The Manggar Final Processing Site (TPA) is a TPA located in the city of Balikpapan by implementing a sanitary landfill system. In this system, the waste is piled up into a mountain so that leachate generated from the waste will enter the layers below the surface due to rainwater. To detect the presence or distribution of leachate below the surface, an investigation was carried out using the Self Potential (SP) Method. The results of the data processing obtained are isopotential maps. From this map, we can see the distribution of leachate based on the potential difference value. Based on the slicing data from the anomaly, the value of the potential difference between 31 mV and -50 mV is found, which is scattered towards the north. This can be indicated as a leachate anomaly.

Self-potential; Leachate; Isopotential; Anomaly

Dinas Lingkungan Hidup. (2016). Buku Saku Unit Pelaksana Teknis Daerah Tempat Pemrosesan Akhir Sampah Balikpapan. Balikpapan.

Hawwari, M. G. (2017). Kajian Pengelolaan Sampah di UPTD TPA Manggar Balikpapan. Surabaya.

Nyquist, J. E., & Corry, C. E. (2002). Self-potential: The ugly duckling of environmental geophysics. The Leading Edge, 21(5): 446-451.

Handoko, A. W., Darsono, D., & Darmanto, D. (2016). Aplikasi Metode Self Potential untuk Pemetaan Sebaran Lindi di Wilayah Tempat Pembuangan Akhir (TPA) Putri Cempo Surakarta. Indonesian Journal of Applied Physics, 6(01): 13-22.

Sari, R. N., & Afdal, A. (2017). Karakteristik Air Lindi (Leachate) di Tempat Pembuangan Akhir Sampah Air Dingin Kota Padang. Jurnal Fisika Unand, 6(1): 93-99.

Rosid, S., Romadoni, N., Koesnodo, K., & Nuridianto, P. (2011). Estimasi aliran air lindi tpa bantar gebang bekasi menggunakan metoda sp. Jurnal Fisika, 1(2): 54-59.

Kawada, Y., & Kasaya, T. (2018). Self-potential mapping using an autonomous underwater vehicle for the Sunrise deposit, Izu-Ogasawara arc, southern Japan. Earth, Planets and Space, 70: 1-15.

Purwanti, A. (2020). Pendugaan Sebaran Air Lindi Di Tempat Pembuangan Sampah (TPS) Desa Matang Seulimeng Menggunakan Metode Self-Potential. Journal Online of Physics, 6(1): 52-56.

Widiastuti, N., Nurhasanah, N., & Sampurno, J. (2017). Pendugaan Potensi Air Bawah Permukaan Menggunakan Metode Self Potential di Kelurahan Sungai Jawi Kota Pontianak. Prisma Fisika, 5(2): 61–67.

Susilo, A., Sunaryo, A. T., Fitriah, F., & Hasan, M. F. (2017). Identification of Underground River Flow in Karst Area Using Geoelectric and Self-Potential Methods in Druju Region, Southern Malang, Indonesia. International Journal of Applied Engineering Research, 12(21): 10731-10738.

Arisalwadi, M., Cahyani, R. S., Septiana, A. R., Rahmania, R., & Sastrawan, F. D. (2020). Aplikasi Metode Self-Potential untuk Pemetaan Bawah Permukaan di Area Kampus ITK. Indonesian Physical Review, 3(3): 124-131.

Boimau, Y. (2018). Identifikasi Sungai Bawah Tanah pada Kawasan Karst Berdasarkan Data Geolistrik Self Potential dan Resistivitas di Desa Sumber Bening, Kecamatan Bantur, Malang Selatan.

Voytek, E. B., Barnard, H. R., Jougnot, D., & Singha, K. (2019). Transpiration‐and precipitation‐induced subsurface water flow observed using the self‐potential method. Hydrological Processes, 33(13): 1784-1801.

Samudra, B. T., & Warnana, D. D. (2017). Pemodelan Numerik Data Potensial Diri (Self Potential). Jurnal Geosaintek, 3(1): 59-64.

Hasan, M. F. R., & Susilo, A. Sunaryo (2018) Identification of underground river flow pattern using self potential (SP) and resistivity methods for drought mitigation at Druju, Sumbermanjing Wetan, Indonesia. Disaster Advances, 11(5): 25-31.

Thanh, L. D., Thai, N. C., Hung, N. M., Thang, N. C., & Huong, L. T. T. (2020). Self-Potential Method for Detection of Water Leakage Through Dams. Earth Sci. Malaysia, 4(2): 152-155.

Oktatriani, T., Arman, Y., & Sampurno, J. (2013). Pemodelan Zona Patahan Berdasarkan Anomali Self Potential (SP) Menggunakan Metode Monte Carlo Algoritma Metropolis. POSITRON, 3(2).

Reynolds, J. (1997). An Introduction to Applied and Environmental Geophysics. John Wiley & Sons.

Widiastuti, N., Nurhasanah, N., & Sampurno, J. (2017). Pendugaan Potensi Air Bawah Permukaan Menggunakan Metode Self Potential di Kelurahan Sungai Jawi Kota Pontianak. Prisma Fisika, 5(2).

Telford, W. M., Telford, W. M., Geldart, L. P., & Sheriff, R. E. (1990). Applied geophysics. Cambridge university press.

Guireli Netto, L., Malagutti Filho, W., & Gandolfo, O. C. B. (2020). Detection of seepage paths in small earth dams using the self-potential method (SP). REM-International Engineering Journal, 73: 303-310.

Vaidila, N., Supriyadi, S., & Linuwih, S. (2015). Penentuan Arah Fluida Panas Bawah Permukaan di Obyek Wisata Guci Menggunakan Metode Self Potential. Unnes Physics Journal, 4(2).

Nuha, D. Y. L. U., Maryanto, S., & Santoso, D. R. (2018). Penyelidikan Sistem Hidrotermal Daerah Cangar Komplek Arjuno-Welirang, Jawa Timur Dengan Menggunakan Metode Self Potential Dan Penginderaan Jauh. Universitas Brawijaya.

Hiskiawan, P. (2016). Agrogeofisika Metode Self Potential Guna Evaluasi Lahan Perkebunan Tebu. Jurnal Pendidikan Fisika dan Keilmuan (JPFK), 2(1): 36-47.

Sungkono, S., Wasilah, M. N., Widyaningrum, Y., Hidayatullah, W. M., Fathoni, F. A., & Husein, A. (2020). Self-potential method to assess embankment stability: a study related to the sidoarjo mud flow. Journal of Engineering and Technological Sciences, 52(5).

Giampaolo, V., Calabrese, D., & Rizzo, E. (2016). Transport processes in porous media by self-potential method. Applied and Environmental Soil Science, 2016.

Hasan, M., Shang, Y. J., Jin, W. J., & Akhter, G. (2019). Investigation of fractured rock aquifer in South China using electrical resistivity tomography and self-potential methods. Journal of Mountain Science, 16(4): 850-869.

Essa, K. S. (2019). A particle swarm optimization method for interpreting self-potential anomalies. Journal of Geophysics and Engineering, 16(2): 463-477.

Amalia, M., Utama, W., & Rochman, J. P. G. N. (2017). Pemetaan Lingkungan Korosi Bawah Permukaan Menggunakan Metode Self-Potensial Berdasarkan Native Potential pada Daerah Unit 7 Dan 8 PT. IPMOMI. Jurnal Geosaintek, 3(2): 131-136.

Nuha, D. Y. L. U., Maryanto, S., & Santoso, D. R. (2017). Determination of the Direction of Hot Fluid Flow in Cangar Area, Arjuno-Welirang Volcano Complex, East Java Using Self Potential Method. Jurnal Penelitian Fisika dan Aplikasinya (JPFA), 7(2): 123-132.

Vichabian, Y., & Morgan, F. D. (2002). Self potentials in cave detection. The Leading Edge, 21(9): 866-871.