Modeling of tropospheric NO2 column over different climatic zones and land use/land cover types in South Asia

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We have applied regression analyses for the modeling of tropospheric NO2 (tropo-NO2) as the function of anthropogenic nitrogen oxides (NOx) emissions, aerosol optical depth (AOD), and some important meteorological parameters such as temperature (Temp), precipitation (Preci), relative humidity (RH), wind speed (WS), cloud fraction (CLF) and outgoing long-wave radiation (OLR) over different climatic zones and land use/land cover types in South Asia during October 2004–December 2015. Simple linear regression shows that, over South Asia, tropo-NO2 variability is significantly linked to AOD, WS, NOx, Preci and CLF. Also zone-5, consisting of tropical monsoon areas of eastern India and Myanmar, is the only study zone over which all the selected parameters show their influence on tropo-NO2 at statistical significance levels. In stepwise multiple linear modeling, tropo-NO2 column over landmass of South Asia, is significantly predicted by the combination of RH (standardized regression coefficient, β = − 49), AOD (β = 0.42) and NOx (β = 0.25). The leading predictors of tropo-NO2 columns over zones 1–5 are OLR, AOD, Temp, OLR, and RH respectively. Overall, as revealed by the higher correlation coefficients (r), the multiple regressions provide reasonable models for tropo-NO2 over South Asia (r = 0.82), zone-4 (r = 0.90) and zone-5 (r = 0.93). The lowest r (of 0.66) has been found for hot semi-arid region in northwestern Indus-Ganges Basin (zone-2). The highest value of β for urban area AOD (of 0.42) is observed for megacity Lahore, located in warm semi-arid zone-2 with large scale crop-residue burning, indicating strong influence of aerosols on the modeled tropo-NO2 column. A statistical significant correlation (r = 0.22) at the 0.05 level is found between tropo-NO2 and AOD over Lahore. Also NOx emissions appear as the highest contributor (β = 0.59) for modeled tropo-NO2 column over megacity Dhaka. © 2018 Elsevier Ltd View source
Year

2018

Secondary Title

Journal of Atmospheric and Solar-Terrestrial Physics

Publisher

Elsevier Ltd

Volume

168

Pages

80-99

DOI

http://dx.doi.org/10.1016/j.jastp.2018.01.022

Language

Keyword(s)

Air pollution, Climate change, NO2, OMI, Regression analysis, Aerosols, Agricultural wastes, Arid regions, Atmospheric aerosols, Couplings, Economics, Land use, Precipitation (meteorology), Troposphere, Wind, Aerosol optical depths, Correlation coefficient, Different climatic zones, Meteorological parameters, Simple linear regression, Standardized regression coefficients, Statistical significance, Tropical monsoon areas, Nitrogen oxides

Classification
Form: Journal Article
Geographical Area: Myanmar, Other

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