Identification of Aquifer in the MIPA Faculty - University of Jember Using 1D Geoelectrical Resistivity Method with Schlumberger Array

Bayu Buwana; Nurul Priyantari; Supriyadi Supriyadi

doi:10.19184/jid.v21i2.13159

Bayu Buwana Jurusan Fisika, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Jember
Nurul Priyantari Jurusan Fisika, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Jember
Supriyadi Supriyadi Jurusan Fisika, Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Jember

DOI: https://doi.org/10.19184/jid.v21i2.13159

Abstract

Faculty of Mathematics and Natural Sciences University of Jember located in Sumbersari District with lithological conditions in the form of volcanic rocks, lithosol soils, and regosol soils that are capable of absorbing water and potentially as aquifers. In point of fact, in the campus zona of the University of Jember including in the Faculty of Mathematics and Natural Sciences, there is always a shortage of freshwater for various academic and non-academic activities. Therefore, research needs to be conducted to assess the lithology of subsurface structures in the FMIPA zone so that the depth of groundwater layers and aquifer layers can be determined. The study was conducted using the Schlumberger array geoelectric resistivity method at 5 VES points. The results obtained in the form of resistivity log curves can be seen that at the five points VES has lithology in the form of clay, gravel, sandstone, and groundwater layer. Each VES point was identified the groundwater layer and some of them were identified as aquifers. The aquifer with the greatest thickness is found at point VES 2, which is to the west of the Baitul Ilmi Mosque, so it is recommended as the location of a new well.
Keywords: lithology, aquifers, geoelectric resistivity method, groundwater.

References

Asra, A. 2012. Penentuan Sebaran Akuifer dengan Metode Tahanan Jenis (Resistivity Method) di Kota Tangerang Selatan Provinsi Banten. Institut Pertanian Bogor.

Bahri. 2005. Hand Out Mata Kuliah Geofisika Lingkungan Dengan Topik Metoda Geolistrik Resistivitas. FMIPA - ITS.

Budiman, A., Delhasni, & Widjojo, S. A. H. . 2013. Pendugaan Potensi Air Tanah dengan Metode Geolistrik Tahanan Jenis Konfigurasi Schlumberger (Jorong Tampus Kanagarian Ujung Gading Kecamatan Lembah Malintang Kabupaten Pasaman Barat, Sumatera Barat). Jurnal Ilmu Fisika (JIF), 5(2).

Damtoro, J. 2007. Geologi dan Geolistrik. Jurusan Teknik Pertambangan, Institut Teknologi Bandung.

Halik, G., & Widodo, J. 2008. Pendugaan Potensi Air Tanah dengan Metode Geolistrik Konfigurasi Schlumberger di Kampus Tegal Boto Universitas Jember. Media Teknik Sipil.

Hanifah, D., Sota, I., & Siregar, S. S. 2016. Penentuan Lapisan Akuifer Air Tanah dengan Metode Geolistrik Konfigurasi Schlumberger di Desa Sungai Jati Kecamatan Mataraman Kabupaten Banjar Kalimantan Selatan. Jurnal Fisika FLUX, 13(1).

Manrulu, R. H., Nurfalaq, A., & Hamid, I. D. (2018). Pendugaan Sebaran Air Tanah Menggunakan Metode Geolistrik Resistivitas Konfigurasi Wenner dan Schlumberger di Kampus 2 Universitas Cokroaminoto Palopo. Jurnal Fisika FLUX, 15(1): 6.

Nugraha, G., Nur, A., Yoseph, B., & Pranantya, P. . (2018). Lapisan Berpotensi Akuifer Berdasarkan Analisis Geolistrik Konfigurasi Schlumberger Di Kertajati, Majalengka. Seminar Nasional Ke–III Fakultas Teknik Geologi Universitas Padjadjaran.

Parinata, B. (2015). Ekplorasi Airtanah dengan Metode Tahanan Jenis Menggunakan Software IPI2WIN di Desa Nagrak Kabupaten Bogor, Jawa Barat. Institut Pertanian Bogor.

Purnama, A., & Noval, A. (2017). Kajian Potensi Air Tanah dengan Pengujian Geolistrik di Desa Telonang Kabupaten Sumbawa Barat. Jurnal SAINTEK UNSA, 2(1). https://osf.io/preprints/inarxiv/654n9/

Purwanugraha, W. A. (2015). Identifikasi Air Tanah dengan Metode Geolistrik Konfigurasi Schlumberger. UIN Sunan Kalijaga, Yogyakarta.

Reynolds, J. M. (1997). An Introduction to Applied and Environmental Geoghysics. Jhon Wiley & Sons Ltd.
Rivera, G. C. (2012). Pendugaan Potensi Akuifer Dengan Metode Geolistrik Resistivitas 2D Konfigurasi Wenner-
Schlumberger di Lingkungan FMIPA Universitas Jember. Universitas Jember.

Santoso, D. (2002). Pengantar Teknik Geofisika. ITB.

Sapei, T. (1992). Geologi Lembar Jember, Jawa. Pusat Penelitian dan Pengembangan Geologi (Indonesia).

Sehah, & Aziz, A. N. (2016). Pendugaan Kedalaman Air Tanah Menggunakan Metode Geolistrik Konfigurasi Schlumberger di Desa Bojongsari Kecamatan Alian Kabupaten Kebumen. Jurnal Neutrino, 8(2).

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

Todd, D. K., & Mays, L. W. (2004). Groundwater Hydrology (3rd ed.). John Wiley & Sons, Inc.

Usman, B., Manrulu, R. H., Nurfalaq, A., & Rohayu, E. (2017). Identifikasi Akuifer Air Tanah Kota Palopo Menggunakan Metode Geolistrik Tahanan Jenis Konfigurasi Schlumberger. FLUX, 14(2): 8.

Wahyuni, Jamaluddin, Aswad, S., & Amrin, L. . (2018). Investigasi Zona Akuifer Menggunakan Metode Geolistrik Konfigurasi Schlumberger di Pantai Parangluhu Kecamatan Bontobahari, Kabupaten Bulukumba. Jurnal Geocelebes, 2(3): 78–83.