Identifikasi Zona Lemah Tanggul Daerah Aliran Sungai (DAS) Bumang Desa Kemuja Menggunakan Metode Geolistrik Resistivitas Konfigurasi Wenner

Penulis

  • Dea Amelia Program Studi Fisika, Universitas Bangka Belitung
  • Yekti Widyaningrum Program Studi Fisika, Universitas Bangka Belitung
  • Anisa Indriawati Program Studi Fisika, Universitas Bangka Belitung

DOI:

https://doi.org/10.33019/jrfi.v5i1.4940

Kata Kunci:

watershed embankment, wenner configuration, 2D model, weak zone

Abstrak

The Bumang Watershed serves as a drainage system originating from the Bumang Reservoir in Kemuja Village, Bangka Regency, designed to regulate water flow and prevent flooding in the surrounding rice fields. Since the construction of the Bumang Watershed embankment, structural damage has been observed, particularly in the upper section. The primary cause of this damage is underground erosion, which has weakened the embankment foundation, creating zones of structural vulnerability. To identify these weak zones, the Wenner configuration resistivity geoelectric method was employed due to its superior sensitivity to lateral variations in subsurface conditions. Field data acquisition was conducted using four traverses with varying electrode lengths and spacings. The 2D resistivity cross-section analysis revealed the presence of weak zones on tracks 1, 2, and 3. Specifically, on track 1, weak zones were detected at depths of 2.50–3.19 m and 1.30–3.19 m; on track 2, at depths of 0–2 m; and on track 3, at depths of 0–7 m, 2–4.50 m, and 0–4 m, respectively. These findings provide crucial insights into the structural integrity of the embankment and highlight the need for further assessment and potential reinforcement measures.

Referensi

[1] Trisnawati, D., Suhesti & Hidajat, W.K., 2019. Kajian Kekuatan Tanah dan Kestabilan Tubuh Tanggul Pada Rencana Tanggul Wedok Lumpur Sidoarjo, Kecamatan Porong, Kabupaten Sidoarjo, Provinsi Jawa Timur. Jurnal Geosains dan Teknologi, 2(3), pp.117-25.
[2] Aitsebaomo, F.O., Adeyemi, O.A. & Quadri, a.H.A., 2013. Electromagnetic Survey of Erosion in Awba, Ibadan, Nigeria Embankment Dam. International Journal Of Engineering And Science, 3(3), pp.1-5.
[3] Yudiana, R., Alaydrus, A.T. & Minardi, S., 2020. Korelasi Hambatan Jenis dan Hambatan Konus untuk Identifikasi Zona Lemah Di Desa Sekotong Barat, Kecamatan Sekotong, Kabupaten Lombok Barat. Jurnal Penelitian dan Pembelajaran Fisika Indonesia, 2(2), pp.38-44.
[4] Kusuma, W.B., 2017. Penggunaan Metode Resistivity Dalam Pemantauan Tanah Urugan. Jurnal Swara Patra: Majalah Ilmiah PPSDM Migas, 7(1), pp.74-87.
[5] Reynolds, J.M., 2011. An Introduction to Applied and Environmental Geophysics. 2nd ed. UK: John Wiley & Sons, Ltd.
[6] Telford, W. M., Geldart, L. P., & Sheriff, R. 1990. Applied Geophysics Second Edition. New York: Cambridge University Press.
[7] Pramono, M.E., Ramadani, B. & Rafsanjani, R., 2017. Identifikasi Lapisan Bawah Permukaan Tanah Gedung MIPA Tower dengan Metode Resistivitas Konfigurasi Wenner. Jurnal Fisika Laboratorium, pp.1-7.
[8] Murwiyanti, T., Sehah & Raharjo, S.A., 2020. Identifikasi zona lemah pada ruas jalan utama Ajibarang – Gumelar kabupaten Banyumas menggunakan metode geolistrik resistivitas. Jurnal Teras Fisika, 3(1), pp.130-37.
[9] Mangga, S. A. & Djamal, B., 1994. Peta Geologi Lembar Bangka Utara, Sumatera. Bandung: Pusat Penelitian dan Pengembangan Geologi.

Unduhan

Diterbitkan

2024-12-24

Terbitan

Vol 5 No 1 (2024): Desember 2024

Bagian

Articles

Cara Mengutip

[1]
“Identifikasi Zona Lemah Tanggul Daerah Aliran Sungai (DAS) Bumang Desa Kemuja Menggunakan Metode Geolistrik Resistivitas Konfigurasi Wenner”, JRFI, vol. 5, no. 1, pp. 29–37, Dec. 2024, doi: 10.33019/jrfi.v5i1.4940.