 |
 |
 |
 |
 |
 |
Sains
Malaysiana 51(5)(2022): 1587-1598
http://doi.org/10.17576/jsm-2022-5105-26
Effect of
COVID-19 Movement Control Order Policy on Water Quality Changes in Sungai
Langat, Selangor, Malaysia within Distinct Land Use Areas
(Kesan
Dasar Perintah Kawalan Pergerakan COVID-19 terhadap Perubahan Kualiti Air di
Sungai Langat, Selangor, Malaysia dalam Kawasan Guna Tanah Berbeza)
MUHAMMAD RENDANA1, WAN
MOHD RAZI IDRIS2,4,* & SAHIBIN ABD RAHIM3
1Department
of Chemical Engineering, Faculty of Engineering, Universitas Sriwijaya,
Indralaya 30662 Sumatera Selatan, Indonesia
2Department
of Earth Sciences and Environmental, Faculty of Science and Technology,
Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
3Environmental Science Program, Faculty of Science and Natural Resources, Universiti Malaysia Sabah, 88400 Kota Kinabalu, Sabah, Malaysia 4Center for Water Research and Analysis, Faculty of Science and Technology,
Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
Diserahkan: 17 Disember 2021/Diterima: 16 Mac 2022
Abstract
For the first time in the 21st century, many nations have been forced to conduct a lockdown that restricts their industrial, transportation, and social activities to avoid the extensive COVID-19 spread. Therefore, our study aimed to analyze the status of water quality that was measured by suspended particulate matter (SPM) in Sungai Langat, Selangor, Malaysia using the remote sensing technique. The study was concerned with rivers located in distinct land-use areas such as high-density urban, low-density urban, and agricultural areas. The study period included before and after movement control order (MCO) periods that occurred in February 2020 and February 2021, respectively. The SPM levels in each period were calculated using the remote sensing technique through Landsat-8 OLI images then they were analyzed using statistical analysis. The results of the remote sensing technique showed the highest decrease of SPM levels during the MCO period was observed in Sungai Langat within a high-density urban area (34.1%). Then, the SPM levels in all Sungai Langat raised significantly after the MCO period with the highest change at 31.6%. Rainfall and erosion factors had a significant impact on the SPM level through natural processes but the COVID-19 restriction had a direct impact on the SPM level due to the restriction of industrial and social activities. The suspended activities have made the lower emission compared with before the COVID-19 period in 2019.
Keywords: COVID-19; lockdown remote sensing; river quality; soil loss
Abstrak
Buat pertama kalinya dalam abad ke-21, banyak negara telah terpaksa melakukan penutupan yang menyekat aktiviti perindustrian, pengangkutan dan aktiviti sosial untuk mengelakkan penularan COVID-19 secara meluas. Oleh itu, kajian ini bertujuan untuk menganalisis status kualiti air yang diukur dengan bahan zarahan terampai (SPM) di Sungai Langat, Selangor, Malaysia menggunakan teknik penderiaan jauh. Penyelidikan ini dijalankan di sungai yang terletak di kawasan guna tanah yang berbeza seperti kawasan bandar berkepadatan tinggi, bandar berkepadatan rendah dan kawasan pertanian. Tempoh kajian ialah sebelum dan selepas tempoh perintah kawalan pergerakan (MCO) pada Februari 2020 dan Februari 2021. Kepekatan SPM dalam setiap tempoh tersebut dianalisis menggunakan teknik penderiaan jauh melalui imej Landsat-8 OLI kemudian dianalisis menggunakan analisis statistik. Hasil kajian menunjukkan penurunan tertinggi kepekatan SPM dalam tempoh MCO ditemukan di Sungai Langat dalam kawasan bandar berkepadatan tinggi (34.1%). Kemudian, kepekatan SPM di keseluruhan Sungai Langat meningkat dengan signifikan selepas tempoh MCO dengan perubahan tertinggi iaitu 31.6%. Faktor jumlah hujan dan hakisan tanih memberi kesan yang besar kepada kepekatan SPM dalam sungai melalui proses semula, tetapi aktiviti MCO di kawasan kajian telah memberi kesan langsung kepada kepekatan SPM disebabkan oleh sekatan aktiviti perindustrian dan sosial. Aktiviti yang dihentikan telah menjadikan pelepasan bahan buangan yang lebih rendah berbanding sebelum tempoh COVID-19 pada tahun 2019.
Kata kunci: COVID-19; hakisan tanih; kualiti sungai; penderiaan jauh
RUJUKAN
Azuma,
K., Yanagi, U., Kagi, N., Kim, H., Ogata, M. & Hayashi, M. 2020.
Environmental factors involved in SARS-CoV-2 transmission: Effect and role of
indoor environmental quality in the strategy for COVID-19 infection control. Environmental Health and Preventive Medicine 25(1): 1-16.
Basheer,
A.O., Hanafiah, M.M. & Abdulhasan, M.J. 2017. A study on water quality from
Langat River, Selangor. Acta Scientifica
Malaysia 1(2): 1-4.
Chakraborty,
B., Roy, S., Bera, A., Adhikary, P.P., Bera, B., Sengupta, D., Bhunia, G.S.
& Shit, P.K. 2021. Eco-restoration of river water quality during COVID-19
lockdown in the industrial belt of eastern India. Environmental Science and Pollution Research 28(20): 25514-25528.
Clark,
J.M., Lane, S.N., Chapman, P.J. & Adamson, J.K. 2007. Export of dissolved
organic carbon from an upland peatland during storm events: Implications for
flux estimates. Journal of Hydrology 347(3-4): 438-447.
Corada-Fernández,
C., Candela, L., Torres-Fuentes, N., Pintado-Herrera, M.G., Paniw, M. &
González-Mazo, E. 2017. Effects of extreme rainfall events on the distribution
of selected emerging contaminants in surface and groundwater: The Guadalete
River basin (SW, Spain). Science of The
Total Environment 605: 770-783.
Delkash,
M., Al‐Faraj, F.A. & Scholz, M. 2018. Impacts of anthropogenic land
use changes on nutrient concentrations in surface waterbodies: A review. CLEAN–Soil, Air, Water 46(5): 1800051.
Department
of Irrigation and Drainage (DID). 2010. Guideline for Erosion and Sediment
Control in Malaysia. Putrajaya: Ministry of Natural Resources and Environment,
Department of Irrigation and Drainage Malaysia.
Dong,
C. 2018. Remote sensing, hydrological modeling and in situ observations in snow
cover research: A review. Journal of
Hydrology 561: 573-583.
García-Aljaro,
C., Martín-Díaz, J., Viñas-Balada, E., Calero-Cáceres, W., Lucena, F. &
Blanch, A.R. 2017. Mobilisation of microbial indicators, microbial source
tracking markers and pathogens after rainfall events. Water Research 112: 248-253.
Heng,
L.Y., Abdullah, M.P., Yi, C.S., Mokhtar, M. & Ahmad, R. 2006. Development
of possible indicators for sewage pollution for the assessment of Langat River
ecosystem health. Malaysian Journal of
Analytical Sciences 10(1): 15-26.
Issaka,
S. & Ashraf, M.A. 2017. Impact of soil erosion and degradation on water
quality: A review. Geology, Ecology, and
Landscapes 1(1): 1-11.
Juahir,
H., Zain, S.M., Yusoff, M.K., Hanidza, T.T., Armi, A.M., Toriman, M.E. &
Mokhtar, M. 2011. Spatial water quality assessment of Langat River Basin
(Malaysia) using environmetric techniques. Environmental
Monitoring and Assessment 173(1): 625-641.
Lian,
H.S., Lei, Q.L., Zhang, X.Y., Yen, H., Wang, H.Y., Zhai, L.M., Liu, H.B., Huang
Jr., C., Ren, T.Z., & Zhou, J.G. & Qiu, W.W. 2018. Effects of
anthropogenic activities on long-term changes of nitrogen budget in a plain
river network region: A case study in the Taihu Basin. Science of the Total Environment 645: 1212-1220.
Morgan,
R.P.C., 2005. Soil Erosion and Conservation,
3rd ed. Oxford: Blackwell Publishing Ltd.
Najah,
A., Teo, F.Y., Chow, M.F., Huang, Y.F., Latif, S.D., Abdullah, S., Ismail, M.
& El-Shafie, A. 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): 1009-1018.
Nechad,
B., Ruddick, K.G. & Park, Y. 2010. Calibration and validation of a generic
multisensor algorithm for mapping of total suspended matter in turbid waters. Remote Sensing of Environment 114(4):
854-866.
Panagos,
P. & Katsoyiannis, A. 2019. Soil erosion modelling: The new challenges as
the result of policy developments in Europe. Environ. Res. 172: 470-474.
Pant,
R.R., Bishwakarma, K., Qaiser, F.U.R., Pathak, L., Jayaswal, G., Sapkota, B.,
Pal, K.B., Thapa, L.B., Koirala, M., Rijal, K. & Maskey, R. 2021. Imprints
of COVID-19 lockdown on the surface water quality of Bagmati river basin,
Nepal. Journal of Environmental
Management 289: 112522.
Qiu,
Y., Shi, W. & Wu, W. 2020. Water
Quality Improvement During the COVID-19 Outbreak in China.
https://dx.doi.org/10.2139/ssrn.3664832
Ravindra,
K., Singh, T., Pandey, V. & Mor, S. 2020. Air pollution trend in Chandigarh
city situated in Indo-Gangetic Plains: Understanding seasonality and impact of
mitigation strategies. Science of The
Total Environment 729: 138717.
Tokatlı,
C. & Varol, M. 2021. Impact of the COVID-19 lockdown period on surface
water quality in the Meriç-Ergene River Basin, Northwest Turkey. Environmental Research 197: 111051.
Wischmeier,
W.H. & Smith, D.D. 1978. Predicting
Rainfall Erosion Losses: A Guide to Conservation Planning (No. 537).
Department of Agriculture, Science and Education Administration.
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: 139012.
Yusof,
N.F., Lihan, T., Idris, W.M.R., Rahman, Z.A., Mustapha, M.A. & Yusof, M.A.W.
2021. Spatially distributed soil losses and sediment yield: A case study of
Langat watershed, Selangor, Malaysia. Journal
of Asian Earth Sciences 212: 104742.
Xu,
H., Xu, G., Wen, X., Hu, X. & Wang, Y. 2021. Lockdown effects on total
suspended solids concentrations in the Lower Min River (China) during COVID-19
using time-series remote sensing images. International
Journal of Applied Earth Observation and Geoinformation 98: 102301.
Xu,
Y., Qin, B., Zhu, G., Zhang, Y., Shi, K., Li, Y. & Chen, L. 2019. High
temporal resolution monitoring of suspended matter changes from GOCI
measurements in Lake Taihu. Remote
Sensing 11(8): 985.
Zhou,
B., Kojima, S., Kawamoto, A. & Fukushima, M. 2021. COVID‐19
pathogenesis, prognostic factors, and treatment strategy: Urgent
recommendations. Journal of Medical
Virology 93(5): 2694-2704.
*Pengarang untuk surat-menyurat; email: razi@ukm.edu.my
|
|||
|
