Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia
Global concerns have been observed due to the outbreak and lockdown causal-based COVID-19, and hence, a global pandemic was announced by the World Health Organization (WHO) in January 2020. The Movement Control Order (MCO) in Malaysia acts to moderate the spread of COVID-19 through the enacted measu...
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my.um.eprints.341102022-08-16T00:10:36Z http://eprints.um.edu.my/34110/ Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia Najah, A. Teo, F. Y. Chow, M. F. Huang, Y. F. Latif, S. D. Abdullah, S. Ismail, M. Ahmed El-Shafie, Ahmed Hussein Kamel GE Environmental Sciences GF Human ecology. Anthropogeography Global concerns have been observed due to the outbreak and lockdown causal-based COVID-19, and hence, a global pandemic was announced by the World Health Organization (WHO) in January 2020. The Movement Control Order (MCO) in Malaysia acts to moderate the spread of COVID-19 through the enacted measures. Furthermore, massive industrial, agricultural activities and human encroachment were significantly reduced following the MCO guidelines. In this study, first, a reconnaissance survey was carried out on the effects of MCO on the health conditions of two urban rivers (i.e., Rivers of Klang and Penang) in Malaysia. Secondly, the effect of MCO lockdown on the water quality index (WQI) of a lake (Putrajaya Lake) in Malaysia is considered in this study. Finally, four machine learning algorithms have been investigated to predict WQI and the class in Putrajaya Lake. The main observations based on the analysis showed that noticeable enhancements of varying degrees in the WQI had occurred in the two investigated rivers. With regard to Putrajaya Lake, there is a significant increase in the WQI Class I, from 24% in February 2020 to 94% during the MCO month of March 2020. For WQI prediction, Multi-layer Perceptron (MLP) outperformed other models in predicting the changes in the index with a high level of accuracy. For sensitivity analysis results, it is shown that NH3-N and COD play vital rule and contributing significantly to predicting the class of WQI, followed by BOD, while the remaining three parameters (i.e. pH, DO, and TSS) exhibit a low level of importance. Springer 2021-04 Article PeerReviewed Najah, A. and Teo, F. Y. and Chow, M. F. and Huang, Y. F. and Latif, S. D. and Abdullah, S. and Ismail, M. and Ahmed El-Shafie, Ahmed Hussein Kamel (2021) Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia. International Journal of Environmental Science and Technology, 18 (4). pp. 1009-1018. ISSN 1735-1472, DOI https://doi.org/10.1007/s13762-021-03139-y <https://doi.org/10.1007/s13762-021-03139-y>. 10.1007/s13762-021-03139-y |
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GE Environmental Sciences GF Human ecology. Anthropogeography Najah, A. Teo, F. Y. Chow, M. F. Huang, Y. F. Latif, S. D. Abdullah, S. Ismail, M. Ahmed El-Shafie, Ahmed Hussein Kamel Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| description |
Global concerns have been observed due to the outbreak and lockdown causal-based COVID-19, and hence, a global pandemic was announced by the World Health Organization (WHO) in January 2020. The Movement Control Order (MCO) in Malaysia acts to moderate the spread of COVID-19 through the enacted measures. Furthermore, massive industrial, agricultural activities and human encroachment were significantly reduced following the MCO guidelines. In this study, first, a reconnaissance survey was carried out on the effects of MCO on the health conditions of two urban rivers (i.e., Rivers of Klang and Penang) in Malaysia. Secondly, the effect of MCO lockdown on the water quality index (WQI) of a lake (Putrajaya Lake) in Malaysia is considered in this study. Finally, four machine learning algorithms have been investigated to predict WQI and the class in Putrajaya Lake. The main observations based on the analysis showed that noticeable enhancements of varying degrees in the WQI had occurred in the two investigated rivers. With regard to Putrajaya Lake, there is a significant increase in the WQI Class I, from 24% in February 2020 to 94% during the MCO month of March 2020. For WQI prediction, Multi-layer Perceptron (MLP) outperformed other models in predicting the changes in the index with a high level of accuracy. For sensitivity analysis results, it is shown that NH3-N and COD play vital rule and contributing significantly to predicting the class of WQI, followed by BOD, while the remaining three parameters (i.e. pH, DO, and TSS) exhibit a low level of importance. |
| format |
Article |
| author |
Najah, A. Teo, F. Y. Chow, M. F. Huang, Y. F. Latif, S. D. Abdullah, S. Ismail, M. Ahmed El-Shafie, Ahmed Hussein Kamel |
| author_facet |
Najah, A. Teo, F. Y. Chow, M. F. Huang, Y. F. Latif, S. D. Abdullah, S. Ismail, M. Ahmed El-Shafie, Ahmed Hussein Kamel |
| author_sort |
Najah, A. |
| title |
Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| title_short |
Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| title_full |
Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| title_fullStr |
Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| title_full_unstemmed |
Surface water quality status and prediction during movement control operation order under COVID-19 pandemic: Case studies in Malaysia |
| title_sort |
surface water quality status and prediction during movement control operation order under covid-19 pandemic: case studies in malaysia |
| publisher |
Springer |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/34110/ |
| _version_ |
1744649157754224640 |
| score |
13.214268 |