IAG-IASPEI 2017

講演情報

Oral

Joint Symposia » J05. Crustal dynamics: Multidisciplinary approach to seismogenesis

[J05-1] Crustal dynamics: Multidisciplinary approach to seismogenesis I

2017年8月1日(火) 13:30 〜 15:00 Room 501 (Kobe International Conference Center 5F, Room 501)

Chairs: Takeshi Sagiya (Nagoya University) , Kuo-Fong Ma (National Central University)

14:30 〜 14:45

[J05-1-05] Modeling deformation processes of the island arc crust and mantle during the postseismic period of the Tohoku-oki earthquake

Bunichiro Shibazaki1, Satoshi Miura2, Akemi Noda3, Takeshi Iinuma4, Takumi Matsumoto3 (1.International Institute of Seismology and Earthquake Engineering, BRI, Tsukuba, Japan, 2.Tohoku University, Sendai, Japan, 3.National Research Institute for Earth Science and Disaster Resilience, Tsukuba, Japan, 4.Japan Agency for Marine-Earth Science and Technology, Yokohama, Japan)

This paper investigates postseismic viscoelastic deformation in the island arc crust and mantle and postseismic slip of the Tohoku-oki earthquake considering the heterogeneous rheological structure. We first calculated the effective viscosity distribution of the Japanese island arc crust and upper mantle. Then, we calculated the viscoelastic deformation of the Japan island arc during the postseismic period of the Tohoku-oki earthquake considering the coseismic slip distribution obtained by our inversion analysis using a finite element method. After removing the viscoelastic deformation from the observed displacement data, we performed inversion analysis to obtain postseismic slip distribution. For calculation of the effective viscosity distribution of the Japanese island arc crust and upper mantle, we first considered the thermal structure obtained by dense geothermal observations from Hi-net boreholes (Matsumoto, 2007) and by Tanaka et al. (2004). The model could not reproduce well a postseismic strain anomaly (decreases in areal strain) along the volcanic front after the 2011 Tohoku-oki earthquake, which was found by Miura et al. (2014). Therefore, we considered local low viscosity region beneath volcanoes. In this case, a postseismic strain anomaly (decreases in areal strain) along the volcanic front can be reproduced. We also obtained postseismic slip by the inversion analysis. The results indicate large postseismic slip occurred below the deeper part of the coseismic slip region. We test several viscoelastic structures and report a model which explains well the postseismic deformation in the inland region of northeastern Japan.