APPLICATION OF DERIVATIVES AND EULER DECONVOLUTION METHODS USING GEOMAGNETIC DATA TO IDENTIFY THE STRUCTURES AND DISTRIBUTION OF TIN MINERALS IN PARIT TEBU AREA, EAST BELITUNG REGENCY, BANGKA-BELITUNG
Parit Tebu Village, Belitung Island, is located on the Southeast Asian Tin Belt which is rich in tin minerals. Geophysical exploration is needed to uncover this potential. In 2014, PSDG carried out geomagnetic exploration and produced a Total Magnetic Intensity (TMI) map of the research area. To...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80452 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Parit Tebu Village, Belitung Island, is located on the Southeast Asian Tin Belt
which is rich in tin minerals. Geophysical exploration is needed to uncover this
potential. In 2014, PSDG carried out geomagnetic exploration and produced a
Total Magnetic Intensity (TMI) map of the research area. To analyze the tin mineral
potential in more depth, the Reduce To Pole (RTP) method was carried out on the
TMI map, which changed the map to a monopole. Through this RTP map analysis,
regional and residual anomalies were separated using the Moving Average method
(window width 9 and data spacing 100 m) and Butterworth as a comparison. The
residual anomaly map used is the result of the Moving Average method because
this map is more in line with the results of previous geochemical and geological
research. Derivatives and Euler Deconvolution methods are used to determine the
structure and estimate its depth. The results of the lineament patterns on the
residual anomaly map, Derivatives method, and Euler Deconvolution are in good
agreement with the surface geological structure patterns in the SW-NE, NW-SE and
almost N-S directions with a depth of 30-110 m. Correlation of geochemical data
with geophysics shows that the element of tin with a high dominant content appears
in areas with low magnetic anomalies, thought to be due to paramagnetic tin, while
the appearance of high magnetic anomalies is due to the presence of tin along with
iron and neodine (ferromagnetic). The subsurface model of the Tebu Trench
consists of alluvial deposits with a susceptibility of 0.001 SI, metasedimentary rocks
with a susceptibility of 0.004 SI, quartz sandstone of 0.005 SI, and granite
intrusions with a susceptibility of 0.008 SI. The presence of tin elements was found
in alluvial deposits and metasedimentary rocks, the content of which reached 400
ppm. Thus, the Derivatives and Euler Deconvolution methods have succeeded in
identifying geological structures in this research area well |
|---|