Identification of alteration zone and gold mineralization based on magnetic anomaly and 3D model of geomagnetic satellite data inversion of Mount Pongkor Area, West Java

Permana, Nanda Ridki; Gunawan, Belista; Primastika, Ayu Alvita; Shafa, Dias; Fadrian, Dhika Faiz; Zani, Fardhan Rafshan

doi:10.21580/jnsmr.2022.8.2.13177

J. Nat. Scien. & Math. Res.

2022

DOI: 10.21580/jnsmr.2022.8.2.13177

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Identification of alteration zone and gold mineralization based on magnetic anomaly and 3D model of geomagnetic satellite data inversion of Mount Pongkor Area, West Java

Nanda Ridki Permana¹,

Belista Gunawan

Ayu Alvita Primastika

et al.

Abstract: Mount Pongkor is one of the areas in Indonesia with the largest gold mineralization potential in Java. One of the geophysical methods to identify the distribution of gold mineralization zones is the geomagnetic method that utilizes magnetic properties in the subsurface due to the influence of rock magnetization. Geomagnetic research has been conducted at Mount Pongkor, Bogor Regency, West Java with an area of 22 x 17 km as much as 793 magnetic satellite data from the National Oceanic and Atmospheric Administra… Show more

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2024

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Detection of Laterite Nickel Layer Distribution Based on Correlation of Multispectral Remote Sensing and Magnetic Satellite Data in North Konawe Region, Southeast Sulawesi

Saskia Puspitasari,

Ridki Permana,

Gunawan

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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The demand for nickel continues to rise as an essential raw material to produce stainless steel and other metal alloys. Nickel deposits are abundant in Sulawesi Island due to their close association with tectonic plate movements. Therefore, this research aims to detect the distribution of laterite nickel based on the correlation of multispectral remote sensing and magnetic satellite methods in area X, North Konawe, Southeast Sulawesi. The remote sensing analysis utilized Landsat 8 with the combination of 6/5 band ratio to identify iron (Fe) and a 4/7 band ratio to detect quartz-bearing layers. Meanwhile, magnetic satellite data was obtained from The National Oceanic and Atmospheric Administration website with a total of 314 data. Based on the research results, there is a correlation between the two methods and geological mapping data where the iron (Fe) content in the limonite zone is dominant in the research area. The multispectral remote sensing analysis identified areas with high iron (Fe) content, which were further supported by magnetic satellite data showing magnetic anomalies from −0.312 to 0.178 nT. High anomalies within this range, particularly those between 0.004 and 0.178 nT, are indicative of layers rich in iron (Fe) within the limonite zone, thereby confirming the presence of laterite nickel deposits in the study area.

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Detection of Laterite Nickel Layer Distribution Based on Correlation of Multispectral Remote Sensing and Magnetic Satellite Data in North Konawe Region, Southeast Sulawesi

Saskia Puspitasari,

Ridki Permana,

Gunawan

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Identification of alteration zone and gold mineralization based on magnetic anomaly and 3D model of geomagnetic satellite data inversion of Mount Pongkor Area, West Java

Cited by 1 publication

References 10 publications

Detection of Laterite Nickel Layer Distribution Based on Correlation of Multispectral Remote Sensing and Magnetic Satellite Data in North Konawe Region, Southeast Sulawesi

Detection of Laterite Nickel Layer Distribution Based on Correlation of Multispectral Remote Sensing and Magnetic Satellite Data in North Konawe Region, Southeast Sulawesi

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