Retrieving particulate matter concentrations over the contiguous United States using CALIOP observations

Toth, T., J. Zhang, M.A. Vaughan, J.S. Reid, and J.R. Campbell (2022), Retrieving particulate matter concentrations over the contiguous United States using CALIOP observations, Atmos. Environ., 274, 118979, doi:10.1016/j.atmosenv.2022.118979.
Abstract

CALIOP LIDAR Aerosols PM2.5 Air quality Aerosol trends Using twelve years (2007–2018) of NASA Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) nearsurface 532 nm aerosol extinction retrievals, multi-year mean and trends of particulate matter (PM) concen­ trations are derived over the contiguous United States (CONUS). Different from past studies that use column integrated aerosol optical thickness, here only near-surface CALIOP aerosol extinction is used for deriving nearsurface PM with aerodynamic diameters less than 2.5 μm (PM2.5) concentrations using an innovative, bulk-massmodeling-based method. Compared against ground based PM2.5 measurements from the U.S. Environmental Protection Agency (EPA), an encouraging relationship between CALIOP-derived PM2.5 and EPA-observed PM2.5 (Deming slope = 0.89; RMSE = 3.42 μg/m3; mean bias = − 1.00 μg/m3) is found using combined daytime/ nighttime CALIOP data. Also, comparable trends in PM2.5 concentrations from the EPA and daytime and nighttime CALIOP data are found for most of the eastern CONUS and imply that air quality is generally improving over this region for the study period. Over the western CONUS, a seasonal analysis reveals that PM2.5 trends are positive during the more active wildfire season (June through November) but negative for other months. This study suggests that lidar data show promise in their use for obtaining PM2.5 estimates and provides motivation to further explore aerosol extinction-based PM concentration retrievals in anticipation of future space-based lidar missions.

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Research Program
Interdisciplinary Science Program (IDS)
Radiation Science Program (RSP)
Funding Sources
80NSSC20K1260 and 80NSSC20K1748.