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Sains Malaysiana 50(3)(2021):
645-654
http://doi.org/10.17576/jsm-2021-5003-07
Alternative Water Resources Quality Assessment during Flood
Disaster in Kuala Krai, Kelantan, Malaysia
(Penilaian Kualiti Sumber Air Alternatif semasa Bencana
Banjir di Kuala Krai, Kelantan, Malaysia)
KOH
LIEW SEE*, NASIR NAYAN, MOHMADISA HASHIM, YAZID SALEH & HANIFAH MAHAT
Department of Geography and Environment, Faculty of Human
Sciences, Universiti Pendidikan Sultan Idris, 35900 Tanjong Malim, Perak Darul
Ridzuan, Malaysia
Diserahkan: 3 September 2018/Diserahkan: 9 Ogos 2020
ABSTRACT
Quality assessment of water resources is important to ensure
the well-being of residents, especially the victims who are affected by floods
and having difficulties in obtaining clean water supply when the floods hit.
This paper seeks to discuss the quality assessment of water resources in the
district of Kuala Krai, Kelantan. Field methods were used to collect water samples
during the northeast monsoon season in the month of December 2016/January 2017
involving six well stations, four flood water stations and four rainfall
stations. The quality assessment of water resources involved six key
parameters, namely DO, pH, BOD, COD, NH3N and SS using the Water
Quality Index (WQI) analysis. The results of the analysis showed that the WQI
percentage of well and flood water stations accounted for 61.31 to 75.95% which
is Class III of moderately contaminated status, except the T6 station that
recorded 80.99% of WQI value which is Class II of good status. The findings
also showed that all WQI values from the rainwater stations were
at 87.85 to 89.10%, which is Class II of good status. This condition explains
that the rainwater resources have better quality than the well and flood water
resources. With the help of this research, the flood manager's party can take
systematic management measures in ensuring that flood victims receive water
supplies during flood events. In this regard, infectious diseases resulted from
the consumption of contaminated water among flood victims can be reduced.
Keywords: Flood water; rainwater; Water Quality Index; well
water
ABSTRAK
Penilaian kualiti sumber air penting bagi memastikan
kesejahteraan penduduk terpelihara terutama mangsa yang terkesan akibat banjir dan
sukar memperoleh bekalan air bersih semasa bencana banjir melanda. Kertas ini
bertujuan untuk membincangkan penilaian kualiti sumber air di Jajahan Kuala
Krai, Kelantan. Kaedah lapangan digunakan untuk mengumpul sampel air semasa
musim monsun timur laut pada bulan Disember 2016/Januari 2017 yang meliputi
enam stesen air telaga, empat stesen air banjir dan empat stesen air hujan. Penilaian
kualiti sumber air melibatkan enam parameter utama iaitu DO, pH, BOD, COD, NH3N
dan SS dengan menggunakan analisis Indeks Kualiti Air (IKA). Hasil analisis
mendapati peratus IKA stesen air telaga dan air banjir berada pada nilai 61.31
hingga 75.95% iaitu pada Kelas III yang berstatus sederhana tercemar kecuali
stesen T6 didapati mencatat nilai IKA 80.99% iaitu pada Kelas II yang berstatus
baik. Keputusan juga menunjukkan kesemua nilai IKA stesen air hujan berada pada
nilai 87.85 hingga 89.10% iaitu pada kelas II yang berstatus bersih. Keadaan
ini menjelaskan bahawa sumber air hujan mempunyai kualiti yang lebih baik
berbanding sumber air telaga dan sumber air banjir. Dengan adanya penyelidikan
ini, pihak pengurus bencana banjir dapat mengambil langkah pengurusan yang
sistematik dalam memastikan mangsa banjir memperoleh bekalan air semasa bencana
banjir melanda. Sehubungan itu, penyakit berjangkit akibat penggunaan air
tercemar dalam kalangan mangsa banjir dapat dikurangkan.
Kata kunci: Air banjir; air hujan; air telaga; Indeks
Kualiti Air
RUJUKAN
Abbas, H.B. & Routray, J.K. 2014. Vulnerability to
flood-induced public health risks in Sudan. Disaster
Prevention and Management 23(4): 395-419.
Agarwala, S.P. 2006. Environmental
Studies. Oxford: Alpha Science.
Alvarez, D.A. & Jones-Lepp, T.L. 2011. Sampling and
analysis of emerging pollutants. In Water
Quality Concepts, Sampling, and Analyses, edited by Li, Y. &
Migliaccio, K. New York: CRC Press. pp.
199-226.
Amponsah, N., Bakobie, N., Cobbina, S.J. & Duwiejuah,
A.B. 2015. Assessment of rainwater quality in Ayanfuri, Ghana. American Chemical Science Journal 6(3):
172-182.
Apraku, A. & Adu-Kumi, M. 2014. Sustainable development:
Rainwater quality and safe use (a case study in Adukrom Akwapim). International Journal of Water Research 2(1): 21-26.
Badrul Hashim, A.S., Norli, R. & Adam Gaeshraj, A. 2010.
Leptospirosis during the Johor flood disaster. Johor Health Journal 9(1): 1-5.
Benacer, D., Kwai, L.T., Ng, C.M., Khebir, V., Galloway,
R.L., Hartskeerl, R.A., Souris, M. & Siti Nursheena, M.Z. 2016.
Epidemiology of human leptospirosis in Malaysia, 2004-2012. Acta Tropica 157: 162-168.
Department of Irrigation and Drainage. 2009. Study on the River Water Quality Trends and
Indexes in Peninsular Malaysia. Water Resources Publication.
Department of Town and Country Planning. 2011. Draf Rancangan Tempatan Jajahan Kuala Krai
2020: Jilid I Penyataan Bertulis. Peninsular Malaysia: Department of Town
and Country Planning.
DOE. 2015. Malaysia
Environmental Quality Report 2015. Selangor: Omr Press Sdn. Bhd.
Elkiran, G., Nourani,
V. & Abba, S.I. 2019. Multi-step ahead modelling of river water quality
parameters using ensemble artificial intelligence-based approach. Journal of Hydrology 577:
123962-123973.
Few, R., Tran, P.G. & Hong, B.T.T. 2004. Living with Floods: Health Risks and Coping
Strategies of the Urban Poor in Vietnam. https://www.uea.ac.uk/polopoly_fs/1.19249!study reportfinal.pdf. Accessed on 12
April 2016.
Fewkes, A. 2012. A review of rainwater harvesting in the UK. Structural Survey 30(2): 174-194.
Gray, N.F. 2008. Drinking
Water Quality: Problems and Solutions. New York: Cambrige University Press.
Hossain, A., Juani, R.H.M., Shams, S., Rokonujjaman, M.
& Shafiuddin, K. 2014. The challenges and alternatives of water supply and
sanitation in flood prone area: A case study for Bhuapur in Bangladesh. Proceeding of the 5th Brunei International
Conference on Engineering and Technology. pp 1-6.
Ibrahim, T.N.B.T.,
Othman, F. & Mahmood, N.Z. 2020. Baseline study of heavy metal pollution in
a tropical river in a developing country. Sains Malaysiana 49(4): 729-742.
Islam, M.M., Chou, F.N.F., Kabir, M.R. & Liaw, C.H.
2010. Rain water: A potential alternative source for scarce safe drinking and
arsenic contaminated water in Bangladesh. Water
Resource Management 24: 3987-4008.
Jahin, H.S., Abuzaid,
A.S. & Abdellatif, A.D. 2020. Using multivariate analysis to develop
irrigation water quality index for surface water in Kafr El-Sheikh Governorate,
Egypt. Environmental Technology
& Innovation 17: 100532-100543.
Kumar, V., Cheng, S.Y.C. & Singh, A.K. 2016. Impact of
flood on rural population and strategies for mitigation: A case study of
Darbhanga District, Bihar State, India. Contemporary
Rural Social Work 8(1): 45-56.
Law, B.K.E. & Bustami, R.A. 2013. A study on potential
of rainwater harvesting system in SJK Chung Hua No. 2, Kuching. UNIMAS E-Journal of Civil Engineering 4(2): 28-33.
March, G. 2002. Natural disasters and the impacts on health.
http://www.unisdr.org/preventionweb/files/1911_VL206112.pdf. Accessed on 2
April 2016.
Margaret, O.M. 2014. The menace of the recent flood on water
quality and rural people in Bayelsa State. Brazilian
Research Journal of Humanities, Social and Management Sciences 7(1): 22-33.
Molla, N.A., Sangsanont, J., Thayanukul, P. & Furumai,
H. 2016. Proper dissemination of information to improve people awareness on
flood disaster: A case study of 2011 flood in Thailand. Applied Environmental Research 38(2): 1-12.
Nasir, N., Jamaluddin, M.D.J. & Abdul Latif, M. 2012.
Trend of river water quality and pollution in coastal zone: A case study of
Perak state Malaysia. World Applied
Sciences Journal 19(11): 1687-1698.
Nasir, N., Mohmadisa, H., Mohd Hairy, I. & Mohamad
Suhaily Yusri, C.N. 2009. Perubahan gunatanah dan tahap kualiti air sungai di
Bandaraya Ipoh, Perak. Malaysian Journal
of Environmental Management 10(2): 115-134.
Nor Eliza, A., Hazim, M., Wan, Y.C. & Zulkifli, Y. 2016.
Rainfall analysis of the Kelantan Big Yellow Flood 2014. Jurnal Teknologi 78(9-4): 83-90.
Nurain, M. & Ang, K.H. 2015. Water quality of UTM River:
A preliminary assessment based on six parameters of Water Quality Index. Geografia - Malaysian Journal of Society and
Space 11(1): 107-115.
Pachpute, J.S., Tumbo, S.D., Sally, H. & Mul, M.L. 2009.
Sustainability of rainwater harvesting systems in rural catchment of
Sub-Saharan Africa. Water Resource
Management 23(1): 2815-2839.
Rahman, M., Rahman, M. & Hossain, D. 2002. Assessment of
water quality in flood affected areas of Dhaka City. In Engineering Concern of Flood, edited by Ali, M.A., Seraj, S.M.
& Ahmad, S. Dhaka, India: Bangladesh University of Engineering and
Technology. pp 35-46.
Saeed, T.U. & Attaullah, H. 2014. Impact of extreme
floods on groundwater quality (in Pakistan). British Journal of Environment & Climate Change 4(1): 133-151.
Sanaullah, M., Akram, M. & Dawood, B. 2016. Post flood
water quality discrepancies in physico-chemical scenarios, Sialkot, Pakistan. International Journal of Advances in
Agricultural & Environment Engineering 3(1): 1-5.
Jain, S.K., Agarwal, P.K. & Singh, V.P. 2007. Problems
related to water resources management in India. In Hydrology and Water Resources of India, edited by Jain, S.K.,
Agarwal, P.K. & Singh, V.P. Dordrecht: Springer. pp. 871-936.
Shimi, A.C., Parvin, G.A., Biswas, C. & Shaw, R. 2010.
Impact and adaptation to flood: A focus on water supply, sanitation and health
problems of rural community in Bangladesh. Disaster
Prevention and Management: An International Journal 19(3): 298-313.
Suhaimi, S., Asmadi, A. & Lo, T.T. 2005. Determination
of Water Quality Index at Ibai River Basin, Terengganu. Sains Malaysiana 34(2): 55-59.
Suhaimi, S., Norhayati, M.T., Lee, C.Y. & Siti Rohayu,
A.R. 2006. Kesan monsun terhadap kualiti air di lembangan Sungai Besut,
Terengganu. Malaysia Journal of
Analytical Sciences 10(1): 143-148.
Tawari-Fufeyin, P., Paul, M. & Godleads, A.O. 2015. Some
aspects of a historic flooding in Nigeria and its effects on some Niger-Delta
communities. American Journal of Water
Resources 3(1): 7-16.
Tokatli, C. 2019.
Drinking water quality assessment of Ergene River Basin (Turkey) by Water
Quality Index: Essential and toxic elements. Sains Malaysiana 48(10): 2071-2081.
Ubachukwu, N.N. & Emeribe, C.N. 2017. The 2012 flooding
in selected parts of Isoko South, Delta State: Assessment of socio-economic
impacts. Mediterranean Journal of Social
Sciences 8(1): 353-358.
Wan Ruslan, I., Haslina, S. & Mashhor, M. 2007. Water
quality of streams and wells of North Perlis: A comparative analysis. Malaysian Journal of Environmental
Management 8: 69-85.
*Pengarang untuk surat-menyurat; email:
kohliewsee89@gmail.com
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