地震地质 ›› 2013, Vol. 35 ›› Issue (2): 247-260.DOI: 10.3969/j.issn.0253-4967.2013.02.005

• 研究论文 • 上一篇    下一篇

汶川地震小鱼洞地区的地表破裂和同震位移及其机制讨论

谭锡斌1, 袁仁茂1, 徐锡伟1, 陈桂华1, 张中白2   

  1. 1. 中国地震局地质研究所, 活动构造与火山重点实验室, 北京 100029;
    2. 中央大学空间遥感研究中心, 桃园, 32001
  • 收稿日期:2012-05-08 修回日期:2013-03-26 出版日期:2013-06-30 发布日期:2013-07-11
  • 基金资助:

    国家自然科学基金(40821160550)资助

CO-SEISMIC RUPTURE AND DISPLACEMENT IN THE XIAOYUDONG AREA PRODUCED BY THE 2008 WENCHUAN EARTHQUAKE,CHINA,AND ITS MECHANISM

TAN Xi-bin1, YUAN Ren-mao1, XU Xi-wei1, CHEN Gui-hua1, CHANG Chung-pai2   

  1. 1. Key Laboratory of Active Tectonics and Volcano,Institute of Geology, China Earthquake Administration, Beijing 100029,China;
    2. Center for Space and Remote Sensing Research,National Central University,Taoyuan, 32001, China
  • Received:2012-05-08 Revised:2013-03-26 Online:2013-06-30 Published:2013-07-11

摘要:

2008年5月12日在四川西部发生的汶川地震是一次以逆冲运动为主,兼有右旋走滑运动的斜滑型地震,形成了有史以来最长、最复杂的地表破裂之一.其中,很多复杂现象到目前为止还没有得到很好的解释或一致的认识,如小鱼洞地区出现的NW走向的小鱼洞断裂,在小鱼洞以北出现的2条相距11km的平行断裂同时破裂的现象等.通过在小鱼洞地区的详细野外调查,获得了详细的地表破裂分布及同震位移分布,在此基础上对小鱼洞地区地表破裂的机制进行了分析.结果表明,造成上述复杂地表破裂的根本原因是汶川地震的主断层北川-映秀断裂的产状变化,即北川-映秀断裂在小鱼洞以北向NW偏移约3.5km.其破裂机制是: 1)北川-映秀断裂的右旋走滑运动在小鱼洞西侧的左阶挤压阶区引起的挤压隆升形成前冲断层,即小鱼洞断裂; 2)由于北川-映秀断裂在小鱼洞以北向NW偏移3.5km,导致其断层面倾角变大,逆冲运动引起的断层上盘对下盘的挤压方向变化,结合右旋走滑引起的上盘对下盘的侧向推挤,两者共同作用突破了彭灌断裂,从而形成了2条相距11km的平行断裂同时错动的现象.另外,文中建议应该重视北川-映秀断裂右旋走滑运动分量、断层产状变化以及断层上、下盘的岩性差异对汶川地震地表破裂过程及地表破裂分布的影响.

关键词: 汶川地震, 同震地表破裂, 挤压阶区, 小鱼洞断裂, 龙门山

Abstract:

The MW 7.9 Wenchuan,China,earthquake is a large oblique reverse slip shock,whose main fault is dominated by reverse slip with right-lateral strike-slip component. It generated one of the longest and most complicated surface ruptures,and to many of the phenomena,we haven't had an appropriate interpretation or a common understanding,e.g.on the 7km-long NW-trending Xiaoyudong Fault and the coinstantaneous fracture on the two parallel thrust faults which are 11km apart on the north of Xiaoyudong area. Field investigation in the Xiaoyudong area shows clear co-seismic rupture and displacement,and on these bases,we analyzed the mechanism of the surface rupture in the Xiaoyudong area. Our study indicates that the change of attitude of Beichuan-Yingxiu Fault(BYF),that is,the ca.3.5km step-over in the west of the Xiaoyudong area,is the primary cause of the above complex phenomena. Specific mechanisms are as follows: 1)The dextral strike-slip of the BYF results in compressional uplift in the left-restraining step-over,creating a frontal reverse fault,known as the Xiaoyudong Fault. ; 2)The Pengguan Fault,which is parallel to and 11km apart from the BYF,is activated in the north of the step-over by a combination of the increased dip angle in the north of the step-over due to the ca.3.5km left step of the BYF and the lateral push of the hanging wall to the footwall of the BYF caused by the dextral strike-slip of the BYF.These results are helpful in deepening our understanding of the dynamic processes that produced surface ruptures during the Wenchuan earthquake. We also suggest that more attention shall be paid to the impact of the dextral strike-slip component,the change of primary fault's attitude and the difference of the rocks of the fault's two walls on the process and distribution of surface rupture.

Key words: Wenchuan earthquake, co-seismic surface rupture, restraining step-over, Xiaoyudong rupture, Longmenshan

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