Weight-of-evidence approach to identify regionally representative sites for air-quality monitoring network: Satellite data-based analysis

• Published in: MethodsX Vol. 7; p. 100949
• Main Authors: Lekinwala, Nirav L, Bharadwaj, Ankur, Sunder Raman, Ramya, Bhushan, Mani, Bali, Kunal, Dey, Sagnik
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.01.2020; Elsevier
• Subjects: Aerosol Optical Depth; aerosols; air quality; algorithms; CDO; Coefficient of Divergence; Environmental Science; MAIAC Algorithm; MODIS; Mutual Information; Pearson Correlation Coefficient; Python; satellites; statistical analysis; weight-of-evidence; Coefficient of Divergence; Pearson Correlation Coefficient; Satellite-derived PM2.5 to establish regional representativeness using statistical metrics (CoD, PCC, MI); MAIAC Algorithm; Mutual Information; Aerosol Optical Depth; MODIS; Python; CDO
• ISSN: 2215-0161; 2215-0161
• DOI: 10.1016/j.mex.2020.100949

The methodology discussed in Lekinwala et al., 2020, hereinafter referred to as the ‘parent article’, is used to setup a nation-wide network for background PM2.5 measurement at strategic locations, optimally placing sites to obtain maximum regionally representative PM2.5 concentrations with minimum number of sites. Traditionally, in-situ PM2.5 measurements are obtained for several potential sites and compared to identify the most regionally representative sites [4], Wongphatarakul et al., 1998) at the location. The ‘parent article’ proposes the use of satellite-derived proxy for aerosol (Aerosol Optical Depth, AOD) data in the absence of in-situ PM2.5 measurements. This article focuses on the details about satellite-data processing which forms part of the methodology discussed in the ‘parent article’. Following are some relevant aspects:•High resolution AOD is retrieved from Moderate Resolution Imaging Spectroradiometer (MODIS) instruments aboard NASA's Aqua and Terra satellite using Multi-Angle Implementation of Atmospheric Correction (MAIAC) algorithm. The data is stored as grids of size 1200  ×  1200 and a total of seven such grids cover the Indian land mass. These grids were merged, regridded and multiplied by conversion factors from GEOS-Chem Chemical Transport Model to obtain PM2.5 values. Standard set of tools like CDO and NCL are used to manipulate the satellite-data (*.nc files).•The PM2.5 values are subjected to various statistical analysis using metrics like coefficient of divergence (CoD), Pearson correlation coefficient (PCC) and mutual information (MI).•Computations for CoD, MI are performed using Python codes developed in-house while a function in NumPy module of Python was used for PCC calculations. [Display omitted]