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2020, vol. 13, br. 1, str. 49-61
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Potencijalni uticaj zabrane kretanja tokom COVID-19 pandemije na parametre životne sredine
Potential impact of COVID-19 pandemic lockdown on environmental parameters
Salahaddin University-Erbil, College of Engineering, Department of Civil Engineering, Kurdistan Region, Iraq
e-adresa: shoker71@yahoo.com
Sažetak
COVID-19 je imao uticaj na svakodnevni život, ljudske aktivnosti, različite sektore i životnu sredinu. Shodno tome, cilj ovog istraživanja je bio ispitivanje uticaja zabrane kretanja tokom pandemije COVID-19 virusa na parametre životne sredine. Ispitivani su sledeći parametri životne sredine: čvrst otpad, buka, vazduh, voda, otpadna voda, zemljane i zelene površine, prirodno okruženje i resursi, svetlosno zagađenje, zagađenje radijacijom, energija i drugi. Glavni problemi zaštite životne sredine su podeljeni na sedamdeset podparametara. Rezultati su pokazali da je pandemija COVID-19 virusa uticala na povećanje brojnih parametara, kao što su kućni i bolnički otpad, buka u kući, vodeni život i kvalitet vode, količina otpadnih voda u domaćinstvu, zelene površine, kretanje životinja i ptica, prirodna energija, glodari i drugi. S druge strane, pandemija je uticala na smanjenje nekoliko drugih faktora, kao što su komeracijalni/industrijski čvrsti otpad, buka u saobraćaju i na otvorenom, zagađenje vazduha i prisustvo čestica, zagađenje vode, zagađenje otpadnim vodama, seča drveća i lov, sagorevanje goriva i rudarstvo, turisti i drugi. Pored toga, neki parametri, poput crne vode, prirodne radijacije i normalnog osvetljenja, ostali su isti kao i pre pandemije COVID19. Pozitivni, nulti i negativni uticaj parametara na životnu sredinu su iznosili 81,43 %. 5,71 % i 12,86 %. Pozitivni uticaj pandemije na životnu sredinu je bio veći od negativnog uticaja, a zabrana kretanja može da se posmatra kao period disanja prirodnog okruženja. Trenutno je teško predvideti sezonski uticaj na širenje COVID-19 virusa.
Abstract
COVID-19 had an impact on the daily life, human activities, various sectors, and the environment. Accordingly, the aim of this research was to examine the effect of the COVID-19 pandemic lockdown (COVID-19 PL) on the environmental parameters. The studied environmental parameters were solid waste, noise, air, water, wastewater (WW), soil and green areas, natural environment and resources, light pollution, radiation pollution, energy and others. The main environmental issues were divided into seventy sub-parameters. Results revealed that COVID-19 PL increased a number of parameters, such as domestic and hospital wastes, noise at home, aquatic life and water quality, domestic WW amount, green areas, animal and birds movement, natural energy, rodents etc.; while, it decreased several factors for instance commercial/industrial solid waste, traffic and outdoor noises, air pollution and particles, water contamination, WW production, cutting trees and hunting, fuel extraction and mining, artificial light and radiation, fuel combustion, tourist etc. Alternatively, some parameters, such as black water, natural radiation, and normal lighting remained as before COVID-19 PL. Positive, nil, and negative impacts of the parameters on the environment due to COVID-19 PL were 81.43 %, 5.71 %, and 12.86 %, respectively. Positive impacts of the COVID-19 PL on the environment were greater than negative influences and lockdown was regarded as a respiration of the natural environment. Currently, prediction of seasonal impact on spreading COVID-19 is difficult.
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Reference
|
|
|
Aziz, S.Q. (2008) A Noise Pollution Study in Arbil City. Journal of Pure and Applied Sciences, Salahaddin University-Erbil, 20(5): 151-166
|
|
|
Aziz, S.Q. (2012) Environmental noise pollution in Erbil City, Iraq: Monitoring and solutions. Caspian Journal of Applied Sciences Research, 1(2): 14-22
|
|
|
Aziz, S.Q., Lulusi, A.F.A.H., Ramli, N.A., Aziz, H.A., Mojiri, A., Umar, M. (2012) Assessment of Traffic Noise Pollution in Bukit Mertajam, Malaysia and Erbil City, Iraq. Caspian Journal of Applied Sciences Research, 1(3): 1-11
|
|
1
|
Aziz, S.Q., Ali, S.M. (2018) Characteristics and potential treatment technologies for different kinds of wastewaters. ZANCO Journal of Pure and Applied Sciences, Salahaddin University-Erbil, 30(S1): 122-134
|
|
|
Aziz, S.Q., Ismail, S.O., Omar, I.A. (2019) Recyclable Solid Waste Materials Management in Erbil City-Iraq. International Journal of Engineering Inventions, 8 (1): 57-62
|
|
|
Chadderton, D.V. (2004) Building Services Engineering. London - New York: Spon Press, 4th Edition, 378, ISBN 978-04-1531-534-0
|
|
|
Cheval, S., Adamescu, C.M., Georgiadis, T., Herrnegger, M., Piticar, A., Legates, D.R. (2020) Observed and Potential Impacts of the COVID-19 Pandemic on the Environment. International Journal of Environmental Research and Public Health, 17, (11): 4140
|
|
|
Gupta, S., Raghuwanshi, G.S., Chanda, A. (2020) Effect of weather on COVID-19 spread in the US: A prediction model for India in 2020. Science of the Total Environment, 728: 138860
|
|
|
He, G., Pan, Y., Tanaka, T. (2020) The short-term impacts of COVID-19 lockdown on urban air pollution in China. Nature Sustainability
|
|
|
Ibarra-Vega, D. (2020) Lockdown, one, two, none, or smart: Modeling containing COVID-19 infection: A conceptual model. Science of the Total Environment, 730: 138917
|
|
|
Kerimray, A., Baimatova, N., Ibragimova, O.P., Bukenov, B., Kenessov, B., Plotitsyn, P., Karaca, F. (2020) Assessing air quality changes in large cities during COVID-19 lockdowns: The impacts of traffic-free urban conditions in Almaty, Kazakhstan. Science of the Total Environment, 730: 139179
|
|
|
Khoshnaw, S.H.A., Shahzad, M., Ali, M., Sultan, F. (2020) A quantitative and qualitative analysis of the COVID-19 pandemic model. Chaos, Solitons and Fractals, 138: 109932
|
|
|
Li, L., Li, O., Huang, L., Wang, Q., Zhu, A., Xu, J., Liu, Z., Li, H., Shi, L., Li, R., Azari, M., Wang, Y., Zhang, X., Liu, Z., Zhu, Y., Zhang, K., Xue, S., Ooi, M.C.G., Zhang, D., Chan, A. (2020) Air quality changes during the COVID-19 lockdown over the Yangtze River Delta Region: An insight into the impact of human activity pattern changes on air pollution variation. Science of the Total Environment, 732: 139282
|
|
|
Lokhandwala, S., Gautam, P. (2020) Indirect impact of COVID-19 on environment: A brief study in Indian context. Environmental Research, 188: 109807
|
|
|
Mandal, I., Pal, S. (2020) COVID-19 pandemic persuaded lockdown effects on environment over stone quarrying and crushing areas. Science of the Total Environment, 732: 139281
|
|
|
Mceldowney, S., Fletcher, M. (1988) The effect of temperature and relative humidity on the survival of bacteria attached to dry solid surfaces. Letters in Applied Microbiology, 7 (4): 83-86
|
|
|
Mecenas, P., Bastos, R.T.R.M., Vallinoto, A.C.R., Normando, D. (2020) Effects of temperature and humidity on the spread of COVID-19: A systematic review. PLoS One, 15 (9): 0238339, preprint
|
|
|
Ormaza-González, F., Castro-Rodas, D. (2020) COVID-19 Impacts on Beaches and Coastal Water Pollution: Management Proposals Post-pandemic. preprints, 2020060186
|
|
|
Ouhsine, O., Ouigmane, A., Layati, E., Aba, B., Isaifan, B.J., Berkani, M. (2020) Impact of COVID-19 on the qualitative and quantitative aspect of household solid waste. Global Journal of Environmental Science and Management, 6 (SI): 41-52
|
|
|
Peeri, N.C., Shrestha, N., Rahman, M.S., Zaki, R., Tan, Z., Bibi, S., Baghbanzadeh, M., Aghamohammadi, N., Zhang, W., Haque, U. (2020) The SARS, MERS and novel coronavirus (COVID-19) epidemics, the newest and biggest global health threats: What lessons have we learned?. International Journal of Epidemiology, 49(3): 717-726
|
|
|
Petropoulos, F., Makridakis, S. (2020) Forecasting the novel coronavirus COVID-19. PLoS One, 15 (3): 231-236
|
|
|
Rangwala (2019) Water supply and sanitary engineering: Including environmental engineering. India: Charotar Publishing House, 29th Edition, 800, ISBN: 978-93-8503-920-1
|
|
|
Rickard, K.J.C., Boulding, E.G. (2015) Effects of temperature and humidity on activity and microhabitat selection by Littorina subrotundata. Marine ecology progress series, 537: 163-173
|
|
|
Sarwar, S., Waheed, R., Sarwar, S., Khan, A. (2020) COVID-19 challenges to Pakistan: Is GIS analysis useful to draw solutions?. Science of the Total Environment, 730: 139089
|
|
|
Wang, L.K., Tay, J., Tay, S.T., Hung, Y. (2010) Environmental Engineering. Humana Press, Volume 11, 867, ISBN: 978-1-60327-031-1
|
|
|
Xu, H., Yan, C., Fu, O., Xiao, K., Yu, Y., Han, D., Wang, W., Cheng, J. (2020) Possible environmental effects on the spread of COVID-19 in China. Science of the Total Environment, 731: 13921
|
|
|
Yunus, A.P., Masago, Y., Hijioka, Y. (2020) COVID-19 and surface water quality: Improved lake water quality during the lockdown. Science of the Total Environment, 731: 139211
|
|
|
Zambrano-Monserrate, M.A., Ruano, M.A., Sanchez-Alcalde, L. (2020) Indirect effects of COVID-19 on the environment. Science of the Total Environment, 2020: 138813
|
|
|
|
|