地震学报(英文版)2009,Vol.22Issue(1):69-74,6.DOI:10.1007/s11589-009-0069-3
Features and mechanism of neotectonic deformation of the Xishan fault system west of Urumqi
Features and mechanism of neotectonic deformation of the Xishan fault system west of Urumqi
摘要
Abstract
We have made careful field investigation and trench exploration to the Xishan fault system in west of Urumqi, and an integrated analysis in conjunction with data of deep seismic sounding. Our result suggests that under the SN-oriented compressive stress, the Xishan block moves steadily toward the Tianshan Mountains in south, resulting in southward thrust-slip and crustal shortening, particularly the southward thrust of the Xishan fault which serves as the main boundary in south. North of the Xishan fault are the Wangjiagou fault and Jiujiawan fault which are the secondary faults associated with the Xishan fault in generation. Both faults have slippage along horizons during the uplift of the Xishan block, and the Jiujia-wan fault has also a component of normal faulting due to the influence of the Bogeda nappe structure. These two faults ac-commodate the fold deformation of the hanging wall of the Xishan fault, thus the Xishan fault-bounded swell is character-ized by monocline. All secondary faults of the Xishan fault system constitute a common seismogenic structural system, so that their seismic hazards should be considered in an equal manner.关键词
Urumqi/Xishan fault system/neotectonic deformation/deformation mechanismKey words
Urumqi/Xishan fault system/neotectonic deformation/deformation mechanism分类
天文与地球科学引用本文复制引用
Chuanyong Wu,Jun Shen,Jun Li,Zhiyong Xiang,Jun Hu,Yili Yaer..Features and mechanism of neotectonic deformation of the Xishan fault system west of Urumqi[J].地震学报(英文版),2009,22(1):69-74,6.基金项目
This study is supported by Active Fault Detection and Earthquake Risk Estimation of Ummqi(1-4-31),Sub-topic of National Science and Technology Support Project (2006BAC13B010102)and International Cooperation Key Project of Ministry of Science and Technology "Research on New Methods of Earthquake Prediction and Risk Estimation"(2004BFBA0005). (1-4-31)
