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All Journal Jurnal RISET Geologi dan Pertambangan Jurnal Geologi dan Sumberdaya Mineral (Journal of Geology and Mineral Resources)
Isyqi Isyqi
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Chemistry Earth & Planetary Sciences Energy

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TEKSTUR DAN ZONASI ENDAPAN URAT EPITERMAL DAERAH CIHONJE, KECAMATAN GUMELAR, KABUPATEN BANYUMAS, JAWA TENGAH Isyqi Isyqi; Mochammad Aziz; Arifudin Idrus
JURNAL RISET GEOLOGI DAN PERTAMBANGAN Vol 26, No 1 (2016)
Publisher : Indonesian Institute of Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (2453.821 KB) | DOI: 10.14203/risetgeotam2016.v26.258

Abstract

Daerah Cihonje dan sekitarnya memiliki sistem mineralisasi epitermal yang ditandai dengan kehadiran endapan urat. Endapan urat epitermal terbentuk karena proses pengisian rongga (cavity filling) oleh larutan hidtrotermal. Identifikasi karakteristik endapan urat epitermal perlu dikaji lebih mendalam karena dapat mempermudah kegiatan eksplorasi logam mulia maupun logam dasar. Penelitian ini bertujuan untuk mengetahui karakteristik tekstur urat yang berkembang serta menentukan zona mineralisasi logam mulia dan logam dasar daerah penelitian. Metoda yang digunakan dalam penelitian ini  adalah analisis slab urat, analisis petrografi, analisis mineragrafi serta analisis kadar logam mulia dan logam dasar pada endapan urat dengan menggunakan Atomic Absorption Spectrophotometry (AAS). Hasil penelitian menunjukkan tekstur urat di daerah penelitian dibedakan menjadi empat kelompok yaitu kelompok Lattice Bladed, Cockade, Saccharoidal, dan kelompok Sulfide Banded-Disseminated Sulfide. Tekstur urat yang mengandung logam mulia (emas, perak) terdapat di dalam Zona Super Crustiform – Colloform (CC), sedangkan tekstur urat yang mengandung logam dasar terdapat di dalam Zona Super Crystalline Quartz (X). Hasil analisa mineragrafi menunjukkan kandungan mineral logam yang berasosiasi dengan endapan urat di daerah penelitian adalah pirit, kalkopirit, arsenopirit, sfalerit, galena, emas, dan perak. Hasil analisa AAS menunjukkan kadar emas pada urat di daerah penelitian mencapai 83 ppm. Hal itu membuktikan bahwa daerah penelitian merupakan tempat akumulasi logam mulia dari sitem mineralisasi epitermal yang terjadi. Cihonje and surrounding area have epithermal mineralization system, which is identified by the existence of vein deposits. Epithermal vein deposits are formed by cavity filling of hydrothermal solution. Epithermal vein deposit characteristics need to be identified due to its functionality to localize the precious metal and base metal deposits. This research aimis  to understand the characteristic of vein deposit in this research area. The method used are slab vein analysis, petrography, mineragraphy, and Atomic Absorption Spectrophotometry (AAS). Vein textures in research area are divided into four groups, which are Lattice Bladed Group, Cockade group, Saccharoidal Group, and Sulfide Banded – Disseminated Sulfide group. Vein textures that contain precious metal (gold, silver) is located in the Superzona Crustiform - Colloform (CC). And veins that contain base metal is located in the superzona Crystalline quartz. The mineragraphy analysis showed that vein deposits in this research area has been associated with Pyrite, Chalcopyrite, Arsenopirite, Sphalerit, Galena, Gold, and Silver. The results of AAS analysis showed that vein sample has 83 ppm Au content. That indicated that the research area is the zone of the precious metal accumulation.
Petrologi dan Geokimia Batuan Dasit Komplek Mélange Luk Ulo Isyqi Isyqi; Chusni Ansori; Defry Hastria; Fitriany Amalia Wardhani; Mohammad Al'Afif; Edi Hidayat; Eko Puswanto
JURNAL RISET GEOLOGI DAN PERTAMBANGAN Vol 29, No 1 (2019)
Publisher : Indonesian Institute of Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1749.204 KB) | DOI: 10.14203/risetgeotam2019.v29.968

Abstract

Kompleks Mélange Luk Ulo (KMLU) disusun berbagai macam bongkah batuan yang tercampur secara tektonik dalam masa dasar lempung hitam, salah satu bongkah batuannya adalah dasit. Penelitian ini bertujuan untuk mengetahui karakteristik petrologi dan geokimia batuan dasit KMLU untuk mengetahui lingkungan tektonik dan sejarah pembentukannya. Metode yang digunakan antara lain adalah analisis petrografi, analisis unsur utama menggunakan fusion inductively coupled plasma, analisis unsur jejak dan unsur tanah jarang menggunakan inductively coupled plasma mass spectrometry, serta analisis umur absolut menggunakan metode K-Ar. Dasit KMLU memiliki tesktur porfiritik, disusun fenokris kuarsa, plagioklas, dan feldspar alkali tertanam dalam masa dasar mikrokristalin kuarsa dan mikrokristalin biotit. Kandungan unsur SiO2 yang tinggi (66,56-71,64%) dan K2O yang rendah (0,41-1,27%) menunjukkan batuan memiliki afinitas magma toleit. Unsur low ionic potential pada Dasit KMLU mengalami pengkayaan relatif terhadap MORB sebanyak 2-8 kali sedangkan unsur-unsur high ionic potential lebih rendah dibandingkan MORB, mengindikasikan batuan terbentuk pada tatanan tektonik busur kepulauan. Pengkayaan unsur tanah jarang ringan sebesar 3 - 9 kali dibandingkan kondrit yang disertai pola pengurangan (depletion) berangsur-angsur dari unsur La hingga Eu juga mengindikasikan tatanan tektonik busur kepulauan. Pengukuran umur absolut menunjukkan kisaran 65-48 juta tahun lalu, menunjukkan bahwa Dasit KMLU terbentuk dari magmatisme busur kepulauan pada masa Kapur akhir–Eosen Awal.The Luk Ulo Mélange Complex (KMLU) is an assemblage of various blocks of rock that are mixed tectonically and blanked by scaly clay matrix, in which one of blocks is dacite. This research aims to determine petrological and geochemical characteristics of dacite in order to define its tectonic environments and formation history. The methods used in this research were petrography analysis, geochemical analysis including major elements using fusion inductively coupled plasma (fus ICP), trace and rare earth elements using inductively coupled plasma mass spectrometry (ICP-MS) and K-Ar dating method.  The dacite has a porphyritic texture composed of quartz, plagioclase, and alkali fledspar phenocrysts in microcrystaline biotite and quartz matrix. The high SiO2 content (66.56 - 71.64%) and low K2O content (0.41 - 1.27%) indicating tholeiitic magma affinity source. The low ionic potential elements such as Sr, K, Rb, Ba dan Th in this rock have been enriched 2 - 8 times compared to MORB, whereas the high ionic potential elements of Ta, Nb, Ce, P, Zr, Hf, Sm, Ti, Y dan Yb are lower compared MORB suggest an island arc character. Enrichment of light rare earth elements  (La, Ce, Pr, Nd, Pm, Sm and Eu) is 3 - 9 times compared to chondrit accompanied by gradual depletion pattern of La to Eu elements also indicating an island arc environment.  K-Ar dating analysis shows a range of 65 - 48 Mya or during the Late Cretaceous – Early Eocene. It is concluded that the dacite of the Luk Ulo Complex was formed in an island arc tectonic setting during the Late Cretaceous – Early Eocene.
Protolith Oceanic Island Arc dari Granitoid Tipe M dan I di Karangsambung, Kebumen, Jawa Tengah Chusni Ansori; Shaban Godang; Defry Hastria; Isyqi isyqi
Jurnal Geologi dan Sumberdaya Mineral Vol. 20 No. 4 (2019): Jurnal Geologi dan Sumberdaya Mineral
Publisher : Pusat Survei Geologi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33332/jgsm.geologi.v20i4.485

Abstract

Granitoid rocks which found at Luk Ulo melange complex as rock fragments with  pale gray colour and faneritic texture. Petrogenesis and geotectonic of the granitoid is under debate. Some geologists consider as plagiogranite, which is formed from the Mid Ocean-ridge (MOR); or leucogranite which is formed from continental collision, and others argue as arc-related granitoid type.The field studies ware carried out on 5 (five) tracks around Luk Ulo River and 1 (one) track at Lokidang River. The pale grey Karangsambung granitoid is composed of the mainly  K-feldspar (34-55%), plagioclase (10-25%) and quartz (25-35%), and chemically contains SiO2 (61.25 - 66.06%); Al2O3 (13.94 – 14.61%), K2O (2.53 - 4.00%), Na2O (3.42 - 4.10%), CaO (2.32 - 4.76%), Fe2O3 total (5.85 – 8.71%), MgO (0.98 – 1.97%). The granitoid is M- and I-type that were formed at 760o - 800o C with a depth of about 20-30 km, resulting from the differentiation of magma from a fragment origin of the K-enriched oceanic island arc originating from drifting of the IAB fragment. The sample of basalt 17D has a relatively high of Nb/Ta ratio (20), low Rb (<2 ppm), low Ba (17 ppm), and is interpreted as interacting with MORB mantle magma containing rutile-melt;whereas quartz monzonite (17A) has a relatively low of Zr/Sm ratio (3.86), which is indicated to have been contaminated by a carbonatite magma. The spidergram pattern of mantle metagabbro (sample no. 13) similar with the basalt from IAB-Bransfield Strait (Antarctica). Results of a comprehensive geochemical study proposes that the current condition of the Karangsambung zone is part of geotectonic of ACM-Eurasia, that composed of a combination of four rock fragments, i.e. (a) the rocks which sourced from IAB fragments, (b) mantle MORB, (c) continental crust from the origin of ACM-Eurasia, (d) the origin fragment from carbonatite magma.Keyword: Luk Ulo Melange Complex, pale grey granitoid, Island-arc granitoid, M  and I-type granitoid
Co-Authors Arifudin Idrus Chusni Ansori Chusni Ansori Defry Hastria Edi Hidayat Eko Puswanto Fitriany Amalia Wardhani Mochammad Aziz Mohammad Al&#039;Afif Shaban Godang