Full Citation
Title: Effect of Model Spatial Resolution on Estimates of Fine Particulate Matter Exposure and Exposure Disparities in the United States
Citation Type: Journal Article
Publication Year: 2018
ISBN:
ISSN:
DOI: 10.1021/acs.estlett.8b00279
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PMID:
Abstract: To the extent that pollution and population are spatially correlated, air quality modeling with coarse-resolution horizontal grids may systematically underpredict exposures and disparities in exposure among demographic groups (i.e., environmental injustice). We use InMAP, a reduced-complexity air pollution model, to quantify how estimates of year-2014 fine particulate matter (PM2.5) exposure in the United States vary with model spatial resolution, for a variable-resolution grid. We test five grids, with population-weighted average grid cell edge lengths ranging from 5.9 to 69 km. We find that model-estimated PM2.5 exposure, and exposure disparities among racial-ethnic groups, are lower with coarse grids than with fine grids: switching from our coarsest- to finest-resolution grid increases the calculated population-weighted average exposure by 27% (from 6.6 to 8.3 μg m–3) and causes the estimated difference in average exposure between minorities and whites to increase substantially (from 0.4 to 1.6 μg m–3). Across all grid resolutions, exposure disparities by race-ethnicity can be detected in every income category. Exposure disparities by income alone remain small relative to disparities by race-ethnicity, irrespective of resolution. These results demonstrate the importance of fine model spatial resolution for identifying and quantifying exposure disparity.
Url: https://pubs.acs.org/doi/abs/10.1021/acs.estlett.8b00279
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Authors: Paolella, David, A; Tessum, Christopher, W; Adams, Peter, J; Apte, Joshua, S; Chambliss, Sarah; Hill, Jason; Muller, Nicholas, Z; Marshall, Julian, D
Periodical (Full): Environmental Science and Technology Letters
Issue: 7
Volume: 5
Pages: 436-441
Data Collections: IPUMS NHGIS
Topics: Natural Resource Management, Other
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