ABSTRACT

Landslide, one of the physical environmental disasters, can be defined as the movement of rock mass, soil, or shredded material that forms a slope down the slope Kulon Progo Regency has always been a landslide-prone area that most often occurs in the Special Region of Yogyakarta in the last three years. One way to reduce the risk of hazards is by mapping the hazard assessment of mass movement disasters. The purpose of this study is to determine the zone of vulnerability to landslides in the Serang watershed, Kulon Progo. The method used is heuristic, where the assessment of the potential for ground motion is based on a geomorphological approach with a weighting analysis of each parameter. The parameters used are slope, rock type, geological structure (distance to fault), land use, and landslide event distribution. Each parameter is assigned a value and a weight variable based on the factors that most influence slope safety. They are then calculated in a linear variable manner, resulting in an index value for soil movement vulnerability. The index value is grouped spatially into four (4) hazards with equal interval class division, very low hazard with an area of 95.927 km2 (46%); low hazard with an area of 72.019 km² (34%); moderate hazard with an area of 38,560 km2 (18%); and very high hazard with an area of 1,955 km2 (0.01%). Based on the spatial analysis, the distribution of the existing landslide events are increasing correlatively with the higher the hazard zone.

Key words: heuristics; landslides; mass movement; watershed; vulnerability


ABSTRAK
Bencana tanah longsor dapat didefinisikan sebagai pergerakan massa batuan, tanah atau material yang membentuk lereng menuruni lereng merupakan salah satu bencana lingkungan fisik. Dari dulu Kabupaten Kulon Progo merupakan daerah rawan longsor yang paling sering terjadi di Daerah Istimewa Yogyakarta dalam kurun waktu tiga tahun terakhir. Upaya mengurangi resiko bencana bahaya gerakan tanah salah satunya adalah dengan pemetaan penilaian kerawanan bencana gerakan tanah. Tujuan dari penelitian ini adalah menentukan zona kerawanan bencana gerakan tanah (longsor) di DAS Serang Kulon Progo. Metode yang digunakan adalah metode heuristik yaitu penilaian potensi gerakan tanah didasarkan pendekatan geomorfologi (proses yang mempengaruhi bentuk lahan) dengan analisis pembobotan setiap parameter. Parameter yang digunakan adalah kemiringan lereng, jenis batuan, struktur geologi (jarak terhadap sesar), penggunaan lahan, dan distribusi kejadian longsor. Setiap parameter diberi nilai dan bobot, didasarkan atas faktor yang paling mempengaruhi faktor keamanan lereng. Hasil penilaian tersebut kemudian dihitung secara linier variable, sehingga diperoleh nilai indek kerawanan gerakan tanah. Nilai indek tersebut dianalisis secara keruangan (spasial) menjadi empat (4) kerawanan dengan pembagian kelas secara equal interval, yaitu kerawanan sangat rendah dengan luas 95,927 km² (46%), kerawanan rendah dengan luas 72,019 km² (34%), kerawanan menengah dengan luas 38,560 km² (18%) dan kerawanan sangat tinggi dengan luas 1,955 km² (0,01%). Berdasarkan analisis keruangan diketahui bahwa distribusi kejadian gerakan tanah (longsor) eksisting semakin meningkat berkorelasi dengan zona kerawanan semakin tinggi.

Kata kunci: daerah aliran sungai, gerakan tanah, heuristik, kerawanan, longsor

Ahmad, Asmita, Christianto Lopulisa, A. .. Imran, and Sumbangan Baja. 2018. “Mineral Tanah Sebagai Indikator Stabilitas Tanah Pada Daerah Berlereng: Studi Kasus Tombolopao Kabupaten Gowa.” Jurnal Ecosolum 7(1):33. doi: 10.20956/ecosolum.v7i1.5214.

Arata, Yohei, Takashi Gomi, and Roy C. Sidle. 2020. “Topographic Features and Stratified Soil Characteristics of a Hillslope with Fissures Formed by the 2016 Kumamoto Earthquake.” Geoderma 376(July). doi: 10.1016/j.geoderma.2020.114547.

Asep Mulyono, Prahara Iqbal. 2015. “Karakteristik Fisik Tanah Longsorang Di Jalur Transek Liwa-Bukit Kemuning Lampung Barat.” Jurnal Lingkungan Dan Bencana Geologi 6(1):9–18. doi: http://dx.doi.org/10.34126/jlbg.v6i1.72.

BIG. 2018a. Rupa Bumi Indonesia: Vegetasi Kabupaten Kulon Progo. Cibinong, Inonesia: Badan Informasi Geospasial (BIG).

BIG. 2018b. Rupa Bumi Indonesia: Vegetasi Kabupaten Purworejo. Cibinong, Inonesia: Badan Informasi Geospasial (BIG).

BPBD. 2019. Laporan Kinerja Instansi Pemerintah Tahun 2019. Kulon Progo, Yogyakarta: Badan Penanggulangan Bencanan Daerah.

BPBD. 2020. Infografis Daerah Istimewa Yogyakarta Tahunan 2020.

Yogyakarta, Indonesia: Badan Penanggulangan Bencanan Daerah.

BSN. 2016. Standar Nasional Indonesia (SNI) 8291:2016 Tentang Penyusunan Dan Penentuan Zona Kerentanan Gerakan Tanah. Jakarta, Indonesia: Badan Standardisasi Nasional (BSN).

Chikalamo, Elias E., Olga C. Mavrouli, Janneke Ettema, Cees J. van Westen, Agus S. Muntohar, and Akhyar Mustofa. 2020. “Satellite-Derived Rainfall Thresholds for Landslide Early Warning in Bogowonto Catchment, Central Java, Indonesia.” International Journal of Applied Earth Observation and Geoinformation 89(March):102093. doi: 10.1016/j.jag.2020.102093.

Collico, Stefano, Marcos Arroyo, Roger Urgeles, Eulàlia Gràcia, Marcelo Devincenzi, and Norma Peréz. 2020. “Probabilistic Mapping of Earthquake-Induced Submarine Landslide Susceptibility in the South-West Iberian Margin.” Marine Geology 429(July). doi: 10.1016/j.margeo.2020.106296.

DPU. 2007. Peraturan Menteri Pekerjaan Umum Nomor 22/PRT/M/2007 Tentang Pedoman Kawasan Rawan Bencana Longsor. Jakarta, Indonesia: Departemen Pekerjaan Umum (DPU).

Elmoulat, Meryem, Olivier Debauche, Saïd Mahmoudi, Sidi Ahmed Mahmoudi, Pierre Manneback, and Frédéric Lebeau. 2020. “Edge Computing and Artificial Intelligence for Landslides Monitoring.” Procedia Computer Science 177:480–87. doi: 10.1016/j.procs.2020.10.066.

Enrique, M., and P. R. Milagros. 2017. Practical Decision Making: An Introduction to the Analytic Hierarchy Process (AHP) Using Super Decisions. Springer International Publishing: Springer Briefs in Operations Research.

Febriarta, Erik, Afrinia Lisditya Permatasari, and Ika Afianita Suherningtyas. 2020. Modul 01 Penilaian & Penentuan Zona Kerentanan Gerakan Tanah (Longsor) Pendekatan Analytical Hierarchy Process (AHP). Yogyakarta, Indonesia: Fakultas Sains dan Teknologi Universitas AMIKOM Yogyakarta.

Febriarta, Erik, and Yunus Aris Wibowo. 2021. “Kerentanan Gerakan Tanah Menggunakan Teknik Geospasial Statistik Di Macang Pacar, Nusa Tenggara Timur.” Jurnal Geografi 18(1):9–20. doi: https://doi.org/10.15294/jg.v18i1.26234.

Kamp, U., B. Growley, and G. Khattak. 2008. “GIS-Based Landslide Susceptibility Mapping for the 2005 Kashmir Earthquake Region.” Geomorphology 101(4):631–42.

KESDM. 2018. Geologi. Jakarta, Indonesia: Kementerian Energi dan Sumber Daya Mineral.

KLHK. 2018. Klasifikasi Daerah Aliran Sungai (DAS). Kementerian Lingkungan Hidup dan Kehutanan (KLHK).

Lin, Changsheng, and Gang Kou. 2021. “A Heuristic Method to Rank the Alternatives in the AHP Synthesis.” Applied Soft Computing 100:106916. doi: 10.1016/j.asoc.2020.106916.

Lombardo, Luigi, and Hakan Tanyas. 2020. “Chrono-Validation of near-Real-Time Landslide Susceptibility Models via Plug-in Statistical Simulations.” Engineering Geology 278(August). doi: 10.1016/j.enggeo.2020.105818.

Lombardo, Luigi, Hakan Tanyas, and Ionut Cristi Nicu. 2020. “Spatial Modeling of Multi-Hazard Threat to Cultural Heritage Sites.” Engineering Geology 277(July). doi: 10.1016/j.enggeo.2020.105776.

Lu, Yan, Hongwen Xu, Yuexiang Wang, and Yang Yang. 2017. “Evaluation of Water Environmental Carrying Capacity of City in Huaihe River Basin Based on the AHP Method: A Case in Huai’an City.” Water Resources and Industry 18(October):71–77. doi: 10.1016/j.wri.2017.10.001.

Martin, Klose. 2015. Landslide Databases as Tools for Integrated Assessment of Landslide Risk. Springer.

Menhut. 2011. Keputusan Menteri Kehutanan Republik Indonesia Nomor SK.11/Menhut-V/2011 Tentang Penetapan Peta Daerah Aliran Sungai. Jakarta, Indonesia: Menteri Kehutanan, Repulik Indonesia.

Miyagi, T. 2018. Landslide Dynamic Volume 1: Fundamental, Maping and Monitoring, Landslide Mapping Through Thr Interpretation Od Aerial Photographs. Switzerland: Springer.

Murali, R. Mani, Ankita M., and Vethamony P. 2018. “A New Insight to Vulnerability of Central Odisha Coast, India Using Analytical Hierarchical Process (AHP) Based Approach.” Journal of Coastal Conservation 22(4):799–819. doi: 10.1007/s11852-018-0610-4.

PerkaBNPB. 2012. Peraturan Kepala Badan Nasional Penanggulangan Bencana No.02 Tahun 2012 Tentang Pedoman Umum Pengkajian Risiko Bencana. Jakarta, Indonesia: Kepala Badan Nasional Penanggulangan Bencana.

PerKaBNPB. 2012. Pedoman Umum Pengkajian Risiko Bencana Nomor 02 Tahun 2012. Jakarta, Indonesia: Badan Nasional Penganggulangan Bencana (BNPB).

Pitaloka, I., A. Suprayogi, and A. Nugraha. 2018. “Identifikasi Daerah Rawan Longsor Dengan Menggunakan Metode Smorph Dan Sig (Studi Kasus : Kecamatan Semarang Barat).” Jurnal Geodesi Undip 7(4):176–84.

Pourghasemi, Hamid Reza, Narges Kariminejad, Amiya Gayen, and Marko Komac. 2020. “Statistical Functions Used for Spatial Modelling Due to Assessment of Landslide Distribution and Landscape-Interaction Factors in Iran.” Geoscience Frontiers 11(4):1257–69. doi: 10.1016/j.gsf.2019.11.005.

Pradhan, Sarada Prasad, and Tariq Siddique. 2020. “Stability Assessment of Landslide-Prone Road Cut Rock Slopes in Himalayan Terrain: A Finite Element Method Based Approach.” Journal of Rock Mechanics and Geotechnical Engineering 12(1):59–73. doi: 10.1016/j.jrmge.2018.12.018.

Prasad Bhandari, Bharat, and Subodh Dhakal. 2021. “A Multidisciplinary Approach of Landslide Characterization: A Case of the Siwalik Zone of Nepal Himalaya.” Journal of Asian Earth Sciences: X 5:100061. doi: 10.1016/j.jaesx.2021.100061.

Priyono. 2015. “Hubungan Klasifikasi Longsor, Klasifikasi Tanah Rawan Longsor Dan Klasifikasi Tanah Pertanian Rawan Longsor.” GEMA 1(1):1602–16.

Raharjo, P. D., K. Widiyanto, S. Winduhutomo, and M. Al’Afif. 2019. “Peranan Geomorfologi Dalam Perencanaan Bangunan Zona Ancaman Longsor Tinggi Di Kawasan Geopark Karangsambung-Karangbolong Bagian Utara.” Jurnal Lingkungan Dan Bencana Geologi 10(3):139–48.

Raharjo, Puguh D., Kritiawan Widiyanto, Sueno Winduhutomo, and Mohammad Al’Afif. 2020. “Peranan Geomorfologi Dalam Perencanaan Bangunan Pada Zona Ancaman Longsor Tinggi Di Kawasan Geopark Karangsambung-Karangbolong Bagian Utara.” Jurnal Lingkungan Dan Bencana Geologi 10(3):139. doi: 10.34126/jlbg.v10i3.274.

Raharjo, Wartono, Sukandarrumidi, and H. M. D. Rosidi. 1995. Peta Geologi Lembar Yogyakarta. Bandung, Indonesia: Badan Geologi.

Rini, Rini, and Melloukay Ardan. 2018. “Analisa Nilai Kohesi Dan Sudut Geser Tanah Lempung Yang Distabilisasi Dengan Arang Kayu.” Journal of Civil Engineering, Building and Transportation 1(2):105. doi: 10.31289/jcebt.v1i2.1681.

Roma, T. I. S., D. Nemchinov, D. Martiyahin, A. Mikhailov, A. Kostsov, and M. Nemchinov. 2020. “A Fuzzy Methodology to Evaluate the Landslide Risk in Road Lifelines.” Transportation Research Procedia 45(2019):13–20.

Saaty, Thomas L. 2004. “Decision Making — the Analytic Hierarchy and Network Processes (AHP/ANP).” Journal of Systems Science and Systems Engineering 13(1):1–35. doi: 10.1007/s11518-006-0151-5.

Sassa, Kyoji, Fausto Guzzetti, Hiromitsu Yamagishi, Željko Arbanas, Nicola Casagli, Mauri McSaveney, and Khang Dang, eds. 2018. Landslide Dynamics: ISDR-ICL Landslide Interactive Teaching Tools. Cham: Springer International Publishing.

Setyaningrum, Agustina, and Erik Febriarta. 2019. “Analisis Kesesuaian Dan Daya Dukung Ekowisata Pantai Kategori Rekreasi Pantai Kuwaru Kabupaten Bantul Yogyakarta.” Seminar Nasional Pengelolaan Pesisir Dan Daerah Aliran Sungai Ke-5 5(March):36–41. doi: https://doi.org/10.17605/OSF.IO/82PTU.

Sharma, Hari Bhakta, Sagarika Panigrahi, Ajit K. Sarmah, and Brajesh K. Dubey. 2019. “Landslide Size Matters:A New Data-Driven, Spatial Prototype.” Science of the Total Environment 135907. doi: doi.org/10.1016/j.enggeo.2021.106288.

Steger, Stefan, Elmar Schmaltz, and Thomas Glade. 2020. “The (f)Utility to Account for Pre-Failure Topography in Data-Driven Landslide Susceptibility Modelling.” Geomorphology 354:107041. doi: 10.1016/J.GEOMORPH.2020.107041.

Sujit, Mandal, and Mondal Subrata. 2019. Geoinformatics and Modeling of Landslide Susceptibility and Risk, An RS and GIS Based Model Building Approach Inthe Eastern Himayala. Switzerland: Springer.

Syarafina, Akalili Zafirah, and Dyah Respati Suryo Sumunar. 2018. “TINGKAT DAN SEBARAN RISIKO BENCANA TANAH LONGSOR DI KECAMATAN WINDUSARI KABUPATEN MAGELANG.” Geomedia: Majalah Ilmiah Dan Informasi Kegeografian 15(2). doi: 10.21831/gm.v15i2.19559.

Tang, Chongjun, Yu Liu, Zhongwu Li, Liping Guo, Aizhen Xu, and Jiading Zhao. 2021. “Effectiveness of Vegetation Cover Pattern on Regulating Soil Erosion and Runoff Generation in Red Soil Environment, Southern China.” Ecological Indicators 129:107956. doi: 10.1016/J.ECOLIND.2021.107956.

Thanh Thi Pham, Nga, Duy Nong, Archana Raghavan Sathyan, and Matthias Garschagen. 2020. “Vulnerability Assessment of Households to Flash Floods and Landslides in the Poor Upland Regions of Vietnam.” Climate Risk Management 28(July 2019). doi: 10.1016/j.crm.2020.100215.

Tian, Pei, Zhanliang Zhu, Qimeng Yue, Yi He, Zhaoyi Zhang, Fanghua Hao, Wenzhao Guo, Lin Chen, and Muxing Liu. 2021. “Soil Erosion Assessment by RUSLE with Improved P Factor and Its Validation: Case Study on Mountainous and Hilly Areas of Hubei Province, China.” International Soil and Water Conservation Research 9(3):433–44. doi: 10.1016/J.ISWCR.2021.04.007.

Titisari, Anastasia Dewi, Hitznaiti Zaidini’ Khul Husna, Ilham Dharmawan Putra, and I. Gde Budi Indrawan. 2019. “Penentuan Zona Kerentanan Longsor Berdasarkan Karakteristik Geologi Dan Alterasi Batuan.” Jurnal Pengabdian Kepada Masyarakat (Indonesian Journal of Community Engagement) 4(2):141. doi: 10.22146/jpkm.35935.

Ugai, Keizo, Hiroshi Yagi, and Akihiko Wakai, eds. 2013. Earthquake-Induced Landslides. Berlin, Heidelberg: Springer Berlin Heidelberg.

Viaciago, G. 2013. Landslide Science Adn Practice, Volume 3, Spasial Analysisi Adn Modeling Geomechanical Basis of Lansdlide Classification and Modeling of Triggering. Berlin: Springer.

Watkins, Jessica A., Bethany L. Ehlmann, and An Yin. 2020. “Spatiotemporal Evolution, Mineralogical Composition, and Transport Mechanisms of Long-Runout Landslides in Valles Marineris, Mars.” Icarus 350(May). doi: 10.1016/j.icarus.2020.113836.

Yu, Ye, Changmin Zhang, Li Wang, Shaohua Li, Andrew Hursthouse, Yanran Huang, and Taotao Cao. 2021. “Sedimentary Characteristics and Genetic Mechanism of a Deep-Water Channel System in the Zhujiang Formation of Baiyun Sag, Pearl River Mouth Basin.” Deep Sea Research Part I: Oceanographic Research Papers 168:103456. doi: 10.1016/j.dsr.2020.103456.