SEISMOLOGY AND EGOLOGY ›› 2002, Vol. 24 ›› Issue (4): 583-592.

• Brief Report • Previous Articles     Next Articles

HIGH-RESOLUTION SEISMIC REFLECTION PROFILING OF THE FENHE FAULT, TAIYUAN CITY

YOU Hui-chuan, HE Zheng-qin, DING Zhi-feng, WU Jian-ping, WU Qiang-ju   

  1. Institute of Geophysics, China Seismological Bureau, Beijing 10081, China
  • Received:2002-09-01 Revised:2002-09-18 Online:2002-12-03 Published:2009-10-26

太原市汾河断裂浅层高分辨率地震探测

尤惠川, 何正勤, 丁志峰, 吴建平, 吴庆举   

  1. 中国地震局地球物理研究所, 北京, 100081
  • 作者简介:尤惠川,男,1959年生,1982年毕业于北京大学地貌与第四纪地质学专业,1984年在中国地震局地质研究所获得硕士学位,副研究员,主要从事活动构造和深浅构造关系研究及地震安全性评价工作,电话:010-68415392.
  • 基金资助:
    国家发展计划委员会高新技术项目(2001977)资助.

Abstract: This study focuses on a NNE-striking, normal-right-lateral-strike-slip fault, the Fenhe Fault in Taiyuan City. It is one of the faults from the NNE-trending fault system developed within the Shanxi faulted basin zone, buried beneath the ground surface. In this paper, we demonstrate the high-resolution seismic reflection data for a depth range of several hundred meters across the Fenhe Fault. In combination with the relevant borehole logs, these data provide useful constraints on the accurate position, geometry and deformation rate of the fault, as well as the kinematics of recent fault motion. Two high-resolution seismic reflection profiles across the Fenhe Fault in Taiyuan City clearly demonstrate two continuous, strong-reflection interfaces(at two-way time of 85~110ms for the upper one and of 180~200ms for the lower one), and three reflection layers separated by these two interfaces. In addition, they reveal the near-surface location, geometry and activities of this oblique-normal right-lateral fault. Although the westward dipping fault at shallow level cannot be ruled out, we consider the eastward dipping high angle fault, which is located between the canal and the western embankment of the Fenhe River, to be the west branch of the Fenhe Fault. Based on the geological and drilling data, three seismic reflection layers are inferred to represent the Holocene-upper Pleistocene, middle-lower Pleistocene and Neogene strata, respectively. A total vertical separation of ~10m has occurred on the fault since the beginning of Quaternary, terminating at ~70m below the ground surface. In the upper ~190m section of the borehole log near the two seismic profiles, two closely spaced, subvertical strike-slip faults can be recognized. The eastern branch fault is more active than the western one. It lies beneath the eastern embankment of the Fenhe River, dipping to the west and cutting into the upper layer of Holocene-late Pleistocene strata with a maximum vertical offset of ~8m. Another borehole log across the northern segment of the Fenhe Fault reveals an eastward dipping subvertical, right-lateral strike-slip oblique normal fault, which has cut into the upper layer of Holocene-late Pleistocene strata with a maximum vertical offset of ~6m. The afore-mentioned data provide a minimum average Pleistocene-Holocene vertical slip rate of ~0.06~0.08mm/a and a maximum average recurrence interval of 5.0~6.7ka for the Fenhe Fault, providing that the vertical offset caused by large earthquake is 0.4m per event(similar to the offset caused by the Tangshan earthquake). This is a long-recurrence interval and a low vertical-slip rate probably similar to or more than those of the Tangshan No.5 Fault. If the 0.08mm/a vertical-slip rate characterized the history of faulting at seismic profiling site, then the currently active strand of the east branch of the Fenhe Fault had been active since middle Pleistocene(~150ka), and before that time the west branch of the Fenhe Fault was active but probably had stopped moving at that time. Epicentral distribution of earthquakes clearly demonstrates the seismogenic structures of the Shanxi faulted basin zone. Within these NNE-NS-trending basins, some large historical earthquakes have occurred on the NNE-NS-trending faults. Although within the Taiyuan basin and on the Fenhe Fault occurred only some moderate earthquakes, their structures and activities are similar to those of the large earthquakes. It can be concluded, therefore, that the seismic risk of the Fenhe Fault is an objective reality. As the fault just lies beneath the urban population center of the Taiyuan City, a large earthquake(MS 7.0~7.5)on it may cause enormous damages. An insight into the activity of the fault is needed for the earthquake prediction and hazard reduction of the Taiyuan City.

Key words: Fenhe Fault, high-resolution seismic reflection profiling, Taiyuan City

摘要: 通过浅层高分辨率地震探测,结合钻孔资料,获得了测线处汾河断裂的准确位置,几何结构,活动性质、时代和速率等参数,并对其动力学属性进行了初步的讨论.地震探测揭露出汾河断裂的西支断层,为高角度东倾的斜滑断层,切割了第四系下部,上断点位于地下约70m处.据钻孔剖面推断有2条高角度相向而倾的斜滑断层,东支位于汾河东岸,断至全新统-上更新统,其底界面垂直错距约8m.断裂北段另一个钻孔剖面表明,西支断层切割了全新统-上更新统,底界面垂直错距约6m.汾河断裂晚更新世以来的平均垂直滑动速率为0.06~0.08mm/a,大震平均重复间隔为5.0~6.7ka.

关键词: 汾河断裂, 浅层高分辨率地震探测, 太原

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