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All Journal Jurnal Geologi dan Sumberdaya Mineral (Journal of Geology and Mineral Resources) Buletin Sumber Daya Geologi
Hastria, Defry
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Education Energy Engineering Environmental Science

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Protolith Oceanic Island Arc dari Granitoid Tipe M dan I di Karangsambung, Kebumen, Jawa Tengah Ansori, Chusni; Godang, Shaban; Hastria, Defry; 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 | Full PDF (468.275 KB) | DOI: 10.33332/jgsm.geologi.20.4.%p

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
STUDI ALTERASI DAN MINERALISASI DISEKITAR GUNUNG AGUNG, KABUPATEN KULONPROGO – PURWOREJO Ansori, Chusni; Hastria, Defry
Buletin Sumber Daya Geologi Vol 8 No 2 (2013): Buletin Sumber Daya Geologi
Publisher : Pusat Sumber Daya Mineral Batubara dan Panas Bumi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47599/bsdg.v8i2.83

Abstract

Daerah Gunung Agung secara administratif termasuk dalam wilayah Kecamatan  Kokap, Kabupaten Kulonprogo, Provinsi Daerah Istimewa Yogyakarta dan Kecamatan Bagelen,Kabupaten Purworejo, Provinsi Jawa Tengah. Secara regional termasuk dalam Pegunungan Kulonprogo yang di daerah ini dijumpai  indikasi alterasi dan mineralisasi logam.  Pengamatan lapangan dan pemercontohan diikuti dengan analisis petrografi, X-RD, kimia mineral dan inklusi fluida. Studi dilakukan untuk mengetahui proses dan posisi mineralisasi.Mineralisasi yang berkembang umumnya berupa urat dan stock work silika-kuarsa yang diikuti pembentukan mineral ubahan lempung argilik disekitarnya, dengan intensitas lemah-sedang. Urat silika-kuarsa mempunyai  ketebalan 10-30 cm, dengan kadar Au berkisar  50-2.608 ppb. Hasil analisis XRD dan petrografi dijumpai adanya asosiasi mineral kuarsa, pirit, barit,  muskovit dan serisit. Hasil pengamatan dengan metoda inklusi fluida pada urat kuarsa menunjukan fasa tunggal dan ganda, umumnya mengalami necking dengan kandungan NaCl: 2,5 - 3,9 % berat, suhu homogenisasi antara 157 C hingga 225 C.Proses alterasi terjadi dalam dua tahap, tahap pertama terjadi alterasi mesotermal pada suhu antara 280-340 C,  sehingga mengubah mineral feldspar menjadi serisit dan asosiasi mineral sulfida. Tahap kedua, terjadi proses alterasi epitermal pada crustiform-colloform hingga kalsedonik superzone, suhu 175-230 C, yang menghasilkan asosiasi mineral barit, sulfida dan logam mulia.
Co-Authors Chusni Ansori Godang, Shaban Isyqi, Isyqi