Landslide disasters frequently occur in Tasikmalaya Regency, with Salawu Village being at a medium to high ground movement vulnerability zone. Steep slopes and quite high rainfall dominate this area. This study aims to identify subsurface rock types and model the slip plane by applying the dipole-dipole configuration of the 2D geoelectrical method. The result can be used as a mitigation measure to minimize losses if a landslide disaster occurs. We measured the resistivity in five lines with spacing between electrodes of 5 m with a total length of 275 m. The data processing results indicate three classes of resistivity values: a resistivity value under 25 Ωm is interpreted as sandy clay, a value in the range of 20-105 Ωm as clayey/ tuffaceous sand, and a resistivity of more than 80 Ωm as volcanic breccia. The slip area is sandy clay with a slipping mass of clayey/ tuffaceous sand and volcanic breccia. Two of the surveyed lines have safety factor values less than 1.00 (the slope is approximately 40°, and the slip plane angle is between 33° and 35°), which means that the area has an unstable slope. The small safety factors should be a serious concern because landslides can occur at any time. Moreover, breccia rock is one of the landslide materials that would have a very destructive impact. To confirm the results of this study, in situ geomechanical tests are needed in this area.

Adi, A. W., Shalih, O., Shabrina, F. Z., Rizqi, A., Putra, A. S., Karimah, R., Eveline, F., Alfian, A., Syauqi, Septian, R. T., Widiastomo, Y., Bagaskoro, Y., Dewi, A. N., Rahmawati, I., Seniarwan, Suryaningrum, H. A., Purnamasiwi, D. I., & Puspasari, T. J. (2023). IRBI Indeks Risiko Bencana Indonesia Tahun 2022 (R. Yunus, Ed.; Vol. 01). Badan Nasional Penanggulangan Bencana.

Akingboye, A. S., & Ogunyele, A. C. (2019). Insight into seismic refraction and electrical resistivity tomography techniques in subsurface investigations. Rudarsko Geolosko Naftni Zbornik,34(1),

–111.https://doi.org/10.17794/rgn.2019.1.9

Al-Oufi, A., Al-Malabeh, A., & Al-Tarazi, E. (2012). Characterization of Lava Caves, Using 2D Induced Polarization Imaging, Umm Al Quttein

area, NE Jordan. 15th International Symposium on Vucanospeleology,

–83. https://www.researchgate.net/publication/310599706

Analisa global. (2021). Longsor di Salawu, Putus Akses Jalan Penghubung Desa Sundawenang dan Desa Jahiang. Analisa Global. https://www.analisaglobal.com/longsor-di-salawu-putus-akses-jalan-penghubung-desa-sundawenangdan-desa-jahiang/

Antosia, R. M. (2023a). The simple way to build a geoelectrical instrument. ARPN Journal of Engineering and Applied

Sciences, 18(04), 369–380. https://doi.org/10.59018/022357

Antosia, R. M., Akbar, H. H., Santoso, N. A., Putri, I. A., Farishi, B. Al, & Natalia, H. C. (2023b). Beneath the Surface: Identifying

Subsurface Caves in “Gua Pandan” Using Integrated Electrical Profiling Method. POSITRON, 13(1), 31–40. https://doi.org/10.26418/positron.v13i1.63558

Antosia, R. M., Akbar, H. H., Santoso, N. A., Putri, I. A., Farishi, B. A., & Natalia, H. C. (2023c). Underground-caves connectedness preview using the geoelectrical profiling method as an effort to revive natural tourism in “Gua Pandan,” East Lampung Regency. IOP Conference Series: Earth and Environmental Science, 1173(1). https://doi.

org/10.1088/1755-1315/1173/1/012072

Antosia, R. M., & Ramdan, M. (2023d). A Combined Method of 1D and 2D Resistivity for Groundwater Layer Estimation at a Farming Area in

Rejomulyo Village. SPEKTRA: Jurnal Fisika Dan Aplikasinya, 8(1), 43–54. https://doi.org/10.21009/SPEKTRA

Arifin, M. H., Kayode, J. S., Izwan, M. K., Zaid, H. A. H., & Hussin, H. (2019). Data for the potential gold mineralization mapping with the applications of Electrical Resistivity Imaging and Induced Polarization geophysical surveys. Data in Brief, 22, 830–835. https://doi.org/10.1016/j.dib.2018.12.086

Azwar, H. A. (2017). Longsor Tasikmalaya Timpa Rumah, 2 Orang Meninggal Dunia. Portal Berita InfoPublik. https://

infopublik.id/read/225300/index.html

Budhitrisna, T. (2010). Peta Geologi Lembar Tasikmalaya (Edisi ketiga). Pusat Survei Geologi.

Cozzolino, M., Mauriello, P., & Patella, D. (2022). The Extended Data-Adaptive Probability-Based Electrical Resistivity Tomography Inversion Method (E-PERTI) for the Characterization of the Buried Ditch of the Ancient Egnazia (Puglia, Italy). Applied Sciences (Switzerland), 12(5). https://doi.org/10.3390/app12052690

Dahlin, T., & Zhou, B. (2004). A numerical comparison of 2D resistivity imaging with 10 electrode arrays. Geophysical Prospecting, 52(5), 379–398. https://doi.org/10.1111/j.1365-2478.2004.00423.x

Darsono, D., Nurlaksito, B., & Legowo, B. (2012). Identifikasi Bidang Gelincir Pemicu Bencana Tanah Longsor Dengan Metode Resistivitas 2 Dimensi Di Desa Pablengan Kecamatan Matesih Kabupaten Karanganyar. Indonesian Journal of Applied Physics, 2(02), 51–60.

Dentith, M., & Mudge, S. (2014). Geophysics for the Mineral Exploration Geoscientist. Cambridge University Press.

Dewi, K. K., Utama, W., & Rochman, J. P. G. N. (2017). Pemetaan Zona Korosivitas Tanah Berdasarkan Nilai Chargeability Menggunakan Metode Time Domain Induced Polarization Konfigurasi Dipole-Dipole Studi Kasus PT. IPMOMI. Jurnal Geosaintek, 3(2), 137–142. https://doi.org/10.12962/j25023659.v3i2.2971

Djakamihardja, A. S. (2008). Geotechnical Investigation of Land Movement on Roadway at KM 23, Citatah Area, West Java Province. Jurnal RISET Geologi Dan Pertambangan, 18(2), 41–50. https://doi.org/10.14203/risetgeotam2008.v18.15

Fatimah, F., Rizqi, A. H. F., & Yudhana, W. M. B. (2021). Aquifer Mapping Based on Stratigraphic and Geoelectrical Data Analysis in Bedoyo Region, Gunung Kidul Regency, Yogyakarta Special Region. RISET Geologi Dan Pertambangan, 31(1), 13–26. https://doi.org/10.14203/risetgeotam2021.v31.1137

Harja, A., Aprilia, B. A., Susanto, K., & Fitriani, D. (2023). Identifikasi Zona Akuifer Menggunakan Metode Resistivitas-DC di Daerah Kipas Lava Pegunungan Malabar Kabupaten Bandung Jawa-Barat. Jurnal Ilmu Dan Inovasi Fisika, 7(1), 49–57. https://doi.org/10.24198/jiif.v7i1.43216

Kompas. (2011). Gerakan Tanah Berpotensi Terjadi. Kompas Gramedia Digital Group. https://nasional.kompas.com/rea d/2011/08/19/12231191/~Regional~Jawa

Miranti, S. A. (2022). Ada 374 Bencana di Kabupaten Tasikmalaya selama 2022, Didominasi Tanah Longsor - Tribunjabar.id. Tribun Jabar. https://jabar.tribunnews.com/2022/12/29/ada-374-bencana-di-kabupaten-tasikmalaya-selama2022-didominasi-tanah-longsor

Muslim, I. W. (2019). 6 Rumah dan Satu Masjid di Tasik Terancam Longsor. Ayo Bandung. https://www.ayobandung.

com/regional/amp/pr-79647746/6

Putra, M. H. Z., Kartiko, R. D., Soemantidiredja, P., Sadisun, I. A., & Tohari, A. (2020). Pengaruh Zona Jenuh Air Terhadap Kestabilan Lereng di Weninggalih, Kabupaten Bandung Barat. RISET Geologi Dan Pertambangan, 30(1), 119–130.

https://doi.org/10.14203/risetgeotam2020.v30.1086

Rachmawati, S. K., Sudrajat, Y., Handayani, L., & Wardhana, D. D. (2021). Metode Geolistrik Konfigurasi Dipole-Dipole Untuk Penetapan Bidang Gelincir Gerakan Tanah di Jajaway, Palabuhanratu, Sukabumi. Jurnal Lingkungan Dan Bencana Geologi, 12(1). https://doi.org/10.34126/jlbg.v12i1.354

Reynolds, J. M. (2011). An Introduction to Applied and Environmental Geophysics (2nd Edition). John Wiley & Sons, Ltd.

www.wiley.com/go/reynolds/introduction2e

Sarah, D., & Daryono, M. R. (2012). Engineering Geological Investigation of Slow Moving Landslide in Jahiyang Village, Salawu, Tasikmalaya Regency. Indonesian Journal of Geology, 7(1), 27–38.

Sivakugan, N., Shukla, S. K., & Das, B. M. (2013). Rock Mechanics An Introduction. CRC Press.

Stevanato, R., Ferreira, F. J. F., Canata, R. E., Mlenek, D. C., Leite, A. A., & Neto, D. N. (2019). Resistivity and induced polarization applied to “Buraco do Inferno” Cave, São Desidério, State of Bahia, Brazil. Sixteenth International Congress of the Brazilian Geophysical Society, 1–5. https://doi.org/10.22564/16cisbgf2019.270

Taufiqurrohman, R., Nugraha, D. M., & Bahri, A. S. (2017). Aplikasi Geolistrik 2D untuk Identifikasi Bidang Gelincir Studi Kasus Daerah Lereng Nglajo, Cepu. Jurnal Geosaintek, 3(3), 155–160. https://doi.org/10.12962/j25023659.v3i3.3213

Van Bemmelen, R. W. (1949). The Geology of Indonesia (Vol. 1A). Government Printing Office.

Vargemezis, G., Fikos, I., & Tsourlos, P. I. (2015). Application of Electrical Resistivity Tomography Method to the Mapping of Explored Caves and Detection of Possible New Chambers: Case Studies from Greece. 8th Congress of the Balkan Geophysical Society, BGS 2015. https://doi.org/10.3997/2214-4609.201414132

Wakhidah, N., Khumaedi, & Dwijananti, P. (2014). Identifikasi Pergerakan Tanah Dengan Aplikasi Metode Geolistrik Konfigurasi Wenner-Schlumberger Di Deliksari Gunungpati Semarang. Unnes Physics Journal, 3(1), 1–6.

Widodo, A., & Irawan, P. (2019). Eksplorasi Air Tanah di Kampus Universitas Siliwangi dalam Rangka Pengelolaan Sumber Daya Air Berkelanjutan. Jurnal Siliwangi, 5(2), 56–63.

Yuniardi, Y., Hendarmawan, H., Abdurrokhim, A., Isnaniawardhani, V., Mohammad, F., Alfadli, M. K., & Ridwan, P. (2019). Pendugaan Akifer Airtanah dengan Metode Geolistrik Konfigurasi Schlumberger di Lereng Utara Gunungapi Tangkubanparahu. RISET Geologi Dan

Pertambangan, 29(2), 239–253. https://doi.org/10.14203/risetgeotam2019.v29.1051