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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.
- Authors
Aizawa, Koki; Takakura, Shinichi; Asaue, Hisafumi; Koike, Katsuaki; Yoshimura, Ryokei; Yamazaki, Ken'ichi; Komatsu, Shintaro; Utsugi, Mitsuru; Inoue, Hiroyuki; Tsukamoto, Kaori; Uyeshima, Makoto; Koyama, Takao; Kanda, Wataru; Yoshinaga, Tohru; Matsushima, Nobuo; Uchida, Kazunari; Tsukashima, Yuko; Matsushima, Takeshi; Ichihara, Hiroshi; Muramatsu, Dan
- 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.
- Subjects
KUMAMOTO-shi (Japan); KYUSHU Region (Japan); MAGNETOTELLURICS; EARTHQUAKE zones; EARTHQUAKES; SURFACE fault ruptures; PORE fluids; ELECTRICAL resistivity
- Publication
Earth, Planets & Space, 2021, Vol 73, Issue 1, p1
- ISSN
1343-8832
- Publication type
Letter
- DOI
10.1186/s40623-020-01340-w