Ground deformation cycles in a magma-effusive stage, and sub-Plinian and Vulcanian eruptions at Kirishima volcanoes, Japan

Ground deformation cycles in a magma-effusive stage, and sub-Plinian and Vulcanian eruptions at Kirishima volcanoes, Japan

The dynamics of explosive eruptions, such as Plinian, sub‐Plinian, Vulcanian, and Strombolian ones, is one of the most fascinating subjects in volcano physics. During the early period of volcanic activity at the Shinmoe‐dake Volcano in 2011, various kinds of activities, such as sub‐Plinian eruptions...

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Bibliographic Details
Published in:Journal of geophysical research. Solid earth Vol. 118; no. 9; pp. 4758 - 4773
Main Authors: Takeo, M., Maehara, Y., Ichihara, M., Ohminato, T., Kamata, R., Oikawa, J.
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 01-09-2013
Subjects:
Camber
Deformation
Degassing
explosive eruption
Frames
Geophysics
Inflation
Magma
magma degassing
magma effusion
Plate tectonics
Rupture
Tilt
tilt motion
Volcanic eruptions
Volcanoes
Vulcanian eruption
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Summary:The dynamics of explosive eruptions, such as Plinian, sub‐Plinian, Vulcanian, and Strombolian ones, is one of the most fascinating subjects in volcano physics. During the early period of volcanic activity at the Shinmoe‐dake Volcano in 2011, various kinds of activities, such as sub‐Plinian eruptions, a magma effusion, and Vulcanian eruptions, occurred sequentially. A different kind of tilt motion accompanied each activity. Here we clarify the characteristics of the tilt motions and their time sequences, presenting a new explanation of the triggering mechanism of a Vulcanian eruption. The sub‐Plinian and the Vulcanian eruptions at the Shinmoe‐dake Volcano were preceded by inflations at shallow depths near the summit. The inflation‐deflation cycles were also recorded during the magma‐effusive stage, with a typical period of 1 h, synchronized with volcanic tremors or long‐period events. Almost all Vulcanian eruptions were preceded by trapezoidal inflations, whose durations systematically lengthened as time progressed, and were followed by various time sequences of tilt motions, which became increasingly more complicated throughout the frequent Vulcanian eruptions. We have found clear linearity with a constant gradient of 0.45 between the logarithm of the preceding duration versus elapsed time for each substage. These observations can be consistently explained based on the assumption that a Vulcanian eruption is induced by a catastrophic rupture of the strongest closed, solid magma frame due to magma degassing overpressure, and the degassing from magma declines exponentially with time. Key Points A catastrophic rupture of strongest magma frame induces a Vulcanian eruption A relationship between duration of a preceding inflation and elapsed time Almost all Vulcanian eruptions are preceded by trapezoidal inflations
Bibliography:ark:/67375/WNG-W6T38C4Z-2
ArticleID:JGRB50278
istex:C5BE90F3A6AFFCE60A70ED5F55881B8504CC72F7
Grant-in-Aid for Scientific Research - No. (22740289)
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2169-9313
2169-9356
DOI:10.1002/jgrb.50278