Currently, the weather in Indonesia has been greatly affected by climate change. This is evidenced by extreme weather events in early 2020 which are predicted to occur more frequently in Indonesia. Bad weather in the form of high rainfall will potentially cause hydrometeorological disasters such as floods and landslides. To anticipate the occurrence of landslides that have the potential to disrupt regional development, it is important to conduct research to map landslide-prone areas in the province of West Kalimantan. This research is in line with UNTAN's strategic research plan to contribute to disaster management and climate change. This research combines overlay and measurement methods with geoelectric methods. The overlay method is used as a method to map landslide susceptibility based on scoring calculations from land parameters. The mapping is expected to produce a map of the landslide-prone zone which can then be studied further. Assessment of landslide potential through slip plane analysis using resistivity geoelectric method. From the mapping and direct observation, it is proved that the high landslide susceptibility values correlate with the landslide occurrence in Sabang Merah, Sanggau. Based on the resistivity measurement there found the potential landslide slip surface that is connected with the dip of rock layers in the area.

climate change; disaster, landslide; mapping; overlay method; resistivity method

Aisyah, M., Utama, W., & Lestari, W. (2017). Analisis Daerah Rawan Bencana Tanah Longsor Berdasarkan Zona Water Content di Desa Olak Alen Kecamatan Selorejo, Blitar. Jurnal Geosaintek, 3(2), 83. https://doi.org/10.12962/j25023659.v3i2.2961

Dentith, M., & Mudge, S. (2014). Geophysics for the mineral exploration geoscientist. In AusIMM Bulletin (Issue 6). https://doi.org/10.1017/cbo9781139024358

Kompas.com. (2020). BMKG Sebut Indonesia Sedang Alami Fenomena Cuaca Ekstrem, Kok Bisa? Kompas. https://sains.kompas.com/read/2020/02/26/070100823/bmkg-sebut-indonesia-sedang-alami-fenomena-cuaca-ekstrem-kok-bisa

Kompas.com. (2021). 7 Faktor Pemicu Cuaca Ekstrem Berisiko Bencana di Wilayah Indonesia. Kompas. https://www.kompas.com/sains/read/2021/01/25/162600823/7-faktor-pemicu-cuaca-ekstrem-berisiko-bencana-di-wilayah-indonesia

Milsom, J. (2003). Field Geophysics, 3rd ed. In The geological field guide series. http://www.deu.edu.tr/userweb/emre.timur/dosyalar/Field Geophysics - John Milsom.pdf

Mubekti, & Alhasanah, F. (2008). Mitigasi Daerah Rawan Tanah Longsor Menggunakan Teknik Pemodelan Sistem Informasi Geografis. J. Tek.Ling, 9(2), 121–129.

Muhardi, M., & Wahyudi, W. (2020). Prediksi Tipe Longsor di Desa Clapar Menggunakan Metode Geolistrik Resistivitas Konfigurasi Dipol-dipol. Jurnal Lingkungan Dan Bencana Geologi, 11(2), 115–123. https://doi.org/10.34126/jlbg.v11i2.290

Muttaqin, M. (2020). Identifikasi Pengaruh Air Tanah Terhadap Tingkat Kerawanan Longsor Dengan Metode Geolistrik Konfigurasi Schlumberger (Studi Kasus: Desa Daulu, Kecamatan Berastagi, Kabupaten Karo) [Universitas Sumatera Utara]. http://repositori.usu.ac.id/handle/123456789/30173

Nasiah, & Invanni, I. (2014). Upaya Penanggulangan Bencana di Kabupaten Sinjai Identification of Areas Prone to Landslides as Disarter Management Effors in Sinjai Regency. Jurnal Sainsmat, III(2), 109–121.

Rahmad, R., Suib, S., & Nurman, A. (2018). Aplikasi SIG Untuk Pemetaan Tingkat Ancaman Longsor Di Kecamatan Sibolangit, Kabupaten Deli Serdang, Sumatera Utara. Majalah Geografi Indonesia, 32(1), 1. https://doi.org/10.22146/mgi.31882

Suntoko, H., & Soetopo, B. (2013). Kajian Aspek Geologi Dan Potensi Mineral Uranium Di Kalimantan Barat Untuk Persiapan Pltn. Jurnal Pengembangan Energi Nuklir, 15(2), 103–114. http://download.portalgaruda.org/article.php?article=260219&val=4551&title=KAJIAN ASPEK GEOLOGI DAN POTENSI MINERAL URANIUM DI KALIMANTAN BARAT UNTUK PERSIAPAN PLTN

Supriatna, S., Margono, U., Sutrisno, Pieters, P. E., & Langford, R. P. (1993). Peta Geologi Lembar Sanggau, Kalimantan. Pusat Penelitian dan Pengembangan Geologi.

Telford, W. M., Geldart, L. P., & Sherrif, R. E. (1990). Applied Geophysics (2nd ed.). Cambridge University Press.

Turner, A. K., & Schuster, R. L. (1996). Landslide Investigation and Mitigation. National Academy Press.

Yassar, M. F., Nurul, M., Nadhifah, N., Sekarsari, N. F., Dewi, R., Buana, R., Fernandez, S. N., & Rahmadhita, K. A. (2020). Penerapan Weighted Overlay Pada Pemetaan Tingkat Probabilitas Zona Rawan Longsor di Kabupaten Sumedang, Jawa Barat. Jurnal Geosains Dan Remote Sensing, 1(1), 1–10. https://doi.org/10.23960/jgrs.2020.v1i1.13