Litcius/Paper detail

Estimating PM2.5 Concentrations in Contiguous Eastern Coastal Zone of China Using MODIS AOD and a Two-Stage Random Forest Model

Lijuan Yang, Hanqiu Xu, Shaode Yu

2021Journal of Atmospheric and Oceanic Technology17 citationsDOI

Abstract

Abstract The coarse Moderate Resolution Imaging Spectroradiometer (MODIS) aerosol optical depth (AOD) product (spatial resolution: 3 km) retrieved by the dark-target algorithm always generates the missing values when being adopted to estimate the ground-level PM 2.5 concentrations. In this study, we developed a two-stage random forest using MODIS 3-km AOD to obtain the PM 2.5 concentrations with full coverage in a contiguous coastal developed region, i.e., Yangtze River delta–Fujian–Pearl River delta (YRD–FJ–PRD) region of China. A first-stage random forest–integrated six meteorological fields was employed to predict the missing values of AOD product, and the combined AOD (i.e., random forest–derived AOD and MODIS 3-km AOD) incorporated with other ancillary variables were developed for predicting PM 2.5 concentrations within a second-stage random forest model. The results showed that the first-stage random forest could explain 94% of the AOD variability over YRD–FJ–PRD region, and we achieved a site-based cross validation (CV) R 2 of 0.87 and a time-based CV R 2 of 0.85. The full-coverage PM 2.5 concentrations illustrated a spatial pattern with annual-mean PM 2.5 of 46, 40, and 35 μg m −3 in YRD, PRD, and FJ, respectively, sharing the same trend with previous studies. Our results indicated that the proposed two-stage random forest model could be effectively used for PM 2.5 estimation in different areas.

Topics & Concepts

Environmental scienceModerate-resolution imaging spectroradiometerRandom forestStage (stratigraphy)Yangtze riverDeltaRemote sensingMeteorologyChinaClimatologySatelliteGeologyGeographyAerospace engineeringComputer sciencePaleontologyArchaeologyEngineeringMachine learningAir Quality Monitoring and ForecastingAir Quality and Health ImpactsAtmospheric chemistry and aerosols