Changes in paleostress and its magnitude related to seismic cycles in the Chelung-pu Fault, Taiwan

Yoshitaka Hashimoto; Kota Tobe; En Chao Yeh; Weiren Lin; Sheng Rong Song

doi:10.1002/2015TC004005

Changes in paleostress and its magnitude related to seismic cycles in the Chelung-pu Fault, Taiwan

Yoshitaka Hashimoto^*, Kota Tobe, En Chao Yeh, Weiren Lin, Sheng Rong Song

^*Corresponding author for this work

Department of Earth Sciences (Include Institute of Marine Environmental Science and Technology)

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Paleostress analysis was conducted through a multiple stress inversion method using slip data recoded for the core samples from the Taiwan Chelung-pu Fault Drilling Project (TCDP). Two stress fields were obtained; one of these had horizontally plunging σ₁, and the other has horizontally plunging σ₂ or σ₃ in the compressional stress direction of the Chi-Chi earthquake. Stress magnitude for both the stress fields was constrained by stress polygons, which indicated larger SHmax for horizontally plunging σ₁ than that in the case of horizontally plunging σ₂ or σ₃. These differences in stress orientations and stress magnitude suggest that the change in stress filed can be caused by stress drop and stress buildup associated with seismic cycles. The seismic cycles recoded in the core samples from TCDP could include many events at geological timescale and not only the 1999 Chi-Chi earthquake.

Original language	English
Pages (from-to)	2418-2428
Number of pages	11
Journal	Tectonics
Volume	34
Issue number	12
DOIs	https://doi.org/10.1002/2015TC004005
Publication status	Published - 2015 Dec 1

Keywords

Taiwan
microfault inversion
paleostress
paleostress magnitude
seismic cycle
the Chelung-pu Fault

ASJC Scopus subject areas

Geophysics
Geochemistry and Petrology

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10.1002/2015TC004005

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title = "Changes in paleostress and its magnitude related to seismic cycles in the Chelung-pu Fault, Taiwan",

abstract = "Paleostress analysis was conducted through a multiple stress inversion method using slip data recoded for the core samples from the Taiwan Chelung-pu Fault Drilling Project (TCDP). Two stress fields were obtained; one of these had horizontally plunging σ1, and the other has horizontally plunging σ2 or σ3 in the compressional stress direction of the Chi-Chi earthquake. Stress magnitude for both the stress fields was constrained by stress polygons, which indicated larger SHmax for horizontally plunging σ1 than that in the case of horizontally plunging σ2 or σ3. These differences in stress orientations and stress magnitude suggest that the change in stress filed can be caused by stress drop and stress buildup associated with seismic cycles. The seismic cycles recoded in the core samples from TCDP could include many events at geological timescale and not only the 1999 Chi-Chi earthquake.",

keywords = "Taiwan, microfault inversion, paleostress, paleostress magnitude, seismic cycle, the Chelung-pu Fault",

author = "Yoshitaka Hashimoto and Kota Tobe and Yeh, {En Chao} and Weiren Lin and Song, {Sheng Rong}",

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AU - Hashimoto, Yoshitaka

AU - Tobe, Kota

AU - Yeh, En Chao

AU - Lin, Weiren

AU - Song, Sheng Rong

PY - 2015/12/1

Y1 - 2015/12/1

N2 - Paleostress analysis was conducted through a multiple stress inversion method using slip data recoded for the core samples from the Taiwan Chelung-pu Fault Drilling Project (TCDP). Two stress fields were obtained; one of these had horizontally plunging σ1, and the other has horizontally plunging σ2 or σ3 in the compressional stress direction of the Chi-Chi earthquake. Stress magnitude for both the stress fields was constrained by stress polygons, which indicated larger SHmax for horizontally plunging σ1 than that in the case of horizontally plunging σ2 or σ3. These differences in stress orientations and stress magnitude suggest that the change in stress filed can be caused by stress drop and stress buildup associated with seismic cycles. The seismic cycles recoded in the core samples from TCDP could include many events at geological timescale and not only the 1999 Chi-Chi earthquake.

AB - Paleostress analysis was conducted through a multiple stress inversion method using slip data recoded for the core samples from the Taiwan Chelung-pu Fault Drilling Project (TCDP). Two stress fields were obtained; one of these had horizontally plunging σ1, and the other has horizontally plunging σ2 or σ3 in the compressional stress direction of the Chi-Chi earthquake. Stress magnitude for both the stress fields was constrained by stress polygons, which indicated larger SHmax for horizontally plunging σ1 than that in the case of horizontally plunging σ2 or σ3. These differences in stress orientations and stress magnitude suggest that the change in stress filed can be caused by stress drop and stress buildup associated with seismic cycles. The seismic cycles recoded in the core samples from TCDP could include many events at geological timescale and not only the 1999 Chi-Chi earthquake.

KW - Taiwan

KW - microfault inversion

KW - paleostress

KW - paleostress magnitude

KW - seismic cycle

KW - the Chelung-pu Fault

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Changes in paleostress and its magnitude related to seismic cycles in the Chelung-pu Fault, Taiwan

Abstract

Keywords

ASJC Scopus subject areas

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