日本地球惑星科学連合2019年大会

講演情報

[E] ポスター発表

セッション記号 S (固体地球科学) » S-SS 地震学

[S-SS07] Rigorous Seismicity Modelling and Hypothesis Testing

2019年5月27日(月) 17:15 〜 18:30 ポスター会場 (幕張メッセ国際展示場 8ホール)

コンビーナ:庄 建倉(統計数理研究所)、Schorlemmer Danijel(GFZ German Research Centre for Geosciences)、Matt Gerstenberger(GNS Science)、鶴岡 弘(東京大学地震研究所)

[SSS07-P10] Study on the spatial and temporal change of velocity structure before and after 2003 Chengkung earthquake, Taiwan

*TING YA LIANG1Wen-Yen Chang1,2,3Strong Wen4 (1.National DONG HWA University、2.Eastern Taiwan Earthquake Research Center、3.National Center for Research on Earthquake Engineering、4.National Chung Cheng University)

キーワード:spatial and temporal variations, Vp/Vs ratio

Taiwan is located in the plate converge zone, in which the Longitudinal Valley(LV) is the suture zone between the Eurasian Plate and Philippine Sea Plate. The collision process yields two nearly parallel major fault systems: the Central Range fault (CRF) and the Longitudinal Valley fault(LVF). The Chihshang fault is a creeping thrust fault, which is located in the southern section of the LVF in eastern Taiwan. According to geodetic survey, this fault moves to northwest at a rate approximately 2–3 cm/yr. There were two significant earthquakes occurred nearby the Chihshang fault, the 1951 M7.1 Hualien-Taitung earthquake and the 2003 M6.4 Chengkung earthquake. In this study, the spatial and temporal variations of velocity structure before and after 2003 Chengkung earthquake were obtained through the tomography inversion beneath the southern segment of the Longitudinal Valley. The damping least-square technique and 3D ray tracing scheme were adopted to calculate the most appropriate solution and obtain the velocity structures. The results showed that the Vp values exhibit less significant variations than the parameters Vs and Vp/Vs ratio. But the Vs structures show larger variation after the 2003 mainshock. These results imply that Vp/Vs ratios began to increase before the mainshock, at the hanging wall of the Chihshang fault, which may be related to the increasing density of microcracks and fluid. Previous studies has shown that high Vp/Vs ratio may lead to cracks generating and fluid migration, which can result in changing rock volume and produce partial compensation. Therefore, our results not only give better understanding the seismogenic structures in the ES Taiwan, but also allow us to detect variations of physical parameters caused by crack propagating in stratum during the strong earthquake sequence. Hence, this study shows that the results from temporal and spatial variation of Vp/Vs values in the southern segment of the LVF could allow us to assess the seismic hazard potential in this area, and further explore the relationship between the seismicity and the rheology of fault plane. Finally, long-term monitoring of fault activities will contribute to the research of future earthquake early warning.