:01000451; CHEBI:16526] concentrations [PATO:0000033], recorded per unit leaf dry mass [TO:0001014].",photosynthetic_rate_per_dry_mass_saturated,trait_0020245,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020310,leaf_intercellular_CO2_concentration_at_Amax,Leaf internal CO2 concentration during Amax measurement (ci),The CO2 concentration in intercellular (interstitial) spaces in a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations; ci.,"Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],10,1800,umol{CO2}/mol,NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],intercellular space [PO_0025379]; carbon dioxide [CHEBI_16526]; NA [glossary_40058],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Internal CO2 concentration [https://cropontology.org/rdf/CO_357:0000532],NA,NA,close match: Leaf photosynthetic A/Ci curve: intercellular CO2 concentration [TRY:3366] (https://www.try-db.org/de/de.php),The intercellular space [PO:0025379] carbon dioxide [CHEBI:16526] concentration [PATO:0000033] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451] concentrations.,ci_at_Amax,trait_0020310,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020311,leaf_intercellular_CO2_concentration_at_Asat,Internal CO2 concentration during Asat measurement (ci),The CO2 concentration in intercellular (interstitial) spaces in a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations; ci.,"Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],10,1300,umol{CO2}/mol,NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],intercellular space [PO_0025379]; carbon dioxide [CHEBI_16526]; NA [glossary_40092],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Internal CO2 concentration [https://cropontology.org/rdf/CO_357:0000532],NA,NA,exact match: Leaf photosynthetic A/Ci curve: intercellular CO2 concentration [TRY:3366] (https://www.try-db.org/de/de.php),The intercellular space [PO:0025379] carbon dioxide [CHEBI:16526] concentration [PATO:0000033] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations.,ci_at_Asat,trait_0020311,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020312,leaf_intercellular_CO2_concentration_at_Aambient,Internal CO2 concentration under ambient conditions (ci),The CO2 concentration in intercellular (interstitial) spaces in a leaf exposed to ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations; ci.,"Leaf temperature and leaf-to-air vapour pressure deficit should be recorded as context properties. If Tleaf and VPD are not reported, it is assumed measurements are made at typical temperature and VPD conditions for the plant.",continuous variable [STATO_0000251],10,1300,umol{CO2}/mol,NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],intercellular space [PO_0025379]; carbon dioxide [CHEBI_16526]; NA [glossary_40006],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Internal CO2 concentration [https://cropontology.org/rdf/CO_357:0000532],NA,NA,close match: Leaf photosynthetic A/Ci curve: intercellular CO2 concentration [TRY:3366] (https://www.try-db.org/de/de.php),The intercellular space [PO:0025379] carbon dioxide [CHEBI:16526] concentration [PATO:0000033] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations.,ci_at_ambient,trait_0020312,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020313,leaf_intercellular_CO2_concentration_to_atmospheric_CO2_concentration_ratio,Ratio of internal to external CO2 concentrations (ci/ca),"The ratio of the CO2 concentration in intercellular (interstitial) spaces in leaves to the atmospheric CO2 concentration, an indication of stomatal conductance; ci/ca.",NA,continuous variable [STATO_0000251],0.001,1.3,umol{CO2_internal}/umol{CO2_ambient},NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],intercellular space [PO_0025379]; carbon dioxide [CHEBI_16526]; cell [CL_0000000]; atmospheric carbon dioxide [ENVO_01000451],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Wong 1979 [https://doi.org/10.1038/282424a0],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf photosynthesis: intercellular CO2 concentration to ambient CO2 (ci/ca) [TRY:3379] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of leaf [PO:0025034] intercellular space [PO:0025379] carbon dioxide [CHEBI:16526] concentration [PATO:0000033] to atmospheric carbon dioxide [ENVO:01000451] concentration.,ci_over_ca,trait_0020313,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020314,leaf_chloroplast_CO2_concentration,CO2 concentration inside chloroplasts (cc),CO2 concentration inside chloroplasts in leaves; cc.,NA,continuous variable [STATO_0000251],10,1000,umol{CO2}/umol,NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],carbon dioxide [CHEBI_16526]; chloroplast [GO_0009507]; cell [CL_0000000],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf photosynthesis CO2 concentration at chloroplast [TRY:3007] (https://www.try-db.org/de/de.php),The concentration [PATO:0000033] of carbon dioxide [ENVO:01000451] inside chloroplasts [GO:0009507] in leaves [PO:0025034].,cc,trait_0020314,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020315,atmospheric_CO2_concentration,Ambient CO2 concentration (ca),Atmospheric CO2 concentration (external CO2 concentration); ca.,"This is not a trait itself, but will often be used to calculate traits related to photosynthetic rates and therefore is recorded.",continuous variable [STATO_0000251],50,2000,umol{CO2}/mol,NA,carbon dioxide concentration trait [trait_group_0020212],leaf [PO_0025034],concentration [PATO_0000033]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470],atmospheric carbon dioxide [ENVO_01000451]; carbon dioxide [CHEBI_16526],NA,Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,NA,The atmospheric carbon dioxide [ENVO:01000451] concentration [PATO:0000033].,ca,trait_0020315,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020410,leaf_photosynthesis_Jmax_per_area,Leaf Jmax per unit leaf area (Jmax),"The maximum potential photosynthetic electron transport rate, recorded per unit leaf area. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at high carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the rate of ATP and NADPH production by the light reactions.",This trait is explicitly for Jmax per leaf area measurements made at a temperature other than 25 deg C. It is essential to record measurement temperature as a context property as Jmax is very sensitive to changes in temperature. Measurements made at 25 deg C should be mapped to `leaf_photosynthesis_Jmax_per_area_25C`,continuous variable [STATO_0000251],10,800,umol/m2/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; per unit area [EnvThes:22003],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Medlyn 2002 [https://doi.org/10.1046/j.1365-3040.2002.00891.x]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Von Caemmerer 2000 [https://books.google.com/books?vid=ISBN9780643063792],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Leaf electron transport rate [https://cropontology.org/rdf/CO_357:0000535],NA,NA,exact match: Leaf photosynthesis electron transport capacity (Jmax) per leaf area (Farquhar model) [TRY:269] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] electron transport [MESH:D004579] rate [PATO:0000161] through the photosynthetic [GO:0015979] electron transport chain [GO:0022900], recorded per unit leaf [PO:0025034] area [PATO:0001323]. The value is a model parameter [STATO:0000034] derived from the portion of the photosynthesis A-ci response curve at high carbon dioxide concentrations where ATP and NADPH production by the light reactions [GO:0019684] limits the rate of carboxylation [MOP:0000591].",Jmax_per_area; leaf_fluorescence_Jmax_per_area,trait_0020410,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020411,leaf_photosynthesis_Jmax_per_area_25C,Leaf Jmax per unit leaf area at 25 deg C (Jmax25),"The maximum potential photosynthetic electron transport rate, measured at 25 Celsius and recorded per unit leaf area. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at high carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the rate of ATP and NADPH production by the light reactions.",This trait is explicitly for Jmax per leaf area measurements made at a temperature of 25 deg C. Measurements made at other temperatures should be mapped to `leaf_photosynthesis_Jmax_per_area`,continuous variable [STATO_0000251],35,800,umol/m2/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; per unit area [EnvThes:22003],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Medlyn 2002 [https://doi.org/10.1046/j.1365-3040.2002.00891.x]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Von Caemmerer 2000 [https://books.google.com/books?vid=ISBN9780643063792],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],29/03/2023,05/02/2024,Leaf electron transport rate [https://cropontology.org/rdf/CO_357:0000535],NA,NA,exact match: Leaf photosynthesis electron transport capacity (Jmax) per leaf area (Farquhar model) [TRY:269] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] electron transport [MESH:D004579] rate [PATO:0000161] through the photosynthetic [GO:0015979] electron transport chain [GO:0022900], recorded per unit leaf [PO:0025034] area [PATO:0001323] and measured at 25 Celsius. The value is a model parameter [STATO:0000034] derived from the portion of the photosynthesis A-ci response curve at high carbon dioxide concentrations where ATP and NADPH production by the light reactions [GO:0019684] limits the rate of carboxylation [MOP:0000591].",Jmax_per_area; leaf_fluorescence_Jmax_per_area,trait_0020411,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020412,leaf_photosynthesis_Jmax_per_mass,Leaf Jmax per unit leaf mass (Jmax),"The maximum potential photosynthetic electron transport rate, recorded per unit leaf mass. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at high carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the rate of ATP and NADPH production by the light reactions.","Jmax values are very dependent on leaf temperature, so leaf temperature needs to be included as a context property.",continuous variable [STATO_0000251],0,3,umol/g/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; NA [APD:glossary/40068],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Von Caemmerer 2000 [https://books.google.com/books?vid=ISBN9780643063792],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],29/03/2023,05/02/2024,NA,Leaf electron transport rate [https://cropontology.org/rdf/CO_357:0000535],NA,exact match: Leaf photosynthesis electron transport capacity (Jmax) per leaf area (Farquhar model) [TRY:269] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] electron transport [MESH:D004579] rate [PATO:0000161] through the photosynthetic [GO:0015979] electron transport chain [GO:0022900], recorded per unit leaf [PO:0025034] mass [PATO:0000125]. The value is a model parameter [STATO:0000034] derived from the portion of the photosynthesis A-ci response curve at high carbon dioxide concentrations where ATP and NADPH production by the light reactions [GO:0019684] limits the rate of carboxylation [MOP:0000591].",NA,trait_0020412,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020413,leaf_photosynthesis_Vcmax_per_area,Leaf Vcmax per unit leaf area (Vcmax),"The apparent maximum rate of Rubisco (ribulose 1,5-bisphosphate carboxylase/oxygenase) activity carboxylase activity (carboxylation capacity), recorded per unit leaf dry mass. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at low carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the Rubisco activity.",This trait is explicitly for Vcmax per leaf area measurements made at a temperature other than 25 deg C. It is essential to record measurement temperature as a context property as Vcmax is very sensitive to changes in temperature. Measurements made at 25 deg C should be mapped to `leaf_photosynthesis_Vcmax_per_area_25C`,continuous variable [STATO_0000251],10,300,umol/m2/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; per unit area [EnvThes:22003],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; photosynthesis, dark reaction [GO_0019685]; rubisco complex, ribulose bisphosphate carboxylase complex [GO_0048492]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Medlyn 2002 [https://doi.org/10.1046/j.1365-3040.2002.00891.x]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Ellsworth 2022 [https://doi.org/10.1038/s41467-022-32545-0],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Instantaneous carboxylation efficiency [https://cropontology.org/rdf/CO_357:0000534],NA,NA,exact match: Leaf photosynthesis carboxylation capacity (Vcmax) per leaf area (Farquhar model) [TRY:186] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] carboxylation [MOP:0000591] rate [PATO:0000161] by the Rubisco complex [GO:0048492] in plant leaves [PO:0025034], recorded per unit leaf [PO:0025034] area [PATO:0001323]. The value is a model parameter [STATO:0000034] derived from the initial slope of a photosynthesis [GO:0015979] A-ci response curve, the component that is carbon dioxide [CHEBI:16526] limited and hence limited by Rubisco activity.",Vcmax_per_area; leaf_fluorescence_Vcmax_per_area,trait_0020413,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020414,leaf_photosynthesis_Vcmax_per_area_25C,Leaf Vcmax per unit leaf area at 25 deg C (Vcmax25),"The apparent maximum rate of Rubisco (ribulose 1,5-bisphosphate carboxylase/oxygenase) activity carboxylase activity (carboxylation capacity), measured at 25 Celsius and recorded per unit leaf area. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at low carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the Rubisco activity.",This trait is explicitly for Vcmax per leaf area measurements made at a temperature of 25 deg C. Measurements made at other temperatures should be mapped to `leaf_photosynthesis_Vcmax_per_area`,continuous variable [STATO_0000251],10,300,umol/m2/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; per unit area [EnvThes:22003],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; photosynthesis, dark reaction [GO_0019685]; rubisco complex, ribulose bisphosphate carboxylase complex [GO_0048492]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Medlyn 2002 [https://doi.org/10.1046/j.1365-3040.2002.00891.x]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Ellsworth 2022 [https://doi.org/10.1038/s41467-022-32545-0],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],29/03/2023,05/02/2024,Instantaneous carboxylation efficiency [https://cropontology.org/rdf/CO_357:0000534],NA,NA,exact match: Leaf photosynthesis carboxylation capacity (Vcmax) per leaf area (Farquhar model) [TRY:186] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] carboxylation [MOP:0000591] rate [PATO:0000161] by the Rubisco complex [GO:0048492] in plant leaves [PO:0025034], recorded per unit leaf [PO:0025034] area [PATO:0001323] and measured at 25 Celsius. The value is a model parameter [STATO:0000034] derived from the initial slope of a photosynthesis [GO:0015979] A-ci response curve, the component that is carbon dioxide [CHEBI:16526] limited and hence limited by Rubisco activity.",Vcmax_per_area; leaf_fluorescence_Vcmax_per_area,trait_0020414,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020415,leaf_photosynthesis_Vcmax_per_mass,Leaf Vcmax per unit leaf mass (Vcmax),"The apparent maximum rate of Rubisco (ribulose 1,5-bisphosphate carboxylase/oxygenase) activity carboxylase activity (carboxylation capacity), recorded per unit leaf mass. This is a model-derived value, calculated from the portion of an A-ci response curve (curve showing the photosynthetic response to increasing carbon dioxide concentrations) at low carbon dioxide concentrations. This is the portion of the curve where the photosynthetic rate is limited by the Rubisco activity.","Vcmax values are very dependent on leaf temperature, so leaf temperature needs to be included as a context property.",continuous variable [STATO_0000251],0,2,umol/g/s,NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; NA [APD:glossary/40068],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; photosynthesis, dark reaction [GO_0019685]; rubisco complex, ribulose bisphosphate carboxylase complex [GO_0048492]; carbon dioxide [CHEBI_16526]",Farquhar 1980 [https://doi.org/10.1007/BF00386231]; Medlyn 2002 [https://doi.org/10.1046/j.1365-3040.2002.00891.x]; Evans 2010 [https://prometheusprotocols.net/function/gas-exchange-and-chlorophyll-fluorescence/gas-exchange-measurements-of-photosynthetic-response-curves/]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Ellsworth 2022 [https://doi.org/10.1038/s41467-022-32545-0],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],29/03/2023,05/02/2024,NA,Instantaneous carboxylation efficiency [https://cropontology.org/rdf/CO_357:0000534],NA,exact match: Leaf photosynthesis carboxylation capacity (Vcmax) per leaf area (Farquhar model) [TRY:186] (https://www.try-db.org/de/de.php),"Maximum [NCIT:C25564] carboxylation [MOP:0000591] rate [PATO:0000161] by the Rubisco complex [GO:0048492] in plant leaves [PO:0025034], recorded per unit leaf [PO:0025034] mass [PATO:0000125]. The value is a model parameter [STATO:0000034] derived from the initial slope of a photosynthesis [GO:0015979] A-ci response curve, the component that is carbon dioxide [CHEBI:16526] limited and hence limited by Rubisco activity.",NA,trait_0020415,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020416,leaf_photosynthesis_Jmax_over_Vcmax_25C,Leaf Jmax to leaf Vcmax ratio at 25 deg C,"Ratio of photosynthetic electron transport capacity (Jmax) to maximum Rubisco activity (carboxylation capacity) (Vcmax). These are model-derived parameters, calculated from an A-ci response curve, reflecting, respectively the component of the curve where photosynthetic rates are limited by the light reactions versus low carbon dioxide concentrations.",NA,continuous variable [STATO_0000251],1,5,{dimensionless},NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; model parameter [STATO_0000034]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; dimensionless ratio [STATO_0000300],"carboxylation [MOP_0000591]; photosynthesis [GO_0015979]; Models, Theoretical [D008962]; biochemical reaction [NCIT_C19899]; photosynthesis, dark reaction [GO_0019685]; rubisco complex, ribulose bisphosphate carboxylase complex [GO_0048492]; carbon dioxide [CHEBI_16526]; electron transport chain [GO_0022900]",Farquhar 1980 [https://doi.org/10.1007/BF00386231],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,NA,"The ratio [PATO:0001470] of a leaf's [PO:0025034] maximum [NCIT:C25564] electron transport [MESH:D004579] rate [PATO:0000161] to its maximum carboxylation [MOP:0000591] rate, reflecting the trade-off between photosynthetic gain and costs of excess energy dissipation, with the ratio affected by temperature, photosynthetically active radiation [ENVO:01001864] (light), and carbon dioxide [CHEBI:16526] concentration. These are both model parameters [STATO:0000034] derived from a photosynthesis [GO:0015979] A-ci response curve.",fluorescence_Jmax_over_Vcmax; leaf_fluorescence_Jmax_over_Vcmax,trait_0020416,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020417,leaf_fluorescence_fv_over_fm,Leaf maximum quantum yield (Fv/Fm),"A trait that indicates the health of photosystem II in a dark adapted leaf. Quantum yield is calculated as the ratio of variable fluorescence (Fv) to maximum fluorescence (Fm), with a higher value indicating a healthier leaf. Variable fluorescence (Fv) is calculated as the difference in fluorescence between a leaf where all photsystems have been saturated by light (Fm) and a leaf in a dark-adapted state (minimum fluorescence; Fo).",NA,continuous variable [STATO_0000251],0.2,1,{dimensionless},NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],"quantum yield [TO_0012004]; chlorophyll fluorescence [GO_0090546]; biochemical reaction [NCIT_C19899]; photosystem II reaction center [GO_0009539]; photosynthesis, light reaction [GO_0019684]; electron transport chain [GO_0022900]",Maxwell & Johnson 2000 [https://doi.org/10.1093/jexbot/51.345.659]; Long 1993 [https://doi.org/10.1007/BF00195081],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,continuous fluorescence yield [http://purl.obolibrary.org/obo/TO_0012009]; Leaf quantum yield of photosystem II [https://cropontology.org/rdf/CO_357:0000539],NA,"exact match: Leaf photosynthesis: quantum efficiency of photosystem II (maximum potential, FvFm) [TRY:3393] (https://www.try-db.org/de/de.php)","Maximum [NCIT:C25564] quantum yield [TO:0012004] of photosystem II [GO:0009539], as determined through chlorophyll fluorescence [GO:0090546]. Quantum yield is the ratio [PATO:0001470] of photons [NCIT:C88112] absorbed to photons emitted [SIO:000384] through fluorescence.",NA,trait_0020417,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020418,leaf_fluorescence_quantum_yield,Leaf ambient quantum yield,A trait that indicates the health of photosystem II in a light adapted leaf. Quantum yield is calculated as the ratio of (maximum fluorescence under ambient conditions)-(fluorescence under ambient conditions)/(maximum fluorescence under ambient conditions).,NA,continuous variable [STATO_0000251],0.01,1,{dimensionless},NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],"quantum yield [TO_0012004]; chlorophyll fluorescence [GO_0090546]; biochemical reaction [NCIT_C19899]; photosystem II reaction center [GO_0009539]; photosynthesis, light reaction [GO_0019684]; electron transport chain [GO_0022900]",Maxwell & Johnson 2000 [https://doi.org/10.1093/jexbot/51.345.659]; Long 1993 [https://doi.org/10.1007/BF00195081],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],29/03/2023,05/02/2024,NA,continuous fluorescence yield [http://purl.obolibrary.org/obo/TO_0012009]; Leaf quantum yield of photosystem II [https://cropontology.org/rdf/CO_357:0000539],NA,"exact match: Leaf photosynthesis: quantum efficiency of photosystem II (maximum potential, FvFm) [TRY:3393] (https://www.try-db.org/de/de.php)","Ambient quantum yield [TO:0012004] of photosystem II [GO:0009539], as determined through chlorophyll fluorescence [GO:0090546]. Quantum yield is the ratio [PATO:0001470] of photons [NCIT:C88112] absorbed to photons emitted [SIO:000384] through fluorescence.",NA,trait_0020418,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020419,leaf_gas_exchange_quantum_yield,"Leaf quantum yield, gas exchange measurement","Ambient quantum yield of photosystem II, as determined through gas exchange measurements. Quantum yield is the ratio of photons absorbed to photons emitted through fluorescence.",NA,continuous variable [STATO_0000251],0.01,1,{dimensionless},NA,photosystem performance trait [trait_group_0020812],leaf [PO_0025034],reaction rate [STATO_0000071]; enzyme activity [NCIT_C180567]; rate [PATO_0000161]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],"quantum yield [TO_0012004]; chlorophyll fluorescence [GO_0090546]; biochemical reaction [NCIT_C19899]; photosystem II reaction center [GO_0009539]; photosynthesis, light reaction [GO_0019684]; electron transport chain [GO_0022900]",Singsaas 2001 [https://doi.org/10.1007/s004420000624],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],21/04/2023,05/02/2024,quantum yield determined by the light curve [http://purl.obolibrary.org/obo/TO_0012007],NA,NA,NA,"Ambient quantum yield [TO:0012004] of photosystem II [GO:0009539], as determined through gas exchange measurements. Quantum yield is the ratio [PATO:0001470] of photons [NCIT:C88112] absorbed to photons emitted [SIO:000384] through fluorescence.",NA,trait_0020419,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020510,leaf_dark_respiration_per_area,"Leaf respiration rate per unit leaf area, in the dark (Rdark)","The respiration rate of a leaf in the dark (absence of photosynthetically active radiation), calculated as the production of CO2 per unit leaf area.",Respiration is heavily temperature dependent and the measurement temperature should be specified in the methods or as a context property.,continuous variable [STATO_0000251],1,15000,nmol{CO2}/m2/s,NA,respiration rate trait [trait_group_0020208],leaf [PO_0025034],reaction rate [STATO_0000071]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],cellular respiration [GO_0045333]; carbon dioxide [CHEBI_16526]; dark [PATO_0000327]; biochemical reaction [NCIT_C19899],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,respiration rate [http://purl.obolibrary.org/obo/TO_0001026],exact match: Leaf dark respiration rate per leaf area [TOP361] (https://top-thesaurus.org/index); exact match: Leaf respiration rate in the dark per leaf area [TRY:54] (https://www.try-db.org/de/de.php),"The cellular respiration [GO:0045333] rate [PATO:0000161] of plant leaves [PO:0025034] in the dark (absence of any photosynthetically active radiation [ENVO:01001864]), recorded per unit leaf area [PATO:0001323].",NA,trait_0020510,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020511,leaf_dark_respiration_per_dry_mass,"Leaf respiration rate per unit leaf dry mass, in the dark (Rdark)","The respiration rate of a leaf in the dark (absence of photosynthetically active radiation), calculated as the production of CO2 per unit leaf dry mass.",Respiration is heavily temperature dependent and the measurement temperature should be specified in the methods or as a context property.,continuous variable [STATO_0000251],0.1,1000,nmol{CO2}/g/s,NA,respiration rate trait [trait_group_0020208],leaf [PO_0025034],reaction rate [STATO_0000071]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],cellular respiration [GO_0045333]; carbon dioxide [CHEBI_16526]; dark [PATO_0000327]; biochemical reaction [NCIT_C19899],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,respiration rate [http://purl.obolibrary.org/obo/TO_0001026],exact match: Leaf dark respiration rate per leaf dry mass [TOP362] (https://top-thesaurus.org/index); exact match: Leaf respiration rate in the dark per leaf dry mass [TRY:41] (https://www.try-db.org/de/de.php),"The cellular respiration [GO:0045333] rate [PATO:0000161] of plant leaves [PO:0025034] in the dark (absence of any photosynthetically active radiation [ENVO:01001864]), recorded per unit leaf dry mass [TO:0001014].",NA,trait_0020511,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020512,leaf_light_respiration_per_area,"Leaf respiration rate per unit leaf area, in the light (Rday)","The respiration rate of a leaf in ambient light (ambient photosynthetically active radiation), calculated as the production of CO2 per unit leaf area.",Respiration is heavily temperature dependent and the measurement temperature should be specified in the methods or as a context property.,continuous variable [STATO_0000251],10,10000,nmol{CO2}/m2/s,NA,respiration rate trait [trait_group_0020208],leaf [PO_0025034],reaction rate [STATO_0000071]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],cellular respiration [GO_0045333]; carbon dioxide [CHEBI_16526]; biochemical reaction [NCIT_C19899],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,respiration rate [http://purl.obolibrary.org/obo/TO_0001026],exact match: Leaf respiration rate in light per leaf area [TRY:512] (https://www.try-db.org/de/de.php),"The cellular respiration [GO:0045333] rate [PATO:0000161] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels, recorded per unit leaf area [PATO:0001323].",NA,trait_0020512,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020513,stem_dark_respiration_per_area,"Stem respiration rate per unit stem area, in the dark","The respiration rate of a stem in the dark (absence of photosynthetically active radiation), calculated as the production of CO2 per unit stem area.",Respiration is heavily temperature dependent and the measurement temperature should be specified in the methods or as a context property.,continuous variable [STATO_0000251],0.01,10,umol{CO2}/m2/s,NA,respiration rate trait [trait_group_0020208],stem [PO_0009047],reaction rate [STATO_0000071]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],cellular respiration [GO_0045333]; carbon dioxide [CHEBI_16526]; dark [PATO_0000327]; biochemical reaction [NCIT_C19899],NA,Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,respiration rate [http://purl.obolibrary.org/obo/TO_0001026],exact match: Stem respiration rate per stem dry mass [TRY:519] (https://www.try-db.org/de/de.php),"The cellular respiration [GO:0045333] rate [PATO:0000161] of plant stems [PO:0009047] in the dark (absence of any photosynthetically active radiation [ENVO:01001864]), recorded per unit stem area [PATO:0001323].",stem_respiration_per_dry_mass,trait_0020513,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020610,leaf_stomatal_conductance_per_area_ambient,Leaf stomatal conductance to water vapour per unit leaf area under ambient conditions (gsw),"The rate of gaseous water diffusion through stomata in a leaf exposed to ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, recorded per unit leaf area.","Stomatal conductance refers to both the rate of water vapour diffusion exiting the leaf and carbon dioxide diffusion entering the leaf, but is reported here as the rate of water exiting the leaf.",continuous variable [STATO_0000251],0.1,2000,mmol{H2O}/m2/s,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],stomatal conductance [EnvThes:21211]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; diffusion [NCIT_C82333]; NA [glossary_40006],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Stomatal conductance to CO2 [https://cropontology.org/rdf/CO_357:0000455],stomatal conductance [http://purl.obolibrary.org/obo/TO_0000522],NA,exact match: Stomatal conductance for h2o [TOP368] (https://top-thesaurus.org/index); exact match: Stomata conductance per leaf area [TRY:45] (https://www.try-db.org/de/de.php); exact match: leaf stomatal conductance for H2O per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"The stomatal conductance [EnvThes:21211] to water vapour of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Stomatal conductance is the rate [PATO:0000161] of gaseous [MESH:D005740] water [CHEBI:15377] diffusion [NCIT:C82333] through stomata [PO:0008032].",stomatal_conductance_per_area_ambient,trait_0020610,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020611,leaf_stomatal_conductance_per_area_at_Amax,Leaf stomatal conductance to water vapour per unit leaf area during Amax measurement (gsw),"The rate of gaseous water diffusion through stomata in a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations, recorded per unit leaf area.","Stomatal conductance refers to both the rate of water vapour diffusion exiting the leaf and carbon dioxide diffusion entering the leaf, but is reported here as the rate of water exiting the leaf.",continuous variable [STATO_0000251],0.1,2000,mmol{H2O}/m2/s,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],stomatal conductance [EnvThes:21211]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; diffusion [NCIT_C82333]; NA [glossary_40058],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Stomatal conductance to water vapour [https://cropontology.org/rdf/CO_357:0000242],stomatal conductance [http://purl.obolibrary.org/obo/TO_0000522],NA,exact match: Stomatal conductance for h2o [TOP368] (https://top-thesaurus.org/index); exact match: Stomata conductance per leaf area [TRY:45] (https://www.try-db.org/de/de.php); exact match: leaf stomatal conductance for H2O per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"The stomatal conductance [EnvThes:21211] to water vapour of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Stomatal conductance is the rate [PATO:0000161] of gaseous [MESH:D005740] water [CHEBI:15377] diffusion [NCIT:C82333] through stomata [PO:0008032].",stomatal_conductance_per_area_at_Amax,trait_0020611,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020612,leaf_stomatal_conductance_per_area_at_Asat,Leaf stomatal conductance to water vapour per unit leaf area during Asat measurement (gsw),"The rate of gaseous water diffusion through stomata in a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, recorded per unit leaf area.","Stomatal conductance refers to both the rate of water vapour diffusion exiting the leaf and carbon dioxide diffusion entering the leaf, but is reported here as the rate of water exiting the leaf.",continuous variable [STATO_0000251],0.1,2000,mmol{H2O}/m2/s,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],stomatal conductance [EnvThes:21211]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; diffusion [NCIT_C82333]; NA [glossary_40092],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Stomatal conductance to CO2 [https://cropontology.org/rdf/CO_357:0000455],stomatal conductance [http://purl.obolibrary.org/obo/TO_0000522],NA,exact match: Stomatal conductance for h2o [TOP368] (https://top-thesaurus.org/index); exact match: Stomata conductance per leaf area [TRY:45] (https://www.try-db.org/de/de.php); exact match: leaf stomatal conductance for H2O per leaf area [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"The stomatal conductance [EnvThes:21211] to water vapour of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Stomatal conductance is the rate [PATO:0000161] of gaseous [MESH:D005740] water [CHEBI:15377] diffusion [NCIT:C82333] through stomata [PO:0008032].",stomatal_conductance_per_area_at_Asat,trait_0020612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020630,leaf_stomatal_resistance_ambient,Leaf stomatal water vapour resistance under ambient conditions,Leaf stomatal water vapour resistance under ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations.,"Stomatal resistance is the inverse of leaf stomatal conductance and is regularly used in environmental models and meteorology. An equation converts between stomatal resistance in distance units and stomatal conductance in molar units obtained through gas exchange readings (""Plants and Microclimate"" by H.G. Jones (1992), page 55 and Appendix 3; ""Elevated Carbon Dioxide Impacts on Soil and Plant Water Relations"" by M.B. Kirkham (2011), page 149).",continuous variable [STATO_0000251],10,1000000,s/m,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; rate [PATO_0000161]; resistance [Resistance],stomata; stomatal pore [PO_0008032]; atmospheric carbon dioxide [ENVO_01000451]; water [CHEBI_15377]; stomatal conductance [EnvThes:21211]; diffusion [NCIT_C82333]; NA [glossary_40006],Jones 1992 [https://doi.org/10.1017/CBO9780511845727]; Kirkham 2016 [https://doi.org/10.1201/b10812],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,stomatal resistance [http://purl.obolibrary.org/obo/TO_0000523],NA,related match: Stomatal conductance for h2o [TOP368] (https://top-thesaurus.org/index); related match: Leaf water storage transfer resistance [TRY:714] (https://www.try-db.org/de/de.php),"The stomatal [PO:0008032] water vapour resistance [SWEET:propConductivity/Resistance] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Stomatal resistance is the resistance to the diffusion [NCIT:C82333] of carbon dioxide [CHEBI:16526] through stomata.",stomatal_resistance_conductance_ambient,trait_0020630,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020640,leaf_mesophyll_conductance_per_area,Leaf mesophyll conductance to carbon dioxide per unit leaf area (gm),"The rate of carbon dioxide movement between sub-stomatal cavities (intracellular space) and chloroplasts, per unit leaf area",NA,continuous variable [STATO_0000251],0.01,2000,mol{CO2}/m2/s,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],carbon dioxide [CHEBI_16526]; intercellular space [PO_0025379]; chloroplast [GO_0009507]; diffusion [NCIT_C82333]; mesophyll [PO_0006070]; airway conductance [NCIT_C124422],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Flexas 2012 [https://doi.org/10.1016/j.plantsci.2012.05.009]; Evans 2009 [https://doi.org/10.1093/jxb/erp117]; Warren 2006 [https://doi.org/10.1071/FP05298],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf mesophyll conductance [TRY:964] (https://www.try-db.org/de/de.php),"The diffusion [NCIT:C82333] rate [PATO:0000161] of carbon dioxide [CHEBI:16526] in plant leaves [PO:0025034] from intercellular spaces [PO:0025379] to chloroplasts [GO:0009507], recorded per unit leaf area [PATO:0001323].",NA,trait_0020640,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020641,leaf_mesophyll_conductance_per_mass,Leaf mesophyll conductance to carbon dioxide per unit leaf mass (gm),"The rate of carbon dioxide movement between sub-stomatal cavities (intracellular space) and chloroplasts, per unit leaf mass",NA,continuous variable [STATO_0000251],0.01,10,mmol{CO2}/g/s,NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],conductivity [PATO_0001585]; ratio; proportion [PATO_0001470]; rate [PATO_0000161],carbon dioxide [CHEBI_16526]; intercellular space [PO_0025379]; chloroplast [GO_0009507]; diffusion [NCIT_C82333]; mesophyll [PO_0006070]; airway conductance [NCIT_C124422],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232]; Flexas 2012 [https://doi.org/10.1016/j.plantsci.2012.05.009]; Evans 2009 [https://doi.org/10.1093/jxb/erp117]; Warren 2006 [https://doi.org/10.1071/FP05298],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf mesophyll conductance [TRY:964] (https://www.try-db.org/de/de.php),"The diffusion [NCIT:C82333] rate [PATO:0000161] of carbon dioxide [CHEBI:16526] in plant leaves [PO:0025034] from intercellular spaces [PO:0025379] to chloroplasts [GO:0009507], recorded per unit leaf dry mass [TO:0001014].",NA,trait_0020641,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020660,leaf_transpiration_per_area_ambient,Leaf transpiration per unit leaf area under ambient conditions (E),"The rate of water loss from a leaf exposed to ambient light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, recorded per unit leaf area.","This trait assumes measurements were made on a leaf under changer conditions. Commercial gas exchange systems create wind inside the chamber to measure transpiration, which means transpiration inside chambers is not the same as transpiration with no chamber involved.",continuous variable [STATO_0000251],0.1,50,mmol{H2O}/m2/s,NA,transpiration rate trait [trait_group_0020210],leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; vapor [NCIT_C63390]; NA [glossary_40006],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Transpiration rate [https://cropontology.org/rdf/CO_357:0000536]; transpiration rate [http://purl.obolibrary.org/obo/TO_0001018],NA,exact match: Leaf transpiration rate per leaf area [TRY:111] (https://www.try-db.org/de/de.php); related match: Leaf photosynthetic A/Ci curve: transpiration rate per leaf area [TRY:3367] (https://www.try-db.org/de/de.php),"The transpiration [ENVO:02500035] rate [PATO:0000161] of plant leaves [PO:0025034] exposed to ambient [NCIT:C62306] photosynthetically active radiation [ENVO:01001864] levels and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Transpiration rate is the rate at which plants lose water [CHEBI:15377] vapor [NCIT:C63390] through their stomata [PO:0008032].",leaf_transpiration,trait_0020660,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020661,leaf_transpiration_per_area_at_Amax,Leaf transpiration per unit leaf area during Amax measurement (E),"The rate of water loss from a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations, recorded per unit leaf area.","This trait assumes measurements were made on a leaf under changer conditions. Commercial gas exchange systems create wind inside the chamber to measure transpiration, which means transpiration inside chambers is not the same as transpiration with no chamber involved.",continuous variable [STATO_0000251],0.1,50,mmol{H2O}/m2/s,NA,transpiration rate trait [trait_group_0020210],leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; vapor [NCIT_C63390]; NA [glossary_40058],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Transpiration rate [https://cropontology.org/rdf/CO_357:0000536]; transpiration rate [http://purl.obolibrary.org/obo/TO_0001018],NA,exact match: Leaf transpiration rate per leaf area [TRY:111] (https://www.try-db.org/de/de.php); related match: Leaf photosynthetic A/Ci curve: transpiration rate per leaf area [TRY:3367] (https://www.try-db.org/de/de.php),"The transpiration [ENVO:02500035] rate [PATO:0000161] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Transpiration rate is the rate at which plants lose water [CHEBI:15377] vapor [NCIT:C63390] through their stomata [PO:0008032].",leaf_transpiration_at_Amax,trait_0020661,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020662,leaf_transpiration_per_area_at_Asat,Leaf transpiration per unit leaf area during Asat measurement (E),"The rate of water loss from a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations, recorded per unit leaf area.","This trait assumes measurements were made on a leaf under changer conditions. Commercial gas exchange systems create wind inside the chamber to measure transpiration, which means transpiration inside chambers is not the same as transpiration with no chamber involved.",continuous variable [STATO_0000251],0.1,50,mmol{H2O}/m2/s,NA,transpiration rate trait [trait_group_0020210],leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; vapor [NCIT_C63390]; NA [glossary_40092],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,Transpiration rate [https://cropontology.org/rdf/CO_357:0000536]; transpiration rate [http://purl.obolibrary.org/obo/TO_0001018],NA,exact match: Leaf transpiration rate per leaf area [TRY:111] (https://www.try-db.org/de/de.php); related match: Leaf photosynthetic A/Ci curve: transpiration rate per leaf area [TRY:3367] (https://www.try-db.org/de/de.php),"The transpiration [ENVO:02500035] rate [PATO:0000161] of plant leaves [PO:0025034] whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Transpiration rate is the rate at which plants lose water [CHEBI:15377] vapor [NCIT:C63390] through their stomata [PO:0008032].",leaf_transpiration_at_Asat,trait_0020662,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020663,leaf_dark_transpiration_per_area,"Leaf transpiration rate per unit leaf area, in the dark","The rate of water loss from a leaf in the dark (no photosynthetically active radiation) and ambient carbon dioxide concentrations, recorded per unit leaf area.",NA,continuous variable [STATO_0000251],1e-4,10,mmol{H2O}/m2/s,NA,transpiration rate trait [trait_group_0020210],leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; vapor [NCIT_C63390]; dark [PATO_0000327],Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf transpiration rate at nighttime [TRY:1267] (https://www.try-db.org/de/de.php),"The transpiration [ENVO:02500035] rate [PATO:0000161] of plant leaves [PO:0025034] in the dark (absence of any photosynthetically active radiation [ENVO:01001864]) and exposed to ambient atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033], recorded per unit leaf area [PATO:0001323]. Transpiration rate is the rate at which plants lose water [CHEBI:15377] vapor [NCIT:C63390] through their stomata [PO:0008032].",NA,trait_0020663,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020664,integrated_plant_transpiration,Integrated plant transpiration,"The rate of water loss integrated across an entire plant, as calculated across longer periods of time under experimental conditions, recorded per unit leaf area.",NA,continuous variable [STATO_0000251],0.01,1,g/cm2{leaf}/d,NA,transpiration rate trait [trait_group_0020210],whole plant [PO_0000003]; leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470]; duration [PATO_0001309],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032]; vapor [NCIT_C63390],NA,Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,plant transpiration [http://vocabs.lter-europe.net/EnvThes/22197],NA,NA,exact match: Crown (canopy) transpiration [TRY:749] (https://www.try-db.org/de/de.php),"Rate [PATO:0000161] of water [CHEBI:15377] loss integrated across an entire plant [PO:0000003], recorded per unit leaf [PO:0025034] area [PATO:0001323] and measured across a duration [PATO:0001309] of at least one day.",whole_plant_transpiration,trait_0020664,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020665,whole_plant_sapflow,Whole plant sapflow,"The rate of water flow (velocity) through a plant stem, recorded per unit leaf area.",NA,continuous variable [STATO_0000251],NA,NA,m3{H20}/m2{sapwood}/h,NA,transpiration rate trait [trait_group_0020210],whole plant [PO_0000003]; leaf [PO_0025034],rate [PATO_0000161]; ratio; proportion [PATO_0001470]; velocity [PATO_0002242],transpiration [ENVO_02500035]; water [CHEBI_15377]; stomata; stomatal pore [PO_0008032],O'Grady 2010 [https://prometheusprotocols.net/function/water-relations/sap-flow/standardised-protocol-for-sap-flow-measurements/]; McElrone & Bleby 2010 [https://prometheusprotocols.net/function/water-relations/sap-flow/],David Ellsworth [https://orcid.org/0000-0002-9699-2272],22/05/2023,05/02/2024,sap flow [http://vocabs.lter-europe.net/EnvThes/21088],NA,NA,exact match: Stem sap flow rate [TRY:3796] (https://www.try-db.org/de/de.php),"Rate [PATO:0000161] of water [CHEBI:15377] flow (velocity [PATO:0002242]) through a plant stem [PO:0009047], recorded per unit leaf [PO:0025034] area [PATO:0001323].",NA,trait_0020665,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020710,leaf_photosynthetic_nitrogen_use_efficiency_maximum,Leaf photosynthetic nitrogen use efficiency during Amax measurement (PNUE),"The ratio of photosynthesis (CO2 assimilation rate) to leaf nitrogen content, where photosynthesis has been measured in a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations; PNUE.","Leaf nitrogen content and photosynthetic rate can be record either per unit leaf area or per unit leaf mass, but both must have the same denominator.",continuous variable [STATO_0000251],0.1,1000,umol{CO2}/g{N}/s,NA,gas exchange trait [trait_group_0020204]; live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],reaction rate [STATO_0000071]; mass [PATO_0000125]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; nitrogen atom [CHEBI_25555]; biochemical reaction [NCIT_C19899]; NA [glossary_40058],Field & Mooney 1986 [https://books.google.com/books?vid=ISBN0521262968],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,nitrogen use efficiency [http://vocabs.lter-europe.net/EnvThes/21418],NA,"exact match: Leaf photosynthesis rate per leaf nitrogen (N) content (photosynthetic nitrogen use efficiency, PNUE [TRY:135] (https://www.try-db.org/de/de.php)","The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its nitrogen [CHEBI:25555] content, where photosynthesis is measured in plant leaves whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033].",NA,trait_0020710,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020711,leaf_photosynthetic_nitrogen_use_efficiency_saturated,Leaf photosynthetic nitrogen use efficiency during Asat measurement (PNUE),"The ratio of photosynthesis (CO2 assimilation rate) to leaf nitrogen content, where photosynthesis has been measured in a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations; PNUE.","Leaf nitrogen content and photosynthetic rate can be record either per unit leaf area or per unit leaf mass, but both must have the same denominator.",continuous variable [STATO_0000251],0.1,1000,umol{CO2}/g{N}/s,NA,gas exchange trait [trait_group_0020204]; live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],reaction rate [STATO_0000071]; mass [PATO_0000125]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; nitrogen atom [CHEBI_25555]; biochemical reaction [NCIT_C19899]; NA [glossary_40092],Field & Mooney 1986 [https://books.google.com/books?vid=ISBN0521262968],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,nitrogen use efficiency [http://vocabs.lter-europe.net/EnvThes/21418],NA,"exact match: Leaf photosynthesis rate per leaf nitrogen (N) content (photosynthetic nitrogen use efficiency, PNUE [TRY:135] (https://www.try-db.org/de/de.php)","The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its nitrogen [CHEBI:25555] content, with the photosynthesis measurements made on leaves which are saturated [NCIT:C61427] by photosynthetically active radiation [ENVO:01001864] and which are exposed to ambient [NCIT:C62306] atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033].",NA,trait_0020711,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020712,leaf_photosynthetic_phosphorus_use_efficiency_maximum,Leaf photosynthetic phosphorus use efficiency during Amax measurement PPUE),"The ratio of photosynthesis (CO2 assimilation rate) to leaf phosphorus content, where photosynthesis has been measured in a leaf exposed to saturating light (photosynthetically active radiation) levels and saturating carbon dioxide concentrations; PPUE.","Leaf phosphorus content and photosynthetic rate can be record either per unit leaf area or per unit leaf mass, but both must have the same denominator.",continuous variable [STATO_0000251],1,10000,umol{CO2}/g{P}/s,NA,gas exchange trait [trait_group_0020204]; live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],reaction rate [STATO_0000071]; mass [PATO_0000125]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; phosphorus atom [CHEBI_28659]; biochemical reaction [NCIT_C19899]; NA [glossary_40058],NA,Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,NA,"The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its phosphorus [CHEBI:28659] content, where photosynthesis is measured in plant leaves whose photosystem [GO:0009521] I and II reaction centers [GO:0009538; GO:0009539] are exposed to saturating [NCIT:C61427] photosynthetically active radiation [ENVO:01001864] and saturating atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033].",NA,trait_0020712,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020713,leaf_photosynthetic_phosphorus_use_efficiency_saturated,Leaf photosynthetic phosphorus use efficiency during Asat measurement (PPUE),"The ratio of photosynthesis (CO2 assimilation rate) to leaf phosphorus content, where photosynthesis has been measured in a leaf exposed to saturating light (photosynthetically active radiation) levels and ambient carbon dioxide concentrations; PPUE.","Leaf phosphorus content and photosynthetic rate can be record either per unit leaf area or per unit leaf mass, but both must have the same denominator.",continuous variable [STATO_0000251],1,10000,umol{CO2}/g{P}/s,NA,gas exchange trait [trait_group_0020204]; live leaf mineral and ion content trait [trait_group_0000008],leaf [PO_0025034],reaction rate [STATO_0000071]; mass [PATO_0000125]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; phosphorus atom [CHEBI_28659]; biochemical reaction [NCIT_C19899]; NA [glossary_40092],NA,Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,NA,"The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its phosphorus [CHEBI:28659] content, with the photosynthesis measurements made on leaves which are saturated [NCIT:C61427] by photosynthetically active radiation [ENVO:01001864] and which are exposed to ambient [NCIT:C62306] atmospheric carbon dioxide [ENVO:01000451] concentrations [PATO:0000033].",NA,trait_0020713,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020760,leaf_water_use_efficiency_integrated,Integrated water use efficiency,"The rate of carbon dioxide fixation relative to water loss, calculated as biomass production / transpiration. This measures how much biomass is produced relative to transpiration across a given time interval, and is therefore an integrated measure of water use efficiency; WUE, transpiration ratio",NA,continuous variable [STATO_0000251],0.1,50,g{biomass}/g{H2O},NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],reaction rate [STATO_0000071]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],water use efficiency [TO_0001017]; water [CHEBI_15377]; transpiration [ENVO_02500035]; growth [GO_0040007],Jones 2009 [https://books.google.com/books?vid=ISBN9781405149990],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of biomass [ENVO:01000155] production [EnvThes:21071] (carbon dioxide [ENVO:01000451] fixation) to transpiration [ENVO:02500035] (water [CHEBI:15377] loss) across a given time interval [TimeInterval].,water_use_efficiency_integrated,trait_0020760,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020761,leaf_water_use_efficiency_intrinsic,Intrinsic water use efficiency (WUEi),"The ratio of photosynthetic rate (A; CO2 assimilation rate) to stomatal conductance (gs; gaseous diffusion), with photosynthetic rate and stomatal conductance determined from gas exchange measurements.",NA,continuous variable [STATO_0000251],0.001,2,umol{CO2}/mmol{H2O},NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],reaction rate [STATO_0000071]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; water use efficiency [TO_0001017]; water [CHEBI_15377]; stomatal conductance [EnvThes:21211],Jones 2009 [https://books.google.com/books?vid=ISBN9781405149990]; Ely 2021 [https://doi.org/10.1016/j.ecoinf.2021.101232],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,NA,NA,Water use efficiency [https://cropontology.org/rdf/CO_357:0000524]; Water use efficiency [https://cropontology.org/rdf/CO_357:0000289]; water use efficiency [http://purl.obolibrary.org/obo/TO_0001017],exact match: Leaf photosynthesis rate per stomatal conductance [TRY:3128] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its stomatal conductance [EnvThes:21211], with photosynthetic rate and stomatal conductance determined by gas exchange measurements.",water_use_efficiency_intrinsic,trait_0020761,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020762,leaf_water_use_efficiency_instantaneous,Instantaneous water use efficiency (WUE),"The ratio of photosynthetic rate (A; CO2 assimilation rate) to transpiration rate (E; water loss), with photosynthetic rate and transpiration rate determined from gas exchange measurements, inside a leaf chamber. This is usually called instantaneous water use efficiency, but can also be referred to as photosynthetic water use efficiency (PWUE) or transpiration efficiency.",NA,continuous variable [STATO_0000251],0.1,200,umol{CO2}/mmol{H2O},NA,gas exchange trait [trait_group_0020204],leaf [PO_0025034],reaction rate [STATO_0000071]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],photosynthetic rate [TO_0001015]; water use efficiency [TO_0001017]; water [CHEBI_15377]; transpiration [ENVO_02500035],Jones 2009 [https://books.google.com/books?vid=ISBN9781405149990],Belinda Medlyn [https://orcid.org/0000-0001-5728-9827]; David Ellsworth [https://orcid.org/0000-0002-9699-2272],14/07/2021,05/02/2024,Water use efficiency [https://cropontology.org/rdf/CO_357:0000524]; Water use efficiency [https://cropontology.org/rdf/CO_357:0000289]; water use efficiency [http://purl.obolibrary.org/obo/TO_0001017],NA,NA,exact match: Leaf photosynthesis rate per leaf transpiration (photosynthetic water use effinciency: WUE) [TRY:134] (https://www.try-db.org/de/de.php),"The ratio [PATO:0001470] of a leaf's [PO:0025034] photosynthetic rate [TO:0001015] to its transpiration [ENVO:02500035] rate [PATO:0000161], with photosynthetic rate and transpiration rate determined by gas exchange measurements.",water_use_efficiency_photosynthetic; leaf_water_use_efficiency_photosynthetic,trait_0020762,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021013,stem_hydraulic_conductivity,Stem hydraulic conductivity (Kh),"Kh; Measure of the efficiency of water flow through a stem segment. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient (MPa) across the stem segment, multiplied by the stem length (m).","This trait should not be confused with hydraulic conductance (kh), which is the ratio of water flow flow rate to the water potential gradient across the stem segment, but IS NOT normalised to the path length and has units kg/MPa/s.",continuous variable [STATO_0000251],0.01,2000,10^6.kg.m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,close match: Branch hydraulic conductance [TRY:3392] (https://www.try-db.org/de/de.php),"A stem [PO:0009047] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a stem under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), accounting for the stem length [PATO:0000122]. It is calculated as the ratio [PATO:0001470] of the water flow [NCIT:C41141] rate through the stem segment (kg/s) to the water potential gradient across the stem segment (MPa), multiplied by the path length measured (m).",NA,trait_0021013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021014,sapwood_specific_hydraulic_conductivity,Sapwood specific hydraulic conductivity (Ks),"Ks; Measure of the efficiency of water flow through a stem segment normalised to the sapwood cross-sectional area across which the flow is measured. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient across the stem segment (MPa), divided by the sapwood cross sectional area (1/m2), then multiplied by the stem length (m).",NA,continuous variable [STATO_0000251],0.01,500,kg/m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],conductivity [PATO_0001585]; per unit length [EnvThes:22004]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,Xylem hydraulic conductivity [https://cropontology.org/rdf/CO_357:0000429],NA,NA,NA,"A stem [PO:0009047] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a stem under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), normalised to the diameter [PATO:0001334] of water transport tissues [CARO:0000043] and accounting for the stem length [PATO:0000122]. It is calculated as the ratio [PATO:0001470] of the water flow [NCIT:C41141] rate through the stem segment (kg/s) to the water potential gradient across the stem segment (MPa), divided by the sapwood [PO:0004513] cross-sectional [NCIT:C63795] area [PATO:0001323] (m2), then multiplied by the path length measured (m).",NA,trait_0021014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021015,sapwood_specific_hydraulic_conductivity_theoretical,Theoretical sapwood specific hydraulic conductivity (Ks),"Theoretical Ks; A calculation of the theoretical flow rate of water (kg/s) along a stem for a given drop in pressure (MPa), normalised to the microscopically determined cross-sectional area without bark and pith (the diameter of water transport tissues). The calculation is based on Hagen-Poiseuille's law.",NA,continuous variable [STATO_0000251],0.05,5000,kg/m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],"water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237]; Models, Theoretical [D008962]; Hagen Poiseuille equation [SCAIVPH_00000131]",NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,close match: Wood (sapwood) specific conductivity (stem specific conductivity) [TRY:1096] (https://www.try-db.org/de/de.php),"A stem [PO:0009047] water transport [GO:0006833] trait which is a theoretical [MESH:D008962] measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a stem under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), calculated from the Hagen Poiseuille equation [hupson:SCAIVPH_00000131], then normalised to the diameter [PATO:0001334] of water transport tissues [CARO:0000043] and accounting for the stem length [PATO:0000122]. It is the calculated sapwood hydraulic conductance, divided by the sapwood [PO:0004513] cross-sectional [NCIT:C63795] area [PATO:0001323] (m2), multiplied by the path length measured (m2).",NA,trait_0021015,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021016,stem_specific_hydraulic_conductivity,Stem specific hydraulic conductivity (Ks),"Ks; Measure of the efficiency of water flow through a stem segment normalised to the stem (sapwood + bark) cross-sectional area across which the flow is measured. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient across the stem segment (MPa), divided by the stem cross sectional area (1/m2), then multiplied by the stem length (m).",NA,continuous variable [STATO_0000251],0.01,500,kg/m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],conductivity [PATO_0001585]; per unit length [EnvThes:22004]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,NA,"A stem [PO:0009047] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a stem under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), normalised to the diameter [PATO:0001334] of water transport tissues [CARO:0000043] and accounting for the stem length [PATO:0000122]. It is calculated as the ratio [PATO:0001470] of the water flow [NCIT:C41141] rate through the stem segment (kg/s) to the water potential gradient across the stem segment (MPa), divided by the stem cross-sectional [NCIT:C63795] area [PATO:0001323] (m2), then multiplied by the path length measured (m).",transverse_branch_area_specific_conductivity,trait_0021016,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021017,leaf_specific_hydraulic_conductance,Leaf specific hydraulic conductance (kleaf),"kleaf; Measure of how efficiently water is transported through a leaf. It is calculated as the ratio of water flow rate through the leaf (mmol/s) to the water potential gradient from the petiole to mesophyll substomatal cavities (MPa), divided by the leaf area (1/m2). As this is a measure of ""conductance"" not ""conductivity"" the measurement is not normalised to the path length (the leaf length).","This trait is also sometimes referred to as 'Leaf specific conductivity' in the literature despite the fact it is not normalised to path length and therefore is a ""conductance"" not a ""conductivity"".",continuous variable [STATO_0000251],0.1,100,mmol/m2/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034]; leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; leaf water potential [TO_0000131]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/]; Blackman 2010 [https://doi.org/10.1111/j.1469-8137.2010.03439.x],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,related match: Leaf hydraulic conductance [TRY:748] (https://www.try-db.org/de/de.php),"A leaf [PO:0025034] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a leaf under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), normalised to the leaf area [PATO:0001323]. It is calculated as the ratio [PATO:0001470] of the water flow rate through the leaf (mmol/s) to the water potential gradient gradient from the petiole [PO:0020038] to mesophyll [PO:0006070] substomatal cavities (MPa), divided by the leaf area (m2).",leaf_hydraulic_conductivity,trait_0021017,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021018,leaf_specific_hydraulic_conductivity,Leaf specific hydraulic conductivity (Kl),"Kl; Measure of the efficiency of water flow through a stem segment, normalised to the total leaf area distil to the stem segment. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient across the stem segment (MPa), divided by the total leaf area (1/m2), then multiplied by the stem length (m).","This trait is a variant of sapwood specific conductivity normalised to leaf area, usually by multiple Ks (sapwood specific conductivity) by Huber value. It is not a measure of conductivity through a leaf.",continuous variable [STATO_0000251],0.1,500,10^4.kg/m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; leaf water potential [TO_0000131]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf area-specific conductivity (leaf specific conductivity) [TRY:928] (https://www.try-db.org/de/de.php),"A stem [PO:0009047] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a stem under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), normalised to the branches' leaf [PO:0025034] area [PATO:0001323] and accounting for the path (stem) length [PATO:0000122]. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient across the stem segment (MPa), divided by the total leaf area (1/m2), then multiplied by the stem length (m).",NA,trait_0021018,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021021,root_hydraulic_conductivity,Root hydraulic conductivity (Kh),"Kh; Measure of the efficiency of water flow through a root segment. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient (MPa) across the root segment, multiplied by the root length (m).","This trait should not be confused with hydraulic conductance (kh), which is the ratio of water flow flow rate to the water potential gradient across the root segment, but IS NOT normalised to the path length and has units kg/MPa/s.",continuous variable [STATO_0000251],0.01,2000,10^6.kg.m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],conductivity [PATO_0001585]; per unit area [EnvThes:22003]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],20/05/2023,05/02/2024,NA,NA,NA,close match: Branch hydraulic conductance [TRY:3392] (https://www.try-db.org/de/de.php),"A root [PO:0009005] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a root under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), accounting for the root length [PATO:0000122]. It is calculated as the ratio [PATO:0001470] of the water flow [NCIT:C41141] rate through the root segment (kg/s) to the water potential gradient across the root segment (MPa), multiplied by the path length measured (m).",NA,trait_0021021,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021022,root_specific_hydraulic_conductivity,Root specific hydraulic conductivity,"Measure of the efficiency of water flow through a root segment normalised to the root cross-sectional area across which the flow is measured. It is calculated as the ratio of the water flow rate (kg/s) to the water potential gradient across the root segment (MPa), divided by the root cross sectional area (1/m2), then multiplied by the root length (m).",NA,continuous variable [STATO_0000251],0.01,500,kg/m/MPa/s,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],conductivity [PATO_0001585]; per unit length [EnvThes:22004]; ratio; proportion [PATO_0001470]; rate [PATO_0000161]; force [PATO_0001035]; efficiency [PATO_0001029],water transport [GO_0006833]; water [CHEBI_15377]; water potential [EnvThes:22311]; gradient [NCIT_C70693]; hydraulic conductivity [EnvThes:22133]; sapwood [PO_0004513]; water stress trait [TO_0000237],Choat 2010 [https://prometheusprotocols.net/function/water-relations/hydraulic-conductance-and-conductivity/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,NA,"A root [PO:0009005] water transport [GO:0006833] trait which is a measure of the rate [PATO:0000161] of water [CHEBI:15377] movement [NCIT:C37994] through a root under a specific [NCIT:C38024] driving force [PATO:0001035] (water potential [EnvThes:22311] gradient [NCIT:C70693]), normalised to the diameter [PATO:0001334] of water transport tissues [CARO:0000043] and accounting for the root length [PATO:0000122]. It is calculated as the ratio [PATO:0001470] of the water flow [NCIT:C41141] rate through the root segment (kg/s) to the water potential gradient across the root segment (MPa), divided by the root [PO:0004513] cross-sectional [NCIT:C63795] area [PATO:0001323] (m2), then multiplied by the path length measured (m).",NA,trait_0021022,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021030,water_potential_predawn,Pre-dawn water potential,"The water potential of a plant's shoot system just before sunrise, a proxy for soil water potential and the plant's highest (least negative) water potential for the day.","Predawn water potential is often assumed to equal the soil water potential, but the plant's water potential does not necessarily equilibrate with soil water potential overnight. It is therefore better considered a ""proxy"" of soil water potential.",continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035],shoot system [PO_0009006]; water potential [EnvThes:22311]; soil water potential [EnvThes:22283]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; dawn [Dawn],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,leaf water potential [http://purl.obolibrary.org/obo/TO_0000131],related match: Leaf water & osmotic potential: leaf water potential [TRY:983] (https://www.try-db.org/de/de.php),"The shoot system [PO:0009006] water potential [EnvThes:22311] just before sunrise, a proxy for soil water potential [EnvThes:22283] and representing the plant's daily maximum [NCIT:C25564] (least negative) water potential.",NA,trait_0021030,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021031,water_potential_midday,Midday water potential,"The water potential of a plant's leaf or shoot photosynthetic tissue during maximum midday transpiration, the time of day when the plant is most water stressed and has the lowest (most negative) water potential.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035],shoot system [PO_0009006]; water potential [EnvThes:22311]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,leaf water potential [http://purl.obolibrary.org/obo/TO_0000131],related match: Leaf water & osmotic potential: leaf water potential [TRY:983] (https://www.try-db.org/de/de.php),The average water potential [EnvThes:22311] of a plant's leaf [PO:0025034] and shoot [PO:0009006] mesophyll [PO:0006070] tissue [CARO:0000043] during maximum midday transpiration [ENVO:02500035] and assumed to be the plant's daily minimum [NCIT:C25570] water potential.,NA,trait_0021031,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021032,stem_sapwood_capacitance,Stem sapwood capacitance (C),The ratio of the change in stem tissue water volume to the change in stem tissue water potential.,NA,continuous variable [STATO_0000251],0,700,kg{H20}/m3/MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",whole plant [PO_0000003]; stem [PO_0009047],capacitance [PATO_0002205],water [CHEBI_15377]; turgor [PATO_0001620]; water stress trait [TO_0000237]; turgor pressure [TO_0000701]; water holding capacity [IOBC:200906064703668091],Scholz 2011 [https://doi.org/10.1007/978-94-007-1242-3_13],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],22/05/2023,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the change in stem [PO:0009047] tissue [CARO:0000043] water [CHEBI:15377] volume to the change in stem tissue water potential [EnvThes:22311].,NA,trait_0021032,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021033,leaf_capacitance,Leaf capacitance (Cleaf),The ratio of the change in leaf tissue water volume to the change in leaf tissue water potential.,This trait is derived from pressure-volume curves.,continuous variable [STATO_0000251],0,70,1/MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034],capacitance [PATO_0002205],water [CHEBI_15377]; turgor [PATO_0001620]; water stress trait [TO_0000237]; turgor pressure [TO_0000701]; water holding capacity [IOBC:200906064703668091]; NA [glossary_40124],Scholz 2011 [https://doi.org/10.1007/978-94-007-1242-3_13],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],22/05/2023,05/02/2024,NA,NA,NA,related match: Leaf water capacitance [TRY:711] (https://www.try-db.org/de/de.php),The ratio [PATO:0001470] of the change in leaf [PO:0025034] tissue [CARO:0000043] water [CHEBI:15377] volume to the change in leaf tissue water potential [EnvThes:22311].,NA,trait_0021033,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021034,root_sapwood_capacitance,Root sapwood capacitance (C),The ratio of the change in root tissue water volume to the change in root tissue water potential.,NA,continuous variable [STATO_0000251],0,700,kg{H20}/m3/MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],capacitance [PATO_0002205],water [CHEBI_15377]; turgor [PATO_0001620]; water stress trait [TO_0000237]; turgor pressure [TO_0000701]; water holding capacity [IOBC:200906064703668091],Scholz 2011 [https://doi.org/10.1007/978-94-007-1242-3_13],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],22/05/2023,05/02/2024,NA,NA,NA,NA,The ratio [PATO:0001470] of the change in root [PO:0009005] tissue [CARO:0000043] water [CHEBI:15377] volume to the change in root tissue water potential [EnvThes:22311].,NA,trait_0021034,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021050,leaf_hydraulic_vulnerability,"Leaf xylem pressure, 50% lost conductance (P50)","A measure of leaf hydraulic vulnerability, which is the leaf xylem water pressure at which leaf hydraulic conductance has declined by 50% from the mean maximum rate of hydraulic conductance.",NA,continuous variable [STATO_0000251],-40,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034]; stem [PO_0009047],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,"exact match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in leaf [PO:0025034] xylem vessels [PO:0025417] at which the hydraulic conductance [EnvThes:22133] has declined by 50% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021050,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021051,water_potential_12percent_lost_conductivity,"Stem xylem pressure, 12% lost conductivity (P12)","A measure of stem hydraulic vulnerability, which is the stem xylem water pressure value at which stem hydraulic conductivity has declined by 12% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in stem [PO:0009047] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 12% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021051,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021052,water_potential_50percent_lost_conductivity,"Stem xylem pressure, 50% lost conductivity (P50)","A measure of stem hydraulic vulnerability, which is the stem xylem water pressure value at which stem hydraulic conductivity has declined by 50% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,Xylem pressure [https://cropontology.org/rdf/CO_357:0000454],NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in stem [PO:0009047] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 50% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021052,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021053,water_potential_88percent_lost_conductivity,"Stem xylem pressure, 88% lost conductivity (P88)","A measure of stem hydraulic vulnerability, which is the stem xylem water pressure value at which stem hydraulic conductivity has declined by 88% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in stem [PO:0009047] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 88% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021053,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021054,hydraulic_safety_margin_50,"Hydraulic safety margin, 50%",The difference between the stem water potential at turgor loss and the water potential at which 50% of conductivity is lost.,Alternative definitions for this trait include 1) the difference between the minimum (most negative) observed stem water potential and the water potential at which 50% of conductivity is lost; and 2) the difference between the stem water potential at stomatal closure and the water potential at which 50% of conductivity is lost. If data mapped to this trait use one of these alternate definitions it should be clearly stated in the methods or added as a method context property.,continuous variable [STATO_0000251],-5,10,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,"exact match: Resistance to xylem cavitation [BROT:19] (http://doi.org/10.1038/sdata.2018.135); related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P8 [TRY:719] (https://www.try-db.org/de/de.php)",The difference between the shoot water potential [EnvThes:22311] (tension [PATO:0002284] (water pressure) in stem [PO:0009047] xylem vessels [PO:0025417]) at which the mean turgor pressure [TO:0000701] of cells [CL:0000000] drops to zero and the water potential at which the hydraulic conductivity [EnvThes:22133] has declined by 50% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021054,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021055,hydraulic_safety_margin_88,"Hydraulic safety margin, 88%",The difference between the stem water potential at turgor loss and the water potential at which 88% of conductivity is lost.,Alternative definitions for this trait include 1) the difference between the minimum (most negative) observed stem water potential and the water potential at which 88% of conductivity is lost; and 2) the difference between the stem water potential at stomatal closure and the water potential at which 88% of conductivity is lost. If data mapped to this trait use one of these alternate definitions it should be clearly stated in the methods or added as a method context property.,continuous variable [STATO_0000251],-5,10,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,"exact match: Resistance to xylem cavitation [BROT:19] (http://doi.org/10.1038/sdata.2018.135); related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P8 [TRY:719] (https://www.try-db.org/de/de.php)",The difference between the shoot water potential [EnvThes:22311] (tension [PATO:0002284] (water pressure) in stem [PO:0009047] xylem vessels [PO:0025417]) at which the mean turgor pressure [TO:0000701] of cells [CL:0000000] drops to zero and the water potential at which the hydraulic conductivity [EnvThes:22133] has declined by 88% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021055,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021056,leaf_turgor_loss_point,Leaf turgor loss point,A parameter calculated from a pressure-volume curve which is the water potential at which the mean cell turgor pressure in the leaf/shoot declines to zero.,NA,continuous variable [STATO_0000251],-5,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034],tension [PATO_0002284]; force [PATO_0001035]; model parameter [STATO_0000034],water potential [EnvThes:22311]; turgor pressure [TO_0000701]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; NA [glossary_40124]; drought tolerance [TO_0000276],NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,osmotic adjustment break point [http://purl.obolibrary.org/obo/TO_0001028]; wilting point [http://vocabs.lter-europe.net/EnvThes/10362],NA,NA,exact match: Leaf water & osmotic potential: leaf osmotic potential at turgor loss [TRY:189] (https://www.try-db.org/de/de.php),"A parameter [STATO:0000034] calculated from a pressure-volume curve [APD:glossary/40124], which is the leaf water potential [EnvThes:22311] at which the mean turgor pressure [TO:0000701] of cells [CL:0000000] in the leaf/terminal shoot drops to zero. This is the point at which the plant wilts.",NA,trait_0021056,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021057,osmotic_potential,Osmotic potential,The potential energy of water molecules to move across a semi-permeable membrane due to differences in solute concentration across the membrane; solute potential,NA,continuous variable [STATO_0000251],-10,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],pressure [PATO_0001025]; force [PATO_0001035],potential energy [ENVO_2000016]; water [CHEBI_15377]; solute [SIO_010418]; osmotic pressure [EnvThes:21558]; turgor pressure [TO_0000701]; water stress trait [TO_0000237]; leaf water potential [TO_0000131],NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf water & osmotic potential: leaf water potential [TRY:983] (https://www.try-db.org/de/de.php),"In a plant tissue [CARO:0000043], the potential energy [ENVO:2000016] of water [CHEBI:15377] molecules to flow [NCIT:C41141] across a semi-permeable [PATO:0000982] membrane [GO:0016020] due to the differences in solute [SIO:010418] concentration [PATO:0000033] across the membrane, such that the osmotic potential becomes more negative as the solute concentration increases or the cell water content decreases. Osmotic potential is equal to negative osmotic pressure [EnvThes:21558] and is also referred to as solute potential.",NA,trait_0021057,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021058,osmotic_potential_at_full_turgor,Osmotic potential at full tugor,A parameter calculated from a pressure-volume curve which is the osmotic potential (solute potential) in leaf cells at full turgor (when relative water content = 100%). Osmotic potential is the energy of water molecules to move across a semi-permeable membrane due to differences in solute concentration across a membrane and is least negative (largest) when plants are at full turgor.,NA,continuous variable [STATO_0000251],-10,-0.1,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],pressure [PATO_0001025]; force [PATO_0001035]; model parameter [STATO_0000034],potential energy [ENVO_2000016]; water [CHEBI_15377]; solute [SIO_010418]; osmotic pressure [EnvThes:21558]; turgor pressure [TO_0000701]; water stress trait [TO_0000237]; NA [glossary_40124]; leaf water potential [TO_0000131]; drought tolerance [TO_0000276],Sack 2022 [https://prometheusprotocols.net/function/water-relations/pressure-volume-curves/leaf-pressure-volume-curve-parameters/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Leaf water & osmotic potential: leaf osmotic potential at full turgor [TRY:188] (https://www.try-db.org/de/de.php),"A parameter [STATO:0000034] calculated from a pressure-volume curve [APD:glossary/40124], which is, for a shoot or leaf [PO:0025034], the osmotic potential (solute potential) when they are fully hydrated (relative water content = 100%). Osmotic potential is always negative and is the potential energy [ENVO:2000016] of water [CHEBI:15377] molecules to flow [NCIT:C41141] across a semi-permeable [PATO:0000982] membrane [GO:0016020] due to the differences in solute [SIO:010418] concentration [PATO:0000033] across the membrane.",NA,trait_0021058,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021059,bulk_modulus_of_elasticity,Bulk modulus of elasticity (e),A parameter calculated from a pressure-volume curve which indicates the elasticity or rigidity of cells in leaves. It is the ratio of the change in cell turgor potential to the change in relative cell volume (change in volume/initial volume).,NA,continuous variable [STATO_0000251],0.1,100,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",stem [PO_0009047]; leaf [PO_0025034],pressure [PATO_0001025]; force [PATO_0001035]; volume [PATO_0000918]; ratio; proportion [PATO_0001470]; model parameter [STATO_0000034],cell [CL_0000000]; turgor pressure [TO_0000701]; plant-type cell wall [GO_0009505]; water stress trait [TO_0000237]; NA [glossary_40124]; modulus of elasticity [ModulusOfElasticity]; drought tolerance [TO_0000276],Sack 2022 [https://prometheusprotocols.net/function/water-relations/pressure-volume-curves/leaf-pressure-volume-curve-parameters/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,osmotic adjustment capacity [http://purl.obolibrary.org/obo/TO_0000507],exact match: Leaf elastic modulus [TRY:190] (https://www.try-db.org/de/de.php),"A parameter [STATO:0000034] calculated from a pressure-volume curve [APD:glossary/40124], which is, for a shoot or leaf [PO:0025034], the ratio [PATO:0001470] of the change in cell [CL:0000000] turgor potential (negative turgor pressure [TO:0000701]) over the relative change in cell volume (change in volume/initial volume). It is an estimation of cell wall [GO:0009505] rigidity.",NA,trait_0021059,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021060,leaf_relative_water_content_predawn,Leaf relative water content predawn,Ratio of the mass of water in a fresh leaf collected pre-dawn to the mass of water in a fully saturated leaf. A fully saturated leaf is one which has been rehydrated to hold the maximum amount of water and is considered to have a relative water content of 100%.,NA,continuous variable [STATO_0000251],0.1,1.4,g/g,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],water [CHEBI_15377]; dawn [Dawn]; water stress trait [TO_0000237]; water holding capacity [IOBC:200906064703668091]; NA [glossary_40050],NA,Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,Leaf water content [https://cropontology.org/rdf/CO_357:0000519]; leaf relative water content [http://purl.obolibrary.org/obo/TO_0000136],NA,related match: Leaf relative water content [TOP47] (https://top-thesaurus.org/index),The ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in a fresh [EnvThes:21976] leaf [PO:0025034] harvested pre-dawn [SWEET:reprTimeDay/Dawn] to the mass of water in a leaf at full hydration (saturated [NCIT:C61427]; relative water content = 100%).,NA,trait_0021060,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021061,leaf_relative_water_content_at_turgor_loss_point,Leaf relative water content at turgor loss point,Ratio of the mass of water in leaf at the point the leaf cells lose turgor to the mass of water in a fully saturated leaf. A fully saturated leaf is one which has been rehydrated to hold the maximum amount of water and is considered to have a relative water content of 100%. The plant's turgor loss point is calculated from a pressure-volume curve.,NA,continuous variable [STATO_0000251],0.1,1,g/g,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300]; model parameter [STATO_0000034],water [CHEBI_15377]; turgor [PATO_0001620]; water stress trait [TO_0000237]; turgor pressure [TO_0000701]; water holding capacity [IOBC:200906064703668091]; NA [glossary_40124]; drought tolerance [TO_0000276]; NA [glossary_40050],Sack 2022 [https://prometheusprotocols.net/function/water-relations/pressure-volume-curves/leaf-pressure-volume-curve-parameters/],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,Leaf water content [https://cropontology.org/rdf/CO_357:0000519]; leaf relative water content [http://purl.obolibrary.org/obo/TO_0000136],NA,related match: Leaf relative water content [TOP47] (https://top-thesaurus.org/index),"A parameter [STATO:0000034] calculated from a pressure-volume curve [APD:glossary/40124], which is, for a leaf [PO:0025034], the ratio [PATO:0001470] of the mass [PATO:0000125] of water [CHEBI:15377] in the leaf at the turgor [PATO:0001620] loss point to the mass of water in the leaf at full hydration (saturated [NCIT:C61427]; relative water content = 100%).",NA,trait_0021061,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021062,root_water_potential_50percent_lost_conductivity,"Root xylem pressure, 50% lost conductivity (P50)","A measure of root hydraulic vulnerability, which is the root xylem water pressure value at which root hydraulic conductivity has declined by 50% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/06/2023,05/02/2024,NA,NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in root [PO:0009005] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 50% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021062,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021063,root_water_potential_12percent_lost_conductivity,"Root xylem pressure, 12% lost conductivity (P12)","A measure of root hydraulic vulnerability, which is the root xylem water pressure value at which root hydraulic conductivity has declined by 12% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/06/2023,05/02/2024,NA,NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in root [PO:0009005] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 12% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021063,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021064,root_water_potential_88percent_lost_conductivity,"Root xylem pressure, 88% lost conductivity (P88)","A measure of root hydraulic vulnerability, which is the root xylem water pressure value at which root hydraulic conductivity has declined by 88% from the mean maximum rate of hydraulic conductivity.",NA,continuous variable [STATO_0000251],-20,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",root [PO_0009005],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/06/2023,05/02/2024,NA,NA,NA,"related match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in root [PO:0009005] xylem vessels [PO:0025417] at which the hydraulic conductivity [EnvThes:22133] has declined by 88% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021064,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021065,leaf_water_potential_12percent_lost_conductivity,"Leaf xylem pressure, 12% lost conductance (P12)","A measure of leaf hydraulic vulnerability, which is the leaf xylem water pressure at which leaf hydraulic conductance has declined by 12% from the mean maximum rate of hydraulic conductance.",NA,continuous variable [STATO_0000251],-40,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034]; stem [PO_0009047],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,leaf water potential [http://purl.obolibrary.org/obo/TO_0000131],"exact match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in leaf [PO:0025034] xylem vessels [PO:0025417] at which the hydraulic conductance [EnvThes:22133] has declined by 12% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021065,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0021066,leaf_water_potential_88percent_lost_conductivity,"Leaf xylem pressure, 88% lost conductance (P88)","A measure of leaf hydraulic vulnerability, which is the leaf xylem water pressure at which leaf hydraulic conductance has declined by 88% from the mean maximum rate of hydraulic conductance.",NA,continuous variable [STATO_0000251],-40,0,MPa,NA,"water transport trait, hydraulic trait [trait_group_0021002]",leaf [PO_0025034]; stem [PO_0009047],tension [PATO_0002284]; force [PATO_0001035],water potential [EnvThes:22311]; xylem [PO_0005352]; hydraulic conductivity [EnvThes:22133]; leaf water potential [TO_0000131]; water stress trait [TO_0000237]; drought tolerance [TO_0000276],Cochard 2010 [https://prometheusprotocols.net/function/water-relations/xylem-vulnerability-curves/]; Venturas 2017 [https://doi.org/10.1111/jipb.12534],Timothy Brodribb [https://orcid.org/0000-0002-4964-6107]; Brendan Choat [https://orcid.org/0000-0002-9105-640X],14/07/2021,05/02/2024,NA,NA,leaf water potential [http://purl.obolibrary.org/obo/TO_0000131],"exact match: Xylem hydraulic vulnerability, xylem cavitation vulnerability, embolism vulnerability, (P20, P50, P88) [TRY:719] (https://www.try-db.org/de/de.php)",The tension [PATO:0002284] (water pressure) (water potential [EnvThes:22311]) in leaf [PO:0025034] xylem vessels [PO:0025417] at which the hydraulic conductance [EnvThes:22133] has declined by 88% from the mean maximum [NCIT:C25564] rate [PATO:0000161].,NA,trait_0021066,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020813,leaf_photochemical_reflectance_index,Photochemical reflectance index (PRI),"Photochemical reflectance index measures plant responses to stress and the efficiency with which it uses photosynthetically active radiation, by indicating changes in carotenoid pigments in live foliage. It is calculated from the reflectance of radiation off the plant canopy at 531 nm (a xanthophyll band) and 570 nm (a reference band): PRI = (R531 - R570) / (R531 + R570), with a higher value indicating higher radiation use efficiency.",NA,continuous variable [STATO_0000251],-1,1,{dimensionless},NA,photosystem performance trait [trait_group_0020812]; environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003]; leaf [PO_0025034],ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300]; index [NCIT_C25390]; efficiency [PATO_0001029]; reflectance [EnvThes:21580],remote sensing [EnvThes:21762]; canopy [ENVO_01001242]; vegetation reflectance [EnvThes:10118]; radiation [ENVO_01001023]; photosynthetically active radiation [ENVO_01001864]; xanthophyll [CHEBI_27325]; Spectroradiometer [MOSAIC_00000974]; carotenoid [CHEBI_23044],Gamon 1997 [https://doi.org/10.1007/s004420050337]; Peñuelas 1997 [https://doi.org/10.1080/014311697217387]; Henrich & Brüser 2022 [https://www.indexdatabase.de/],NA,14/07/2021,05/02/2024,photochemical reflectance index [http://vocabs.lter-europe.net/EnvThes/21166],NA,NA,NA,"A remote sensing [EnvThes:21762] index [NCIT:C25390] of the efficiency [PATO:0001029] with which a whole plant [PO:0000003] uses photosynthetically active radiation [ENVO:01001864], calculated from the reflectance [EnvThes:21580] of radiation [ENVO:01001023] off the plant canopy [ENVO:01001242] at 531 nm (a xanthophyll [CHEBI:27325] band) and 570 nm (a reference band): PRI = (R531 - R570) / (R531 + R570). It is recorded with a spectroradiometer [MOSAIC:00000974] and a higher value indicates a higher radiation use efficiency.",leaf_PRI,trait_0020813,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020814,leaf_water_band_index,Water band index,Water band index measures whole plant water status. It is the ratio of the reflectance of radiation off the plant canopy at 970 nm to the reflectance at 900 nm; a higher value indicates a higher canopy water content.,NA,continuous variable [STATO_0000251],1,1.1,{dimensionless},NA,"water transport trait, hydraulic trait [trait_group_0021002]; environmental tolerance trait [trait_group_0030704]",whole plant [PO_0000003]; leaf [PO_0025034],ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300]; index [NCIT_C25390]; reflectance [EnvThes:21580],remote sensing [EnvThes:21762]; canopy [ENVO_01001242]; vegetation reflectance [EnvThes:10118]; radiation [ENVO_01001023]; vegetation [EnvThes:20535]; Spectroradiometer [MOSAIC_00000974]; water [CHEBI_15377],Peñuelas 1997 [https://doi.org/10.1080/014311697217387]; Henrich & Brüser 2022 [https://www.indexdatabase.de/],NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"A remote sensing [EnvThes:21762] index [NCIT:C25390] of whole plant [PO:0000003] water status, which is the ratio [PATO:0001470] of the reflectance [EnvThes:21580] of radiation [ENVO:01001023] off the plant canopy [ENVO:01001242] at 970 nm to the reflectance at 900 nm, recorded with a spectroradiometer [MOSAIC:00000974], where a higher value indicates a higher canopy water [CHEBI:15377] content.",water_band_index,trait_0020814,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020815,modified_NDVI,Modified normalized difference vegetation index (modified NDVI),"A remote sensing index of whole plant vegetation status, which is a ratio that considers the relative reflectance of red light versus short-wave infrared radiation (SWIR) off the plant canopy, where a higher value indicates greater vegetation health. The formula is: (SWIR - Red) / (SWIR + Red).",Modified NDVI is generally measured from Landsat data.,continuous variable [STATO_0000251],0.1,1,{dimensionless},NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003]; leaf [PO_0025034],ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300]; index [NCIT_C25390]; reflectance [EnvThes:21580],remote sensing [EnvThes:21762]; canopy [ENVO_01001242]; vegetation reflectance [EnvThes:10118]; radiation [ENVO_01001023]; vegetation [EnvThes:20535]; infrared radiation [ENVO_21001214],Jurgens 1997 [https://doi.org/10.1080/014311697216810],NA,14/07/2021,05/02/2024,normalized difference vegetation index [http://vocabs.lter-europe.net/EnvThes/21165],NA,NA,NA,"A remote sensing [EnvThes:21762] index [NCIT:C25390] of whole plant [PO:0000003] vegetation status, which is a ratio [PATO:0001470] that considers the relative reflectance [EnvThes:21580] of red light versus short-wave infrared radiation (SWIR) [ENVO:21001214] off the plant canopy [ENVO:01001242], where a higher value indicates greater vegetation health. The formula is: (SWIR - Red) / (SWIR + Red).",NA,trait_0020815,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0020816,leaf_chlorophyll_index_modified_ND705,Modified chlorophyll absorption ratio index 705,"A remote sensing index of chlorophyll absorption, which is a ratio that considers the relative reflectance of different wavelengths off the plant canopy, where a higher value indicates greater chlorophyll absorption. The formula is: (R750-R705)/(R750+R705+2(R445)).",NA,continuous variable [STATO_0000251],0.1,1,{dimensionless},NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003]; leaf [PO_0025034],ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300]; index [NCIT_C25390]; reflectance [EnvThes:21580],remote sensing [EnvThes:21762]; canopy [ENVO_01001242]; vegetation reflectance [EnvThes:10118]; radiation [ENVO_01001023]; vegetation [EnvThes:20535]; infrared radiation [ENVO_21001214]; chlorophyll [CHEBI_28966],Henrich & Brüser 2022 [https://www.indexdatabase.de/]; Sims & Gamon 2002 [https://doi.org/10.1016/S0034-4257(02)00010-X],NA,17/05/2023,05/02/2024,NA,NA,NA,NA,"A remote sensing [EnvThes:21762] index [NCIT:C25390] of chlorophyll [CHEBI:28966] absorption [SWEET:procWave/Absorption], which is a ratio [PATO:0001470] that considers the relative reflectance [EnvThes:21580] of different wavelengths off the plant canopy [ENVO:01001242], where a higher value indicates greater chlorophyll absorption. The formula is: (R750-R705)/(R750+R705+2(R445)).",NA,trait_0020816,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030010,plant_growth_form,Plant growth form,"The form of a plant, capturing a general sense of plant height and shape, which parts of a plant are woody versus herbaceous, the number of stems arising at ground level, and the distribution of leaves relative to the main stem.","This definition of plant growth form is narrower than what is used by many other references. Here, information pertaining to where a plant grows is captured by `plant_growth_substrate`. Terminology about the shape and length of stems and distribution of leaves is included in `stem_growth_habit`. An indication of whether a plant is parasitic is presented in `parasitic`. Included in the list of plant growth forms are two terms that are exclusively used to describe Australian plants, mallee and hummock, and one, tussock, that is an important growth form of Australian grasses, but globally used less frequently.",categorical variable [STATO_0000252],NA,NA,NA,none,whole plant phenotype trait [trait_group_0030006]; whole plant morphology trait [trait_group_0010004]; stem morphology trait [trait_group_0011802],whole plant [PO_0000003]; stem [PO_0009047]; leaf [PO_0025034],"organismal quality [PATO_0001995]; spatial pattern, distribution [PATO_0000060]; shape [PATO_0000052]; structure [PATO_0000141]; height [PATO_0000119]","vegetative shoot system [PO_0025607]; wood, secondary xylem [PO_0005848]; growth [GO_0040007]; canopy [ENVO_01001242]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Cornellison 2003 [https://doi.org/10.1071/BT02124],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,whole plant growth form [http://purl.obolibrary.org/obo/FLOPO_0900032],NA,exact match: whole plant growth form [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Growth form [BROT:1] (http://doi.org/10.1038/sdata.2018.135) (http://doi.org/10.1038/sdata.2018.135); exact match: Growth form and habit [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0); close match: Plant growth form [TOP136] (https://top-thesaurus.org/index); close match: Plant growth form [TRY:42] (https://www.try-db.org/de/de.php); close match: growth_form_2 [GIFT:1.2.2] (https://gift.uni-goettingen.de); close match: whole plant growth form diversity [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait that summarises different components of a whole plant's shape [PATO:0000052] and structure [PATO:0000141] into general groups [NCIT:C43359]. Characters that contribute to the plant form categories include the height [PATO:0000119] of the vegetative shoot system [PO:0025607], the distribution of leaves [PO:0025034] along the plant stem [PO:0009047], and the position [PATO:0000140] and count [NCIT:C25463] of stems and/or leaves relative to the ground surface.",NA,trait_0030010,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030011,life_form,Life form,"Raunkiaer classification of life form, indicating the location of and protection provided to surviving meristematic tissue (buds) during the unfavourable (cold or dry) season.",NA,categorical variable [STATO_0000252],NA,NA,NA,none,whole plant phenotype trait [trait_group_0030006]; whole plant morphology trait [trait_group_0010004]; reproductive shoot system morphology trait [trait_group_0012202],whole plant [PO_0000003]; seed [PO_0009010]; bud [PO_0000055],"organismal quality [PATO_0001995]; spatial pattern, distribution [PATO_0000060]; position [PATO_0000140]",whole plant lifeform [FLOPO_0900022]; shoot system meristem [PO_0006079]; life form [EnvThes:21412],Raunkiaer 1934 [https://openlibrary.org/books/OL16122328M]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,whole plant lifeform [http://purl.obolibrary.org/obo/FLOPO_0900022],NA,life form [http://vocabs.lter-europe.net/EnvThes/21412],exact match: Plant life form [TOP210] (https://top-thesaurus.org/index); exact match: Plant life form (Raunkiaer life form) [TRY:343] (https://www.try-db.org/de/de.php); exact match: plant growth form [LEDA:1.1] (https://uol.de/en/landeco/research/leda/standards); exact match: life_form [GIFT:2.3] (https://gift.uni-goettingen.de),"Raunkiaer classification of life form, which is a feature of the whole plant [PO:0000003] defining the position [PATO:0000140] of the perennating meristematic tissue [PO:0006079] (buds [PO:0000055] or shoot apices [PO:0000037]) on the shoot system [PO:0009006], their distance [PATO:0000040] to the ground surface [sweetontology.net/realmSoil/Ground] and the protection afforded to survive the unfavourable season, or the production of seeds [PO:0009010] to avoid the unfavourable season.",NA,trait_0030011,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030012,life_history,Life history,"Categorical description of the duration of a plant's lifespan, from germination to death.","Studies will differ in the subset of terms they use to describe a plant's life history, such that some researchers will distinguish between ephemeral and annual species, and other researchers will group these life history categories together under `annual`. In addition, only a subset of studies will use the term `short-lived perennial`; the majority will score all perennial plants as `perennial`. Rangeland studies and post-fire studies are those most likely to score species as `ephemeral` or `short-lived perennial`, as these are environments where perennial species' lifespans are often divided into those that are short-lived due to environmental conditions and those that are able to persist through the environmentally unfavourable period.",categorical variable [STATO_0000252],NA,NA,NA,none,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003],organismal quality [PATO_0001995]; duration [PATO_0001309]; time [PATO_0000165],death [GO_0016265]; longevity [NCIT_C153298],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,life cycle habit [http://purl.obolibrary.org/obo/TO_0002725],NA,NA,exact match: Plant lifespan (longevity) [TRY:59] (https://www.try-db.org/de/de.php); exact match: lifecycle [GIFT:2.1.1] (https://gift.uni-goettingen.de); related match: Growth form [BROT:1] (http://doi.org/10.1038/sdata.2018.135) (http://doi.org/10.1038/sdata.2018.135); close match: plant lifespan and age of first flowering [LEDA:1.3] (https://uol.de/en/landeco/research/leda/standards),"Categorical description of the duration [PATO:0001309] of a plant's lifespan (longevity [NCIT:C153298]), from seed germination [GO:0009845] to death [GO:0016265].",NA,trait_0030012,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030013,life_history_ephemeral_class,Ephemeral life history class,"For taxa that display an ephemeral life history, the environmental conditions associated with seed germination and seedling establishment.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; life history trait [trait_group_0030001],whole plant [PO_0000003],organismal quality [PATO_0001995]; requirement [NCIT_C25652]; response to [PATO_0000077],fire [ENVO_01000786]; environmental condition [ENVO_01000203]; seed germination [GO_0009845]; seedling establishment [EnvThes:20410],NA,NA,23/02/2023,05/02/2024,NA,NA,NA,NA,"A whole plant [PO:0000003] life history [ECOCORE:00000018] which is, for taxa [NCIT_C40098] that display an ephemeral life history, the environmental conditions [ENVO_01000203] associated with seed germination [GO:0009845] and seedling establishment [EnvThes:20410].",NA,trait_0030013,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030014,lifespan,Lifespan,"Plant lifespan, the duration from germination to death. Lifespan refers to the death of both aboveground and belowground biomass, indicating the death of the genetic individual.",NA,continuous variable [STATO_0000251],0.1,10000,a,NA,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003],organismal quality [PATO_0001995]; duration [PATO_0001309]; time [PATO_0000165],death [GO_0016265]; longevity [NCIT_C153298],NA,NA,14/07/2021,05/02/2024,NA,NA,life cycle habit [http://purl.obolibrary.org/obo/TO_0002725],"exact match: Plant life span [TOP255] (https://top-thesaurus.org/index); exact match: Plant lifespan (longevity) [TRY:59] (https://www.try-db.org/de/de.php); exact match: lifespan_1 [GIFT:2.2.1] (https://gift.uni-goettingen.de); exact match: longest whole plant longevity, maximum whole plant longevity [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Lifespan [BROT:17] (http://doi.org/10.1038/sdata.2018.135)","The duration [PATO:0001309] of a plant's lifespan (longevity [NCIT:C153298]), from seed germination [GO:0009845] to death [GO:0016265].",NA,trait_0030014,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030015,plant_growth_substrate,Plant growth substrate,"Trait broadly indicating where a plant is usually found, referencing the habitat in which a plant grows, the substrate to which a plant is attached, or a plant's growth medium.","Although the majority of vascular plants are `terrestrial`, for most taxonomic groups `plant growth substrate` is only recorded if a plant is not terrestrial. The exceptions are ferns and orchids, where both floras and individual researchers tend to specifically indicate which taxa are terrestrial. The values under this trait are recorded as part of `plant growth form` by many researchers, trait handbooks, and databases; they have been split out here, as the terms capturing what a plant is attached to do not generally describe the form of a plant.",categorical variable [STATO_0000252],NA,NA,NA,none,life history trait [trait_group_0030001],whole plant [PO_0000003],organismal quality [PATO_0001995],substrate [EFO:0005061]; growth [GO_0040007]; aquatic [EnvThes:21785]; terrestrial [EnvThes:21880]; habitat [ENVO_01000739]; epiphyte [EnvThes:10107]; growth [GO_0040007],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,substrate [http://www.ebi.ac.uk/efo/EFO_0005061],related match: Plant growth form [TRY:42] (https://www.try-db.org/de/de.php); close match: epiphyte_2 [GIFT:1.3.2] (https://gift.uni-goettingen.de); close match: aquatic_1 [GIFT:1.7.1] (https://gift.uni-goettingen.de),"A whole plant [PO:0000003] life history [ECOCORE:00000018] trait which indicates either the substrate [EFO:0005061] on which a plant grows [GO:0040007] or, broadly, whether the plant grows in an aquatic [EnvThes:21785] or terrestrial [EnvThes:21880] habitat [ENVO:01000739]. Substrate is defined as the surface to which an organism is attached.",NA,trait_0030015,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030016,plant_photosynthetic_organ,Plant photosynthetic organ,Trait indicating a plant's primary photosynthetic organ or tissue.,"This trait is not intended to record the presence of primary versus secondary photosynthetic organs; only the primary photosynthetic organ should be keyed in. Many of the allowable values for this trait are frequently included under `leaf type` or `leaf form`. Here, we separate terms pertaining to the general form of the leaf (in the trait `leaf_type`) from those identifying the plant organ responsible for photosynthesis.",categorical variable [STATO_0000252],NA,NA,NA,none,photosynthetic trait [trait_group_0020202]; leaf morphology trait [trait_group_0011202]; stem morphology trait [trait_group_0011802],leaf [PO_0025034]; whole plant [PO_0000003]; stem [PO_0009047],structure [PATO_0000141]; organismal quality [PATO_0001995],plant organ [PO_0009008]; photosynthesis [GO_0015979]; cladode [PO_0025354]; phyllode [PO_0025335]; growth [GO_0040007],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Burrows 2001 [https://doi.org/10.1086/319579],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,NA,NA,related match: Leaf type [TRY:43] (https://www.try-db.org/de/de.php),"A plant structure morphology trait [TO:0000839] which is the primary [NCIT:C25251] organ [PO:0009008] or tissue [CARO:0000043] a plant [PO:0000003] uses for photosynthesis [GO:0015979], most commonly a leaf [PO:0025034], cladode [PO:0025354], or phyllode [PO:0025335].",leaf_type,trait_0030016,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030017,plant_alternative_energy_and_nutrient_acquisition_strategy,Plant alternative energy and nutrient acquisition strategies,"Trait indicating the strategies used by a plant to obtain or produce energy (carbohydrates) or nutrients, including photosynthesis and various saprophytic and carnivorous energy and nutrient acquisition mechanisms.","Although the majority of vascular plants use photosynthesis to produce their own carbohydrates, this trait mostly includes data for the few taxa that are not photosynthetic. Likewise, it captures alternative nutrient acquisition strategies. See also the trait `parasitic` which captures data on whether plants are parasitic (or partially parasitic), forming haustoria to penetrate their host plant. The trait `root_structures` includes specialised root structures",categorical variable [STATO_0000252],NA,NA,NA,NA,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003]; leaf [PO_0025034],organismal quality [PATO_0001995]; mechanism [NCIT_C25343],energy [PATO_0001021]; carbohydrate [CHEBI_16646]; nutrient [CHEBI_33284]; growth [GO_0040007],NA,NA,31/10/2022,05/02/2024,NA,NA,NA,close match: Nutritional relationships [BROT:18] (http://doi.org/10.1038/sdata.2018.135),A whole plant [PO:0000003] life history [ECOCORE:00000018] trait which are alternative mechanisms [NCIT:C25343] plants use to obtain [NCIT:C52349] or produce [SIO:001106] energy [PATO:0001021] (carbohydrates [CHEBI:16646]) or nutrients [CHEBI:33284].,NA,trait_0030017,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030018,woodiness,Woodiness,"A binary trait, indicating whether a plant's stems are woody, with woody broadly defined to include both `true wood` (secondary xylem) and taxa that do not produce secondary xylem (i.e. monocots and ferns) but have thick, stiff, robust lignified stems.",This trait considers all species that have stiff lignified stems as `woody` and those that lack such stems as `herbaceous`. See the trait `plant woodiness detailed` for sub-categories of `woody` that indicate the extent and type of woodiness present in a plant stem.,categorical variable [STATO_0000252],NA,NA,NA,Vascular plants,whole plant phenotype trait [trait_group_0030006]; stem morphology trait [trait_group_0011802],whole plant [PO_0000003]; stem [PO_0009047],composition [PATO_0000025]; structure [PATO_0000141],"wood, secondary xylem [PO_0005848]; lignin [CHEBI_6457]; shoot axis woodiness [FLOPO_0900038]; wood [NCIT_C93062]; herbaceous [PATO_0002352]",Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,shoot axis woodiness [http://purl.obolibrary.org/obo/FLOPO_0900038]; woody plants [http://vocabs.lter-europe.net/EnvThes/20744],NA,exact match: whole plant woodiness [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: Woodiness [TOP706] (https://top-thesaurus.org/index); close match: Plant woodiness [TRY:38] (https://www.try-db.org/de/de.php); close match: woodiness and stem specific density [LEDA:3.1] (https://uol.de/en/landeco/research/leda/standards),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait which indicates whether the plant stem [PO:0009047] (the vegetative shoot system [PO:0025607]) is woody, with “woody†defined to include both plant stems with secondary xylem (true wood) [PO:0005848] and those with wood-like lignification [CHEBI:6457] (woodiness in monocots and ferns).",NA,trait_0030018,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030019,woodiness_detailed,Detailed woodiness categories,"Trait indicating the extent, distribution, and type of secondary xylem (true wood) and wood-like lignification (woodiness in monocots and ferns) in stems, roots, and reproductive shoots.","This trait documents in detail the degree and type of lignification in a plant's stems and roots (woodiness), while `plant woodiness` is a binary trait collapsing woodiness into a pair of values, `woody` versus `herbaceous`. Datasets that only use the terms `woody` versus `herbaceous` are only mapped to the binary trait; only datasets that explicitly indicate different levels of woodiness are mapped to `plant woodiness detailed`.",categorical variable [STATO_0000252],NA,NA,NA,Vascular plants,whole plant phenotype trait [trait_group_0030006]; stem morphology trait [trait_group_0011802],whole plant [PO_0000003]; stem [PO_0009047]; root [PO_0009005]; reproductive shoot system [PO_0025082],"composition [PATO_0000025]; structure [PATO_0000141]; spatial pattern, distribution [PATO_0000060]","wood, secondary xylem [PO_0005848]; lignin [CHEBI_6457]; shoot axis woodiness [FLOPO_0900038]; wood [NCIT_C93062]; herbaceous [PATO_0002352]",Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Carlquist 2013 [https://doi.org/10.1086/670400],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,NA,shoot axis woodiness [http://purl.obolibrary.org/obo/FLOPO_0900038]; woody plants [http://vocabs.lter-europe.net/EnvThes/20744],NA,close match: Woodiness [TOP706] (https://top-thesaurus.org/index); close match: Plant woodiness [TRY:38] (https://www.try-db.org/de/de.php); close match: woodiness and stem specific density [LEDA:3.1] (https://uol.de/en/landeco/research/leda/standards); close match: whole plant woodiness [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait which indicates the vertical [PATO:0001854] extent, distribution [PATO:0000060], and type [NCIT:C25284] of wood present in stems [PO:0009047], roots [PO:0009005], and reproductive shoot systems [PO:0025082], distinguishing between plants with secondary xylem (true wood) [PO:0005848] versus wood-like lignification [CHEBI:6457] (woodiness in monocots and ferns).",NA,trait_0030019,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030020,plant_physical_defence_structures,Physical defence structures,"The presence (or explicit absence) of specific physical defence structures on a plant, including spines, thorns, prickles, and sharp-tipped leaves.","This trait identifies explicit physical defence structures on a plant. The trait `plant_spinescence` indicates the degree of defence afforded to plants, with values defined by Pérez-Harguindeguy et al. 2013 (doi:10.1071/BT12225).",categorical variable [STATO_0000252],NA,NA,NA,none,plant structure morphology trait [trait_group_0011001]; leaf morphology trait [trait_group_0011202]; stem morphology trait [trait_group_0011802]; bark morphology trait [trait_group_0012002],leaf [PO_0025034]; stem [PO_0009047]; bark [PO_0004518]; whole plant [PO_0000003],structure [PATO_0000141]; surface feature shape [PATO_0001925]; shape [PATO_0000052],spine leaf [PO_0025173]; spine stipule [PO_0025174]; thorn [PO_0025172]; prickle [PO_0025169]; defense [NCIT_C61556]; spine petiole [PO_0025613],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Hanley 2007 [https://doi.org/10.1016/j.ppees.2007.01.001],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,plant defense [http://vocabs.lter-europe.net/EnvThes/21109],NA,"related match: Basic leaf shape [BROT:5] (http://doi.org/10.1038/sdata.2018.135); close match: Shoot emergences (pubescence, hairs, spines, thorns) [TRY:677] (https://www.try-db.org/de/de.php); close match: Shoot emergences (pubescence, hairs, spines, thorns) [TRY:1255] (https://www.try-db.org/de/de.php); close match: Shoot emergences (pubescence, hairs, spines, thorns) [TRY:1256] (https://www.try-db.org/de/de.php); close match: leaf_spines_1 [GIFT:4.13.1] (https://www.try-db.org/de/de.php); close match: leaf_thorns_1 [GIFT:4:14.1] (https://www.try-db.org/de/de.php); close match: defence [GIFT:6.5] (https://gift.uni-goettingen.de); close match: Armature [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0)","A plant structure morphology trait [TO:0000839] which indicates the plant structures [PO:0009011] used for defence [NCIT:C61556], including spine leaves [PO:0025173], spine stipules [PO:0025174], spine petiole [PO:0025613], thorns [PO:0025172], and prickles [PO:0025169].",physical_defence,trait_0030020,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030021,plant_climbing_mechanism,Plant climbing mechanisms,"Mechanisms plants use to climb, including both specialised leaf and stem adaptations and stem growth habits.",NA,categorical variable [STATO_0000252],NA,NA,NA,climbing and scrambling plants,whole plant phenotype trait [trait_group_0030006]; leaf morphology trait [trait_group_0011202]; stem morphology trait [trait_group_0011802],whole plant [PO_0000003]; stem [PO_0009047]; leaf [PO_0025034],structure [PATO_0000141]; mechanism [NCIT_C25343],climbing [NCIT_C81002]; appendage [NCIT_C61460],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Gallagher 2012 [https://doi.org/10.1111/j.1365-2699.2012.02773.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,related match: Plant growth form [TRY:42] (https://www.try-db.org/de/de.php),A whole plant [PO:0000003] phenotype [NCIT:C16977] trait that indicates stem [PO:0009047] and leaf [PO:0025034] structures [PATO:0000141] and physical mechanisms [NCIT:C25343] a plant uses to climb [NCIT:C81002] up other plants or substrates.,vine_climbing_mechanism,trait_0030021,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030022,plant_succulence,Plant succulence,"Trait indicating whether the leaves or stems of a plant are thick and fleshy because they store water, generally an adaptation to arid or salty environments.",Succulence generally has either a water storage function or is a mechanism to cope with (or thrive in) saline conditions. See the categorical trait `plant_tolerance_salt` for plant salt tolerance and salt avoidance strategies and the numeric trait `plant_tolerance_soil_salinity` for the soil salinity a plant can tolerate.,categorical variable [STATO_0000252],NA,NA,NA,none,whole plant phenotype trait [trait_group_0030006]; environmental tolerance trait [trait_group_0030704]; stem morphology trait [trait_group_0011802]; leaf morphology trait [trait_group_0011202],whole plant [PO_0000003]; stem [PO_0009047]; leaf [PO_0025034],structure [PATO_0000141]; organismal quality [PATO_0001995],tissue succulence [FLOPO_0900041]; water [CHEBI_15377]; drought tolerance [TO_0000276]; salt tolerance [TO_0006001]; salinity [PATO_0085001]; fleshy [PATO_0002351],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; Ogburn & Edwards 2010 [https://doi.org/10.1016/B978-0-12-380868-4.00004-1],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],31/10/2022,05/02/2024,tissue succulence [http://purl.obolibrary.org/obo/FLOPO_0900041],NA,NA,exact match: plant_succulence [GIFT:4.16.1] (https://gift.uni-goettingen.de); related match: Plant growth form [TRY:42] (https://www.try-db.org/de/de.php); related match: Basic leaf shape [BROT:5] (http://doi.org/10.1038/sdata.2018.135),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait that indicates whether any plant tissues [CARO:0000043] are succulent [FLOPO:0900041], indicating they are thick [PATO:0000591] and fleshy [PATO:0002351], generally storing water [CHEBI:15377] as a drought tolerance [TO:0000276] adaptation or filling with water as a salt tolerance [TO:0006001] adaptation.",NA,trait_0030022,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030023,stem_growth_habit,Stem growth habit,"Trait characterising a stem's structure and 3-dimensional extent, including the position of stems, degree of branchiness, density of branches, and branch angles relative to other branches and the ground surface.","This trait captures how a plant explores 3-dimensional space, with trait values predominantly adjectives that modify the core plant growth forms.",categorical variable [STATO_0000252],NA,NA,NA,none,whole plant phenotype trait [trait_group_0030006]; stem morphology trait [trait_group_0011802],whole plant [PO_0000003]; stem [PO_0009047]; leaf [PO_0025034],"shape [PATO_0000052]; 3-D extent [PATO_0001710]; position [PATO_0000140]; angle [PATO_0002326]; structure [PATO_0000141]; spatial pattern, distribution [PATO_0000060]",vegetative shoot system [PO_0025607]; branchiness [PATO_0002009]; growth [GO_0040007],Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,exact match: shoot_orientation [GIFT:1.9.1] (https://gift.uni-goettingen.de); related match: Shoot growth form [LEDA:3.2] (https://uol.de/en/landeco/research/leda/standards); related match: Leaf distribution along the stem [LEDA:3.3] (https://uol.de/en/landeco/research/leda/standards); related match: climber_2 [GIFT:1.4.2] (https://gift.uni-goettingen.de),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait that indicates the structure [PATO:0000141] and 3-dimensional extent [PATO:0001710] of a plant's vegetative shoot system [PO:0025607], including the position [PATO:0000140] of stems [PO:0009047], degree of branchiness [PATO:0002009], density [PATO:0001019] of branches [PO:0025073], and branch angles [PATO:0002326] relative to each other and the ground surface [sweetontology.net/realmSoil/Ground].",growth_habit,trait_0030023,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030024,leaf_phenology,Leaf phenology,Trait indicating whether a plant retains a leaf canopy throughout the year and what environmental cues are associated with canopy shedding.,NA,categorical variable [STATO_0000252],NA,NA,NA,Plants with leaves.,plant phenological trait [trait_group_0030008],leaf [PO_0025034]; whole plant [PO_0000003],organismal quality [PATO_0001995]; temporal pattern [EnvThes:21586]; response to [PATO_0000077]; sensitivity [NCIT_C25201],shedability [PATO_0001729]; environmental condition [ENVO_01000203]; evergreen [PATO_0001733]; deciduous [PATO_0001731],Williams 1997 [https://doi.org/10.1890/0012-9658%281997%29078%5B2542%3ALPOWSI%5D2.0.CO%3B2],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,shedability [http://purl.obolibrary.org/obo/PATO_0001729],exact match: Phenology [TOP700] (https://top-thesaurus.org/index); exact match: Leaf phenology type [TRY:37] (https://www.try-db.org/de/de.php); exact match: deciduousnes_1 [GIFT:2.4.1] (https://gift.uni-goettingen.de); exact match: whole plant vegetative phenology [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Leaf phenology [BROT:4] (http://doi.org/10.1038/sdata.2018.135),A whole plant [PO:0000003] phenotype [NCIT:C16977] trait characterising whether there is a part of the year when a plant sheds all leaves [PO:0025034] (shedability [PATO:0001729]) and the environmental conditions [ENVO:01000203] that cause a plant to shed its leaves.,NA,trait_0030024,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030025,leaf_lifespan,Leaf lifespan,Duration of time that an individual leaf is attached to the stem and physiologically functional; leaf longevity.,"Leaf lifespan is the inverse of the rate of leaf turnover. For some species, leaflets or other portions of a leaf may be censused rather than the entire leaf lamina. Leaf lifespan can be censused as either the rate of shedding leaves (leaf death) or the rate of formation of new leaves (leaf birth).",continuous variable [STATO_0000251],1,1000,mo,applicable to plants with leaves,plant phenological trait [trait_group_0030008],leaf [PO_0025034],time [PATO_0000165]; duration [PATO_0001309],shedability [PATO_0001729]; longevity [NCIT_C153298],Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Wright & Cannon 2001 [https://doi.org/10.1046/j.1365-2435.2001.00522.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,leaf longevity time [http://vocabs.lter-europe.net/EnvThes/22159],NA,NA,exact match: Leaf life span [TOP254] (https://top-thesaurus.org/index); exact match: Leaf lifespan (longevity) [TRY:12] (https://www.try-db.org/de/de.php); exact match: leaf life span [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Average leaf lifespan [BROT:3] (http://doi.org/10.1038/sdata.2018.135),The duration [PATO:0001309] that an individual leaf [PO:0025034] is attached to the stem [PO:0009047] and is physiologically functional [PATO:0001510].,NA,trait_0030025,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030026,competitive_stratum,Competitive stratum,"Categorical descriptions of a taxon's relative stature in its community, used to assess competitive heirarchies within a community.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003],organismal quality [PATO_0001995]; height [PATO_0000119],vegetation layer [ENVO_01000355]; community [ECSO_00000310]; competition [EnvThes:21097]; vegetation [EnvThes:20535],Keith 2007 [https://doi.org/10.1111/j.1365-2745.2007.01302.x]; Gosper 2012 [https://doi.org/10.1111/j.1654-1103.2012.01434.x],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: UnderstoreyCanopy [PalmTraits] (https://doi.org/10.1038/s41597-019-0189-0),"A classification [NCIT:C25161] that indicates the vegetation layer [ENVO:01000355] a taxon [NCIT:C40098] reaches within its community [ECSO:00000310], used to assess competition [EnvThes:21097] within the community.",NA,trait_0030026,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030027,nitrogen_fixing,Plant nitrogen fixation capacity,"Binary variable describing whether a plant has the capacity for nitrogen fixatation, indicating it engages in symbioses with microorganisms (most commonly bacteria or cyanobacteria) that are capable of nitrogen fixation. Nitrogen fixation capacity is usually identified by nodules on the plant roots.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,interspecific interactions trait [trait_group_0030009]; root morphology trait [trait_group_0012104],whole plant [PO_0000003]; root [PO_0009005],organismal quality [PATO_0001995],"biological process involved in symbiotic interaction, symbiosis [GO_0044403]; nitrogen fixation [GO_0009399]; nodulation [GO_0009877]; microorganism [NCIT_C14329]; mutualism [GO_0085030]; symbiosis [ECOCORE_00000022]",NA,NA,14/07/2021,05/02/2024,nitrogen symbiotic fixation [http://vocabs.lter-europe.net/EnvThes/22051],NA,root nodule number [http://purl.obolibrary.org/obo/TO_0000900],exact match: Plant nitrogen(N) fixation capacity [TRY:8] (https://www.try-db.org/de/de.php); exact match: nitrogen_fix_1 [GIFT:4.5.1] (https://gift.uni-goettingen.de); close match: Nutritional relationships [BROT:18] (http://doi.org/10.1038/sdata.2018.135),"A trait which indicates whether a plant has the capacity to engage in symbioses [GO:0044403] with microorganisms [NCIT:C14329] (bacteria [NCIT:C14187], cyanobacteria [NCBITaxon:1117], and fungi [NCBITaxon:4751]) capable of nitrogen fixation [GO:0009399] and usually identified by nodulation [GO:0009877] on the plant roots [PO:0009005].",NA,trait_0030027,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030028,root_structure,Plant root structures,"Specific specialized types of root structures and root symbioses, especially symbioses with mycorrhizal fungi.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,interspecific interactions trait [trait_group_0030009]; root morphology trait [trait_group_0012104],whole plant [PO_0000003]; root [PO_0009005],organismal quality [PATO_0001995]; structure [PATO_0000141],"mutualism [GO_0085030]; mycorrhizae [EnvThes:20656]; arbuscular mycorrhizal association [GO_0036377]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; haustorium [GO_0085035]; microorganism [NCIT_C14329]; symbiosis [ECOCORE_00000022]",Brundrett 2008 [https://www.mycorrhizas.info],NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Mycorrhiza type [TRY:7] (https://www.try-db.org/de/de.php); exact match: mycorrhiza_1 [GIFT:6.4.1] (https://gift.uni-goettingen.de); close match: Nutritional relationships [BROT:18] (http://doi.org/10.1038/sdata.2018.135),"A trait which indicates types [NCIT:C25284] of root [PO:0009005] structures [PATO:0000141], including structures associated with mutualisms [GO:0085030] with mycorrhizae [EnvThes:20656].",NA,trait_0030028,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030029,parasitic,Plant parasitism status,"Trait indicating whether a plant forms haustoria and obtains part or all of its energy-rich carbon compounds (photosynthetic sugars), mineral nutrition and/or water directly from another plant (its host) in an interaction that does not benefit the host plant.","Plants described as parasitic in the context of this trait always have haustoria, specialised organs that penetrate the host plants's vascular bundles. The trait `root_structures` documents symbiotic relationships with fungi. The trait `plant_energy_acquisition_strategy` documents specialised strategies or specialised organs or tissues plants use to obtain carbon or mineral nutrition.",categorical variable [STATO_0000252],NA,NA,NA,none,interspecific interactions trait [trait_group_0030009],whole plant [PO_0000003],organismal quality [PATO_0001995]; structure [PATO_0000141],"parasite [ECOCORE_00000146]; symbiosis [ECOCORE_00000022]; haustorium [GO_0085035]; energy [PATO_0001021]; nutrient [CHEBI_33284]; parasitism [GO_0072519]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]",Simpson 2019 [https://books.google.com/books?vid=ISBN9780128126288]; T?šitel 2016 [NA]; Nickrent & Musselman 2004 [https://doi.org/10.1094/PHI-I-2004-0330-01],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Ian J. Wright [https://orcid.org/0000-0001-8338-9143]; Peter Vesk [https://orcid.org/0000-0003-2008-7062]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Andy Leigh [https://orcid.org/0000-0003-3568-2606]; Patricia Lu-Irving [https://orcid.org/0000-0003-1116-9402]; Lily Dun [https://orcid.org/0000-0002-0712-5143]; David Coleman [https://orcid.org/0000-0002-1773-6597],14/07/2021,05/02/2024,NA,NA,NA,close match: parasite_1 [GIFT:1.5.1] (https://gift.uni-goettingen.de); close match: Nutritional relationships [BROT:18] (http://doi.org/10.1038/sdata.2018.135),"A whole plant [PO:0000003] phenotype [NCIT:C16977] trait that indicates if a plant is involved in a parasitic [ECOCORE:00000146] symbiosis [ECOCORE:00000022] where it forms haustorium [GO:0085035] on a host [GO:0018995] plant and the host plant provides all or some of its high energy [PATO:0001021] carbon [CHEBI:27594] compounds [NCIT:C43366], mineral nutrition (nutrients [CHEBI:33284]) and/or water [CHEBI:15377].",NA,trait_0030029,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030060,sex_type,Plant sex type,"Plant sex type, indicating, for a taxon the type of flowers (male, female, and hermaphroditic) present on individual plants versus separate plants within a population.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,plant structure morphology trait [trait_group_0011001],whole plant [PO_0000003]; flower [PO_0009046],"organismal quality [PATO_0001995]; spatial pattern, distribution [PATO_0000060]",hermaphrodite [PATO_0001340]; phenotypic sex [PATO_0001894],NA,NA,14/07/2021,05/02/2024,NA,mating system [http://vocabs.lter-europe.net/EnvThes/21061],NA,"exact match: Plant dicliny type [TOP295] (https://top-thesaurus.org/index); exact match: Flower sexual syndrome (dichogamy, cleistogamy, dioecious, monoecious) [TRY:915] (https://www.try-db.org/de/de.php); exact match: whole plant sexual system [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); close match: reproduction_sexual_1 [GIFT:1.4.1] (https://gift.uni-goettingen.de)","A plant structure morphology trait [TO:0000839] which is the distribution [PATO:0000060] of male [PATO:0000384], female [PATO:0000383], and hermaphroditic [PATO:0001340] flowers [PO:0009046] on one individual [EFO:0000542] and across multiple individuals in a population [PCO:0000001].",NA,trait_0030060,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030061,pollination_syndrome,Pollination syndrome,"For a given taxon, the biotic vectors (including explicit taxa) or abiotic mechanisms that are most likely to pollinate its flowers, based on the taxon's flower morphology.","Trait values include both very specific terms and quite general ones, reflecting the variation in detail provided across studies.",categorical variable [STATO_0000252],NA,NA,NA,applicable to seed plants (gymnosperms and angiosperms),floral organ morphology trait [trait_group_0012404]; interspecific interactions trait [trait_group_0030009],reproductive shoot system [PO_0025082]; flower [PO_0009046],organismal quality [PATO_0001995]; mechanism [NCIT_C25343],"pollination [GO_0009856]; mutualism [GO_0085030]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; NA [glossary_40086]; reproduction [GO_0000003]; symbiosis [ECOCORE_00000022]",Ollerton 2019 [https://jeffollerton.co.uk/2019/09/05/what-exactly-is-a-pollination-system/]; Dellinger 2020 [https://doi.org/10.1111/nph.16793],Ruby Stephens [https://orcid.org/0000-0002-3767-2690],14/07/2021,05/02/2024,NA,NA,NA,exact match: Flower pollination syndrome [TOP333] (https://top-thesaurus.org/index); exact match: pollination syndrome [TRY:29] (https://www.try-db.org/de/de.php); exact match: pollination_syndrom [GIFT:3.6] (https://gift.uni-goettingen.de); exact match: flower pollination syndrome [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),A classification [NCIT:C25161] based on a taxon's [NCIT:C40098] flower morphology traits [TO:0000499] that indicates the taxa (biotic vectors) or abiotic mechanisms [NCIT:C25343] that most likely pollinate [GO:0009856] a flower [PO:0009046].,NA,trait_0030061,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030062,pollination_system,Pollination system,"For a given taxon, the biotic vectors (including explicit taxa) or abiotic mechanisms that are most likely to pollinate its flowers, based on explicit field studies of pollination in the taxon's native range (preferred) or else a combination of possible pollinators observed visiting a taxon's flowers and the taxon's flower morphology.","Trait values include both very specific terms and quite general ones, reflecting the variation in detail provided across studies.",categorical variable [STATO_0000252],NA,NA,NA,applicable to seed plants (gymnosperms and angiosperms),floral organ morphology trait [trait_group_0012404]; interspecific interactions trait [trait_group_0030009],reproductive shoot system [PO_0025082]; flower [PO_0009046],organismal quality [PATO_0001995]; mechanism [NCIT_C25343],"pollination [GO_0009856]; mutualism [GO_0085030]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; NA [glossary_40086]; reproduction [GO_0000003]; symbiosis [ECOCORE_00000022]",Ollerton 2019 [https://jeffollerton.co.uk/2019/09/05/what-exactly-is-a-pollination-system/],Ruby Stephens [https://orcid.org/0000-0002-3767-2690],14/07/2021,05/02/2024,NA,NA,NA,close match: pollination syndrome [TRY:29] (https://www.try-db.org/de/de.php); close match: self_fertilization_1 [GIFT:3.1.1] (https://gift.uni-goettingen.de),A classification [NCIT:C25161] based on explicit field studies of pollination [GO:0009856] in the taxon's [NCIT:C40098] native range (preferred) or else a combination of a taxon's flower morphology traits [TO:0000499] (that suggest specific [NCIT:C38024] taxa (biotic vectors) or abiotic mechanisms [NCIT:C25343] that most likely pollinate [GO:0009856] a flower [PO:0009046]) and the pollinators actually observed visiting the taxon's flower.,NA,trait_0030062,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030080,genome_size,Plant genome size,"Mass of all chromosomes, the genome, in a somatic cell.",NA,continuous variable [STATO_0000251],0.5,100,pg,NA,genetic structure trait [trait_group_0030059],whole plant [PO_0000003],mass [PATO_0000125],genome size [OMIT_0027643]; somatic cell [CL_0002371]; chromosome [NCIT_C13202],NA,NA,14/07/2021,05/02/2024,genome size [http://purl.obolibrary.org/obo/OMIT_0027643],NA,NA,exact match: Species genotype: genome size [TRY:1022] (https://www.try-db.org/de/de.php),The total mass [PATO:0000125] of chromosomes [NCIT:C13202] that comprise a plant's genome [OMIT:0027643] in a somatic cell [CL:0002371].,NA,trait_0030080,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030081,ploidy,Chromosome ploidy,"Chromosome ploidy, the number of copies of each chromosome present in a somatic cell.",NA,continuous variable [STATO_0000251],1,4,{count},NA,genetic structure trait [trait_group_0030059],whole plant [PO_0000003],has number of [PATO_0001555]; count [NCIT_C25463],somatic cell [CL_0002371]; chromosome [NCIT_C13202]; ploidy [PATO_0001374],NA,NA,14/07/2021,05/02/2024,ploidy [http://purl.obolibrary.org/obo/PATO_0001374]; ploidy level [http://vocabs.lter-europe.net/EnvThes/21405],NA,NA,exact match: Plant chromosome number [TOP241] (https://top-thesaurus.org/index); exact match: Species genotype: chromosome ploidy [TRY:222] (https://www.try-db.org/de/de.php); exact match: Chromosome_number [GIFT:5.1.1] (https://gift.uni-goettingen.de),The count [NCIT:C25463] of copies of each chromosome [NCIT:C13202] present in a somatic cell [CL:0002371].,NA,trait_0030081,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030210,reproductive_maturity,Age of reproductive maturity,"The age of a plant when they are able to set seed, indicating it is reproductively mature.","Although reproductive maturity should be marked by the ability to set viable seed, this trait will often be scored as when plants first produce flowers, as this is easier to score. This trait is only meant to capture primary reproductive maturity, not secondary reproductive maturity following a disturbance. See a series of traits starting with `fire_time_from_fire_to_flowering` and `fire_time_from_fire_to_fruiting` for measures of secondary reproductive maturity.",continuous variable [STATO_0000251],0.1,1000,a,NA,plant phenological trait [trait_group_0030008],whole plant [PO_0000003],age [NCIT_C25150]; duration [PATO_0001309]; organismal quality [PATO_0001995],reproduction [GO_0000003]; flowering stage [PO_0007616]; maturity [PATO_0000261],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,days to maturity [http://purl.obolibrary.org/obo/TO_0000469],NA,NA,exact match: whole plant primary juvenile period length [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Age at maturity of saplings [BROT:42] (http://doi.org/10.1038/sdata.2018.135),"The age [NCIT:C25150] of a plant when it is capable of sexual reproduction [GO:0000003], which is the time interval (duration) [PATO:0001309] between seed germination [GO:0009845] and when a plant is able to produce mature [PATO:0001701] seed [PO:0009010].",NA,trait_0030210,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030211,dispersal_syndrome,Diaspore dispersal syndrome,"Plant dispersal syndromes are generally assigned to species based on suites of diaspore characteristics associated with specific mechanisms of dispersal. Trait values are mostly given as the formal dispersal syndromes ending in 'chory', a suffix meaning 'a specified method of plant dispersal'.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,interspecific interactions trait [trait_group_0030009]; seed morphology trait [trait_group_0012604]; fruit morphology trait [trait_group_0012504],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],organismal quality [PATO_0001995]; mechanism [NCIT_C25343]; shape [PATO_0000052],"mutualism [GO_0085030]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; seed dispersal [EnvThes:21042]; appendage [NCIT_C61460]; symbiosis [ECOCORE_00000022]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502]; Wigley 2020 [https://doi.org/10.1071/BT20048]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Plant dispersal syndrome [TOP346] (https://top-thesaurus.org/index); exact match: Dispersal syndrome [TRY:28] (https://www.try-db.org/de/de.php); exact match: dispersal_syndrome [GIFT:3.3] (https://gift.uni-goettingen.de); exact match: whole plant dispersal syndrome [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); exact match: Dispersal mode [BROT:23] (http://doi.org/10.1038/sdata.2018.135),A classification [NCIT:C25161] based on a taxon's [NCIT:C40098] seed morphology traits [TO:0000184] or fruit morphology traits [TO:0002629] that indicates the taxa (biotic vectors) or abiotic mechanisms [NCIT:C25343] that most likely disperse [OMIT: 0027297] seeds [PO:0009010] and fruit [PO:0009001] away from the parent plant.,NA,trait_0030211,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030212,dispersers,Diaspore dispersal agents,"Dominant diaspore dispersal agents, including both biotic agents (specific taxa) or abiotic mechanisms responsible for dispersing seeds (or other dispersal units) away from the parent plant.","Allowable terms for biotic dispersal agents include taxa at both the species-level and much broader groupings, reflecting both the different levels of resolution provided by researchers and whether a plant has specific versus broad dispersal agents. Abiotic dispersal mechanisms can likewise be quite general or specific, depending on data availability.",categorical variable [STATO_0000252],NA,NA,NA,NA,interspecific interactions trait [trait_group_0030009],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],organismal quality [PATO_0001995]; mechanism [NCIT_C25343],"mutualism [GO_0085030]; biological process involved in symbiotic interaction, symbiosis [GO_0044403]; seed dispersal [EnvThes:21042]; symbiosis [ECOCORE_00000022]",Pérez-Harguindeguy 2013 [https://doi.org/10.1071/BT12225]; Saatkamp 2018 [https://doi.org/10.1111/nph.15502]; Wigley 2020 [https://doi.org/10.1071/BT20048]; LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Kew Seed Information Database 2022 [https://data.kew.org/sid/sidsearch.html],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,close match: Plant dispersal syndrome [TOP346] (https://top-thesaurus.org/index); close match: Dispersal syndrome [TRY:28] (https://www.try-db.org/de/de.php),The taxa [NCIT:C40098] (biotic vectors) and abiotic mechanisms [NCIT:C25343] that disperse [OMIT: 0027297] seeds [PO:0009010] and fruit [PO:0009001] away from a parent plant.,NA,trait_0030212,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030213,flowering_cues,Environmental flowering cues,"A plants' flowering response to unpredictable, irregular environmental cues.","Taxa may be scored as having an environmental flowering cue, but also display a season-specific flowering response which is captured in the trait `flowering_time`. For additional details on a plant's post-fire flowering response see also the trait `post_fire_flowering`.",categorical variable [STATO_0000252],NA,NA,NA,NA,plant phenological trait [trait_group_0030008]; environmental tolerance trait [trait_group_0030704],reproductive shoot system [PO_0025082]; flower [PO_0009046],time [PATO_0000165]; duration [PATO_0001309],whole plant flowering stage [PO_0007016]; flowering time trait [TO_0002616]; environmental condition [ENVO_01000203]; disturbance (event) [EnvThes:20373],NA,NA,19/05/2023,05/02/2024,NA,NA,NA,NA,"Unpredictable, irregular environmental conditions [ENVO_01000203] that are linked to a plant [PO:0000003] producing flowers [PO:0009046].",NA,trait_0030213,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030214,flowering_time,"Flowering time, by month",Months during which taxon has open (anthetic) flowers.,"Trait keyed as a sequences of 12 Ns (not flowering) and Ys (flowering), representing the 12 months, starting with January.",categorical variable [STATO_0000252],NA,NA,NA,NA,plant phenological trait [trait_group_0030008],reproductive shoot system [PO_0025082]; flower [PO_0009046],time [PATO_0000165]; duration [PATO_0001309]; temporal pattern [EnvThes:21586],whole plant flowering stage [PO_0007016]; flowering time trait [TO_0002616],Saatkamp 2018 [https://doi.org/10.1111/nph.15502]; Stephens 2022 [https://doi.org/10.1111/jbi.14375],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,flowering time [http://vocabs.lter-europe.net/EnvThes/21649],whole plant flowering stage [http://purl.obolibrary.org/obo/PO_0007016],"exact match: Flower onset of flowering (first flowering date, flowering beginning) [TRY:2956] (https://www.try-db.org/de/de.php); exact match: flowering_time [GIFT:3.7] (https://gift.uni-goettingen.de); exact match: plant flowering duration [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata); related match: Plant flowering begin trait [TOP292] (https://top-thesaurus.org/index); related match: Plant flowering end trait [TOP293] (https://top-thesaurus.org/index); close match: plant flowering begin [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata)",The months [UO:0000035] during which a plant [PO:0000003] has open (anthetic) flowers [PO:0009046] and is therefore at the whole plant flowering stage [PO:0007016].,NA,trait_0030214,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030215,fruiting_time,"Fruiting time, by month",Months during which taxon produces fruit with mature seeds.,"Trait keyed as a sequences of 12 Ns (not flowering) and Ys (flowering), representing the 12 months, starting with January.",categorical variable [STATO_0000252],NA,NA,NA,NA,plant phenological trait [trait_group_0030008],reproductive shoot system [PO_0025082]; fruit [PO_0009001],time [PATO_0000165]; duration [PATO_0001309]; temporal pattern [EnvThes:21586],whole plant fruit development stage [PO_0025500],Saatkamp 2018 [https://doi.org/10.1111/nph.15502],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Fuiting time [GIFT:3.8] (https://gift.uni-goettingen.de); exact match: plant fruiting duration [BIEN] (https://bien.nceas.ucsb.edu/bien/biendata),The months [UO:0000035] during which a plant [PO:0000003] produces fruit [PO:0009001] with mature [PATO:0001701] seeds [PO:0009010].,NA,trait_0030215,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030216,recruitment_time,"Seedling recruitment time, by month",The months during which seed germination and seedling establishment occurs.,"Trait keyed as a sequences of 12 Ns (not flowering) and Ys (flowering), representing the 12 months, starting with January.",categorical variable [STATO_0000252],NA,NA,NA,NA,plant phenological trait [trait_group_0030008]; environmental tolerance trait [trait_group_0030704]; fire response trait [trait_group_0030602],whole plant [PO_0000003]; seed [PO_0009010],time [PATO_0000165]; organismal quality [PATO_0001995],seed germination [GO_0009845]; recruitment [Recruitment]; seedling [EnvThes:20698]; seedling establishment [EnvThes:20410]; reproduction [GO_0000003],Auld 1990 [https://doi.org/10.1071/BT9900255],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],19/05/2023,05/02/2024,NA,NA,NA,NA,The months [UO:0000035] during which seed [PO:0009010] germination [GO:0009845] and seedling establishment [EnvThes:20410] occurs.,NA,trait_0030216,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030217,seedling_establishment_conditions,Seedling establishment conditions,"The environmental conditions under which a taxon's seedlings can establish, with trait values reflecting successional changes to the vegetation community.","The selection of trait values does not distinguish between the ability to establish in intermediate age versus mature vegetation, as this level of detail is rarely provided in datasets.",categorical variable [STATO_0000252],NA,NA,NA,NA,plant phenological trait [trait_group_0030008]; environmental tolerance trait [trait_group_0030704]; fire response trait [trait_group_0030602],whole plant [PO_0000003]; seed [PO_0009010],time [PATO_0000165]; organismal quality [PATO_0001995],seed germination [GO_0009845]; recruitment [Recruitment]; seedling [EnvThes:20698]; seedling establishment [EnvThes:20410]; reproduction [GO_0000003]; environmental condition [ENVO_01000203],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],19/05/2023,05/02/2024,NA,NA,NA,NA,"The environmental conditions [ENVO:01000203] under which a taxon [NCIT:C40098] displays seed [PO:0009010] germination [GO:0009845] and seedling establishment [EnvThes:20410], with trait values reflecting successional changes to the vegetation community.",NA,trait_0030217,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030218,reproductive_light_environment_index,Canopy light environment required for reproduction,"The minimum light environment required by plants for reproduction, scaled from 0 to 8.","0 indicates `No direct light, extremely low levels of transmitted/reflected light, such as beneath dense fern or palm fronds close to ground level.`; 0.5 indicates `No direct light, very low levels of transmitted light`; 1 indicates `Rare or no exposure to direct light from lateral sources, and low levels of transmitted light.`; 2 indicates `Low lateral light and low-moderate transmitted light with <10% of inverted cone exposed to lateral sources of direct light, plus low to moderate levels of transmitted light`; 3 indicates `Low-moderate lateral & moderate transmitted light, with <5% exposure of the focal crown to vertical direct light, and <15 % of inverted cone exposed to lateral sources of direct light, plus moderate transmitted light.`; 4 indicates `Moderate lateral light & moderate-high transmitted light, with 5 - 10% exposure of focal crown to direct vertical light, plus 2-20% exposure of inverted cone to lateral sources of direct light, plus moderate to high levels of transmitted light.`; 5 indicates `Moderate vertical light and moderate-high lateral light, with 5 - 20% exposure of focal crown to direct vertical light, plus one or both of, i. 10-40% exposure of 90-degree inverted cone to lateral sources of direct light, ii. exposure to high levels of transmitted light`; 6 indicates `Moderate-High vertical and high lateral light, with 10-30% of vertical projection of the crown exposed to vertical light, and lateral light exposure for > 40% of 90-degree inverted cone`, 7 indicates `High vertical and lateral light, with 30-80% of vertical projection of the crown exposed to vertical light, or exposure to lateral sources of direct light for > 60 % of a 90-degree inverted cone encompassing the focal crown.`; 8 indicates `Full light exposure of crown, with > 80% of the vertical projection of the crown exposed to vertical light.`.",continuous variable [STATO_0000251],0,8,{dimensionless},NA,plant phenological trait [trait_group_0030008],whole plant [PO_0000003],response to [PATO_0000077]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],photosynthetically active radiation [ENVO_01001864]; reproduction [GO_0000003]; environmental condition [ENVO_01000203]; recruitment [Recruitment]; radiation [ENVO_01001023],Wells 2012 [https://scholar.google.com/citations?view_op=view_citation&hl=en&user=Z8v6xPMAAAAJ&cstart=20&pagesize=80&sortby=pubdate&citation_for_view=Z8v6xPMAAAAJ:YOwf2qJgpHMC],NA,14/07/2021,05/02/2024,NA,NA,shade tolerance [http://vocabs.lter-europe.net/EnvThes/21436],NA,A plant phenological [TO:0000933] life history [ECOCORE:00000018] trait which is an index [NCIT:C25390] that captures the level of photosynthetically active radiation [ENVO:01001864] required by plants for reproduction [GO:0000003].,NA,trait_0030218,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030219,establishment_light_environment_index,Canopy light environment required for seedling establishment,"The minimum light environment required by seedlings for establishment, scaled from 0 to 8.","0 indicates `No direct light, extremely low levels of transmitted/reflected light, such as beneath dense fern or palm fronds close to ground level.`; 0.5 indicates `No direct light, very low levels of transmitted light`; 1 indicates `Rare or no exposure to direct light from lateral sources, and low levels of transmitted light.`; 2 indicates `Low lateral light and low-moderate transmitted light with <10% of inverted cone exposed to lateral sources of direct light, plus low to moderate levels of transmitted light`; 3 indicates `Low-moderate lateral & moderate transmitted light, with <5% exposure of the focal crown to vertical direct light, and <15 % of inverted cone exposed to lateral sources of direct light, plus moderate transmitted light.`; 4 indicates `Moderate lateral light & moderate-high transmitted light, with 5 - 10% exposure of focal crown to direct vertical light, plus 2-20% exposure of inverted cone to lateral sources of direct light, plus moderate to high levels of transmitted light.`; 5 indicates `Moderate vertical light and moderate-high lateral light, with 5 - 20% exposure of focal crown to direct vertical light, plus one or both of, i. 10-40% exposure of 90-degree inverted cone to lateral sources of direct light, ii. exposure to high levels of transmitted light`; 6 indicates `Moderate-High vertical and high lateral light, with 10-30% of vertical projection of the crown exposed to vertical light, and lateral light exposure for > 40% of 90-degree inverted cone`, 7 indicates `High vertical and lateral light, with 30-80% of vertical projection of the crown exposed to vertical light, or exposure to lateral sources of direct light for > 60 % of a 90-degree inverted cone encompassing the focal crown.`; 8 indicates `Full light exposure of crown, with > 80% of the vertical projection of the crown exposed to vertical light.`.",continuous variable [STATO_0000251],0,8,{dimensionless},NA,plant phenological trait [trait_group_0030008],whole plant [PO_0000003],response to [PATO_0000077]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],photosynthetically active radiation [ENVO_01001864]; reproduction [GO_0000003]; environmental condition [ENVO_01000203]; seed germination [GO_0009845]; seedling establishment [EnvThes:20410]; recruitment [Recruitment]; radiation [ENVO_01001023],Wells 2012 [https://scholar.google.com/citations?view_op=view_citation&hl=en&user=Z8v6xPMAAAAJ&cstart=20&pagesize=80&sortby=pubdate&citation_for_view=Z8v6xPMAAAAJ:YOwf2qJgpHMC],NA,14/07/2021,05/02/2024,NA,NA,shade tolerance [http://vocabs.lter-europe.net/EnvThes/21436],NA,A plant phenological [TO:0000933] life history [ECOCORE:00000018] trait which is an index [NCIT:C25390] that captures the level of photosynthetically active radiation [ENVO:01001864] required by plants for seed germination [GO:0009845] and seedling establishment [EnvThes:20410].,NA,trait_0030219,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030411,seedbank_location,Seed storage location,"Location of a plant's seedbank, the location where mature seeds are stored and viable until germinating.","Related traits include `seed_longevity`, and `serotiny`.",categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; reproductive structure life history trait [trait_group_0030504]; plant phenological trait [trait_group_0030008],seed [PO_0009010]; whole plant [PO_0000003]; fruit [PO_0009001],position [PATO_0000140]; organismal quality [PATO_0001995],seed germination [GO_0009845]; seed bank [D000068098]; reproduction [GO_0000003]; seed viability [TO_0000345]; soil [ENVO_00001998]; canopy [ENVO_01001242]; seed dormancy [GO_0010162],Lamont 1991 [https://doi.org/10.1007/BF02858770]; Lamont 2020 [https://doi.org/10.1080/07352689.2020.1768465]; Leck 2012 [https://books.google.com/books?vid=ISBN9780323148658],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Seedbank type [TRY:159] (https://www.try-db.org/de/de.php),"The location [NCIT:C25341] of a plant's [PO:0000003] seedbank [MESH:D000068098], indicating locations where mature [PATO:0001701] seeds [PO:0009010] are stored and remain viable [PATO:0000169] until germination [GO:0009845].",NA,trait_0030411,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030412,serotiny,Serotiny,"Categorical variable describing whether a fruit or cone remains closed in the plant canopy after maturation until an environmental cue, usually a fire, but possibly also drought or extreme heat, triggers it to release its seeds.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010]; fruit [PO_0009001],organismal quality [PATO_0001995]; requirement [NCIT_C25652]; response to [PATO_0000077],seed maturation [TO_0002661]; environmental condition [ENVO_01000203]; fire [ENVO_01000786]; reproduction [GO_0000003]; canopy [ENVO_01001242]; seed bank [D000068098]; seed viability [TO_0000345]; seed dormancy [GO_0010162],Lamont 2020 [https://doi.org/10.1080/07352689.2020.1768465],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Serotiny level [BROT:39] (http://doi.org/10.1038/sdata.2018.135); close match: Seedbank type [TRY:159] (https://www.try-db.org/de/de.php),"A fire response trait which indicates whether a fruit [PO:0009001] or cone [strobilus; PO:0025083] remains closed in the canopy [ENVO:01001242] after maturation [TO:0002661], with the seed [PO:0009010] only being released [NCIT:C42882] after a specific [NCIT:C38024] environmental conditions [ENVO:01000203], usually an environmental cue associated with a fire [ENVO:01000786], but possibly also drought or extreme heat.",NA,trait_0030412,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030413,seedbank_longevity_class,Seedbank longevity class,"Categorical groupings indicating the length of time (duration) a mature seed remains in the seedbank, viable and able to germinate.","Seedbank longevity classes are a feature of a `population` (sample) of seeds, not an individual seed. Also see the traits `seedbank_longevity` (numeric trait), `seed_dormancy_class` and the trait `seed_recruitment_timing`.",categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],time [PATO_0000165]; duration [PATO_0001309],seed germination [GO_0009845]; seed bank [D000068098]; reproduction [GO_0000003]; seed longevity [TO_0000435]; survival [EnvThes:21064]; seed dormancy [GO_0010162],Walck 2005 [https://doi.org/10.1079/SSR2005209]; Thompson & Ooi 2010 [https://doi.org/10.1017/S0960258510000267],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,seed longevity time [http://vocabs.lter-europe.net/EnvThes/22228],seed longevity [http://purl.obolibrary.org/obo/TO_0000435],NA,close match: Canopy seed bank longevity [BROT:38] (http://doi.org/10.1038/sdata.2018.135); close match: Soil seed bank longevity [BROT:40] (http://doi.org/10.1038/sdata.2018.135),"A seedbank's [MESH:D000068098] longevity [EnvThes:22228], expressed as a categorical variable [STATO:0000252], where seedbank longevity is the time interval (duration [PATO:0001309]) a mature [PATO:0001701] seed [PO:0009010] remains in the seedbank, viable [PATO_0000169] and able to germinate [GO:0009845].",seed_longevity_categorical,trait_0030413,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030414,seedbank_longevity,Seedbank longevity,"The half-life of the seedbank, which is the length of time (duration) from when seeds in a seedbank mature until more than half the seeds in a seedbank are no longer able to germinate.","Seedbank longevity can only be measured on a `population` (sample) of seeds, not on an individual seed. Also see the traits `seedbank_longevity_class`, `seed_dormancy_class` and `seed_recruitment_timing`.",continuous variable [STATO_0000251],0.01,1000,a,NA,fire response trait [trait_group_0030602]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],time [PATO_0000165]; duration [PATO_0001309],seed germination [GO_0009845]; seed bank [D000068098]; reproduction [GO_0000003]; seed longevity [TO_0000435]; survival [EnvThes:21064]; seed dormancy [GO_0010162],Thompson & Ooi 2010 [https://doi.org/10.1017/S0960258510000267],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,seed longevity time [http://vocabs.lter-europe.net/EnvThes/22228]; seed longevity [http://purl.obolibrary.org/obo/TO_0000435],NA,NA,close match: Canopy seed bank longevity [BROT:38] (http://doi.org/10.1038/sdata.2018.135); close match: Soil seed bank longevity [BROT:40] (http://doi.org/10.1038/sdata.2018.135),"The half-life of the seedbank [MESH:D000068098], with is the time interval (duration [PATO:0001309]) from when seeds [PO:0009010] in a seedbank mature [PATO:0001701] until more than half the seeds in a seedbank are no longer able to germinate [GO:0009845].",seed_longevity_numeric,trait_0030414,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030415,seed_dormancy_class,Dormancy type,Mechanisms that inhibit mature seeds from germinating and the environmental or experimental cues that allow a seed to break dormancy and germinate.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],organismal quality [PATO_0001995]; requirement [NCIT_C25652]; mechanism [NCIT_C25343]; response to [PATO_0000077],seed germination [GO_0009845]; environmental condition [ENVO_01000203]; experimental condition [XCO_0000000]; seed dormancy [GO_0010162]; reproduction [GO_0000003]; recruitment [Recruitment],Baskin & Baskin 2004 [https://doi.org/10.1079/SSR2003150]; Thompson & Ooi 2010 [https://doi.org/10.1017/S0960258510000267],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,seed dormancy [http://purl.obolibrary.org/obo/TO_0000253],close match: Chemical germination cues [BROT:35] (http://doi.org/10.1038/sdata.2018.135); close match: Heat-stimulated germination [BROT:36] (http://doi.org/10.1038/sdata.2018.135); close match: Other germination cues [BROT:37] (http://doi.org/10.1038/sdata.2018.135),"Physical [PATO:0002079], physiological [NCIT:C16990], and morphological [PATO:0000051] mechanisms [NCIT:C25343] that inhibit mature [PATO:0001701] seeds [PO:0009010] from germinating [GO:0009845].",dormancy_type,trait_0030415,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030416,seed_germination_treatment,Seed germination treatment,Treatment required for seed to display high germination rates. The data included in AusTraits are mostly from seed banks that have recorded the protocols they use to encourage seeds to germinate. The treatments may therefore be only loosely connected to the cues required for a species' to break dormancy.,NA,categorical variable [STATO_0000252],NA,NA,NA,NA,reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],organismal quality [PATO_0001995]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; requirement [NCIT_C25652]; response to [PATO_0000077],reproduction [GO_0000003]; experimental condition [XCO_0000000]; seed dormancy [GO_0010162]; seed germination [GO_0009845]; recruitment [Recruitment],Merritt 2007 [https://doi.org/10.1071/BT06106]; Jiménez-Alfaro 2016 [https://doi.org/10.1111/jvs.12375],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,NA,NA,NA,exact match: Seed germination stimulation [TRY:34] (https://www.try-db.org/de/de.php); close match: Chemical germination cues [BROT:35] (http://doi.org/10.1038/sdata.2018.135); close match: Heat-stimulated germination [BROT:36] (http://doi.org/10.1038/sdata.2018.135); close match: Other germination cues [BROT:37] (http://doi.org/10.1038/sdata.2018.135),The treatment [EFO:0000727] or experimental conditions [XCO:0000000] required for a high [NCIT:C25227] proportion [PATO:0001470] of seeds [PO:0009010] to germinate [GO:0009845] .,germination_treatment,trait_0030416,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030417,seed_germination,Seed germination proportion,Proportion of mature seeds in a sample that germinated under specified environmental or experimental conditions.,NA,continuous variable [STATO_0000251],0,1,{count}/{count},NA,reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],has number of [PATO_0001555]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],reproduction [GO_0000003]; experimental condition [XCO_0000000]; seed dormancy [GO_0010162]; seed germination [GO_0009845]; environmental condition [ENVO_01000203]; recruitment [Recruitment],LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Royal Botanic Garden Sydney 2021 [https://doi.org/www.rbgsyd.nsw.gov.au/science/rainforest-conservation-research/rainforest-seed-conservation-project/what-are-we-testing/seed-viability-germination]; Bradbeer 1988 [https://doi.org/10.1007/978-1-4684-7747-4_8],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,germination ratio [http://purl.obolibrary.org/obo/TO_0000202]; percent germination [http://purl.obolibrary.org/obo/TO_0010001],NA,NA,exact match: Seed germination rate (germination efficiency) [TRY:95] (https://www.try-db.org/de/de.php),The proportion [PATO:0001470] of mature [PATO:0001701] seeds [PO:0009010] in a sample that germinated [GO:0009845] under the specified [NCIT:C38024] environmental conditions [ENVO:01000203] or experimental conditions [XCO:0000000].,germination,trait_0030417,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030418,seed_viability,Seed viability,Proportion of mature seeds in a sample that are capable of germinating under suitable conditions.,NA,continuous variable [STATO_0000251],0,1,{count}/{count},NA,reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],has number of [PATO_0001555]; dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; count [NCIT_C25463],seed germination [GO_0009845]; environmental condition [ENVO_01000203]; experimental condition [XCO_0000000]; seed viability [TO_0000345]; seed bank [D000068098]; reproduction [GO_0000003]; recruitment [Recruitment],LEDA Data Standards 2005 [https://uol.de/en/landeco/research/leda/standards]; Royal Botanic Garden Sydney 2021 [https://doi.org/www.rbgsyd.nsw.gov.au/science/rainforest-conservation-research/rainforest-seed-conservation-project/what-are-we-testing/seed-viability-germination]; Bradbeer 1988 [https://doi.org/10.1007/978-1-4684-7747-4_8],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Hervé Sauquet [https://orcid.org/0000-0001-8305-3236]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Lydia Guja [https://orcid.org/0000-0001-5945-438X]; Gregory J. Jordan [https://orcid.org/0000-0002-6033-2766]; Mark Ooi [https://orcid.org/0000-0002-3046-0417]; Karen D. Sommerville [https://orcid.org/0000-0002-9843-6616]; Lily Dun [https://orcid.org/0000-0002-0712-5143],14/07/2021,05/02/2024,seed viability ratio [http://vocabs.lter-europe.net/EnvThes/22232]; seed viability [http://purl.obolibrary.org/obo/TO_0000345],NA,NA,exact match: Seed viability [TRY:1109](https://www.try-db.org/de/de.php),The proportion [PATO:0001470] of mature [PATO:0001701] seeds [PO:0009010] that are capable of germinating [GO:0009845] under suitable [NCIT:C116358] environmental conditions [ENVO:01000203] or experimental conditions [XCO:0000000] .,NA,trait_0030418,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030419,seed_germination_time,Seed germination time,The time interval from when a seed is exposed to suitable conditions for germinating until it germinates.,NA,continuous variable [STATO_0000251],0,1000,d,NA,reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; seed [PO_0009010],duration [PATO_0001309],seed germination [GO_0009845]; environmental condition [ENVO_01000203]; experimental condition [XCO_0000000]; seed bank [D000068098]; recruitment [Recruitment],NA,NA,10/6/2023,05/02/2024,days to germinate [http://purl.obolibrary.org/obo/TO_0006061],NA,NA,NA,The time interval (duration) [PATO:0001309] from when a seed [PO:0009010] is exposed to suitable [NCIT:C116358] environmental conditions [ENVO:01000203] or experimental conditions [XCO:0000000] for germinating [GO:0009845] until it germinates.,NA,trait_0030419,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030510,vegetative_reproduction_ability,Vegetative reproduction ability,"A binary trait, indicating whether a plant taxon is able to reproduce and spread through the growth and division of vegetative material.","For plants able to reproduce vegetatively, more detailed information about the mechanisms and structures that allow clonal spread is provided in the trait `clonal_spread_mechanism`. The trait `dispersal_unit` captures information on plants that never produce by seed.",categorical variable [STATO_0000252],NA,NA,NA,NA,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003],organismal quality [PATO_0001995],reproduction [GO_0000003]; asexual reproduction [GO_0019954]; survival [EnvThes:21064]; vegetative growth [EnvThes:21034]; clonal growth [EnvThes:21032],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,Ability to vegetative propagation [https://cropontology.org/rdf/CO_357:0000304]; clonal reproduction [http://vocabs.lter-europe.net/EnvThes/21008],vegetative growth [http://vocabs.lter-europe.net/EnvThes/21034],NA,exact match: Plant reproduction type [TOP123] (https://top-thesaurus.org/index); exact match: Plant vegetative regeneration capacity [TRY:344] (https://www.try-db.org/de/de.php); exact match: Reproduction_asexual_1 [GIFT:3.5.1] (https://gift.uni-goettingen.de); close match: Clonality [BROT:15] (http://doi.org/10.1038/sdata.2018.135),A whole plant [PO:0000003] life history [ECOCORE:00000018] trait which is the ability [NCIT:C78209] of individual [EFO:0000542] plants to reproduce [GO:0000003] through asexual reproduction [GO:0019954] (vegetative reproduction).,vegetative_regeneration,trait_0030510,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030511,clonal_spread_mechanism,Clonal spread mechanism,"Mechanisms and structures (tissues, organs, or other structures) a plant uses to spread vegetatively, including the production of clones.","See `vegetative_reproduction_ability` for a binary description of whether a plant can spread vegetatively. There are two other traits with overlapping trait values, but that are distinct trait concepts: `storage_organ` indicates the plant structures where a plant stores excess carbohydrates; these organs may or may not facilitate clonal spread; `bud_bank_location` indicates the location of meristematic tissue (buds) that allow regeneration following a disturbance or after an annual unfavourable season.",categorical variable [STATO_0000252],NA,NA,NA,NA,life history trait [trait_group_0030001]; plant structure morphology trait [trait_group_0011001],whole plant [PO_0000003]; bud [PO_0000055]; root [PO_0009005]; stem [PO_0009047],organismal quality [PATO_0001995]; mechanism [NCIT_C25343]; structure [PATO_0000141],clonal growth [EnvThes:21032]; asexual reproduction [GO_0019954]; regeneration [GO_0031099]; survival [EnvThes:21064]; plant organ [PO_0009008]; reproduction [GO_0000003]; vegetative growth [EnvThes:21034],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,clonal reproduction [http://vocabs.lter-europe.net/EnvThes/21008],NA,clonal growth [http://vocabs.lter-europe.net/EnvThes/21032],exact match: Plant vegetative reproduction: clonal growth organ [TRY:356] (https://www.try-db.org/de/de.php); exact match: reproduction_asexual_2 [GIFT:3.5.2] (https://gift.uni-goettingen.de); exact match: Clonality [BROT:15] (http://doi.org/10.1038/sdata.2018.135),A plant structure morphology trait [TO:0000839] which is the mechanism [NCIT:C25343] plants use for clonal growth [EnvThes:21032] (asexual reproduction [GO:0019954]) or for regeneration [GO:0031099] after a disturbance event [EnvThes:20373],NA,trait_0030511,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030512,storage_organ,Storage organ,"Plant structures (tissues, organs, or other structures) where a plant stores excess carbohydrates (energy). The stored energy may be used for future growth, including clonal spread and regrowth following an annual unfavourable season, or for regrowth following a disturbance event (including post-fire regeneration or another disturbance event that causes leaf loss). Trait values include both generic terms and quite specific ones to accommodate the variation in detail provided across datasets.","There are two other traits with overlapping trait values, but that are distinct trait concepts: `clonal_spread_mechanism` indicates mechanisms and structures a plant actually uses for vegetative spread; not all energy storage organs also allow vegetative spread; `bud_bank_location` indicates the location of meristematic tissue (buds) that allow regeneration following a disturbance or after an annual unfavourable season. See Pausus, Lamont et al. 2018 (doi.org/10.1111/nph.14982) for detailed descriptions of recolonization ability and level of fire protection provided by each regeneration strategy.",categorical variable [STATO_0000252],NA,NA,NA,NA,life history trait [trait_group_0030001]; plant structure morphology trait [trait_group_0011001],whole plant [PO_0000003]; root [PO_0009005]; stem [PO_0009047],structure [PATO_0000141]; function [NCIT_C25518],storage organ [EFO:0000997]; plant organ [PO_0009008]; carbohydrate [CHEBI_16646]; energy [PATO_0001021]; Plant resprout [PlantResprout]; survival [EnvThes:21064],"Pausus, Lamont et al. 2018 [https://doi.org/10.1111/nph.14982]; Wigley 2020 [https://doi.org/10.1071/BT20048]; Tavşanoğlu & Pausas 2018 [https://doi.org/10.1038/sdata.2018.135]",Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,storage organ [http://www.ebi.ac.uk/efo/EFO_0000997],NA,NA,exact match: Plant storage organ [TOP166] (https://top-thesaurus.org/index),"A plant structure morphology trait [TO:0000839] which is the type [NCIT:C25284] of storage organ [EFO:0000997] a plant has, where a storage organ is a plant part (organ [PO:0009008], tissue [PO:0009007], or other plant structure [PO:0009011]) whose function [NCIT:C25518] is carbohydrate [CHEBI:16646] (energy [PATO:0001021]) storage.",NA,trait_0030512,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030513,bud_bank_location,Bud bank location,"The location of buds (meristematic tissue) on a plant that allows it to resprout following a fire, annual unfavourable season, or other disturbance event, such as a drought or cyclone. Trait values include both generic terms and quite specific ones to accommodate the variation in detail provided across datasets.","There are two other traits with overlapping trait values, but that are distinct trait concepts: `clonal_spread_mechanism` indicates mechanisms and structures a plant actually uses for vegetative spread; not all energy storage organs also allow vegetative spread; `storage_organ` indicates the plant structures where a plant stores excess carbohydrates. See Pausus, Lamont et al. 2018 (doi.org/10.1111/nph.14982) for detailed descriptions of recolonization ability and level of fire protection provided by each regeneration strategy. If specific bud banks only survive some types of disturbance, the disturbance should be specified as a context property.",categorical variable [STATO_0000252],NA,NA,NA,NA,whole plant phenotype trait [trait_group_0030006],whole plant [PO_0000003]; bud [PO_0000055],"position [PATO_0000140]; spatial pattern, distribution [PATO_0000060]; location [NCIT_C25341]",shoot system meristem [PO_0006079]; survival [EnvThes:21064]; disturbance (event) [EnvThes:20373]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; regeneration [GO_0031099],"Pausus, Lamont et al. 2018 [https://doi.org/10.1111/nph.14982]; Wigley 2020 [https://doi.org/10.1071/BT20048]; Tavşanoğlu & Pausas 2018 [https://doi.org/10.1038/sdata.2018.135]; Clarke 2013 [https://doi.org/10.1111/nph.12001]",Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Bud source [BROT:30] (http://doi.org/10.1038/sdata.2018.135),"The position [PATO:0000140] and distribution [PATO:0000060] of vegetative meristematic tissue [PO:0006079] (buds [PO:0000055]) on a plant [PO:0000003]. These may be buds that allow a plant to regrow following an unfavourable season or buds that survive [EnvThes:21064] a disturbance event [EnvThes:20373] such as a fire, cyclone or drought. In particular, they may be meristematic tissue that survives a fire [ENVO:01000786] and allows the plant to resprout [Cerrado:fire#PlantResprout] following the fire.",NA,trait_0030513,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030514,sprout_depth,Sprout depth,"Depth below the soil surface (positive number) or height above ground (negative number) from which buds (meristematic tissue) resprout following a disturbance, such as a fire.",NA,continuous variable [STATO_0000251],-100,100,mm,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003]; bud [PO_0000055],depth [PATO_0001595]; height [PATO_0000119],shoot system meristem [PO_0006079]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; ground [Ground]; soil [ENVO_00001998]; regeneration [GO_0031099],Vesk & Yen 2019 [https://doi.org/10.1016/j.ppees.2019.125497],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Budbank height distribution [TRY:153] (https://www.try-db.org/de/de.php),The depth [PATO:0001595] below the ground [SWEET:realmSoil/Ground] surface or height [PATO:0000119] above the ground surface of vegetative meristematic tissue [PO:0006079] (buds [PO:0000055]) that resprouts [Cerrado:fire#PlantResprout] following a fire [ENVO:01000786].,NA,trait_0030514,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030610,resprouting_capacity,Post-fire resprouting capacity,"Trait indicating whether mature individuals of a taxon are killed, resprout, or have a mixed survival response when exposed to fire that causes 100% leaf scorch. Species where at least 70% of plants resprout are designated `resprouters`, while those where fewer than 30% of plants resprout are designated as `fire killed`. Species with an intermediate response have a mixed fire response, and are coded as `fire_killed resprouts`.",This trait is narrowly applicable only to taxa that experience fire; see the trait `fire_exposure_level` for trait values related to species whose strategy is to avoid fire.,categorical variable [STATO_0000252],NA,NA,NA,applicable to plants that experience fire,fire response trait [trait_group_0030602],whole plant [PO_0000003]; bud [PO_0000055],response to [PATO_0000077]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],disturbance (event) [EnvThes:20373]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; shoot system meristem [PO_0006079]; survival [EnvThes:21064],Gill & Bradstock 1992 [https://hdl.handle.net/102.100.100/248872?index=1]; Clarke 2015 [https://doi.org/10.1016/j.scitotenv.2015.04.002],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Species tolerance to fire [TRY:318] (https://www.try-db.org/de/de.php); exact match: Plant resprouting capacity [TRY:819] (https://www.try-db.org/de/de.php); exact match: Resprouting capacity after fire [BROT:34] (http://doi.org/10.1038/sdata.2018.135),"A fire response trait which indicates whether mature [PATO:0001701] plants [PO:0000003] from a taxon [NCIT:C40098] or population [PCO:0000001] are killed or have vegetative meristematic tissue [PO:0006079] (buds [PO:0000055]) that resprout [Cerrado:fire#PlantResprout] following a fire [ENVO:01000786] that causes 100% leaf scorch, with fire severity index [EnvThes:22120] an important contextual variable.",fire_response,trait_0030610,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030611,resprouting_capacity_proportion_individuals,Post-fire proportion resprouting individuals,Proportion of mature individuals in a population that survive a fire and resprout following a fire.,NA,continuous variable [STATO_0000251],0,1,{count}/{count},applicable to plants that experience fire,fire response trait [trait_group_0030602],whole plant [PO_0000003]; bud [PO_0000055],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; count [NCIT_C25463]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; response to [PATO_0000077],disturbance (event) [EnvThes:20373]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; shoot system meristem [PO_0006079]; survival [EnvThes:21064],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Species tolerance to fire [TRY:318] (https://www.try-db.org/de/de.php); exact match: Plant resprouting capacity [TRY:819] (https://www.try-db.org/de/de.php),A fire response trait which is the proportion [PATO:0001470] of mature [PATO:0001701] individuals [EFO:0000542] in a population [PCO:0000001] that have vegetative meristematic tissue [PO:0006079] (buds [PO:0000055]) that resprouts [Cerrado:fire#PlantResprout] following a fire [ENVO:01000786].,fire_response_numeric,trait_0030611,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030612,resprouting_capacity_juvenile,Post-fire resprouting capacity of juvenile plants,"Trait indicating whether juvenile phase individuals of a taxon are killed, resprout, or have a mixed survival response when exposed to a fire with 100% leaf scorch.",NA,categorical variable [STATO_0000252],NA,NA,NA,applicable to plants that experience fire,fire response trait [trait_group_0030602],whole plant [PO_0000003]; bud [PO_0000055],response to [PATO_0000077]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; tolerance [NCIT_C43414],disturbance (event) [EnvThes:20373]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; shoot system meristem [PO_0006079]; survival [EnvThes:21064]; juvenile [PATO_0001190],Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013]; Noble & Gitay 1996 [https://doi.org/10.2307/3236276],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,close match: Species tolerance to fire [TRY:318] (https://www.try-db.org/de/de.php); close match: Plant resprouting capacity [TRY:819] (https://www.try-db.org/de/de.php),A fire response trait which indicates whether juvenile [PATO:0001190] plants [PO:0000003] from a taxon [NCIT:C40098] or population [PCO:0000001] are killed or have vegetative meristematic tissue [PO:0006079] (buds [PO:0000055]) that resprouts [Cerrado:fire#PlantResprout] following a fire [ENVO:01000786] with 100% leaf scorch.,fire_response_juvenile,trait_0030612,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030613,resprouting_capacity_time_from_germination,Time from seedling germination until individuals survive a fire,A fire response trait which is the time from seed germination until individuals are able to survive and resprout following a fire where 100% of the leaves in the canopy are scorched.,"An essential context property to map for this trait is the population survival metric. For instance, is this trait scored based on the youngest individual to survive a fire or the age at which 50% of individuals survive and resprout following a fire.",continuous variable [STATO_0000251],0.1,100,a,applicable to plants that resprout following fire at some life stages,fire response trait [trait_group_0030602],whole plant [PO_0000003],age [NCIT_C25150]; organismal quality [PATO_0001995],disturbance (event) [EnvThes:20373]; fire [ENVO_01000786]; Plant resprout [PlantResprout]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; survival [EnvThes:21064],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],19/05/2023,05/02/2024,NA,NA,NA,NA,A fire response trait which is the time interval (duration) [PATO:0001309] from seed germination [GO:0009845] until individuals [EFO:0000542] are able to survive [EnvThes:21064] and resprout [PlantResprout] following a fire where 100% of the leaves [PO:0025034] in the canopy [ENVO:01001242] are scorched.,NA,trait_0030613,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030614,resprouting_capacity_stem_ratio,Post-fire to pre-fire stem ratio,"Ratio of stem count post-fire to basal stem count (e.g. grass tillers) pre-fire at an individual or population level. This trait is appropriate to score for plants that have many stems from the base (shrubs, herbs, graminoids) where the number of stems is censused both before and after the fire. It is a continuous measure of resprouting strength conditioned on initial size.","This trait will usually be recorded in natural or experimental systems subjected to a controlled burn, where stem counts can be censused both before and after a fire. However, it is appropriate to include data for any plants subjected to fire where the dead stems can still be counted post-fire.",continuous variable [STATO_0000251],0,10,{count}/{count},applicable to plants that experience fire,fire response trait [trait_group_0030602],whole plant [PO_0000003]; stem [PO_0009047],dimensionless ratio [STATO_0000300]; ratio; proportion [PATO_0001470]; response to [PATO_0000077]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],fire [ENVO_01000786]; Plant resprout [PlantResprout]; disturbance (event) [EnvThes:20373]; survival [EnvThes:21064]; regeneration [GO_0031099],Moore 2019 [https://doi.org/10.1111/nph.15480],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,"A fire response trait which is the ratio [PATO:0001470] of the count [NCIT:C25463] of stems [PO:0009047] per individual [EFO:0000542] following a fire [ENVO:01000786] to the count of stems per individual before the fire, recorded for taxa that have multiple stems emerging from the ground [SWEET:realmSoil/Ground].",fire_response_stem_ratio,trait_0030614,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030615,resprouting_capacity_non_fire_disturbance,Plant vegetative response to disturbances other than fire,A plant's ability to regenerate vegetatively (resprout) from a disturbance other than fire that causes 100% defoliation.,"This trait explicitly refers to a plant's vegetative regeneration ability following a disturbance event other than fire. See other `resprouting_capacity` traits, `bud_bank_location`, and `clonal_spread_mechanism` for other information about a plant's ability to resprout. Just as post-fire resprouting capacity is documented in individuals that have suffered 100% leaf scorch, this trait should be scored only on individuals that have suffered 100% leaf loss. If a different leaf loss percentage is used, this needs to be documented as a context property.",categorical variable [STATO_0000252],NA,NA,NA,NA,life history trait [trait_group_0030001],whole plant [PO_0000003],organismal quality [PATO_0001995]; ability [NCIT_C78209]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],regeneration [GO_0031099]; shoot system meristem [PO_0006079]; disturbance (event) [EnvThes:20373]; Plant resprout [PlantResprout]; habitat disturbance [EnvThes:21488]; environmental condition [ENVO_01000203]; survival [EnvThes:21064],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Resprouting capacity after disturbances [BROT:33] (http://doi.org/10.1038/sdata.2018.135); close match: Resprouting capacity after clipping [BROT:32] (http://doi.org/10.1038/sdata.2018.135),"A whole plant [PO:0000003] life history [ECOCORE:00000018] trait which is the ability [NCIT:C78209] of individual [EFO:0000542] plants to regenerate [GO:0031099] vegetatively (resprout [Cerrado:fire#PlantResprout]) from meristematic tissue [PO:0006079], buds [PO:0000055]) after a disturbance event [EnvThes:20373] other than a fire [ENVO:01000786] that causes 100% defoliation.",regeneration_non_fire_disturbance,trait_0030615,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030651,fire_exposure_level,Fire exposure level,"Trait indicating habitat (or microhabitat) variation that protects the shoot or root system of some taxa from being exposed to fire and scorched by the fire, even when a fire burns nearby.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003],response to [PATO_0000077]; exposure [NCIT_C17941]; avoidance [NCIT_C54264],shoot system [PO_0009006]; fire [ENVO_01000786]; habitat disturbance [EnvThes:21488]; survival [EnvThes:21064]; disturbance (event) [EnvThes:20373],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,"A fire response trait indicating small-scale variation in plant [PO:0000003] habitat [ENVO:01000739] or growing season that protects the plant's shoot systems [PO:0009006] or root system [PO:0025025] from exposure [NCIT:C17941] to fire [ENVO:01000786] or being damaged (scorched) by fire, when a fire occurs nearby.",NA,trait_0030651,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030652,post_fire_recruitment,Post-fire recruitment,A trait indicating the magnitude of seed germination and seedling establishment following a fire.,"This trait does not suggest what mechanism(s) is triggering post-fire recruitment, but only that a post-fire response is (or is not) observed. There are several fire-related context properties that should be documented whenever possible, including fire severity (most important), fire season, and fire frequency. In addition, the time from fire to recruitment will vary greatly across systems, and, when available, a basic habitat description should be documented as a location property.",categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003]; seed [PO_0009010],response to [PATO_0000077]; sensitivity [NCIT_C25201]; requirement [NCIT_C25652]; sensitivity [NCIT_C25201]; sensitivity [NCIT_C25201]; response to [PATO_0000077],seed germination [GO_0009845]; seedling establishment [EnvThes:20410]; fire [ENVO_01000786]; habitat disturbance [EnvThes:21488]; recruitment [Recruitment]; environmental condition [ENVO_01000203]; disturbance (event) [EnvThes:20373],Pyke 2017 [https://doi.org/10.1080/07352689.2017.1364209]; Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,exact match: Post-fire seedling emergence [BROT:43] (http://doi.org/10.1038/sdata.2018.135); related match: Post-fire seedling survival [BROT:44] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the magnitude [NCIT:C49158] of seed [PO:0009010] germination [GO:0009845] and seedling establishment [EnvThes:20410] after a fire [ENVO:01000786].,fire_and_establishing,trait_0030652,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030653,post_fire_flowering,Post-fire flowering,"Indication of whether the magnitude of flowers produced by a taxon increases, decreases or remains unchanged following a fire.","This trait does not suggest what mechanism(s) is triggering post-fire flowering, but only that a post-fire response is (or is not) observed. There are several fire-related context properties that should be documented whenever possible, including fire severity (most important), fire season, and fire frequency. In addition, the time from fire to flowering will vary greatly across systems, and, when available, a basic habitat description should be documented as a location property.",categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; plant phenological trait [trait_group_0030008],whole plant [PO_0000003]; flower [PO_0009046],requirement [NCIT_C25652]; response to [PATO_0000077]; sensitivity [NCIT_C25201],whole plant flowering stage [PO_0007016]; flowering time trait [TO_0002616]; fire [ENVO_01000786]; habitat disturbance [EnvThes:21488]; environmental condition [ENVO_01000203],Pyke 2017 [https://doi.org/10.1080/07352689.2017.1364209]; Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],23/02/2023,05/02/2024,NA,NA,NA,exact match: Fire-stimulated flowering [BROT:31] (http://doi.org/10.1038/sdata.2018.135),"A fire response trait which is a taxon's [NCIT:C40098] flowering [PO:0007016] response [NCIT:C25755] to fire [ENVO:01000786], indicating if the magnitude [NCIT_C49158] of flowers [PO:0009046] increases, decreases or remains unchanged following a fire.",NA,trait_0030653,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030654,fire_time_from_fire_to_flowering,Time from fire to first flowering,The time interval from a fire until the first individual in a population begins flowering.,"This trait can include data that documents the time from a fire until either a resprouter or a fire-killed species first begins flowering, as both have important regeneration and conservation implications. Whenever available, a context property should be added to indicate if data are scoring the time from seed germination or post-fire resprouting to the onset of flowering.",continuous variable [STATO_0000251],1,1000,mo,NA,fire response trait [trait_group_0030602]; plant phenological trait [trait_group_0030008]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; flower [PO_0009046]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant flowering stage [PO_0007016]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],16/02/2023,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until one individual [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] reaches whole plant flowering stage [PO_0007016].,NA,trait_0030654,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030655,fire_time_from_fire_to_50_percent_flowering,Time from fire until 50% of individuals are flowering,The time interval from a fire until 50% of the individuals in a population produce flowers.,"This trait can include data that documents the time from a fire until either a resprouter or a fire-killed species first begins flowering, as both have important regeneration and conservation implications. Whenever available, a context property should be added to indicate if data are scoring the time from seed germination or post-fire resprouting to the onset of flowering.",continuous variable [STATO_0000251],1,500,mo,NA,fire response trait [trait_group_0030602]; plant phenological trait [trait_group_0030008]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; flower [PO_0009046]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant flowering stage [PO_0007016]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],Gosper 2013 [https://doi.org/10.1890/12-0621.1]; Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013]; Bradstock & Kenny 2003 [https://doi.org/10.1111/j.1654-1103.2003.tb02160.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],17/05/2023,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until a 50% of the individuals [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] reaches whole plant flowering stage [PO_0007016].,NA,trait_0030655,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030656,fire_time_from_fire_to_peak_flowering,Time from fire to peak flowering,The time interval from a fire until the individuals in a population display maximum flowering.,"This trait can include data that documents the time from a fire until either a resprouter or a fire-killed species first begins flowering, as both have important regeneration and conservation implications. Whenever available, a context property should be added to indicate if data are scoring the time from seed germination or post-fire resprouting to the onset of flowering.",continuous variable [STATO_0000251],1,1000,mo,NA,fire response trait [trait_group_0030602]; plant phenological trait [trait_group_0030008]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; flower [PO_0009046]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant flowering stage [PO_0007016]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],17/05/2023,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until the individuals [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] reach maximum flowering [PO_0007016] levels.,NA,trait_0030656,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030657,fire_time_from_fire_to_flowering_decline,Time from fire until flowering declines,The time interval from a fire until the degree of flowering by individuals in a population begin to decline.,NA,continuous variable [STATO_0000251],1,1000,mo,NA,fire response trait [trait_group_0030602]; plant phenological trait [trait_group_0030008]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; flower [PO_0009046]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant flowering stage [PO_0007016]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],17/05/2023,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until the individuals [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] begin to decrease their level of flowering [PO_0007016].,NA,trait_0030657,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030658,fire_time_from_fire_to_fruiting,Time from fire to fruiting,The time interval from a fire until the first individual in a population produces a mature fruit with viable propagules.,"This trait can include data that documents the time from a fire until either a resprouter or a fire-killed species first begins producing mature fruit, as both have important regeneration and conservation implications. Whenever available, a context property should be added to indicate if data are scoring the time from seed germination or post-fire resprouting to the onset of fruiting.",continuous variable [STATO_0000251],1,500,mo,NA,fire response trait [trait_group_0030602]; whole plant phenotype trait [trait_group_0030006]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; fruit [PO_0009001]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant fruit development stage [PO_0025500]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],Gosper 2013 [https://doi.org/10.1890/12-0621.1]; Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013]; Bradstock & Kenny 2003 [https://doi.org/10.1111/j.1654-1103.2003.tb02160.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until one individual [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] produces mature [PATO:0001701] fruit [PO:0009001].,time_from_fire_to_fruit,trait_0030658,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030659,fire_time_from_fire_to_50_percent_fruiting,Time from fire until 50% of individuals are fruiting,The time interval from a fire until 50% of the individuals in a population produce mature fruit.,NA,continuous variable [STATO_0000251],1,500,mo,NA,fire response trait [trait_group_0030602]; whole plant phenotype trait [trait_group_0030006]; reproductive structure life history trait [trait_group_0030504],reproductive shoot system [PO_0025082]; fruit [PO_0009001]; whole plant [PO_0000003],time [PATO_0000165]; duration [PATO_0001309]; organismal quality [PATO_0001995]; age [NCIT_C25150],fire [ENVO_01000786]; whole plant fruit development stage [PO_0025500]; habitat disturbance [EnvThes:21488]; regeneration [GO_0031099]; disturbance (event) [EnvThes:20373]; maturity [PATO_0000261]; Plant resprout [PlantResprout]; reproduction [GO_0000003],Gosper 2013 [https://doi.org/10.1890/12-0621.1]; Noble & Slatyer 1980 [https://doi.org/10.1007/BF00121013]; Bradstock & Kenny 2003 [https://doi.org/10.1111/j.1654-1103.2003.tb02160.x],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],16/02/2023,05/02/2024,NA,NA,NA,close match: Age at maturity of resprouts [BROT:41] (http://doi.org/10.1038/sdata.2018.135),A fire response trait which is the time interval (duration) [PATO:0001309] after a fire [ENVO:01000786] until a 50% of the individuals [EFO:0000542] of a taxon [NCIT:C40098] in a population [PCO:0000001] produce mature [PATO:0001701] fruit [PO:0009001].,NA,trait_0030659,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030710,fire_fuel_bed_bulk_density,Fuel bed bulk density,"The density of the fuel bed, the plant litter accumulated on the ground. It is calculated as the ratio of the mass of the fuel bed to the fuel bed volume. This trait should be measured on plant litter from a single taxon.","In wildland environments it will be difficult to measure this trait on an individual taxon and fuel bed will instead be a ""community level"" trait. Therefore, this trait will generally be used to document fuel bed bulk density in experimental situations.",continuous variable [STATO_0000251],0.001,1,g/cm3,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003]; leaf [PO_0025034],"mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; volume density [PATO_0001353]; mass density, density [PATO_0001019]",plant litter [ENVO_01000628]; fuel [CHEBI_33292]; fire [ENVO_01000786]; ground [Ground]; experimental condition [XCO_0000000],Grootemaat 2017 [https://doi.org/10.1111/oik.03886],Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,"Fuel bed bulk density (volume density [PATO:0001353]), which is the ratio [PATO:0001470] of the mass [PATO:0000125] of the fuel bed divided by the fuel bed volume [PATO:0000918]; the term `fuel bed` refers to the accumulated plant litter [ENVO:01000628] on the ground [SWEET:realmSoil/Ground], as this is the fuel [CHEBI:33292] that is burnt in a ground fire [ENVO:01000786].",NA,trait_0030710,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030711,fire_fuel_consumption,Fuel consumption by fire,Proportion of available plant biomass (live and dead) that is consumed by fire. This trait should be measured on biomass from a single taxon.,"In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document fuel consumption in experimental situations.",continuous variable [STATO_0000251],0.1,100,g/g,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003]; leaf [PO_0025034],mass [PATO_0000125]; mass fraction [ECSO_00000619]; ratio; proportion [PATO_0001470]; dimensionless ratio [STATO_0000300],fuel [CHEBI_33292]; fire [ENVO_01000786]; combustion [NCIT_C157201]; ash [ENVO_02000090]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,"For a given taxon [NCIT:C40098], the proportion [PATO:0001470] of plant biomass [ENVO:01000155] (fuel [CHEBI:33292]) that is consumed by a fire [ENVO:01000786].",NA,trait_0030711,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030712,fire_rate_of_spread,Fire rate of spread,The horizontal rate of fire spread.,"In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document rates of fire spread in experimental situations.",continuous variable [STATO_0000251],0.01,1,cm/s,NA,fire response trait [trait_group_0030602],whole plant [PO_0000003],movement [NCIT_C37994]; speed [PATO_0000008]; rate [PATO_0000161]; ratio; proportion [PATO_0001470],habitat disturbance [EnvThes:21488]; fuel [CHEBI_33292]; fire [ENVO_01000786]; combustion [NCIT_C157201]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,"For a given taxon [NCIT:C40098], the horizontal [PATO:0001855] speed [PATO:0000008] of fire [ENVO:01000786] movement [NCIT:C37994].",NA,trait_0030712,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030713,fire_smoulder_duration,Leaf smoulder duration,"Smoulder duration for a single leaf, which is the time from the end of the last visible flame until the glowing phase dies out.","In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document rates of fire spread in experimental situations.",continuous variable [STATO_0000251],0.1,1000,s,NA,fire response trait [trait_group_0030602],leaf [PO_0025034],time [PATO_0000165]; duration [PATO_0001309]; time interval [TimeInterval],fire [ENVO_01000786]; flame [ENVO_01000789]; combustion [NCIT_C157201]; NA [glossary_40094]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,A fire response trait which is the duration [PATO:0001309] of the portion of fire [ENVO:01000786]-induced combustion [NCIT:C157201] process from the time when a flame [ENVO:01000789] is no longer visible until smoulder combustion ends.,NA,trait_0030713,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030714,fire_flame_duration,Leaf flame duration,"Flame duration for a single leaf, which is the time from the first visible flame until the last visible flame.","In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document rates of fire spread in experimental situations.",continuous variable [STATO_0000251],0.1,200,s,NA,fire response trait [trait_group_0030602],leaf [PO_0025034],time [PATO_0000165]; duration [PATO_0001309]; time interval [TimeInterval],fire [ENVO_01000786]; flame [ENVO_01000789]; combustion [NCIT_C157201]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,A fire response trait which is the duration [PATO:0001309] of the portion of fire [ENVO:01000786]-induced combustion [NCIT:C157201] process from the start of combustion until a flame [ENVO:01000789] is no longer visible.,NA,trait_0030714,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030715,fire_total_burn_duration,Leaf flame and smoulder duration,"For a single leaf, the sum of flame duration and smoulder duration, which is the time from the first visible flame until the glowing phase dies out.","In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document rates of fire spread in experimental situations.",continuous variable [STATO_0000251],0.1,1500,s,NA,fire response trait [trait_group_0030602],leaf [PO_0025034],time [PATO_0000165]; duration [PATO_0001309]; time interval [TimeInterval],fire [ENVO_01000786]; combustion [NCIT_C157201]; flame [ENVO_01000789]; NA [glossary_40094]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,A fire response trait which is the duration [PATO:0001309] of the entire fire [ENVO:01000786]-induced combustion [NCIT:C157201] process from the time of the start of combustion until smoulder combustion [APD:glossary/40094] ends.,NA,trait_0030715,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030716,fire_time_to_ignition,Fire time to ignition,"For a single leaf, the time from an ignition source contacting the leaf until ignition occurs.","In wildland environments it will be difficult to measure this trait on an individual taxon; it will instead be a ""community level"" trait. Therefore, this trait will generally be used to document rates of fire spread in experimental situations.",continuous variable [STATO_0000251],0.1,100,s,NA,fire response trait [trait_group_0030602],leaf [PO_0025034],time [PATO_0000165]; duration [PATO_0001309]; time interval [TimeInterval],flame [ENVO_01000789]; fire [ENVO_01000786]; NA [glossary_40040]; survival [EnvThes:21064]; combustion process [ENVO_01000839],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],14/07/2021,05/02/2024,NA,NA,NA,NA,A fire response trait which is the time interval (duration) [PATO:0001309] from a leaf's [PO:0025034] exposure [NCIT:C17941] to a flame [ENVO:01000789] until the leaf ignites [APD:glossary/40040].,NA,trait_0030716,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030810,plant_type_by_resource_use,Plant resource requirements and tolerance,"Classification scheme of plant resource requirements and tolerances, categorising taxa based on their water, soil nutrient, and soil salinity requirements and tolerances.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; requirement [NCIT_C25652]; sensitivity [NCIT_C25201],environmental condition [ENVO_01000203]; resource availability [EnvThes:21497]; water [CHEBI_15377]; soil [ENVO_00001998]; nutrient [CHEBI_33284]; salinity [PATO_0085001],Santos 2016 [https://doi.org/10.1093/pcp/pcv155],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Species tolerance to salt [TRY:1254] (https://www.try-db.org/de/de.php); close match: Species tolerance to drought [TRY:595] (https://www.try-db.org/de/de.php),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which categorises plants based on the environmental conditions in which they survive and thrive, including their tolerance of, sensitivity [NCIT:C25201] to, and requirement [NCIT:C25652] for certain resource availabilities [EnvThes:21497], including water [CHEBI:15377] availability and soil [ENVO:00001998] nutrient [CHEBI:33284] content and salinity [PATO:0085001].",plant_type_by_resource_use,trait_0030810,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030811,plant_flood_regime_classification,Plant flood regime response,"Classification scheme of plant flood regime requirements and tolerances, categorising taxa into seven groups based on their germination and growth responses to flood regimes.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; requirement [NCIT_C25652]; duration [PATO_0001309],environmental condition [ENVO_01000203]; flood [ENVO_01000710]; growth [GO_0040007]; seed germination [GO_0009845]; inundation [Inundation]; soil water content [EnvThes:22281]; resource availability [EnvThes:21497]; water [CHEBI_15377]; survival [EnvThes:21064],Brock & Casanova 1997 [https://doi.org/10.13140/2.1.2761.5367]; Casanova & Brock 2000 [https://doi.org/10.1023/A1009875226637],NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Ellenberg moisture value [TOP779] (https://top-thesaurus.org/index),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which categorises plants based on the depth [PATO:0001595], duration [PATO:0001309] and frequency [PATO:0000044] of inundation [SWEET:phenSystem/Inundation] a plant [PO:0000003] is able to tolerate. It incorporates their ability to tolerate or respond to fluctuations in flooding [ENVO:01000710] and drying, including growth [GO:0040007] and seed germination [GO:0009845] responses.",flood_regime_classification,trait_0030811,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030812,plant_tolerance_water_logged_soils,Plant water-logging tolerance,"Categorical groupings, indicating the length of time a taxon is able to tolerate water-logged soils.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003]; root [PO_0009005],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; duration [PATO_0001309],environmental condition [ENVO_01000203]; flood [ENVO_01000710]; soil [ENVO_00001998]; saturated [NCIT_C61427]; soil water content [EnvThes:22281]; inundation [Inundation]; water [CHEBI_15377]; survival [EnvThes:21064],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,NA,"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which is the duration [PATO:0001309] that a plant [PO:0000003] is able to tolerate water-logged soils, an indication of a plant's sensitivity [NCIT:C25201] to flood [ENVO:01000710] conditions. Soil [ENVO:00001998] is considered water-logged if it is saturated [NCIT:C61427] with water [CHEBI:15377], limiting the plant root's [PO:0009005] ability to respire [GO:0045333] due to a lack of soil oxygen [CHEBI:15379].",water_logging_tolerance,trait_0030812,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030813,plant_tolerance_inundation,Plant inundation tolerance,"Categorical groupings, indicating the length of time a taxon is able to tolerate being under water.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; duration [PATO_0001309],environmental condition [ENVO_01000203]; flood [ENVO_01000710]; inundation [Inundation]; water [CHEBI_15377]; saturated [NCIT_C61427]; survival [EnvThes:21064],NA,NA,14/07/2021,05/02/2024,submergence tolerance [http://purl.obolibrary.org/obo/TO_0000524],submergence sensitivity [http://purl.obolibrary.org/obo/TO_0000286],NA,close match: Ellenberg moisture value [TOP779] (https://top-thesaurus.org/index),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which is the duration [PATO:0001309] that a plant [PO:0000003] is able to tolerate inundation [SWEET:phenSystem/Inundation], an indication of a plant's sensitivity [NCIT:C25201] to flood [ENVO:01000710] conditions.",inundation_tolerance,trait_0030813,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030814,plant_tolerance_snow,Plant snow tolerance,"Categorical groupings, indicating the length of time a taxon is able to tolerate being under snow cover.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; duration [PATO_0001309],environmental condition [ENVO_01000203]; snow [ENVO_01000406]; survival [EnvThes:21064],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,close match: Frost tolerance [TOP768] (https://top-thesaurus.org/index),An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which is the duration [PATO:0001309] that a plant [PO:0000003] is able to tolerate being covered by snow [ENVO:01000406].,snow_tolerance,trait_0030814,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030815,plant_tolerance_soil_salinity,Plant soil salinity tolerance,"Maximum salinity tolerated by a taxon, reported as the conductivity of the soil.",NA,continuous variable [STATO_0000251],0.1,100,dS/m,NA,chemical stress sensitivity trait [trait_group_0030702]; environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],conductivity [PATO_0001585]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201],environmental condition [ENVO_01000203]; soil [ENVO_00001998]; salinity [PATO_0085001]; salt [CHEBI_24866]; resource availability [EnvThes:21497]; salt tolerance [TO_0006001]; survival [EnvThes:21064],NA,NA,14/07/2021,05/02/2024,NA,NA,NA,exact match: Species tolerance to salt [TRY:1254] (https://www.try-db.org/de/de.php); related match: Ellenberg salt value [TOP200] (https://top-thesaurus.org/index),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which is the maximum [NCIT:C25564] soil [ENVO:00001998] salinity [PATO:0085001], reported as soil conductivity [PATO:0001585], that a plant is able to tolerate.",soil_salinity_tolerance,trait_0030815,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030816,plant_tolerance_salt,Plant salt tolerance strategy,"Classification scheme of plant salt-tolerance categories, categorising taxa based on their tolerance of or sensitivity to salty soils, salt spray, or salt water.","The trait `soil_salinity_tolerance` documents actual soil salinity levels taxa can tolerate. The trait `plant_type_by_resource_use` has some overlapping values, but focuses on terms to describe a plant's overall resource tolerances/requirements, while this trait focuses on terms associated with salinity tolerances/requirements. The trait `plant_tolerance_soil_salinity` offers numeric soil salinity levels a taxon can tolerate.",categorical variable [STATO_0000252],NA,NA,NA,NA,chemical stress sensitivity trait [trait_group_0030702]; environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; duration [PATO_0001309],environmental condition [ENVO_01000203]; soil [ENVO_00001998]; salinity [PATO_0085001]; salt [CHEBI_24866]; resource availability [EnvThes:21497]; salt tolerance [TO_0006001]; survival [EnvThes:21064],NA,NA,14/07/2021,05/02/2024,NA,salt sensitivity [http://purl.obolibrary.org/obo/TO_0000429],NA,exact match: Species tolerance to salt [TRY:1254] (https://www.try-db.org/de/de.php); related match: Ellenberg salt value [TOP200] (https://top-thesaurus.org/index),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which categorises plants based on their salinity [PATO:0085001] tolerance [TO:0006001], reflecting the duration [PATO:0001309] and concentration [PATO:0000033] of salt [CHEBI:24866] exposure that a plant is able to tolerate.",salt_tolerance,trait_0030816,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030817,plant_tolerance_calcicole,Plant calcium sensitivity,"Classification scheme of plant soil calcium tolerance, corresponding to its sensitivity to high soil pH. Plants are categorised as either calcifuge (intolerant of basic soils) or calcicole (tolerant of basic soils, such as calcareous sands and limestone derived soils).",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,chemical stress sensitivity trait [trait_group_0030702]; environmental tolerance trait [trait_group_0030704],whole plant [PO_0000003],resistance to [PATO_0001046]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; organismal quality [PATO_0001995],environmental condition [ENVO_01000203]; calcium sensitivity [TO_0000006]; soil [ENVO_00001998]; pH [NCIT_C45997]; growth media pH sensitivity [TO_0000254]; resource availability [EnvThes:21497],Cross & Lambers 2021 [https://doi.org/10.1002/ece3.7544]; Tyler 2003 [https://doi.org/10.1007/BF02803249],NA,14/07/2021,05/02/2024,NA,calcium sensitivity [http://purl.obolibrary.org/obo/TO_0000006],growth media pH sensitivity [http://purl.obolibrary.org/obo/TO_0000254],related match: Ellenberg reaction value [TOP781] (https://top-thesaurus.org/index),"An environmental [ENVO:01000203] tolerance [NCIT:C43414] trait which is a plant's [PO:0000003] calcium sensitivity [TO:0000006], corresponding to its sensitivity [NCIT:C25201] to high soil [ENVO:00001998] pH [NCIT:C45997].",calcicole_status,trait_0030817,https://w3id.org/APD
https://w3id.org/APD/traits/trait_0030818,plant_tolerance_fire,Plant fire tolerance strategy,"Classification scheme of plant fire tolerance, indicating morphological characteristics plants use to survive fire.",NA,categorical variable [STATO_0000252],NA,NA,NA,NA,fire response trait [trait_group_0030602]; plant structure morphology trait [trait_group_0011001],whole plant [PO_0000003],organismal quality [PATO_0001995]; tolerance [NCIT_C43414]; sensitivity [NCIT_C25201]; structure [PATO_0000141],fire [ENVO_01000786]; survival [EnvThes:21064],NA,Elizabeth Wenk [https://orcid.org/0000-0001-5640-5910]; Rachael Gallagher [https://orcid.org/0000-0002-4680-8115]; Russell Barrett [https://orcid.org/0000-0003-0360-8321]; Carl Gosper [https://orcid.org/0000-0002-0962-5117]; Rachael Nolan [https://orcid.org/0000-0001-9277-5142]; Tony Auld [https://orcid.org/0000-0002-8766-2829]; Tom Le Breton [https://orcid.org/0000-0001-9353-0067]; Matthew White [https://orcid.org/0000-0003-2120-0071]; Sophie Yang [https://orcid.org/0000-0001-7328-345X],23/02/2023,05/02/2024,NA,NA,NA,NA,A fire response trait indicating morphological [PATO_0000051] features that protect individuals [EFO:0000542] from death [GO_0016265] when a fire [ENVO:01000786] occurs nearby.,NA,trait_0030818,https://w3id.org/APD