A research regarding seeping in Bajulmati Dam of Banyuwangi Regency based on lithology analysis by geomagnetic data has been done to discover the location of zone with seeping potential. This research is done by analyzing lithology from magnetic data (primary data) that was acquired from the field that covers the area of Bajulmati Dam. The research began with the acquisition of magnetic data using PPM (proton procession Magnetometer). Acquired data is then corrected by diurnal and IGRF correction, reduction in to even surface, upward continuation as well as reduction to the pole. Local anomaly contour is acquired with the value ranging from -1000 nT up to 700 nT at loop 1 and ranging from -2800 nT up to 1600 nT at loop 2. Based on the result of data processing by magnetic method, the subsurface layers beneath the said dam consist of the layer of clay (tuff), sandstone, gravel, and volcanic lava. By analyzing the mentioned results, some cracks are located in AA’ line with the measurement point of 20 m and 90 m, and in the 120 m and 160 m, 80 m and 100 m measurement point of BB’, and CC’ line respectively. Those cracks can be expected to cause seepage in Bajulmati Dam.

Giyanto (2008), Optimasi Pola Tanam Daerah Irigasi Waduk Bajulmati Dengan Menggunakan Program Linear. Skripsi, Teknik Sipil, Institut Teknologi Surabaya.

Deny, S. (2013), Waduk Bajulmati Siap Alirkan Air Mulai 2014, www.liputan6.com 19 July 2013, accessed at 2 August 2014

Wibagiyo, A. Indroyono, P. Bungkus, and Haryono (1998), Penentuan Lokasi Rembesan pada Dasar Bendungan dengan Teknik Radioisotopdi Bendungan Ngancar, Wonogiri, Penelitian dan Pengembangan Aplikasi Isotop dan Radiasi, Pusat Aplikasi Isotop dan Radiasi, BATAN.

Susilo, A., A. Rachmansyah, Irwan, F. Rakhmanto and Y. Sulistyono (2013), Detection of seepage patterns direction in the Bajulmati Dam, Banyuwangi, Indonesia using geoelectrical method, Schlumberger and dipole dipole configuration. Proceeding 3rd Annual Basic Science International Conference (BaSIC) 2013. Fakultas MIPA. Universitas Brawijaya Malang.

Burger, Henry Robert (1992), Exploration of the Shallow Subsurface, Prentice Hall, New Jersey.

Telford, W. M, Geldart L. P., and Sheriff R. E. (1990), Applied Geophysics, Cambridge University Press, New York

Waduk Bajulmati Situbondo Banyuwangi Jawa Timur, http://loketpeta.pu.go.id, accessed at 17 Desember, 2013.

Palgunadi, Salman and Y. Hidayat (2000), Laporan Penyelidikan Magnet G. Inelika, Gou Flores, Direktorat Vulkanologi dan Mitigasi Bencana Geologi, Bandung.

Blakely, R.J. (1995), Potential Theory in Gravity and Magnetic Applications. Cambridge University Press. New York.

Oasis Montaj (2007), Oasis Montaj Version 6.4.2 (HJ), Geosoft, Inc.

Musyafak, Z. and Bagus, J.S. (2007), Interpretasi Metode Magnetik untuk Penentuan Struktur Bawah Permukaan Di Sekitar Gunung Kelud Kabupaten Kediri, Pascasarjana Fisika-FMIPA, Institut Teknologi Sepuluh Nopember Surabaya.