Abstract
TheM=7.6 Jiji (Chi-Chi) earthquake, Taiwan Province, on September 21, 1999 (local time) is a thrust fault style earthquake. The empirical attenuation relations of the horizontal and vertical peak ground accelerations (PGA) for the Jiji (Chi-Chi) earthquake are developed by regression method. By examining the residuals from the Jiji (Chi-Chi) earthquake-specific peak acceleration attenuation relations, it is found that there are systematic differences between PGA on the hanging-wall and footwall. The recorded peak accelerations are higher on the hanging-wall and lower on the footwall. The clear asymmetry of PGA distribution to the surface rupture trace can also be seen from the PGA contour map. These evidences indicate that the PGA attenuates faster on the hanging-wall than on the footwall. In the study of near-source strong motion, seismic hazard assessment, scenario earthquake and seismic disaster prediction, the style-of-faulting must be considered in order that the attenuation model can reflect the characteristic of ground motion in various seismic environmental regions.
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Foundation item: National Key Basic Research Project (G1998040700).
Contribution No. 01FE2016, Institute of Geophysics, China Seismological Bureau.
The ground motion recordings of Jiji (Chi-Chi) earthquake are provided by the Seismology Center, Central Weather Bureau, Taipei, Taiwan.
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Yu, Yx., Gao, Mt. Effects of the hanging wall and footwall on peak acceleration during the Jiji (Chi-Chi), Taiwan Province, earthquake. Acta Seimol. Sin. 14, 654–659 (2001). https://doi.org/10.1007/BF02718076
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DOI: https://doi.org/10.1007/BF02718076