Source Process and Ground Motions of the 2008 Wenchuan Earthquake
We studied the source process of the Wenchuan earthquake using not only teleseismic waveforms observed by FDSN/IRIS but also strong motion waveforms observed by the Institute of Engineering Mechanics of the China Earthquake Administration. We first defined a two-segment source fault according to surface rupture investigations and the aftershock distribution by the United States Geological Survey. The southern and northern segments were given similar strikes, but different dip angles based on the results of point sources analyses. We next carried out a finite source inversion of the teleseismic waveform data. The result of this inversion indicates Mw 7.9, the maximum slip of about 9 m, and two asperities in the southern and northern segments. The southern asperity is much stronger than the northern one. Mostly reverse faulting occurred up to 60km from the hypocenter, but strike slips are dominant beyond 60km. Significant slips appear in a 250 km long region (10,000 km2) of the source fault. These length and area are close to the averages for Mw 7.9 low-angle reverse-faulting earthquakes. We then performed a joint inversion of both the teleseismic and strong motion data. The result of the joint inversion still keeps similar features to those found in the result of the inversion of the teleseismic data only. We can also find some discrepancies such as strike-slip components in the southern asperity and shallow slips in the southern segment. The detailed structures of the asperities are shown in the result of the joint inversion. The strong motion records closest to the source fault mainly consist of the ground motions from the southern asperity and the slips around the hypocenter. They overlap each other because of the rupture velocity (Vr) nearly equal to the S-wave velocity (Vs), resulting in strong directivity effects at the end of the southern segment. Heavily damaged towns such as Yingxiu and Beichuan and the zones of seismic intensity XI were located just above the southern asperity or at the end of the southern segment.
Wenchuan earthquake Source process Teleseismic data Strong motion data Asperity Directivity effect
K.Koketsu Y.Yokota H.Ghasemi K.Hikima H.Miyake Z.Wang
Earthquake Research Institute,University of Tokyo, Japan School of Science, University of Tokyo, Japan Earthquake Research Institute, University of Tokyo, Japan Earthquake Research Institute.University of Tokyo, Japan Institute of Engineering Mechanics, China Earthquake Administration, China
国际会议
The First Anniversary of Wenchuan Earthquake(纪念汶川地震一周年国际学术会议)
成都
英文
615-620
2009-05-10(万方平台首次上网日期,不代表论文的发表时间)