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Air Quality Project

About

Phase 1

The University of Chicago Center for Spatial Data Science (CSDS) and the Chicago Department of Public Health (CDPH) worked alongside the Partnership for Healthy Cities, a global network of cities committed to reducing noncommunicable diseases that is supported by Bloomberg Philanthropies in partnership with the World Health Organization and Vital Strategies, and with partners at City Tech Collaborative, to collect and visualize baseline air quality data onto the Chicago Health Atlas from NASA satellites, EPA sensor networks, the US Geological Survey, and the National Oceanic and Atmospheric Administration climate data.

Phase 2

In the next step of this initiative, CDPH and CSDS will continue to work with the Partnership to analyze air quality data by taking community characteristics into account and build on this extensive spatial data infrastructure to refine the policy informatic tools developed, implement analytic models for more precise estimates of air quality, and more fully explore the complex relationships between air quality, land use, and health.

The following 14 measurements were collected for the last 5 years across Chicago, the county it inhabits, and surrounding counties through Indiana and Wisconsin: Climate & Weather - Precipitation (NOAA) and Temperature (NOAA); Land Use – green spaces with open land and vegetation (as Green Index), blue spaces with water bodies (as Blue Index), and gray spaces as developed land (as Gray Index) (all from USGS land cover classification); Digital Elevation Model (USGS); Albedo (NASA); Permitted Businesses (EPA); Road Lengths (Open Street Map); Vegetation Index (NASA); and Air Quality - Aerosol Optical Depth (NASA), Particulate Matter 10 (EPA), Particulate Matter 2.5 (EPA), Nitrogen Dioxide (EPA), Ozone (EPA).

A land use regression will be performed to predict localized estimates of PM 2.5 and PM 10 concentrations using characteristics of the area that influence the emission of pollutants and will extend this study with a hybrid MAIAC-adjusted regression at 1km scale, at yearly and seasonal time scales from 2012-2017, to explore Chicagoland estimates of PM2.5 and PM10 using additional covariates from multiple sources (EPA, NASA, USGS). This extension enables the use of NASA Aerosol Optical Density (AOD) data, which has a multivariate correlation with PM2.5. AOD satellite-derived data also has greater coverage across the entire region as compared to a few air quality sensor locations, allowing for greater precision of local variations of air pollution.

Using these estimates, we will aggregate outcomes at the census-tract scale and explore relationships between air quality, land use, and health outcomes (e.g. asthma) with attention to variations and potential interactions with relevant socioeconomic indicators. We will release final modelled air quality predictions and core health outcomes on the Open AirQ Dashboard prototype, a policy informatics tool developed to support decision-making with health departments.

We'll also develop and release an open-source analytic toolkit to include user-friendly tutorials for core data processing tasks and analytic models implemented.

By creating this novel system to collect, analyze, and disseminate air pollution information, the City and other stakeholders, like community based organizations, can be better informed to develop strategies and interventions to improve air quality together.

Dashboard

An interactive dashboard will provide user access to sensor locations and aggregated data products of sensor and covariates by community area.

Data

We group data into the following categories: (1) Monitoring data, (2) AOD data, and (3) Covariate data. An overview of key features for each category follows.

Monitoring Data

Name Type Measured parameter Spatial resolution Time resolution Comments
AirNow EPA's sensor network Criteria pollutants Sensor location Hourly data Limited spatial coverage
AoT Sensor network NO2, O3, H2S, CO, SO2, PM (~10% of nodes) Sensor location ~30 seconds Non-calibrated air quality data
AirCasting Personal monitoring PM, Sound level, Relative humidity, Temperature User location (fixed or mobile session) 1s for mobile session, 1mn for fixed session Low-cost sensor (non-reliable data)

Aerosol Optical Depth (AOD) Data

AOD data is being made available via ftp service to CSDS, as shared via NASA. Data will need to be processed from raw HDF format to AOD measurements for each grid square within our spatial infrastructure.

Name Type Measured parameter Spatial resolution Time resolution Comments
Aerosol Optical Depth (AOD) MAIAC adjusted MODIS satellite data from NASA light attenuation in the column (~ pm) 1km2 grid daily Most reliable when site is clear

Covariate (ie. Drivers, Spatio-Temporal Predictor) Data

Multiple variables for both modelling approaches are required. The drivers and spatio-temporal predictors are additionally available in differing spatial and temporal formats. We log the available data in our data inventory (with features in the following table), though additionally processing is required in most cases for each approach (ie. buffer analysis with join for LUR model, or aggregation of data to grid-square for hybrid model). Note that there are multiple options for several categories; these will be finalized in the next stage, pending feedback.

Name Source(s) File Spatial Resolution Time Resolution Comments
Point Emission Data NEI and CDPH CSV address-level varies Options for use: (1) Distance to nearest facility (either all or subset of high polluters), (2) Raster surface (over 100 available for Chicago area)
Area Emission Data: building heights as proxy or heating fuel OSM, LiDar from Cook County GIS varies varies varies NEI area data not available below county-level
Road Emissions: (1) road length summary, (2) traffic volume summary OSM, IDOT SHP varies varies Multiple proxies
Meteorological Data NOAA monitoring stations CSV address-level Daily, Monthly few validated weather stations in metro area; weather underground data not reliabale and historical data is costly
NDVI - Greenness Index MODIS raster 1km, 500m, 250, grid Monthly, Yearly
Land Cover SAL product, CMAP raster 30m 2016, 2011, 2006
Land Use CMAP raster parcel 2013, 2010, 2005, 2001
Elevation National Land Elevation Model raster 1m yearly alt: building height dataset
Demographic and SES data ACS CSV, SHP tract 5-year average

Analysis

Our analytic approach involves data collection and spatial analysis. We break this down into the following stages; (1) Methods and Data Review with Infrastructure Set-Up, (2) Model Implementations, and (3) Comparison with Sampling Recommendations. As soon as calibrated PM2.5 measures become available, we will spatially estimate an interpolated surface of these measures and identify unusual values.

In the first stage, the CSDS team conducted a literature review to identify and prioritize covariate (ie. driver, predictor) data as well as better understand and refine modeling approaches in a contemporary methodological landscape. We developed a data inventory based on project demands and best practices, and have refined the spatial data infrastructure required to store and maintain the data clearinghouse. We implemented a postgres/POSTGIS infrastructure on the University of Chicago Remote Computing Cluster (RCC) server, and interface with the R ecosystem for data cleaning, transformation, and management. This system is being further refined and optimized for not only data management, but also spatial analytic operations (ie. buffer calculation) as well as modeling.

In the second stage, we will implement two models: Land Use Regression (LUR) and a Hybrid model that incorporates available satellite data. Both approaches are dependent on available sensor data (including regulatory, AoT availability, and citizen sensors).

Resources

Trainings

NASA Applied Remote Sensing Training (ARSET) program offers satellite remote sensing training that builds the skills to integrate NASA Earth Science data into an agency’s decision-making activities. Trainings are offered in air quality, climate, disaster, health, land, water resources, and wildfire management.

Array of Things (AoT)

Communities of Practice

NASA Health and Air Quality Applied Sciences Team (HAQAST) is a collaborative team that works in partnership with public health and air quality agencies to use NASA data and tools for the public benefit.

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