Public Health Benefits From Improved Identification of Severe Air Pollution Events With Geostationary Satellite Data

Author:

O'Dell Katelyn1ORCID,Kondragunta Shobha2ORCID,Zhang Hai3ORCID,Goldberg Daniel L.1,Kerr Gaige Hunter1ORCID,Wei Zigang3,Henderson Barron H.4ORCID,Anenberg Susan C.1ORCID

Affiliation:

1. Milken Institute School of Public Health George Washington University Washington DC USA

2. NOAA/NESDIS/Center for Satellite Applications and Research College Park MD USA

3. I. M. Systems Group, NOAA NCWCP, 5830 University Research Ct College Park MD USA

4. U.S. EPA Office of Planning and Standards Durham NC USA

Abstract

AbstractDespite improvements in ambient air quality in the US in recent decades, many people still experience unhealthy levels of pollution. At present, national‐level alert‐day identification relies predominately on surface monitor networks and forecasters. Satellite‐based estimates of surface air quality have rapidly advanced and have the capability to inform exposure‐reducing actions to protect public health. At present, we lack a robust framework to quantify public health benefits of these advances in applications of satellite‐based atmospheric composition data. Here, we assess possible health benefits of using geostationary satellite data, over polar orbiting satellite data, for identifying particulate air quality alert days (24hr PM2.5 > 35 μg m−3) in 2020. We find the more extensive spatiotemporal coverage of geostationary satellite data leads to a 60% increase in identification of person‐alerts (alert days × population) in 2020 over polar‐orbiting satellite data. We apply pre‐existing estimates of PM2.5 exposure reduction by individual behavior modification and find these additional person‐alerts may lead to 1,200 (800–1,500) or 54% more averted PM2.5‐attributable premature deaths per year, if geostationary, instead of polar orbiting, satellite data alone are used to identify alert days. These health benefits have an associated economic value of 13 (8.8–17) billion dollars ($2019) per year. Our results highlight one of many potential applications of atmospheric composition data from geostationary satellites for improving public health. Identifying these applications has important implications for guiding use of current satellite data and planning future geostationary satellite missions.

Funder

National Oceanic and Atmospheric Administration

Publisher

American Geophysical Union (AGU)

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