4.7 Article

Geospatial Technology-Based Analysis of Air Quality in India during the COVID-19 Pandemic

Journal

REMOTE SENSING
Volume 14, Issue 18, Pages -

Publisher

MDPI
DOI: 10.3390/rs14184650

Keywords

COVID-19; Sentinel-5P; TROPOMI; air quality; North India

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The study evaluates the impacts of India's COVID-19 lockdown and unlocking periods on the country's air quality. The results show that the NO2 emissions significantly decreased during the lockdowns, especially in Northern Indian cities, indicating improved air quality due to the slowdown in industrial and commercial activities. The study utilizes satellite data to analyze the trends of air quality in India and provides valuable information for regulatory bodies to improve decision-making.
The study evaluates the impacts of India's COVID-19 lockdown and unlocking periods on the country's ambient air quality. India experienced three strictly enforced lockdowns followed by unlocking periods where economic and social restrictions were gradually lifted. We have examined the in situ and satellite data of NO2 emissions for several Indian cities to assess the impacts of the lockdowns in India. Additionally, we analyzed NO2 data acquired from the Sentinel-5P TROPOMI sensor over a few districts of the Punjab state, as well as the National Capital Region. The comparisons between the in situ and satellite NO2 emissions were performed for the years 2019, 2020 and up to July 2021. Further analysis was conducted on the satellite data to map the NO2 emissions over India during March to July for the years of 2019, 2020 and 2021. Based on the in situ and satellite observations, we observed that the NO2 emissions significantly decreased by 45-55% in the first wave and 30% in the second wave, especially over the Northern Indian cities during the lockdown periods. The improved air quality over India is indicative of reduced pollution in the atmosphere due to the lockdown process, which slowed down the industrial and commercial activities, including the migration of humans from one place to another. Overall, the present study contributes to the understanding of the trends of the ambient air quality over large geographical areas using the Sentinel-5P satellite data and provides valuable information for regulatory bodies to design a better decision support system to improve air quality.

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