Assesmen indek kerentanan pantai Kabupaten Rembang, Jawa Tengah

Sigit Bayhu Iryanthony, Budi Santoso, Pungki Hartanto


Indonesia is an archipelago country that has the longest coastline after Canada (UNCLOS). Rembang District is a coastal area in Northern Java, which has a very dynamic development because of its location of the capital city that located along the coastal area. The purpose of this study is to assess the degree of coastal vulnerability in Rembang District with the higher level of development. The CVI method (Coastal Vulnerability Index) of evisien sting is used to assess vulnerability. The coastal vulnerability is very low over 8 km, with a 15.4% of coastal length of Rembang District. Low vulnerability occurs in areas that are located in areas close to settlements area, with beaches already experiencing human intervention. The low category is about 12 km long, reaching 23.3% of the existing coastal length in Rembang District. The middle category is about 16 km, equivalent to 30.8% of shoreline. While the high category is about 10 km, equivalent to 19.2% of coastal length. The highest category has a length of 6 km, equivalent to 11.5% of the coastal area of Rembang district.


Rembang, CVI, Assessmen, SIG, Rembang, Indonesia


Addo, K. A. (2013). Assessing Coastal Vulnerability Index to Climate Change: the Case of Accra – Ghana. Journal of Coastal Research, 165(65), 1892–1897.

Ahammed, K. B., RS., M., & AC., P. (2016). Coastal Vulnerability Assessment for Eastern Coast of India , Andhra Pradesh by Using Geo- Spatial Technique Geostatistics : An Overview Coastal Vulnerability Assessment for Eastern Coast of India , Andhra Pradesh by Using Geo-Spatial Technique. Geoinformatics & Geostatistics, (June), 2–8.

Anisa, N., & Ariyani, E. (2017). Implementasi Kebijakan Konservasi Pengawetan dan Pemanfaatan Lestari Sumber Daya Alam Hayati dan Ekosistemnya di Taman Nasional Karimunjawa Implementation of Conservation Policy Prescription and Sustainable Use of Natural Resources and Ecosystems in the K, 14(123), 206–213.

Artese, G., Fiaschi, S., Martire, D. Di, Tessitore, S., Fabris, M., Achilli, V., … Spotlight, S. (2016). Monitoring Of Land Subsidence In Ravenna Municipality Using Integrated Sar - Gps Techniques : Description And First Results, XLI(July), 23–28.

Badan Pusat Statistik Kabupaten Rembang. (2016). Rembang dalam angka 2016 (pp. 1–278).

BagdanaviÄiute, I., KelpÅ¡aite, L., & Soomere, T. (2015). Multi-criteria evaluation approach to coastal vulnerability index development in micro-tidal low-lying areas. Ocean and Coastal Management, 104, 124–135.

Barros, J. L., Tavares, A. O., Santos, A., & Fonte, A. (2015). Territorial vulnerability assessment supporting risk managing coastal areas due to tsunami impact. Water (Switzerland), 7(9), 4971–4998.

Davies, W. T. R. (2012). Applying a Coastal Vulnerability Index (CVI) to the Westfjords, Iceland: a preliminary assessment, (June), 109.

Gornitz, V. (1991). Global coastal hazards from future sea level rise. Palaeogeography, Palaeoclimatology, Palaeoecology, 89(4), 379–398.

Gornitz, V. M., Daniels, R. C., White, T. W., & Birdwell, K. R. (1994). All use subject to JSTOR Terms and Conditions Development Assessment Database : Rise The of a Coastal Risk to Vulnerability in the U . S . Southeast. Coastal and Estuarine Research Federation, (12), 327–338.

hadi, P, S. (2016). In Search for Sustainable Coastal Management: A Case Study of Semarang, Indonesia. Journal of Physics: Conference Series, 755, 011001.

Hartoko, A. (2001). Pemetaan digital dan sumberdaya hayati wilayah pesisir Kabupaten Rembang.

Hsu, T.-W., Tseng, I.-F., & Lee, C.-P. (2006). A New Shape Function for Bar-Type Beach Profile. Journal of Coastal Research, 22(3), 728–736.

Lasabuda, R. (2013). Jurnal Ilmiah Platax Tinjauan Teoritis Dalam Perspektif Negara Kepulauan Republik Indonesia Regional Development in Coastal and Ocean in Archipelago Perspective of The Republic of Indonesia Jurnal Ilmiah Platax. Jurnal Ilmiah Platax, I, 92–101.

Lilik, K., Yunus, R., Muhammd, robi amir, & Narwawi, P. (2011). Indek Ks Rawa an Benc Cana in Ndones, 1–226.

Loinenak, F. A., Hartoko, A., & Muskananfola, M. R. (2015). Mapping of coastal vulnerability using the coastal vulnerability index and geographic information system. International Journal of Technology, 6(5), 819–827.

Pendleton, E. A., Barras, J. A., Williams, S. J., & Twichell, D. C. (2010). Coastal Vulnerability Assessment of the Northern Gulf of Mexico to Sea-Level Rise and Coastal Change, OFR 2010-1(July 2010). Retrieved from

Pendleton, E. a, Thieler, E. R., Williams, S. J., Report, U. S. G. S. O., & Beavers, R. (2004). Coastal Vulnerability Assessment of Padre Island National Seashore (PAIS) To Sea-Level Rise. U.S. Geological Survey Open-File Report 2004-1090, 1–23.

Pierce, K. A. (2013). Coastal Vulnerability Index ( CVI ) Assessment Suffolk County , New York, (Cvi), 5.

Sankari, T. S., Chandramouli, A. R., Gokul, K., Surya, S. S. M., & Saravanavel, J. (2015). Coastal Vulnerability Mapping Using Geospatial Technologies in Cuddalore-Pichavaram Coastal Tract, Tamil Nadu, India. Aquatic Procedia, 4(Icwrcoe), 412–418.

Setiady, D., & Usman, E. (2008). Majunya garis pantai yang diakibatkan oleh proses sedimentasi di sepanjang pantai perairan kabupaten rembang, 6(236), 146–153.

Setyawan, A. D. (2006). Conservation problems of mangrove ecosystem in coastal area of Rembang Regency, Central Java. Biodiversitas, Journal of Biological Diversity, 7(2), 159–163.

Thieler, E., & Hammar-Klose, E. (2000). National Assessment of Coastal Vulnerability to Sea-level Rise, Preliminary Results for the US Pacific Coast. US Geological Survey, 78(37), 1997.

Thieler, E. R., & Hammar-Klose, E. S. (1999). National Assessment of Coastal Vulnerability to Sea-Level Rise. Open-File Report 00-179, 99–593.

Undang - Undang No 43 tahun 2008. (2008). Undang-Undang Republik Indonesia Nomor 43 Tahun 2008 Tentang Wilayah Negara.


  • There are currently no refbacks.