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Watanabe, Tsuyoshi; Hiratsuka, Shinya*; Shimada, Koji
no journal, ,
Fluid has a significant influence on the seismogenic process because it reduces the fracture strength of rocks. Fluid migration also affects the long-term safe confinement function of a geological disposal systems. To clarify the existence and the migration channels of such fluid, shear wave splitting analysis is a useful method, which can estimate the anisotropy related to cracks and fluid in the crust. We conducted the shear wave splitting analysis in Iwaki area, northeast Japan, where seismic activity was increased and anomalous discharge of hot springs was observed about one month after the 2011 Tohoku Earthquake (Mw 9.0). As a result, we showed that the crack orientations turn to generally arc-parallel direction in Iwaki area, and additionally, that the spatial distribution of anisotropic intensity is relatively high at a seismic site near the hot springs with anomalous discharge. This suggests that fluid from deep underground gather in the crust in steady-state.
Watanabe, Tsuyoshi; Hiratsuka, Shinya*; Shimada, Koji
no journal, ,
The crustal fluid is one of the important factors in considering the seismogenic process because it reduces the fracture strength of rocks. To clarify the existence and the migration channels of such fluid will greatly contribute to disaster prevention, mitigation, and safety geological disposal. In this study, we conducted shear wave splitting analysis in the region from Fukushima to Ibaraki Prefectures to investigate the crustal fluid. As a result, we showed the spatio-temporal distributions of the crack orientations and anisotropic intensity. Then, we succeeded in capturing how crustal fluid propagated from deep to shallow areas along active faults or structures.