Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima

Orientation of the eruption fissures and composition of the lavas of the Miyakejima volcano indicate tectonic influence of a shallow magma chamber on the distribution of eruption fissures. We examined the distributions and magmatic compositions of 23 fissures that formed within the last 2800 years,...

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Main Authors: Nobuo Geshi, Teruki Oikawa
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-11-01
Series:Frontiers in Earth Science
Subjects:
Online Access:http://journal.frontiersin.org/Journal/10.3389/feart.2016.00099/full
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spelling doaj-e250ca1bdfb743a9b2a693371f8e3f742020-11-25T00:43:15ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632016-11-01410.3389/feart.2016.00099206948Orientation of the eruption fissures controlled by a shallow magma chamber in MiyakejimaNobuo Geshi0Teruki Oikawa1Geological Survey of Japan, AISTGeological Survey of Japan, AISTOrientation of the eruption fissures and composition of the lavas of the Miyakejima volcano indicate tectonic influence of a shallow magma chamber on the distribution of eruption fissures. We examined the distributions and magmatic compositions of 23 fissures that formed within the last 2800 years, based on a field survey and a new dataset of 14C ages. The dominant orientation of the eruption fissures in the central portion of the volcano was found to be NE-SW, which is perpendicular to the direction of regional maximum horizontal compressive stress (σHmax). Magmas that show evidences of magma mixing between basaltic and andesitic magmas erupted mainly from the eruption fissures with a higher offset angle from the regional σHmax direction. The presence of a shallow dike-shaped magma chamber controls the distribution of the eruption fissures. The injection of basaltic magma into the shallow andesitic magma chamber caused the temporal rise of internal magmatic pressure in the shallow magma chamber. Dikes extending from the andesitic magma chamber intrude along the local compressive stress field which is generated by the internal excess pressure of the andesitic magma chamber. As the result, the eruption fissures trend parallel to the elongation direction of the shallow magma chamber. Injection of basaltic magma into the shallow andesitic magma chamber caused the magma mixing. Some basaltic dikes from the deep-seated magma chamber reach the ground surface without intersection with the andesitic magma chamber. The patterns of the eruption fissures can be modified in the future as was observed in the case of the destruction of the shallow magma chamber during the 2000 AD eruption.http://journal.frontiersin.org/Journal/10.3389/feart.2016.00099/fullmagma chamberFeeder dikeFissure eruptionLocal stressMiyakejima
collection DOAJ
language English
format Article
sources DOAJ
author Nobuo Geshi
Teruki Oikawa
spellingShingle Nobuo Geshi
Teruki Oikawa
Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
Frontiers in Earth Science
magma chamber
Feeder dike
Fissure eruption
Local stress
Miyakejima
author_facet Nobuo Geshi
Teruki Oikawa
author_sort Nobuo Geshi
title Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
title_short Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
title_full Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
title_fullStr Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
title_full_unstemmed Orientation of the eruption fissures controlled by a shallow magma chamber in Miyakejima
title_sort orientation of the eruption fissures controlled by a shallow magma chamber in miyakejima
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2016-11-01
description Orientation of the eruption fissures and composition of the lavas of the Miyakejima volcano indicate tectonic influence of a shallow magma chamber on the distribution of eruption fissures. We examined the distributions and magmatic compositions of 23 fissures that formed within the last 2800 years, based on a field survey and a new dataset of 14C ages. The dominant orientation of the eruption fissures in the central portion of the volcano was found to be NE-SW, which is perpendicular to the direction of regional maximum horizontal compressive stress (σHmax). Magmas that show evidences of magma mixing between basaltic and andesitic magmas erupted mainly from the eruption fissures with a higher offset angle from the regional σHmax direction. The presence of a shallow dike-shaped magma chamber controls the distribution of the eruption fissures. The injection of basaltic magma into the shallow andesitic magma chamber caused the temporal rise of internal magmatic pressure in the shallow magma chamber. Dikes extending from the andesitic magma chamber intrude along the local compressive stress field which is generated by the internal excess pressure of the andesitic magma chamber. As the result, the eruption fissures trend parallel to the elongation direction of the shallow magma chamber. Injection of basaltic magma into the shallow andesitic magma chamber caused the magma mixing. Some basaltic dikes from the deep-seated magma chamber reach the ground surface without intersection with the andesitic magma chamber. The patterns of the eruption fissures can be modified in the future as was observed in the case of the destruction of the shallow magma chamber during the 2000 AD eruption.
topic magma chamber
Feeder dike
Fissure eruption
Local stress
Miyakejima
url http://journal.frontiersin.org/Journal/10.3389/feart.2016.00099/full
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AT terukioikawa orientationoftheeruptionfissurescontrolledbyashallowmagmachamberinmiyakejima
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