Geochemistry of Granitoids in Central Sumatra: An Identification of Plate Extension during Triassic

Irzon, Ronaldo; Syafri, Ildrem; Suwarna, Nana; Hutabarat, Johanes; Sendjaja, Purnama; Setiawan, Verry Edi

doi:10.1344/geologicaacta2021.19.9

Cited by 3 publications

(5 citation statements)

References 42 publications

(81 reference statements)

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“…MgO content of ultramafics of list range in 23.31-49%, while SiO 2 between 35.94% and 44.41% (Table 1). Unlike Indonesian S-type granites which are associated with tin, the ultramafics are often correlated with nickel (Irzon, 2019;Irzon et al, 2021). Studies concluded that North Konawe, North Kolaka, and Barru-Bantimala ultramafics are nickel rich, especially in their lateritic horizons (Maulana et al, 2015;Irzon and Abdullah, 2018).…”

Section: Prospecting Mineral Carbonation In Indonesiamentioning

confidence: 99%

Prospecting CCS Project in Indonesia: A Case Study in Meratus Mountains, South Borneo

Irzon,

Hanang Samodra,

Sam Permanadewi

2024

jgsm.geologi

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Long-term extensive carbon dioxide exposure inflicts diseases for humans and endangers the ecosystem. Carbon Capture and Storage (CCS) is a breakthrough to reduce CO2 in the atmosphere. The purpose of this study is to describe the CCS principles and suitability of this work in Indonesia, especially in the Meratus Mountains. The studied region is the major area of the Meratus Geopark. Selected ultramafic rocks from the Meratus Geopark were analyzed using X-Ray Fluorescence in the University of Tasmania. CCS project should consider the minimum implication for conservation strategy of geopark. Geologically, CCS is adapted through direct sequestration and carbon mineralization. Mafic-ultramafic lithologies are the best option for mineral carbonation. Most of the basaltic rocks in Indonesia are situated near active volcanoes that are heavily risky for CCS works. Ultramafic in the range of Meratus Geopark is clearly suitable for CCS because of its large expanse, far away from active volcanoes, without significant nickel mining activity. The project would promote geohazards and climate change issues of Meratus Geopark. In-situ CSS mineral carbonation should be located avoiding the Sultan Adam Mandiangin Serpentinite Geosite to nourish the geoconservation of Meratus Geopark. A successful CCS adaptation would be good evidence for the Indonesian government implementing the Paris Agreement. Keywords: Carbon Capture and Storage, In-situ mineral carbonation, ultramafic, Meratus Geopark.

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Section: Prospecting Mineral Carbonation In Indonesiamentioning

confidence: 99%

Prospecting CCS Project in Indonesia: A Case Study in Meratus Mountains, South Borneo

Irzon,

Hanang Samodra,

Sam Permanadewi

2024

jgsm.geologi

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“…Berdasarkan urutan dan sejarah pembentukannya, granitoid di Asia Tenggara dapat diklasifikasikan menjadi empat mandala, yaitu Mandala Timur, Mandala Tengah, Mandala Barat, dan Mandala Gunungapi (Gasparon & Varne, 1995;Cobbing, 2005). Granitoid di Mandala Timur diinisiasi oleh penunjaman Palaeo-Tethys ke bawah Lempeng Indochina-East Malaya, sedangkan Mandala Tengah terbentuk akibat kolisi Sibumasu dengan Indochina-East Malaya (Metcalfe, 2013); (Irzon et al, 2021). Subduksi Ceno-Tethys menyebabkan pembentukan granitoid pada Mandala Barat yang sebagian besar berada di bagian barat Thailand.…”

Section: Pendahuluanunclassified

“…Gambar 1 Pluton Lassi yang berada dalam kisaran Bukit Barisan dan terdiri dari tiga bagian (modifikasi Silitonga dan Kastowo 1995; Irzon et al, 2021).…”

Section: Nama Plutonunclassified

“…Hipotesis granit tipe-I diperkuat dengan kandungan amfibol dan biotit, tanpa muskovit pada hasil analisis petrografi (Ghani et al, 2013;Gion et al, 2019). Hal ini sesuai dengan kesimpulan terdahulu yang menyatakan bahwa granit dalam wilayah jajaran Bukit Barisan bertipe-I (Irzon et al, 2021 ;Syaifullah & Utama, 2021). Perbandingan kelimpakan oksida kalium terhadap oksida silika pada sampel cukup tinggi sehingga diklasifikasikan sebagai seri kalk-alkalin tinggi K (Gambar 5c).…”

Section: Hasil Dan Pembahasan a Hasill Analisisunclassified

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Komparasi Karakter Pengayaan Logam Pada Dua Seksi Pluton Lassi Di Wilayah Solok, Provinsi Sumatra Barat

Irzon

Suhermat²,

Suwargana

et al. 2023

JURNAL GEOMINERBA

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Intrusi di Sumatra adalah bagian dari jajaran granitoid di Asia Tenggara. Granitoid Mandala Gunungapi terdapat di bagian barat Sumatra dan dalam kisaran Jajaran Bukit Barisan. Intrusi pada mandala ini cukup unik karena berupa pluton berukuran kecil, termasuk Pluton Lassi, tidak seperti intrusi di Mandala Timur dan Mandala Tengah yang berupa batolit. Wilayah Sumatra berada dalam lingkungan tropis sehingga rentan terhadap pelapukan. Studi ini bertujuan untuk membandingkan dampak pelapukan terhadap pengayaan logam pada dua profil Pluton Lassi dari dua seksi yang berbeda. Komposisi setiap sampel dianalisis menggunakan XRF dan ICP-MS di Pusat Survei Geologi. Sampel segar diklasifikasikan sebagai granodiorit berdasarkan studi mikroskopis. Berdasarkan analisis kimia, sampel tersebut adalah diorit, seri Kalk Alkalin tinggi-K, metalumina, dan bertipe-I. Kedua profil memperlihatkan peningkatan kadar Fe2O3T, Al2O3 dan TiO2 meningkat seiring dengan peningkatan intensitas pelapukan. Sebaliknya, SiO2, CaO, MgO, Na2O, dan K2O justru menurun. Kelimpahan UTJ-ringan yang lebih besar daripada UTJ-berat terindikasi pada seluruh sampel. Kedua profil memperlihatkan perbedaan pada anomali Eu, intensitas pengayaan UTJ-ringan terhadap UTJ-berat, dan karakter normalisasi UTJ-berat.

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“…Tectonic history of the Southeast Asia region which is composed of continental blocks, namely Sibumasu, Indochina, East Malaya, West Sumatra, West Burma, Simao, and Southwest Borneo is enigmatic (i.e. Barber and Crow, 2009;Metcalfe 2011Metcalfe , 2013Hall and Sevastjanova, 2012;Cottam et al, 2013;Breitfeld et al, 2017;Ng et al, 2017;Hazad et al, 2019;Irzon et al, 2021). Classification of granitic rocks of Southeast Asia into Eastern, Main Range, and Western Provinces is based on continental blocks convergences with several ancient oceans called Palaeo-Tethys, Meso-Tethys, and Ceno-Tethys (Barber, 2000;Barber and Crow, 2003;Metcalfe, 2011Metcalfe, , 2013Jiang et al, 2017;Irzon et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Geochemistry Signature and K-Ar Age of the I-type Granite at East Coast of Bangka Island

Irzon,

Zulfikar,

Kamiludin

et al. 2023

Indonesian J. Geosci.

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This work presents microscopic-, whole-rock geochemical- , and K-Ar age data for Tanjung Berikat Granitoid at the easternmost part of Bangka Island. Some selected samples are in the range of monzogranite and granodiorite based on microscopic analysis. The rocks are characterized by a wide range in SiO2 (62.75 - 70.17 wt %), high-K calcalkaline to shoshonitic affinity, and ferroan signature. Very good correlation values of bivariate SiO2 plotted against other major oxides, similar spider diagrams normalized to the composition of the N-MORB and chondrite-normalized REE diagrams demonstrate the same origin and crystallization mechanism of the granitoid. The I-type nature of the studied granite is based on the hornblende existence, metaluminous character, negative SiO2 to P2O5 correlation, and volcanic arc characteristics of the rock. Tanjung Berikat Granitoid was crystallized in the mid ̶ late Early Cretaceous at 125.5 ± 2.8 Ma and 109.4 ± 2.5 Ma based on the K-Ar dating method. Keywords: granitoid, geochemistry, I-type, Bangka Island

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Geochemistry of Granitoids in Central Sumatra: An Identification of Plate Extension during Triassic

Cited by 3 publications

References 42 publications

Prospecting CCS Project in Indonesia: A Case Study in Meratus Mountains, South Borneo

Prospecting CCS Project in Indonesia: A Case Study in Meratus Mountains, South Borneo

Komparasi Karakter Pengayaan Logam Pada Dua Seksi Pluton Lassi Di Wilayah Solok, Provinsi Sumatra Barat

Geochemistry Signature and K-Ar Age of the I-type Granite at East Coast of Bangka Island

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