Effect of COVID-19 Lockdown on Air Quality: Evidence from South Asian Megacities 10.32526/ennrj/19/2020230

Article Sidebar

PDF
Published: Apr 30, 2021
Keywords:
Corona virus Lockdown South Asian cities Tropospheric columnar NO2 PM2.5

Main Article Content

Ahmad Kamruzzaman Majumder
Center for Atmospheric Pollution Studies (CAPS), Department of Environmental Science, Stamford University Bangladesh, Dhaka-1209, Bangladesh
Abdullah Al Nayeem
Center for Atmospheric Pollution Studies (CAPS), Department of Environmental Science, Stamford University Bangladesh, Dhaka-1209, Bangladesh
Mahmuda Islam
Center for Atmospheric Pollution Studies (CAPS), Department of Environmental Science, Stamford University Bangladesh, Dhaka-1209, Bangladesh
William S Carter
Center for Atmospheric Pollution Studies (CAPS), Department of Environmental Science, Stamford University Bangladesh, Dhaka-1209, Bangladesh
Razib
Center for Atmospheric Pollution Studies (CAPS), Department of Environmental Science, Stamford University Bangladesh, Dhaka-1209, Bangladesh
SM Munjurul Hannan Khan
Additional Secretary at Government of the People's Republic of Bangladesh, Bangladesh

Abstract

Anthropogenic activities were greatly restricted in many South Asian cities during the COVID-19 (Coronavirus disease-2019) pandemic creating an opportunity to observe source reduction of air pollutants.  This study analyzed the change in columnar nitrogen dioxide (NO2) and particulate matter (PM2.5, aerodynamic diameter ≤2.5 µm) in five megacities of South Asian countries (Delhi, Dhaka, Kathmandu, Kolkata, and Lahore) from April 1 - May 31 over the previous three years (2018-2020). The Dutch-Finnish Ozone Monitoring Instrument (OMI) provided satellite-based daily tropospheric columnar NO2 values for this study. Ground-based hourly PM2.5 data were collected from the World's Air Pollution: Real-time Air Quality Index Project. The study observed a decrease of tropospheric columnar NO2 in selected cities in 2020 compared to 2018 and 2019 from April 1 - May 31. The mean daily reading of PM2.5 was 36.56% and 45.44% less in Delhi; 12.67% and 23.46% less in Dhaka; in Kathmandu 28.32% and 37.42% less; in Kolkata 41.02% less in 2020 than 2018 and 34.08% less in 2019 during April 1 - May 31. The PM2.5 was 44.26% less in 2020 than in 2019 during April 9 - May 31 in Lahore. The daily mean difference in concentration during April 1 - May 31, 2018-2020 was significantly lower at α=0.01 level for both pollutants. Introducing appropriate mitigation measures would provide safer environments and reduce future air pollution in South Asian cities.

Article Details

How to Cite
Majumder, A. K., Nayeem, A. A., Islam, M. ., Carter, W. S. ., Razib, & Khan, S. M. H. (2021). Effect of COVID-19 Lockdown on Air Quality: Evidence from South Asian Megacities: 10.32526/ennrj/19/2020230. Environment and Natural Resources Journal, 19(3), 195–206. Retrieved from https://ph02.tci-thaijo.org/index.php/ennrj/article/view/241989
Issue
Vol. 19 No. 3 (2021): May-Jun
Section
Original Research Articles

Published articles are under the copyright of the Environment and Natural Resources Journal effective when the article is accepted for publication thus granting Environment and Natural Resources Journal all rights for the work so that both parties may be protected from the consequences of unauthorized use. Partially or totally publication of an article elsewhere is possible only after the consent from the editors.

References

Abdullah S, Mansor AA, Napi NN, Mansor WN, Ahmed AN, Ismail M, et al. Air quality status during 2020 Malaysia Movement Control Order (MCO) due to 2019 novel coronavirus pandemic. Science of the Total Environment 2020;729:1-5.

Air Now. Air quality index data [Internet]. 2020 [cited 2020 Jun 2]. Available from: https://www.airnow.gov/?city=Dhaka& country=BGD.

Air Quality Information (IQAir). World air quality report, region and city PM2.5 ranking [Internet]. 2019 [cited 2020 Jun 1]. Available from: https://www.iqair.com/us/world-most-polluted-cities.

Banan N, Latif MT, Juneng L, Ahamad F. Characteristics of surface ozone concentrations at stations with different backgrounds in the Malaysian Peninsula. Aerosol and Air Quality Research 2012;13(3):1090-106.

Bera B, Bhattacharjee S, Shit PK, Sengupta N, Saha S. Significant impacts of COVID-19 lockdown on urban air pollution in Kolkata (India) and amelioration of environmental health. Environment, Development and Sustainability 2020;28:1-28.

Boersma KF, Eskes HJ, Brinksma EJ. Error analysis for tropospheric NO2 retrieval from space. Journal of Geophysical Research: Atmospheres 2004;109:1-26.

Bulto TW. Impact of open burning refuse on air quality: In the case of “Hidar Sitaten” at Addis Ababa, Ethiopia. Environmental Health Insights 2020;14:1-11.

Chen M, Fan Y, Wu X, Zhang L, Guo T, Deng K, et al. Clinical characteristics and risk factors for fatal outcome in patients with 2019-coronavirus infected disease (COVID-19) in Wuhan, China. Lancet 2020;7:1-9.

Diao M, Holloway T, Choi S, O’Neill SM, Al-Hamdan MZ, Van Donkelaar A, et al. Methods, availability, and applications of PM2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models. Journal of the Air and Waste Management Association 2019;69(12):1391-414.

Dutheil F, Baker JS, Navel V. COVID-19 as a factor influencing air pollution? Environmental Pollution 2020;263:1-3.

Dutkiewicz VA, Alvi S, Ghauri BM, Choudhary MI, Husain L. Black carbon aerosols in urban air in South Asia. Atmospheric Environment 2009;43:1737-44.

European Space Agency (ESA). Setinel 5P data [Internet]. 2020 [cited 2020 Jun 10]. Available from: https://www.esa.int/ Applications/Observing_the_Earth/Copernicus/ Sentinel-5P.

Gorai AK, Tchounwou PB, Biswal SS, Tuluri F. Spatio-temporal variation of particulate matter (PM2.5) concentrations and its health impacts in a mega city, Delhi in India. Environmental Health Insights 2018;12:1-9.

Geospatial Interactive Online Visualization and Analysis Infrastructure (GIOVANNI) [Internet]. 2020 [cited 2020 Jun 14]. Available from: https://giovanni.gsfc.nasa.gov/giovanni/.

Hossain MM, Majumder KA, Islam M, Nayeem AA. Study on ambient particulate matter (PM2.5) with different mode of transportation in Dhaka City, Bangladesh. American Journal of Pure and Applied Science 2019;1(4):12-9.

Haque M, Singh RB. Air pollution and human health in Kolkata, India: A case study. Climate 2017;5(4):1-16.

Himalayan Times. Coronavirus hits Nepal-China trade [Internet]. 2020 [cited 2020 Aug 12]. Available from: https:// thehimalayantimes.com/business/coronavirus-hits-nepal-china-trade/.

Institute of Epidemiology Disease Control and Research (IEDCR). Distribution of confirmed cases in Bangladesh. Institute of Epidemiology, Disease Control and Research [Internet]. 2020 [cited 2020 Jun 8]. Available from: https://iedcr.gov.bd/.

Islam M, Jayarathne T, Simpson IJ, Werden B, Maben J, Gilbert A, et al. Ambient air quality in the Kathmandu Valley, Nepal, during the pre-monsoon: Concentrations and sources of particulate matter and trace gases. Atmospheric Chemistry and Physics 2020;20(5):2927-51.

Kulkarni S. India becomes third worst affected country by coronavirus, overtakes Russia. Deccan Herald [Internet]. 2020 [cited 2020 Jul 5]. Available from: https://www. deccanherald.com/national/india-set-to-overtake-russia-as-third-worst-hit-country-by-covid-19-857110.html.

Kim BM, Park JS, Kim SW, Kim H, Jeon H, Cho C, et al. Source apportionment of PM10 mass and particulate carbon in the Kathmandu Valley, Nepal. Atmospheric Environment 2015;123:190-9.

Latif MT, Huey LS, Juneng L. Variations of surface ozone concentration across the Klang Valley, Malaysia. Atmospheric Environment 2012;61:434-45.

Levelt PF, Van Den Oord GH, Dobber MR, Mälkki A, Visser H, de Vries J, et al. The ozone monitoring instrument. IEEE Transactions on Geoscience and Remote Sensing. 2006;44(5):1093-101.

Lohmann U, Sausen R, Bengtsson L, Cubasch U, Perlwitz J, Roeckner E. The Köppen climate classification as a diagnostic tool for general circulation models. Climate Research 1993;3:177-93.

Mahapatra PS, Puppala SP, Adhikary B, Shrestha KL, Dawadi DP, Paudel SP, et al. Air quality trends of the Kathmandu Valley: A satellite, observation and modeling perspective. Atmospheric Environment 2019;201:334-47.

Mahato S, Pal S, Ghosh KG. Effect of lockdown amid COVID-19 pandemic on air quality of the megacity Delhi, India. Science of the Total Environment 2020;29:1-23.

Majumder AK, Nayeem AA, Patoary MN, Carter WS. Temporal variation of ambient particulate matter in Chattogram City, Bangladesh. Journal of Air Pollution and Health 2020;5(1): 33-42.

Mofijur M, Rizwanul Fattah IM, Saiful Islam AB, Uddin MN, Ashrafur Rahman SM, Chowdhury MA, et al. Relationship between weather variables and New Daily COVID-19 cases in Dhaka, Bangladesh. Sustainability 2020;12(20):1-10.

Nadzir MS, Ashfold MJ, Khan MF, Robinson AD, Bolas C, Latif MT, et al. Spatial-temporal variations in surface ozone over Ushuaia and the Antarctic region: Observations from in situ measurements, satellite data, and global models. Environmental Science and Pollution Research 2018; 25(3):2194-210.

Nadzir MS, Ooi MC, Alhasa KM, Bakar MA, Mohtar AA, Nor MF, et al. The impact of movement control order (MCO) during pandemic COVID-19 on local air quality in an urban area of Klang Valley, Malaysia. Aerosol and Air Quality Research 2020;20(6):1237-48.

Nagar PK, Singh D, Sharma M, Kumar A, Aneja VP, George MP, et al. Characterization of PM2.5 in Delhi: Role and impact of secondary aerosol, burning of biomass, and municipal solid waste and crustal matter. Environmental Science and Pollution Research 2017;24(32):25179-89.

Nayeem AA, Hossain MS, Majumder AK, Carter WS. Spatiotemporal variation of brick kilns and it’s relation to ground-level PM2.5 through MODIS image at Dhaka District, Bangladesh. International Journal of Environmental Pollution and Environmental Modelling 2019;2(5):277-84.

Nayeem AA, Majumder AK, Carter WS. The impact of coronavirus induced general holiday on air quality in urban area. International Journal of Human Capital and Urban Management 2020;5(3):207-16.

Nepal Times. Nepal sees drop in wildfires during lockdown [Internet]. 2020 [cited 2020 Nov 10]. Available from: https:// www.nepalitimes.com/latest/nepal-sees-drop-in-wildfires-during -lockdown/.

Pradhan TR. Government decides to lift the four-month-long coronavirus lockdown, but with conditions [Internet]. 2020 [cited 2020 Sep 10]. Available from: https://kathmandupost. com/national/2020/07/21/government-decides-to-lift-the-four-month-long-coronavirus-lockdown-but-with-conditions.

Raja S, Biswas KS, Husain L, Hopke PK. Source apportionment of the atmospheric aerosol in Lahore, Pakistan. Water, Air and Soil Pollution 2010;208:43-57.

Rana M, Mahmud M, Khan MH, Sivertsen B, Sulaiman N. Investigating incursion of transboundary pollution into the atmosphere of Dhaka, Bangladesh. Advances in Meteorology 2016:1-11.

Rasheed A, Aneja VP, Aiyyer A, Rafique U. Measurement and analysis of fine particulate matter (PM2.5) in urban areas of Pakistan. Aerosol and Air Quality Research 2015;15(2):426-39.

Razib, Nayeem AA, Hossain MS, Majumder AK. PM2.5 concentration and meteorological characteristics in Dhaka, Bangladesh. Bangladesh Journal of Science and Industrial Research 2020;58(2):89-98.

Roy S, Saha M, Dhar B, Pandit S, Nasrin R. Geospatial analysis of COVID-19 lockdown effects on air quality in the South and Southeast Asian region. Science of the Total Environment 2020;21:1-20.

Shehzad K, Sarfraz M, Shah SG. The impact of COVID-19 as a necessary evil on air pollution in India during the lockdown. Environmental Pollution 2020;266:1-5.

Shrestha AM, Shrestha UB, Sharma R, Bhattarai S, Tran HN, Rupakheti M. Lockdown caused by COVID-19 pandemic reduces air pollution in cities worldwide. Eartharxi 2020:1-27.

Shrestha ML, Kaga A, Kondo A, Inoue Y, Sapkota B. Diurnal variation of air pollution concentration during winter in Kathmandu Valley. WIT Transactions on Ecology and the Environment 2002;24:1-10.

Sipra H, Aslam F, Syed JH, Awan TM. Investigating the implications of COVID-19 on PM2.5 in Pakistan. Aerosol and Air Quality Research 2020;20:1-24.

Stone E, Schauer J, Qureshi TA, Mahmood A. Chemical characterization and source apportionment of fine and coarse particulate matter in Lahore, Pakistan. Atmospheric Environment 2010;44:1062-70.

The United Nations Conference on Trade and Development (UNCTAD). Total and urban population [Internet]. 2020 [cited 2020 Nov 7]. Available from: https://stats.unctad. org/handbook/Population/Total.html.

Tobías A, Carnerero C, Reche C, Massagué J, Via M, Minguillón MC, et al. Changes in air quality during the lockdown in Barcelona (Spain) one month into the SARS-CoV-2 epidemic. Science of the Total Environment 2020:1-4.

Vadrevu KP, Eaturu A, Biswas S, Lasko K, Sahu S, Garg JK, et al. Spatial and temporal variations of air pollution over 41 cities of India during the COVID-19 lockdown period. Scientific Reports 2020;10(1):1-5.

World Health Organization (WHO). Mortality and burden of disease from ambient air pollution [Internet]. 2016 [cited 2020 Aug 21]. Available from: https://www.who.int/gho/phe/ outdoor_air_pollution/burden/en/.

Xu K, Cui K, Young LH, Wang YF, Hsieh YK, Wan S, et al. Air quality index, indicatory air pollutants and impact of COVID-19 event on the air quality near Central China. Aerosol and Air Quality Research 2020;20:1204-21.

Yousefian F, Faridi S, Azimi F, Aghaei M, Shamsipour M, Yaghmaeian K, et al. Temporal variations of ambient air pollutants and meteorological influences on their concentrations in Tehran during 2012-2017. Scientific Reports 2020;10(1):1-11.

Zambrano MA, Ruano MA, Sanchez-Alcalde L. Indirect effects of COVID-19 on the environment. Science of the Total Environment 2020;728:138813.