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Distribution and concentration pathway of particulate pollution during pandemic-induced lockdown in metropolitan cities in India

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SPRINGER
DOI: 10.1007/s13762-023-05025-1

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COVID-19; Air pollution; Statistical distribution; Mass trajectory; Health

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This study collected daily particulate matter (PM10 and PM2.5) data from the National Air Quality Monitoring stations in major metropolitan cities in India to characterize pollutant dispersal. The data were analyzed for three time periods: pre-lockdown, during lockdown, and post-lockdown. Statistical distributions, aerosol optical thickness, and back trajectories were assessed. The results showed a decline in particulate pollution during lockdown, with Delhi and Kolkata experiencing the highest reductions. The study suggests that statistical distribution analysis and pollution models can help in studying dispersal and developing pollution abatement policies, while incorporating remote sensing can enhance knowledge about air parcel origin and movement.
To characterize the pollutant dispersal across major metropolitan cities in India, daily particulate matter (PM10 and PM2.5) data for the study areas were collected from the National Air Quality Monitoring stations database provided by the Central Pollution Control Board (CPCB) of India. The data were analysed for three temporal ranges, i.e. before the pandemic-induced lockdown, during the lockdown, and after the upliftment of lockdown restrictions. For the purpose, the time scale ranged from 1st April to 31st May for the years 2019 (pre), 2020, and 2021 (post). Statistical distributions (lognormal, Weibull, and Gamma), aerosol optical thickness, and back trajectories were assessed for all three time periods. Most cities followed the lognormal distribution for PM2.5 during the lockdown period except Mumbai and Hyderabad. For PM10, all the regions followed the lognormal distribution. Delhi and Kolkata observed a maximum decline in particulate pollution of 41% and 52% for PM2.5 and 49% and 53% for PM10, respectively. Air mass back trajectory suggests local transmission of air mass during the lockdown period, and an undeniable decline in aerosol optical thickness was observed from the MODIS sensor. It can be concluded that statistical distribution analysis coupled with pollution models can be a counterpart in studying the dispersal and developing pollution abatement policies for specific sites. Moreover, incorporating remote sensing in pollution study can enhance the knowledge about the origin and movement of air parcels and can be helpful in taking decisions beforehand.

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