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2442094 
Journal Article 
Fine particulate matter predictions using high resolution Aerosol Optical Depth (AOD) retrievals 
Chudnovsky, AA; Koutrakis, P; Kloog, I; Melly, S; Nordio, F; Lyapustin, A; Wang, Y; Schwartz, J 
2014 
Atmospheric Environment
ISSN: 1352-2310
EISSN: 1873-2844 
89 
189-198 
WOS:000335874500021 
To date, spatial-temporal patterns of particulate matter (PM) within urban areas have primarily been examined using models. On the other hand, satellites extend spatial coverage but their spatial resolution is too coarse. In order to address this issue, here we report on spatial variability in PM levels derived from high 1 km resolution AOD product of Multi-Angle Implementation of Atmospheric Correction (MAIAC) algorithm developed for MODIS satellite. We apply day-specific calibrations of AOD data to predict PM2.5 concentrations within the New England area of the United States. To improve the accuracy of our model, land use and meteorological variables were incorporated. We used inverse probability weighting (IPW) to account for nonrandom missingness of AOD and nested regions within days to capture spatial variation. With this approach we can control for the inherent day-to-day variability in the AOD-PM2.5 relationship, which depends on time-varying parameters such as particle optical properties, vertical and diurnal concentration profiles and ground surface reflectance among others. Out-of-sample "ten-fold" cross-validation was used to quantify the accuracy of model predictions. Our results show that the model-predicted PM2.5 mass concentrations are highly correlated with the actual observations, with out-of-sample R-2 of 0.89. Furthermore, our study shows that the model captures the pollution levels along highways and many urban locations thereby extending our ability to investigate the spatial patterns of urban air quality, such as examining exposures in areas with high traffic. Our results also show high accuracy within the cities of Boston and New Haven thereby indicating that MAIAC data can be used to examine intra-urban exposure contrasts in PM2.5 levels. (C) 2014 Elsevier Ltd. All rights reserved. 
Particulate matter; PM2.5; Aerosol Optical Depth (AOD); High resolution aerosol retrieval; MAIAC; Intra-urban pollution; Variability in PM2.5 levels; Scales of pollution 
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