Volcanic eruption volume flux estimations from very long period infrasound signals

Taishi Yamada; Hiroshi Aoyama; Takeshi Nishimura; Masato Iguchi; Muhamad Hendrasto

doi:10.1002/2016GL071047

Volcanic eruption volume flux estimations from very long period infrasound signals

Taishi Yamada, Hiroshi Aoyama, Takeshi Nishimura, Masato Iguchi, Muhamad Hendrasto

SCI - Geophysics

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

We examine very long period infrasonic signals accompanying volcanic eruptions near active vents at Lokon-Empung volcano in Indonesia, Aso, Kuchinoerabujima, and Kirishima volcanoes in Japan. The excitation of the very long period pulse is associated with an explosion, the emerging of an eruption column, and a pyroclastic density current. We model the excitation of the infrasound pulse, assuming a monopole source, to quantify the volume flux and cumulative volume of erupting material. The infrasound-derived volume flux and cumulative volume can be less than half of the video-derived results. A largely positive correlation can be seen between the infrasound-derived volume flux and the maximum eruption column height. Therefore, our result suggests that the analysis of very long period volcanic infrasound pulses can be helpful in estimating the maximum eruption column height.

Original language	English
Pages (from-to)	143-151
Number of pages	9
Journal	Geophysical Research Letters
Volume	44
Issue number	1
DOIs	https://doi.org/10.1002/2016GL071047
Publication status	Published - 2017 Jan 16

Keywords

VLP
eruption column
magma flux
monopole source
volcanic infrasound
volume flux

ASJC Scopus subject areas

Geophysics
Earth and Planetary Sciences(all)

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10.1002/2016GL071047

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title = "Volcanic eruption volume flux estimations from very long period infrasound signals",

abstract = "We examine very long period infrasonic signals accompanying volcanic eruptions near active vents at Lokon-Empung volcano in Indonesia, Aso, Kuchinoerabujima, and Kirishima volcanoes in Japan. The excitation of the very long period pulse is associated with an explosion, the emerging of an eruption column, and a pyroclastic density current. We model the excitation of the infrasound pulse, assuming a monopole source, to quantify the volume flux and cumulative volume of erupting material. The infrasound-derived volume flux and cumulative volume can be less than half of the video-derived results. A largely positive correlation can be seen between the infrasound-derived volume flux and the maximum eruption column height. Therefore, our result suggests that the analysis of very long period volcanic infrasound pulses can be helpful in estimating the maximum eruption column height.",

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author = "Taishi Yamada and Hiroshi Aoyama and Takeshi Nishimura and Masato Iguchi and Muhamad Hendrasto",

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doi = "10.1002/2016GL071047",

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T1 - Volcanic eruption volume flux estimations from very long period infrasound signals

AU - Yamada, Taishi

AU - Aoyama, Hiroshi

AU - Nishimura, Takeshi

AU - Iguchi, Masato

AU - Hendrasto, Muhamad

PY - 2017/1/16

Y1 - 2017/1/16

N2 - We examine very long period infrasonic signals accompanying volcanic eruptions near active vents at Lokon-Empung volcano in Indonesia, Aso, Kuchinoerabujima, and Kirishima volcanoes in Japan. The excitation of the very long period pulse is associated with an explosion, the emerging of an eruption column, and a pyroclastic density current. We model the excitation of the infrasound pulse, assuming a monopole source, to quantify the volume flux and cumulative volume of erupting material. The infrasound-derived volume flux and cumulative volume can be less than half of the video-derived results. A largely positive correlation can be seen between the infrasound-derived volume flux and the maximum eruption column height. Therefore, our result suggests that the analysis of very long period volcanic infrasound pulses can be helpful in estimating the maximum eruption column height.

AB - We examine very long period infrasonic signals accompanying volcanic eruptions near active vents at Lokon-Empung volcano in Indonesia, Aso, Kuchinoerabujima, and Kirishima volcanoes in Japan. The excitation of the very long period pulse is associated with an explosion, the emerging of an eruption column, and a pyroclastic density current. We model the excitation of the infrasound pulse, assuming a monopole source, to quantify the volume flux and cumulative volume of erupting material. The infrasound-derived volume flux and cumulative volume can be less than half of the video-derived results. A largely positive correlation can be seen between the infrasound-derived volume flux and the maximum eruption column height. Therefore, our result suggests that the analysis of very long period volcanic infrasound pulses can be helpful in estimating the maximum eruption column height.

KW - VLP

KW - eruption column

KW - magma flux

KW - monopole source

KW - volcanic infrasound

KW - volume flux

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Volcanic eruption volume flux estimations from very long period infrasound signals

Abstract

Keywords

ASJC Scopus subject areas

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