Gilvandro Rumahorbo scite author profile

Gilvandro Rumahorbo

2Publications

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Universitas Pembangunan Nasional Veteran Yogyakarta

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Identifikasi Keberadaan Endapan Emas Berdasarkan Analisa Data Geomagnetik Dan Induced Polarization Pada Daerah Randukuning, Selogiri, Wonogiri, Jawa Tengah

Chaidir

Puspita²,

Rumahorbo³

2021

J. Tek. Geologi

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Aktivitas tektonik dan magmatisme randukuning menjadi sebuah daya tarik tersendiri bagi geologist dan geophysicst untuk melakukan penelitian lebih lanjut. Terdapatnya batuan induk berupa lava dasit dan batuan beku andesit dari formasi mandalika, serta struktur geologi yang berkembang, menyebakan terjadinya proses alterasi batuan hingga membentuk mineralisasi bijih. Pendekatan terintegrasi geofisika metode geomagnetik dan Induced Polarization dilakukan untuk mendeliniasi struktur geologi serta menzonasi daerah prospek mineralisasi secara horizontal dan vertikal. Pengambilan data dilakukan melalui analisa data open source serta data sekunder, kemudian dilakukan pengolahan data untuk mendapatkan model anomaly 2D. Hasil interpretasi pada data magnetic dengan menggunakan filter Reduce to Pole – High pass menunjukkan adanya pola anomali magnetic rendah -4.9 hingga -0.8 nT pada bagian barat yang di indikasikan akibat adanya struktur geologi serta intensitas alterasi yang tingi. Perbandingan hasil filter RTP dengan Horizontal Gradient menunjukkan adanya pola anomaly tinggi 0.001 hingga 0.0017 nT/m pada bagian timur laut dan barat daya, yang di interpretasikan sebagai respon dari struktur geologi yang terisi oleh mineralisasi. Berdasarkan penampang geolistrik induced polarization, terdapat mineral kalkopirit pada kedalaman 20-30 m dengan chargeabilitas 4-9 msec dengan resistivitas >200 Ωm. Hasil dari integrasi ini menunjukkan terdapatnya potensi endapan emas pada kavling timur laut dan barat daya daerah penelitian

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Analysis of Geomagnetic and Geoelectric Data to Identify the Potential of Gold Deposits (Case Study: Randu Kuning, Wonogiri, Central Java)

Chaidir

Puspita

Rumahorbo

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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The gold deposit of the low sulfidation epithermal system at the Randu Kuning prospect, Wonogiri, Central Java is the effect of magmatism during the Oligocene due to microdiorite intrusion. The magmatism causes a mineralization process that fills the fractures in the rock. The mineralized of ores that formed in the study area are pyrite, chalcopyrite, sphalerite, galena, electrum and native gold, magnetite and hematite. The appropriate geophysical method to this case study is using the geomagnetic and geoelectric Induced Polarization method. The application of the geomagnetic method aims to delineate mineralized zones and geological structures as channel way for hydrothermal fluids. The results of the geomagnetic method are in the form of a map of Total Magnetic Intensity carried out by filters such as Reduce to Pole (RTP) - High pass (HP) and Horizontal Gradient (HG). The west side of RTP - HP anomaly shows a low response of -4.9 to -0.8 nT due to intensely mineralized rock and the presence of fractures. The comparison between RTP - HP anomaly and HG anomaly shows the suitability due to intense mineralization which reduces the fault anomaly. A high HG value area of 0.001-0.0017 nT/m is interpreted as a mineralized fault. This can be seen from the alteration map which shows the continuity of veins from measurements in the field. The application of the geoelectric Induced Polarization method aims to identify associated mineral of gold vertically subsurface. Based on the results of geoelectric Induced Polarization data shows that there are chalcopyrite minerals at a depth of 20-30 m with a chargeability of 4-9 msec which is located in intrusion of igneous rock with a resistivity >200 Ωm. Based on geomagnetic geoelectric data, it can identify potential gold deposits in the Randu Kuning area, Wonogiri, Central Java.

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