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Reconstruction of rainfall region boundaries for the western region found by Dale (1959) in Peninsular Malaysia

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Re-delimitation of rainfall regions plays an important role in determining the rainfall pattern of an area. This study aims to reconstruct the delimitation of rainfall regions for the western region of Peninsular Malaysia. This study involved only the collection of rainfall data at 133 stations from 1960 to 2010. These data were obtained from the Department of Irrigation and Drainage, Malaysia. The analysis methods applied include kriging, contouring and topology using a geographical information system. The results showed that the new delimitation of the western region has been formed with an area reduction of 10% compared to the original western region found by Dale. This is due to some areas in the western region have not received rainfall between 2540 and 2794 mm. The area that getting the rainfall between 2540 and 2794 mm is 46,413.6 km2, in contrast to the sized of Dale’s western region of 51,596.2 km2. The area that frequently getting rainfall of between 2540 and 2794 during 1960s to 2010 are Parit Buntar, Taiping, Kuala Kangsar, Ipoh, Teluk Intan, Tanjong Malim, Batang Kali, Cameron Highlands, Subang, Petaling Jaya, Klang, Kajang and Bangi. The new delimitation formed through this study can be used as a guide by the agencies that manage water resources in Perak, Selangor and Negeri Sembilan in planning a more efficient water supply system.
Wydawca
Rocznik
Tom
Strony
205--209
Opis fizyczny
Bibliogr. 22 poz., mapy, rys.
Twórcy
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
autor
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
  • Universitas Negeri Semarang, Semarang City, Indonesia
autor
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
autor
  • Universiti Pendidikan Sultan Idris, Faculty of Human Sciences, Department of Geography and Environment, 35900, Tanjong Malim, Malaysia
Bibliografia
  • AB. LATIF I. 1994. Hujan sumber air dan pengeluaran padi di kawasan MADA di negeri Kedah dan Perlis [Rainfall, water resources and paddy production in MADA areas in Kedah and Perlis]. PhD thesis. Kuala Lumpur. University of Malaya, Malaysia pp. 359.
  • AL-TIMIMI Y.K., AL-LAMI A.M., AL-SHAMARTI H.K. 2020. Calculation of the mean annual rainfall in Iraq using several methods in GIS. Plant Archives. Vol. 20(2) p. 1156–1160.
  • ANAND B., KARUNANIDHI D. 2020. Long term spatial and temporal rainfall trend analysis using GIS and statistical methods in Lower Bhavani basin, Tamil Nadu, India. Indian Journal of Geo-Marine Sciences. No. 49(3) p. 419–427.
  • BARI J.A., VENNILA G. 2020. Spatial analysis of rainfall in northern part of Erode district, Tamil Nadu, India using GIS. Indian Journal of Geo Marine Sciences. No. 49(6) p. 1108–1113.
  • CHAN N.W. 1985. The variability in Northwest Peninsular Malaysia. Malaysian Journal of Tropical Geography. No. 12 p. 9–19.
  • CHAN N.W. 1990. A comparative study of the mean and median rainfall pattern in Kedah and Perlis. Kajian Malaysia. No. 8(1) p. 1–20.
  • CHAN N.W. 1991. The climate of Penang Island. Kajian Malaysia. No. 9(1) p. 62–86.
  • CHIA L.S. 1974. A study of the rainfall patterns in West Malaysia. PhD Thesis. Singapore. University of Singapore.
  • DALE W.L. 1959. The rainfall of Malaya. Part 1. Journal of Tropical Geography. No. 13 p. 23–37.
  • GOOVAERTS P. 2000. Geostatistical approaches for incorporating elevation into the spatial interpolation of rainfall. Journal of Hydrology. Vol. 228(1) p. 113–129. DOI 10.1016/S0022-1694(00)00144-X.
  • ISLAM T., RICO-RAMIREZ M.A., HAN D., SRIVASTAVA P.K. 2012. A Joss- Waldvogeldisdrometer derived rainfall estimation study by collocated tipping bucket and rapid response rain gauges. Atmospheric Science Letters. Vol. 13(2) p. 139–150. DOI 10.1002/asl.376.
  • KAIWART M. P., MISHRA P. K., SINHA J. 2020. Rainfall trend analysis for the Mahanadi Main Canal Command, Chhattisgarh, India [online]. Roorkee, India. Indian Institute of Technology Roorkee and National Institute of Hydrology. [Access 15.02.2021]. Available at: https://www.iitr.ac.in/rwc2020/pdf/papers/RWC _123_Manoj_Prabhakar_Kaiwart.pdf
  • KHALIL A. 2020. Rainfall trend analysis in the Mae Klong River Basin, Thailand. Songklanakarin Journal of Science & Technology. Vol. 42(4) p. 879–888. DOI 10.14456/sjst-psu.2020.113.
  • KORTE G. 1997. The GIS book: Understanding the value and implementation of geographic information system. 4th ed. Boston. Cengage Learning. ISBN 978-1-56-690127-7 pp. 414.
  • LI M., SHAO Q., RENZULLO L. 2010. Estimation and spatial interpolation of rainfall intensity distribution from the effective rate of precipitation. Stochastic Environmental Research and Risk Assessment. Vol. 24(1) p. 117–130. DOI 10.1007/s00477-009-0305-3.
  • LIM J.T. 1976. Rainfall minimum in Peninsular Malaysia during the northwest monsoon. Monthly Weather Review. Vol. 104(1) p. 96–99.
  • LOCKWOOD J.G. 1967. Probable maximum 24-hour precipitation over Malaya by statistical methods. Meteorological Magazine. No. 96 p. 11–19.
  • NASIR N. 2007. Persekitaran sistem maklumat geografi [Introduction of geographical information systems]. Tanjong Malim. Universiti Pendidikan Sultan Idris Press. ISBN 978-9-83-375914-9 pp. 147.
  • PRAVEEN B., TALUKDAR S., MAHATO S., MONDAL J., SHARMA P., ISLAM A. R. M. T., RAHMAN A. 2020. Analyzing trend and forecasting of rainfall changes in India using non-parametrical and machine learning approaches. Scientific Reports. Vol. 10(1) p. 1–21. DOI 10.1038/s41598-020-67228-7.
  • SHAHARUDDIN A., NOORAZUAN M.H. 2006. Analysing rain patterns and trend in Negeri Sembilan using the GIS Polygon Thiessen and Isohyet Contours methods. Geografia Malaysian Journal of Society & Space. Vol. 3(2) p. 1–12.
  • TANGANG F.T., LIEW J.N., MOHD. SALMI N., MOHD. IDRIS J., SHAHARUDDIN A., ALUI B. 2004. Interannual evolution of Indian Ocean sea surface temperature anomaly and its relationship with precipita-tion variability in Malaysia. In: Marine science into the new millennium: New perspectives & challenges. Proceedings of the Asia-Pacific Conference on Marine Science & Technology. Ed. S.M. Phang, V.C. Chong, S.C. Ho, M. Noraieni, O.L.S. Jillian. 12–16 May 2002, Kuala Lumpur, Malaysia. UMMReC p. 537– 551.
  • WAN RUSLAN I. 1994. Pengantar hidrologi [Introduction of hydrology]. Kuala Lumpur. Dewan Bahasa dan Pustaka. ISBN 978-9-83-624434-5 pp. 159.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-46281e9e-7f5e-4635-945a-0ecb5953a05e
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