Air pollution in Vietnam during the COVID-19 social isolation, evidence of reduction in human activities

The COVID-19 (COronaVIrus Disease) pandemic has been spreading globally and social isolation has been implemented as an effective solution to limit the spread of the pandemic before vaccines are developed successfully. The reduction of human activities during social isolation is leading to an improv...

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Bibliographic Details
Published in:International journal of remote sensing 2021-08, Vol.42 (16), p.6126-6152
Main Authors: Ngo, Truong X., Do, Ngoc T.N., Phan, Hieu D.T., Tran, Vinh T., Mac, Tra T.M., Le, Anh H., Do, Nguyet V., Bui, Hung Q., Nguyen, Thanh T.N.
Format: Article
Language:English
Subjects:
Air monitoring
Air pollution
Air quality
Anthropogenic factors
Coronaviruses
Correlation coefficient
Correlation coefficients
COVID-19
Density
Disease transmission
Environmental monitoring
Human influences
Meteorological data
Monitoring instruments
Nitrogen dioxide
Ozone
Ozone monitoring
Pandemics
Reduction
Satellite observation
Satellites
Social isolation
Traffic volume
Urban areas
Vaccines
Viral diseases
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Summary:The COVID-19 (COronaVIrus Disease) pandemic has been spreading globally and social isolation has been implemented as an effective solution to limit the spread of the pandemic before vaccines are developed successfully. The reduction of human activities during social isolation is leading to an improvement in air quality being observed worldwide. In this study, we analysed satellite TROPOMI (TROPOspheric Monitoring Instrument) NO 2 (Nitrogen Dioxide) and OMI (Ozone Monitoring Instrument) NO 2 products obtained from Sentinel-5P and Aura satellites, respectively, during the social isolation from 1 April 2020 to 22 April 2020 in Vietnam where air pollution is a serious environmental issue. Both TROPOMI and OMI NO 2 have shown low agreement with local on-ground NO 2 concentration (the correlation coefficient r equals 0.4 and 0.3 in 2020, respectively) but have had moderate correlation with each other in 2020 (r equals 0.81 for two annual averaged maps). In addition, the moderate available data ratio over cloudy northern areas were observed, especially for TROPOMI datasets. During social isolation, the national average NO 2 decreased by 9.3% for TROPOMI and 7.2% for OMI, respectively, in comparison with the same periods in the previous years. The reduction was stronger in the North than in the South and lasted for one more month after the lockdown period. The decrease of NO 2 density during the lockdown was observed strongly in urban areas associated with dense population, traffic density, and industrial zones. Further analysis of NO 2 density for Ho Chi Minh city revealed a decreasing trend of NO 2 during social isolation (16.62% and 11.77% compared with the previous month and the same period in 2019, respectively). Furthermore, we used a random forest model to estimate the NO 2 density (normal life situations) based on daily meteorological data at station. During social isolation, NO 2 density observed in Ho Chi Minh city decreased by 26% down to that of normal life situations. The NO 2 reduction has shown strong anthropogenic impact on air pollution over the study area. Besides, the first use of TROPOMI and OMI NO 2 products together has highlighted potentials of satellite observation for air quality monitoring and analysis in Vietnam where on-ground measurements are very limited.
ISSN:0143-1161
1366-5901
DOI:10.1080/01431161.2021.1934911