ANALISIS PENGAMBILAN KEPUTUSAN DAN MITIGASI TERHADAP KERENTANAN PANTAI (STUDI KASUS : PANTAI PULAU RANGSANG, KABUPATEN KEPULAUAN MERANTI)
DOI:
https://doi.org/10.30606/aptk.v11i1.1689Keywords:
Mitigation, Vulnerability, Damage, Coastal, Handling.Abstract
Rangsang Island is one of the 4 main islands in the Meranti Islands Regency. The location of this island is very strategic because it is directly adjacent to the Malacca Strait so that the island has very high economic value. Abrasion that occurred on Rangsang Island resulted in a lot of losses suffered by people living on the island's coast, including eroded coconut plantation land, damaged docks, to people who were forced to move because the location of the house was very prone to landslides. This final project identifies beaches that have a high level of vulnerability in Pulau Rangsang. Based on the results of the analysis, Pantai Tanah Merah is the beach with the highest vulnerability value. Installation of breakwater structures is effective in preventing unwanted shoreline changes in Tanah Merah. This is because material accessibility is closer to Tanah Merah Beach, prices are relatively cheaper, maintenance is easier so that it can improve work efficiencyReferences
Alesheikh, dkk, 2007, Coastline change detection using remote sensing, Int. J. Environ. Sci. Tech., 4 (1): 61-66, 2007, ISSN: 1735-1472, © Winter 2007,IRSEN, CEERS, IAU
Asmar H.M., dan Hereher M. E., 2010, Change detection of the coastal zone east of the Nile Delta using remote sensing, Environ Earth Sci, Springer, DOI 10.1007/s12665-010-0564-9.
Boruff, B.J., Emrich, C., Cutter, S.L., Erosion Hazard Vulnerability of US Coastal Countries. “Journal of Coastal Research”, Vol. 21, No. 5, pp 932-942. West Palm Beach, Florida,2005.
BPS, 2017. Riau Dalam Angka Tahun 2017,Pekanbaru.21017
Chand P., dan Acharya P., 2010, Shoreline change and sea level rise along coast of Bhitarkanika wildlife sanctuary, Orissa: An analytical approach ofremote sensing and statistical techniques, INTERNATIONAL JOURNAL OF GEOMATICS AND GEOSCIENCES, Volume 1, No 3, 2010, ISSN 0976 – 4380.
Coastal Engineering Research Center (CERC), 1984. Shore Protect Manual Volume. US Army Coastal Engineering Research Center. Washington.
DKP, Pedoman Penyusunan Rencana Pengelolaan Garis Pantai, Jakarta, 2004.
Doukakis, E. Coastal Vulnerability and Risk Parameters. European Water 11/12: 3-7, 2005.
Duriyapong, Farida, Kanchana Nakhapakom. 2011. Coastal Vulnerability Assessment: A Case Study Of Samut Sakhon Coastal Zone. Faculty of Environment and Resource Studies. Mahidol University. Thailand.
Faizal Kasim, 2012, Pendekatan Beberapa Metode dalam Monitoring Perubahan Garis Pantai Menggunakan Dataset Penginderaan Jauh Landsat dan SIG, Jurnal Ilmiah Agropolitan, Volume 5 Nomor 1 April 2012, ISSN 2089-0036.
Ferreira, J.C., Coastal Zone Vulnerability and Risk Evaluation. A tool for Decision-Making (An Example In the Caparica-Litoral-Portugal). “Journal of Coastal Research”, Special Issue 39, SC-Brasil, 2004.
Genz, A.S., Fletcher, C.H., Dunn, R.A., Frazer, L.N., and Rooney, J.J., 2007, The predictive accuracy of shoreline change rate methods and alongshore beach variation on Maui, Hawaii: Journal of Coastal Research, v. 23, n. 1, pp. 87105.
Kaiser, G., Coastal Vulnerability to Climate Change and Natural Hazards. Forum DKKV/CEDIM: Disaster Reduction in Climate Change. Karlsruhe University, 2007.
Kakisina, T.J. 2009. Desain Groin Untuk Mengatasi Erosi Kawasan Pesisir Pantai Utara Teluk Baguala Ambon; Jurnal Ilmu-ilmu Teknik dan Sains Teknologi ISSN 1693-9425 Vol. 6 Nomor 1 April 2009.
Khrisnasari, A. 2007. Kajian Kerentanan Terhadap Kenaikan Muka Laut di Jakarta.Tugas Akhir Strata-1. Program Studi Oseanografi, ITB, Bandung
Mai, S., Ohle, N., and Zimmermann, C., Applicability of wave model in shallow coastal water, Proceedings of the 5 th International Conference on Coastal and Port Engineering in Developing Countries, Cape Town, South Africa, 2000.
Sandhyavitri, Ari., Sutikno Sigit., Yamamoto Koichi., Haidar Muhammad., “Shoreline Change Analysis of Peat Soil Beach in Bengkalis Island Based on GIS and RS”, International Journal of Engineering and Technology, Vol. 9, No. 3, June 2017.
Thieler, E.R., Himmelstoss, E.A., Zichichi, J.L., and Ergul, Ayhan, 2009, Digital Shoreline Analysis System (DSAS) version 4.0-An ArcGIS extension for calculating shoreline change: U.S. Geological Survey Open-File Report 2008-1278. *current version 4.3
Triatmodjo, B., Teknik Pantai. Beta Offset. Jogjakarta, 1999.
Van, T. T., Binh T. T, 2009, Application of Remote Sensing for shoreline Change Detection in Cuu Long Estuary, Vietnam National University Journal of Science, Earth Science, 25 (2009) 217-222. Ho Chi Minh City.
