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Literature DB >> 28966551

Estimating daily PM_2.5 and PM₁₀ across the complex geo-climate region of Israel using MAIAC satellite-based AOD data.

Itai Kloog¹, Meytar Sorek-Hamer^1,2, Alexei Lyapustin³, Brent Coull⁴, Yujie Wang⁵, Allan C Just⁶, Joel Schwartz⁶, David M Broday².

Abstract

Estimates of exposure to PM2.5 are often derived from geographic characteristics based on land-use regression or from a limited number of fixed ground monitors. Remote sensing advances have integrated these approaches with satellite-based measures of aerosol optical depth (AOD), which is spatially and temporally resolved, allowing greater coverage for PM2.5 estimations. Israel is situated in a complex geo-climatic region with contrasting geographic and weather patterns, including both dark and bright surfaces within a relatively small area. Our goal was to examine the use of MODIS-based MAIAC data in Israel, and to explore the reliability of predicted PM2.5 and PM10 at a high spatiotemporal resolution. We applied a three stage process, including a daily calibration method based on a mixed effects model, to predict ground PM2.5 and PM10 over Israel. We later constructed daily predictions across Israel for 2003-2013 using spatial and temporal smoothing, to estimate AOD when satellite data were missing. Good model performance was achieved, with out-of-sample cross validation R2 values of 0.79 and 0.72 for PM10 and PM2.5, respectively. Model predictions had little bias, with cross-validated slopes (predicted vs. observed) of 0.99 for both the PM2.5 and PM10 models. To our knowledge, this is the first study that utilizes high resolution 1km MAIAC AOD retrievals for PM prediction while accounting for geo-climate complexities, such as experienced in Israel. This novel model allowed the reconstruction of long- and short-term spatially resolved exposure to PM2.5 and PM10 in Israel, which could be used in the future for epidemiological studies.

Entities: Chemical Disease Species

Keywords: Aerosol Optical Depth (AOD); Air pollution; Epidemiology; Exposure error; High particulate levels; MAIAC; PM10; PM2.5

Year: 2015 PMID： 28966551 PMCID： PMC5621656 DOI： 10.1016/j.atmosenv.2015.10.004

Source DB: PubMed Journal: Atmos Environ (1994) ISSN： 1352-2310 Impact factor: 4.798

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