Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan

Koki Aizawa; Shinichi Takakura; Hisafumi Asaue; Katsuaki Koike; Ryokei Yoshimura; Ken’ichi Yamazaki; Shintaro Komatsu; Mitsuru Utsugi; Hiroyuki Inoue; Kaori Tsukamoto; Makoto Uyeshima; Takao Koyama; Wataru Kanda; Tohru Yoshinaga; Nobuo Matsushima; Kazunari Uchida; Yuko Tsukashima; Takeshi Matsushima; Hiroshi Ichihara; Dan Muramatsu; Yoshiko Teguri; Azusa Shito; Satoshi Matsumoto; Hiroshi Shimizu

doi:10.1186/s40623-020-01340-w

Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan

Koki Aizawa, Shinichi Takakura, Hisafumi Asaue, Katsuaki Koike, Ryokei Yoshimura, Ken’ichi Yamazaki, Shintaro Komatsu, Mitsuru Utsugi, Hiroyuki Inoue, Kaori Tsukamoto, Makoto Uyeshima, Takao Koyama, Wataru Kanda, Tohru Yoshinaga, Nobuo Matsushima, Kazunari Uchida, Yuko Tsukashima, Takeshi Matsushima, Hiroshi Ichihara, Dan MuramatsuYoshiko Teguri, Azusa Shito, Satoshi Matsumoto, Hiroshi Shimizu

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

11 被引用数 (Scopus)

抄録

Crustal earthquake ruptures tend to initiate near fluid-rich zones. However, it is relatively unknown whether fluid-rich zones can further promote or arrest these ruptures. We image the electrical resistivity structure around the focal area of the 2016 Kumamoto earthquake sequence by using 200 sites broadband magnetotelluric data, and discuss its quantitative relationship to earthquake initiation, growth, and arrest processes. The ruptures that initiated along the outer edge of the low-resistivity fluid-rich zones (< 30 Ωm) tended to become large earthquakes, whereas those that initiated either distal to or within the fluid-rich zones did not. The ruptures were arrested by high-temperature (> 400 °C) fluid-rich zones, whereas shallower low-temperature (200–400 °C) fluid-rich zones either promoted or arrested the ruptures. These results suggest that the distribution of mid-crustal fluids contributes to the initiation, growth, and arrest of crustal earthquakes. The pre-failure pressure/temperature gradient (spatial difference) of the pore fluids may contribute to the rupture initiation, propagation, and arrest.[Figure not available: see fulltext.]

本文言語	英語
論文番号	12
ジャーナル	earth, planets and space
巻	73
号	1
DOI	https://doi.org/10.1186/s40623-020-01340-w
出版ステータス	出版済み - 12月 2021

!!!All Science Journal Classification (ASJC) codes

地質学
宇宙惑星科学

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10.1186/s40623-020-01340-w

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引用スタイル

Aizawa, K., Takakura, S., Asaue, H., Koike, K., Yoshimura, R., Yamazaki, K., Komatsu, S., Utsugi, M., Inoue, H., Tsukamoto, K., Uyeshima, M., Koyama, T., Kanda, W., Yoshinaga, T., Matsushima, N., Uchida, K., Tsukashima, Y., Matsushima, T., Ichihara, H., ... Shimizu, H. (2021). Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan. earth, planets and space, 73(1), 記事 12. https://doi.org/10.1186/s40623-020-01340-w

Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan. / Aizawa, Koki; Takakura, Shinichi; Asaue, Hisafumi その他.
In: earth, planets and space, Vol. 73, No. 1, 12, 12.2021.

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

Aizawa, K, Takakura, S, Asaue, H, Koike, K, Yoshimura, R, Yamazaki, K, Komatsu, S, Utsugi, M, Inoue, H, Tsukamoto, K, Uyeshima, M, Koyama, T, Kanda, W, Yoshinaga, T, Matsushima, N, Uchida, K, Tsukashima, Y, Matsushima, T, Ichihara, H, Muramatsu, D, Teguri, Y, Shito, A, Matsumoto, S & Shimizu, H 2021, 'Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan', earth, planets and space, vol. 73, no. 1, 12. https://doi.org/10.1186/s40623-020-01340-w

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title = "Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes: observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan",

abstract = "Crustal earthquake ruptures tend to initiate near fluid-rich zones. However, it is relatively unknown whether fluid-rich zones can further promote or arrest these ruptures. We image the electrical resistivity structure around the focal area of the 2016 Kumamoto earthquake sequence by using 200 sites broadband magnetotelluric data, and discuss its quantitative relationship to earthquake initiation, growth, and arrest processes. The ruptures that initiated along the outer edge of the low-resistivity fluid-rich zones (< 30 Ωm) tended to become large earthquakes, whereas those that initiated either distal to or within the fluid-rich zones did not. The ruptures were arrested by high-temperature (> 400 °C) fluid-rich zones, whereas shallower low-temperature (200–400 °C) fluid-rich zones either promoted or arrested the ruptures. These results suggest that the distribution of mid-crustal fluids contributes to the initiation, growth, and arrest of crustal earthquakes. The pre-failure pressure/temperature gradient (spatial difference) of the pore fluids may contribute to the rupture initiation, propagation, and arrest.[Figure not available: see fulltext.]",

author = "Koki Aizawa and Shinichi Takakura and Hisafumi Asaue and Katsuaki Koike and Ryokei Yoshimura and Ken{\textquoteright}ichi Yamazaki and Shintaro Komatsu and Mitsuru Utsugi and Hiroyuki Inoue and Kaori Tsukamoto and Makoto Uyeshima and Takao Koyama and Wataru Kanda and Tohru Yoshinaga and Nobuo Matsushima and Kazunari Uchida and Yuko Tsukashima and Takeshi Matsushima and Hiroshi Ichihara and Dan Muramatsu and Yoshiko Teguri and Azusa Shito and Satoshi Matsumoto and Hiroshi Shimizu",

note = "Funding Information: We are greatly indebted to the landowners for their permission to acquire the MT observations at the selected sites during the MT field campaigns. The geomagnetic data used for the remote-reference processing were provided by the Kakioka Geomagnetic Observatory of JMA. We thank two anonymous reviewers for their insightful comments and suggestions, which improved the final manuscript. We also thank R. Sibson for a comment on the research. This work was supported by MEXT (KAKENHI Grant Number JP16H06298, Comprehensive Research Project for the major active faults related to The 2016 Kumamoto Earthquake, and Earthquake and Volcano Hazards Observation and Research Program), and Earthquake Research Institute Joint Usage Program, the University of Tokyo (C000631 C000632 C001192). Funding Information: This work was supported by MEXT (KAKENHI Grant Number JP16H06298, Comprehensive Research Project for the major active faults related to The 2016 Kumamoto Earthquake, and Earthquake and Volcano Hazards Observation and Research Program), and Earthquake Research Institute Joint Usage Program, the University of Tokyo (C000631 C000632 C001192). Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1186/s40623-020-01340-w",

language = "English",

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T1 - Electrical conductive fluid-rich zones and their influence on the earthquake initiation, growth, and arrest processes

T2 - observations from the 2016 Kumamoto earthquake sequence, Kyushu Island, Japan

AU - Aizawa, Koki

AU - Takakura, Shinichi

AU - Asaue, Hisafumi

AU - Koike, Katsuaki

AU - Yoshimura, Ryokei

AU - Yamazaki, Ken’ichi

AU - Komatsu, Shintaro

AU - Utsugi, Mitsuru

AU - Inoue, Hiroyuki

AU - Tsukamoto, Kaori

AU - Uyeshima, Makoto

AU - Koyama, Takao

AU - Kanda, Wataru

AU - Yoshinaga, Tohru

AU - Matsushima, Nobuo

AU - Uchida, Kazunari

AU - Tsukashima, Yuko

AU - Matsushima, Takeshi

AU - Ichihara, Hiroshi

AU - Muramatsu, Dan

AU - Teguri, Yoshiko

AU - Shito, Azusa

AU - Matsumoto, Satoshi

AU - Shimizu, Hiroshi

N1 - Funding Information: We are greatly indebted to the landowners for their permission to acquire the MT observations at the selected sites during the MT field campaigns. The geomagnetic data used for the remote-reference processing were provided by the Kakioka Geomagnetic Observatory of JMA. We thank two anonymous reviewers for their insightful comments and suggestions, which improved the final manuscript. We also thank R. Sibson for a comment on the research. This work was supported by MEXT (KAKENHI Grant Number JP16H06298, Comprehensive Research Project for the major active faults related to The 2016 Kumamoto Earthquake, and Earthquake and Volcano Hazards Observation and Research Program), and Earthquake Research Institute Joint Usage Program, the University of Tokyo (C000631 C000632 C001192). Funding Information: This work was supported by MEXT (KAKENHI Grant Number JP16H06298, Comprehensive Research Project for the major active faults related to The 2016 Kumamoto Earthquake, and Earthquake and Volcano Hazards Observation and Research Program), and Earthquake Research Institute Joint Usage Program, the University of Tokyo (C000631 C000632 C001192). Publisher Copyright: © 2021, The Author(s).

PY - 2021/12

Y1 - 2021/12

N2 - Crustal earthquake ruptures tend to initiate near fluid-rich zones. However, it is relatively unknown whether fluid-rich zones can further promote or arrest these ruptures. We image the electrical resistivity structure around the focal area of the 2016 Kumamoto earthquake sequence by using 200 sites broadband magnetotelluric data, and discuss its quantitative relationship to earthquake initiation, growth, and arrest processes. The ruptures that initiated along the outer edge of the low-resistivity fluid-rich zones (< 30 Ωm) tended to become large earthquakes, whereas those that initiated either distal to or within the fluid-rich zones did not. The ruptures were arrested by high-temperature (> 400 °C) fluid-rich zones, whereas shallower low-temperature (200–400 °C) fluid-rich zones either promoted or arrested the ruptures. These results suggest that the distribution of mid-crustal fluids contributes to the initiation, growth, and arrest of crustal earthquakes. The pre-failure pressure/temperature gradient (spatial difference) of the pore fluids may contribute to the rupture initiation, propagation, and arrest.[Figure not available: see fulltext.]

AB - Crustal earthquake ruptures tend to initiate near fluid-rich zones. However, it is relatively unknown whether fluid-rich zones can further promote or arrest these ruptures. We image the electrical resistivity structure around the focal area of the 2016 Kumamoto earthquake sequence by using 200 sites broadband magnetotelluric data, and discuss its quantitative relationship to earthquake initiation, growth, and arrest processes. The ruptures that initiated along the outer edge of the low-resistivity fluid-rich zones (< 30 Ωm) tended to become large earthquakes, whereas those that initiated either distal to or within the fluid-rich zones did not. The ruptures were arrested by high-temperature (> 400 °C) fluid-rich zones, whereas shallower low-temperature (200–400 °C) fluid-rich zones either promoted or arrested the ruptures. These results suggest that the distribution of mid-crustal fluids contributes to the initiation, growth, and arrest of crustal earthquakes. The pre-failure pressure/temperature gradient (spatial difference) of the pore fluids may contribute to the rupture initiation, propagation, and arrest.[Figure not available: see fulltext.]

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