FLOOD DAMAGE ASSESSMENT IN AGRICULTURAL AREA IN SELANGOR RIVER BASIN

Authors

  • Nur'Atirah Muhadi Department of Biological and Agricultural Engineering, Faculty of Engineering University Putra Malaysia, 43400 Serdang, Selangor Darul Ehsan, Malaysia
  • Ahmad Fikri Abdullah Department of Biological and Agricultural Engineering, Faculty of Engineering University Putra Malaysia, 43400 Serdang, Selangor Darul Ehsan, Malaysia

DOI:

https://doi.org/10.11113/jt.v76.5960

Keywords:

Flood model, agricultural flood damage, flood mitigation

Abstract

Flooding is the major natural hazard that occurs in Malaysia. Flooding causes loss of lives, injuries, property damage and leave economic damage to the country, especially when it occurs in an agricultural area. There is still a lack of information available on floodplain especially on the impact of flooding in the agricultural area. This study focused on flooding and flooding impact in oil palm plantations, fruits and vegetables area. A river modeling is required to study the impact of flooding and to mitigate the floods using one mitigation option.  A flood model was developed using InfoWorks Integrated Catchment Model (ICM) to carry out the analysis for flood damage assessment. With the aim of creating a flood damage map, Geographical Information System (GIS) was combined with the flood model to provide an ideal tool for the analysis of the flood damage and the effect of mitigation to flood damage. The estimated total damage for three different flood event; 10 ARI, 50 ARI and 100 ARI involved millions of ringgits. In order to reduce the flood impact along the Selangor River, a flood mitigation structure which is a retention pond was suggested, modeled and simulated. The effects of the retention ponds were analyzed and evaluated for 10 ARI, 50 ARI and 100 ARI. With this retention pond, flood extents of the flood events in agricultural area were shown capable of reduction significantly by 65.57% for 10 ARI, 76.18% for 50 ARI and 72.51% for 100 ARI.

References

K. H. Ho, A. H. Ghazali and S. F. Chong. 2002. Calibration and Evaluation of Modified Tank Model (flood forecasting model) for Kelantan River Basin Malaysia. Proceeding of the water engineering Conference Malaysia. Kuala Lumpur. 23-24 July. 231-245.

M. Ekhwan T. and Shukor M. N. 2006. An Analysis Of Rainfall Interception on the Selected Experimental Plot of Pangkor Hill Reserved Forest. Journal Wildlife and National Park. 4: 169-178.

M. Ekhwan T., A. Jalil H., M. Barzani G., Mazlin M., S. A. Sharifah Mastura, Osman J., Osman K. and N. Azlina A.A. 2009. Integration of 1-d Hydrodynamic Model and GIS Approach in Flood Management Study in Malaysia. Research Journal of Earth Sciences. 1(1): 22-27.

Rabie, A. H., A. G. Aminuddin, Z. Nor Azizi, S. A. Mohd Sanusi and A. H. Zorkeflee. 2007. Modeling Floodplain Inundation by Integrating of Hydrological with Hydraulic Model. Case Study: Muda River, Kedah. 2nd International Conference on Managing Rivers in the 21st Century: Towards PWTC sustainable River Basins. Kuching.

A. H. Thieken, V. Ackermann, F. Elmer, H. Kreibich, B. Kuhlmann, U. Kunnert, H. Maiwald, B. Merz, M. Muller, K. Piroth, J. Schwarz, R. Schwarze, I. Seifert and J. Seifert. 2008. Methods for the Evaluation of Direct and Indirect Flood Losses. 4th International Symposium on Flood Defence: Managing Flood Risk, Reliability and Vulnerability. Toronto, Ontorio, Canada.

Ong, Dylan Jefri. 1991. Land use in the Selangor River: A Study on the Application and Strategy for Integrated River Basin Management. World Wildlife Fund (WWF) Malaysia.

Thanyarat D. 2011. Thai Flooding Kills Hundreds. [Online]. From: http://www.dailytelegraph.com.au/thai-flooding-kills-hundreds/story-fn6b3v4f-1226165096572. [Acessed on March 12, 2014].

Mercer, B. 2001. Comparing LIDAR and IFSAR: What Can You Expect? Photogrammetric Week 2001. Stuttgart, Germany. 2001.

Institute of Water Resources Planning (IWRP). 2011. Review and Update the Flood Prevention Plan for Central Provinces: Vu Gia-Thu Bon River. Vietnam, Hanoi: Water Resources Planning Institute. Hanoi.

U.S Department of Agriculture (USDA). 2002. Heavy Rainfall May Cut Malaysian Palm Oil Production. Production Estimates and Crop Assessment (PECAD)–Foreign Agriculture Science, United States Department of Agriculture. [Online]. From: http://www.fas.usda.gov. [Acessed on March 12, 2014].

U.S Department of Agriculture (USDA). 2005. Malaysia: Near Normal Rainfall Supports Palm Oil Output. Production Estimates and Crop Assessment (PECAD) – Foreign Agriculture Science, United States Department of Agriculture. [Online]. From: http://www.fas.usda.gov. [Acessed on March 12, 2014].

Malaysian Palm Oil Board (MPOB). (2014). Mpob Monthly Prices of Palm Oil Products Traded In March 2014 (RM/TONNE). [Online]. From: http://mpob.gov.my. [Acessed on April 22, 2014].

Department of Agriculture Selangor. 2012. [Online]. From: http://pertanian.selangor.gov.my. [Acessed on March 13, 2014].

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Published

2015-10-25

How to Cite

FLOOD DAMAGE ASSESSMENT IN AGRICULTURAL AREA IN SELANGOR RIVER BASIN. (2015). Jurnal Teknologi (Sciences & Engineering), 76(15). https://doi.org/10.11113/jt.v76.5960