Locating hydrothermal fluid injection of the 2018 phreatic eruption at Kusatsu-Shirane volcano with volcanic tremor amplitude

Taishi Yamada; Aika K. Kurokawa; Akihiko Terada; Wataru Kanda; Hideki Ueda; Hiroshi Aoyama; Takahiro Ohkura; Yasuo Ogawa; Toshikazu Tanada

doi:10.1186/s40623-020-01349-1

Earth, Planets and Space (Jan 2021)

Locating hydrothermal fluid injection of the 2018 phreatic eruption at Kusatsu-Shirane volcano with volcanic tremor amplitude

Taishi Yamada,
Aika K. Kurokawa,
Akihiko Terada,
Wataru Kanda,
Hideki Ueda,
Hiroshi Aoyama,
Takahiro Ohkura,
Yasuo Ogawa,
Toshikazu Tanada

Affiliations

Taishi Yamada: Disaster Prevention Research Institute, Sakurajima Volcano Research Center, Kyoto University
Aika K. Kurokawa: National Research Institute for Earth Science and Disaster Resilience
Akihiko Terada: Volcanic Fluid Research Center, School of Science, Tokyo Institute of Technology
Wataru Kanda: Volcanic Fluid Research Center, School of Science, Tokyo Institute of Technology
Hideki Ueda: National Research Institute for Earth Science and Disaster Resilience
Hiroshi Aoyama: Institute of Seismology and Volcanology, Faculty of Science, Hokkaido University
Takahiro Ohkura: Aso Volcanological Laboratory, Kyoto University
Yasuo Ogawa: Volcanic Fluid Research Center, School of Science, Tokyo Institute of Technology
Toshikazu Tanada: National Research Institute for Earth Science and Disaster Resilience

DOI: https://doi.org/10.1186/s40623-020-01349-1
Journal volume & issue: Vol. 73, no. 1
pp. 1 – 15

Abstract

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Abstract Kusatsu-Shirane volcano hosts numerous thermal springs, fumaroles, and the crater lake of Yugama. Hence, it has been a particular study field for hydrothermal systems and phreatic eruptions. On 23 January 2018, a phreatic eruption occurred at the Motoshirane cone of Kusatsu-Shirane, where no considerable volcanic activity had been reported in observational and historical records. To understand the eruption process of this unique event, we analyzed seismic, tilt, and infrasound records. The onset of surface activity accompanied by infrasound signal was preceded by volcanic tremor and inflation of the volcano for ~ 2 min. Tremor signals with a frequency band of 5–20 Hz remarkably coincide with the rapid inflation. We apply an amplitude source location method to seismic signals in the 5–20 Hz band to estimate tremor source locations. Our analysis locates tremor sources at 1 km north of Motoshirane and at a depth of 0.5–1 km from the surface. Inferred source locations correspond to a conductive layer of impermeable cap-rock estimated by magnetotelluric investigations. An upper portion of the seismogenic region suggests hydrothermal activity hosted beneath the cap-rock. Examined seismic signals in the 5–20 Hz band are typically excited by volcano-tectonic events with faulting mechanism. Based on the above characteristics and background, we interpret that excitation of examined volcanic tremor reflects small shear fractures induced by sudden hydrothermal fluid injection to the cap-rock layer. The horizontal distance of 1 km between inferred tremor sources and Motoshirane implies lateral migration of the hydrothermal fluid, although direct evidence is not available. Kusatsu-Shirane has exhibited unrest at the Yugama lake since 2014. However, the inferred tremor source locations do not overlap active seismicity beneath Yugama. Therefore, our result suggests that the 2018 eruption was triggered by hydrothermal fluid injection through a different pathway from that has driven unrest activities at Yugama.

Published in Earth, Planets and Space

ISSN: 1343-8832 (Print); 1880-5981 (Online)
Publisher: SpringerOpen
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation; Science: Astronomy: Geodesy; Science: Geology
Website: http://www.earth-planets-space.com/

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