Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity

Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity

Tangkuban Parahu Volcano is one of the most active volcanoes in West Java, Indonesia, although most of the recent eruptions were relatively mild (e.g. 2013 eruption). However, there is still little information from the volcanic products in the proximal area. Here, new documentation from the proximal...

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Main Authors: Syahreza S. Angkasa, Tsukasa Ohba, Takumi Imura, Iwan Setiawan, Mega Rosana
Format: Article
Language:English
Published: Geological Agency 2019-09-01
Series:Indonesian Journal on Geoscience
Subjects:
tangkuban parahu
tephra-stratigraphy
holocene
Online Access:https://ijog.geologi.esdm.go.id/index.php/IJOG/article/view/590/289
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spelling doaj-92d0f4a19d2e4abfa401e9913fd7b8182020-11-25T00:06:20ZengGeological AgencyIndonesian Journal on Geoscience2355-93142355-93062019-09-016323525310.17014/ijog.6.3.235-253Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic ActivitySyahreza S. Angkasa0Tsukasa Ohba1Takumi Imura2Iwan Setiawan3Mega Rosana4Faculty of International Resource Science, Akita University, Japan. Department of Geological Engineering, Universitas Pertamina. IndonesiaFaculty of International Resource Science, Akita University, JapanFaculty of International Resource Science, Akita University, JapanResearch Center of Geotechnology, Indonesian Institute of Sciences (LIPI), IndonesiaFaculty of Geological Engineering, Universitas Padjadjaran, IndonesiaTangkuban Parahu Volcano is one of the most active volcanoes in West Java, Indonesia, although most of the recent eruptions were relatively mild (e.g. 2013 eruption). However, there is still little information from the volcanic products in the proximal area. Here, new documentation from the proximal volcanic succession is provided, including tephra-stratigraphy, componentry analysis, and petrography of volcanic products. Detailed mapping of the proximal area shows that the volcanic products are predominantly composed of alternating fine-clay and coarse ash, lapilli tuff, and pyroclastic breccia within ten tephra units. Componentry of ash particles revealed the presence of five components, associated with hydrothermally altered lithics, oxidized lithics, coherent crystalline lithics, magmatic juvenile, and free crystal in entire eruptive products. These indicate that the subvolcanic hydrothermal system has been developed since the Holocene and associated with a continual introduction of magmatic intrusion. Petrographic observation shows the presence of hydrothermal minerals of quartz or silica accompanied by alunite and kaolinite, representing acidic alteration within the crater-conduit. The existence of a silicified zone indicates that the subvolcanic hydrothermal system played an essential role as a cap-rock of pressurized gas and steam at depth (200-500 m), whereas magmatic injection caused the vapour plume expansion. The observation concluded that the proximal volcanic succession captured the evidence of coupled phreatic and phreatomagmatic activities during the latest development of Mount Tangkuban Parahu.https://ijog.geologi.esdm.go.id/index.php/IJOG/article/view/590/289tangkuban parahutephra-stratigraphyholocene
collection DOAJ
language English
format Article
sources DOAJ
author Syahreza S. Angkasa
Tsukasa Ohba
Takumi Imura
Iwan Setiawan
Mega Rosana
spellingShingle Syahreza S. Angkasa
Tsukasa Ohba
Takumi Imura
Iwan Setiawan
Mega Rosana
Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
Indonesian Journal on Geoscience
tangkuban parahu
tephra-stratigraphy
holocene
author_facet Syahreza S. Angkasa
Tsukasa Ohba
Takumi Imura
Iwan Setiawan
Mega Rosana
author_sort Syahreza S. Angkasa
title Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
title_short Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
title_full Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
title_fullStr Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
title_full_unstemmed Tephra-stratigraphy and Ash Componentry Studies of Proximal Volcanic Products at Mount Tangkuban Parahu, Indonesia: An Insight to Holocene Volcanic Activity
title_sort tephra-stratigraphy and ash componentry studies of proximal volcanic products at mount tangkuban parahu, indonesia: an insight to holocene volcanic activity
publisher Geological Agency
series Indonesian Journal on Geoscience
issn 2355-9314
2355-9306
publishDate 2019-09-01
description Tangkuban Parahu Volcano is one of the most active volcanoes in West Java, Indonesia, although most of the recent eruptions were relatively mild (e.g. 2013 eruption). However, there is still little information from the volcanic products in the proximal area. Here, new documentation from the proximal volcanic succession is provided, including tephra-stratigraphy, componentry analysis, and petrography of volcanic products. Detailed mapping of the proximal area shows that the volcanic products are predominantly composed of alternating fine-clay and coarse ash, lapilli tuff, and pyroclastic breccia within ten tephra units. Componentry of ash particles revealed the presence of five components, associated with hydrothermally altered lithics, oxidized lithics, coherent crystalline lithics, magmatic juvenile, and free crystal in entire eruptive products. These indicate that the subvolcanic hydrothermal system has been developed since the Holocene and associated with a continual introduction of magmatic intrusion. Petrographic observation shows the presence of hydrothermal minerals of quartz or silica accompanied by alunite and kaolinite, representing acidic alteration within the crater-conduit. The existence of a silicified zone indicates that the subvolcanic hydrothermal system played an essential role as a cap-rock of pressurized gas and steam at depth (200-500 m), whereas magmatic injection caused the vapour plume expansion. The observation concluded that the proximal volcanic succession captured the evidence of coupled phreatic and phreatomagmatic activities during the latest development of Mount Tangkuban Parahu.
topic tangkuban parahu
tephra-stratigraphy
holocene
url https://ijog.geologi.esdm.go.id/index.php/IJOG/article/view/590/289
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