MAPPING OF AGRICULTURAL LANDS IN FLOOD HAZARD AREAS IN HULU SUNGAI TENGAH REGENCY, SOUTH KALIMANTAN
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Nov 10, 2016
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Abstract
Floods are natural disasters that frequently hit several developed and developing countries including Indonesia every wet season. Floods also occur in agricultural lands. The purpose of this study was to map the agricultural lands in flood hazard areas in Hulu Sungai Tengah Regency, South Kalimantan Province. Data collecting methods used were field research and literature (library research). Data were analyzed using quantitative and qualitative approaches (mixed methods), with the techniques of scoring, SWOT, and spatial analysis (ArcView 3.2 software). Flood hazard levels of most areas in Hulu Sungai Tengah were categorized into no hazard (957.36 km2), low hazard (243.82 km2), medium hazard (455.01 km2), and high hazard (114.91 km2). The use of agricultural lands for rice fields in Hulu Sungai Tengah were located in all subdistricts and flood hazard areas.
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Salamiah, S., & Kumalawati, R. (2016). MAPPING OF AGRICULTURAL LANDS IN FLOOD HAZARD AREAS IN HULU SUNGAI TENGAH REGENCY, SOUTH KALIMANTAN. TROPICAL WETLAND JOURNAL, 2(3), 22 - 29. https://doi.org/10.20527/twj.v2i3.36
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TROPICAL WETLAND JOURNAL is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
References
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Zhang, N., Runquist, R., Schrock, M., Havlin, J., Kluitenburg, G., & Redulla, R. (1999). Making GIS a versatile analytical tool for research inprecision farming. Journal of Computers and Electronicsin Agriculture 22: 221 – 231.
Indradewa M. S. 2008. Potential and flood disaster relief efforts of wolowona, nangaba and Kaliputih Rivers in Ende Regency. Study Program of Environmental Science, Postgraduate Program of Sebelas Maret University Surakarta.
Indraprahasta, G. S. (2013). The potential of urban agriculture development in Jakarta. Journal of Procedia Environmental Sciences 17: 11-19. Beatly T. Green urbanism: Learning from European cities.
Indrianawati, D. & Hakim, A. M. (2013). Preparation of Database to Identify the Flood Prone Areas associated with Spatial Data Infrastructure Case Study: West Java Province. Journal of Itenas Engineer XVII (1). ©LPPM Itenas. ISSN: 1410-3125 January 2013.
Kumalawati, R. & Rijal, S.S. (2015). Evaluation of Regional Development of Settlements in the Areas of Flood Risk, Barabai District, Hulu Sungai Tengah Regency, South Kalimantan. Proceedings of the National Conference III. Built Environmental Innovation: "Restoration of Rural and City Settlement". Faculty of Civil Engineering and UII Planning. Yogyakarta.
Kumalawati, R. & Rijal, S.S. (2015). Evaluation Factors Causing Floods of Community Based in Flood Risk Areas, Barabai District, Hulu Sungai Tengah Regency, South Kalimantan. Proceedings of the National Seminar. Regional Independence in Disaster Mitigation Towards Sustainable Development. Surakarta: Postgraduate Program of PKLH FKIP, University of Sebelas Maret with the Association of Indonesian Disaster Experts.
Kumalawati, R. (2015). Population Profile Analysis to Evaluation of Regional Development of Settlements in Hulu Sungai Tengah Regency, South Kalimantan. Proceedings of the National Seminar and PIT IGI XVIII. UNJ: IGI Center, UNJ and BIG.
Kumalawati, R. (2015). The Influence of Land Use toward Flood Risk based on Community Perception in Barabai, Hulu Sungai Tengah Regency, South Kalimantan. Proceedings of International Seminar of Etnopedagogi based Education. Study Program of Social Education, FKIP UNLAM. Banjarmasin.
Kodoatie, R. J. & Sugiyanto (2002). Flood: Several Causes and its Control Method in Environmental Perspective. Student Book. ISBN. 9799483468, 9789799483461.
Kodoatie, R.J. & Sjarief, R. (2006). Integrated Disaster Management. Yarsif Watampone Publisher, Jakarta.
Kubelaborbir, H. & Yarangga, K. (2010). Agroecological Zone of Keerom Regency, Papua Province Based on Geographycal Information System Approach. Agricultural Journal 21 (1): 77-84.
Nuarsa, I.W. (2005). Self-Learning to Analyze Spatial Data with Arcview GIS 3.3 for Beginner. PT. Media Komputindo. Jakarta.
Nyerges, T. (2009). Gis and Society, University of Washington, Seattle, WA, USA.
Okoye, C.B & Ojeh, V.N. (2015). Mapping of Flood Prone Areas in Surulere, Lagos, Nigeria : A GIS Approach. Journal of Geographic Information System 7 (2015): 158-176. Published Online April 2015 in SciRes. Retrieved from http://www.scirp.org/journal/jgis http://dx.doi.org/10.4236/jgis.2015.72014
Purwandari, T., Pramono, H., Kingma, M. & Nanette, C. (2011). A GIS Modelling Approach for Flood Hazard Assessment in Part of Surakarta City, Indonesia. ISSN 0024-9521. Indonesian Journal of Geography 43 (1) (June 2011): 63-80.
Sakijege, T. (2013). Managing Flood Risks: Lesson From Keko Machungwa Informal Settelment in Dar Es Salaam, Tanzania. Indonesian Journal of Geography 45 (1) (June 2013): 1-14. ISSN 0024-9521.
Septriyadi, R. & Hamhaber, J. (2013). Hazard Assessment to Tidal Flood Inundation (Case Study Tegal Municipality). Indonesian Journal of Geography 45 (1) (June 2013): 24 – 37. ISSN 0024-9521.
Simao, A., Denshamd, J. & Haklay, P.M. (2009). Web-based GIS for collaborative planning and public participation: An application to the strategic planning of wind farm sites. Journal of Environmental Management 90: 2027 – 2040.
Tarigan, R. (2005). Area Development Planning. Bumi Aksara. Jakarta.
Tondobala, L. 2011. Understanding on Disaster Risk Areas and Observation toward Related Policies and Rules. Sabua Journal 3 (1) (Mei 2011): 58-63. ISSN 2085-7020. In Study Program of Area and City Planning, Major of Architecture, Engineering Faculty – University of Sam Ratulangi Manado.
UN-Habitat. (2009). Planning for Sustainable Cities, Global Report on Human Settlements, United Nations Human Settlements Programme. Earthscan. London.
Vatsavai, R.R., Shekhar, S., Burk, T.E. & Lime, S. (2006). Umn mapserver: A high performance, interoperable, and open source web mapping and geo-spatial analysis system. Geographic Information Science. pp. 400-417.
Washington D.C. Island Press (2000). Dao, H. G., Yang, Y., & Amararatne Y., (2005). GIS for land evaluation for shrimp farming in Haiphong of Vietnam. Journal of Ocean & Coastal Management 48: 51 – 63.
Widiarto, L.A., & Kingma, N. (2014). Agricultural Loss Caused by 2007 Sidoharjo’s Flood and its Houesehold Impacts. Indonesian Journal of Geography 46 (2) (December 2014): 156 - 166. ISSN 0024-9521.
Zhang, N., Runquist, R., Schrock, M., Havlin, J., Kluitenburg, G., & Redulla, R. (1999). Making GIS a versatile analytical tool for research inprecision farming. Journal of Computers and Electronicsin Agriculture 22: 221 – 231.