GEOLOGI, ALTERASI, MINERALISASI BIJIH, DAN KARAKTERISTIK FLUIDA HIDROTERMAL PADA ENDAPAN EMAS EPITERMAL SULFIDASI RENDAH DI DAERAH CIHONJE-PANINGKABAN, KECAMATAN GUMELAR, KABUPATEN BANYUMAS, PROPINSI JAWA TENGAH
The research area is located in Cihonje and Paningkaban Village, Banyumas Regency, Central Java Province. The research area is found by many artisanal and small-scale gold miners (ASGM) are operating in that area. Based on that, researchers want to know the types and characteristics of deposits that...
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| Main Authors: | , |
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| Format: | Theses and Dissertations NonPeerReviewed |
| Published: |
[Yogyakarta] : Universitas Gadjah Mada
2014
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| Subjects: | |
| Online Access: | https://repository.ugm.ac.id/129258/ http://etd.ugm.ac.id/index.php?mod=penelitian_detail&sub=PenelitianDetail&act=view&typ=html&buku_id=69648 |
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| Institution: | Universitas Gadjah Mada |
| Summary: | The research area is located in Cihonje and Paningkaban Village, Banyumas Regency, Central
Java Province. The research area is found by many artisanal and small-scale gold miners (ASGM)
are operating in that area. Based on that, researchers want to know the types and characteristics
of deposits that produce gold. In the research area there are several vein orientation with the
relative direction north-south, northwest-southeast and northeast-southwest. Host rock of the
mineralization are turbidite volcaniclastic sedimentary rocks of the Halang Formation, consist of
looping gradation of sandstone and siltstone unit which have a good porosity and permeability.
While the geological structures which controls mineralization is an extension joints, Babakan
Normal Left Slip Fault and Paningkaban Left Slip Fault. Dilational ore environment is known as
the type of jogs in the form of en-echelon tension veins. Vein orientation which are most abundant
of ore mineralization is the northwest � southeast vein direction. There are 4 zones of alteration:
phyllic alteration (sericite-quartz-pyrite±carbonate± chlorite), argillic alteration (illite-smectiteillite/
smectite-carbonate-quartz-sericite-dickite±chlorite), sub-propylitic alteration (chloritechlorite/
smectite-smectite-carbonate±quartz±zeolite), and weak sub-propylitic alteration
(chlorite/smectite±carbonate). Hydrothermal alteration zones that show high mineralization with
the set of ore minerals such as native gold, electrum, native silver, pyrite, chalcopyrite, sphalerite,
galena, arsenopyrite, cubanite, marcasite, covelite and tennantite is generally found in the argillic
alteration zone. Hydrothermal structures were identified as massive vein, vein swarm, low angle
veins, stockwork and disperse in diatreme breccia. Various types of vein textures are present, such
as normal banded, cockade, crustiform, bladed carbonate, comb, and saccharoidal. Something
interesting about this study is almost all of gangue minerals present are carbonate, and minor
quartz with a high grade of gold (until 83 g/t Au). Stages of mineralization in the study area
consists of stage 1 (fluidized breccia), stage 2 (quartz vein), stage 3 (carbonate-base metal), stage
4 (late carbonate), and the last stage 5 (supergene). The mineralization stages at temperatures
ranging from 230~>300oC for hipogen stage and 150-210oC for supergene stage and estimated
from fluid inclusion study of quartz and calcite ranges from 250-298oC. It is estimated the depth of
mineralization is ±890 meters below the paleosurface. The hidrotermal fluid is dilute, with an
salinity 0,71 � 1,07 wt.% NaCl eq. from quartz, and 0,18 wt% NaCl eq. from calcite. It is
speculated that these systems form as a result of the mixing of hydrothermal fluid (dominant by
meteoric water) with CO2-rich waters. Based on the data and comparison to existing models, it�s
indicates that the ore deposits types present in the research area is typical of low sulphidation
epithermal especially carbonate-base metal-gold mineralization system. |
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