地震地质 ›› 1989, Vol. 11 ›› Issue (1): 1-14.

• 科研简报 •    下一篇

海原走滑断裂带及其尾端挤压构造

邓起东1, 张维岐2, 张培震1, 焦德成2, 宋方敏1, 汪一鹏1, B. C. 伯奇菲尔3, P. 莫尔纳3, L. 雷登3, 陈社发4, 朱世龙5, 柴炽章2   

  1. 1. 国家地震局地质研究所;
    2. 宁夏回族自治区地震局;
    3. 美国麻省理工学院地球、大气和行星科学系;
    4. 中国地质大学;
    5. 国家地震局
  • 收稿日期:1988-08-31 出版日期:1989-03-08 发布日期:2009-11-25

HAIYUAN STRIKE-SLIP FAULT ZONE AND ITS COMPRESSIONAL STRUCTURES OF THE END

Deng Qi-dong1, Zhang Wei-qi2, Zhang Pei-zhen1, Jiao De-cheng2, Song Fang-min1, Wang Yi-peng1, B. C. Burchfiel3, P. Molnar3, L. Royden3, Chen She-fa4, Zhu Shi-long5, Chai Zhi-zhang2   

  1. 1. Institute of Geology, State Seismological Bureau, Beijing, China;
    2. Seismological Bureau of the Ningxia-Hui Autonomous Region, Yinchuan, China;
    3. Department of Earth, Atmospheric, and Planetary Sciences, Massachusetts Institute of Technology, Cambadge, U. S. A;
    4. Geological University of China, Wuhan, China;
    5. State Seismological Bureau, Beijing, China
  • Received:1988-08-31 Online:1989-03-08 Published:2009-11-25

摘要: 研究了青藏高原东北部地区海原活动断裂带的几何学、运动学和动力学特征、左旋位移总量及全新世滑动速率,对海原走滑断裂带东南端发育的尾端挤压区的构造特征及地壳缩短量进行了研究,分析了走滑断裂带的走滑量与端部挤压区地壳缩短量之间的转换平衡关系。

关键词: 海原, 走滑断裂, 尾端挤压构造, 地壳缩短

Abstract: Haiyuan active fault zone is a main active fault in the northeast boundary of Qing-hai-Xizang plateau. Geologically, mapping of 1:50,000 has been made along the fault zone. The results show that Haiyuan active fault zone, 237km long, striking WNW in its west segment and striking NW in the east segment, has been a strike-slip fault sense since middle-late early Pleistoncene. The horizontal offset is 12-14.5km from middle-late early Pleistocene, with the slip rate of 11.7-19.2mm/a. The strong activity has been going on since the begining of the Holocene, with the sinistral strike slip rate of 6-10mm/a.Haiyuan strike slip fault zone consists of 11 secondary shear faults, mostly left stepping pinnate, partly right stepping pinnate. 8 pull-apart basins and 2 pushed-up blocks were formed along the fault zone. Pull-apart basins showing 2 types of romb and elongated, big ones began to develop in middle Pleistocene, small ones in late Pleistocene. The largest thickness of sediments is greater than 750m. A tensile-shear fault with the sinistral strike-slip was formed in some pull-apart basins.The tensile-shear fault links up two secondary shear faults which control pull-apart basin, intersecting them with low angle. After the formation of this kind fault, pull-apart process of the basin decreased and pull-apart basin gradually became feeble and die. The thrust faults intersecting the secondary shear faults with high angle was formed in the pushing area, appeared as an uplift in topography.A great earthquake of magnitude 8.6 occurred in Haiyuan, in December 16, 1920. The surface ruptures of earthquake can be divided as 15 fracture segments, which developed along secondary shear faults, tensile shear faults on pull-apart basin and boundary normal fault at both ends of pull-apart basin. The horizonal dislocation of 268 values have been measured. The maximum displacement of left-lateral strike-slip is 10-11m.At the southeast end of Haiyuan strike slip fault, a rare end compressional area, which consists of thrust fault zone of east pediment of Liupan Mountain, Madong Mountain fold zone and Xiaoguan Mountain thrust fault zone, striking nearly NS, was formed. The detail mapping and studying have been made on the deformation features of these compressional structure belts and calculation on the amount of crust shortening have been made, and the value is about 12.4-16.7km, which is about equal to the sinistral offset amount of Haiyuan active fault zone.

Key words: Haiyuan, Strike-slip fault, Compressional structure of the end, Crustal shortening.