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青藏高原东北缘祁连山与酒西盆地结合部深部地壳结构及其构造意义

本站小编 Free考研考试/2022-01-03

黄兴富1,2,,
高锐1,2,,,
郭晓玉1,
李文辉2,
熊小松2
1. 中山大学地球科学与工程学院, 广州 510275
2. 中国地质科学院地质研究所岩石圈中心, 国土资源部深部探测与地球动力学重点实验室, 北京 100037

基金项目: 国家自然科学基金(41430213,41590863,41674087,41404072,41774114)和中国地质调查项目(DD20160022-05,DD20179342,12120115027101)联合资助


详细信息
作者简介: 黄兴富, 男, 1989年生, 博士后, 主要从事构造地质学以及深部地震资料解释研究.E-mail:huangxfpj@163.com
通讯作者: 高锐, 男, 1950年生, 研究员, 主要从事地球深部物理与动力学研究.E-mail:ruigao126@126.com
中图分类号: P313,P541

收稿日期:2017-10-09
修回日期:2018-07-13
上线日期:2018-09-05



Deep crustal structure beneath the junction of the Qilian Shan and Jiuxi Basin in the northeastern margin of the Tibetan Plateau and its tectonic implications

HUANG XingFu1,2,,
GAO Rui1,2,,,
GUO XiaoYu1,
LI WenHui2,
XIONG XiaoSong2
1. School of Earth Science and Engineering, Sun Yat-Sen University, Guangzhou 510275, China
2. Key Laboratory of Earthprobe and Geodynamics, MLR; Institute of Geology, Chinese Academy of Geological Science, Beijing 100037, China


More Information
Corresponding author: GAO Rui,E-mail:ruigao126@126.com
MSC: P313,P541

--> Received Date: 09 October 2017
Revised Date: 13 July 2018
Available Online: 05 September 2018


摘要
青藏高原地壳变形加厚机制一直是地学界研究争论的热点问题.青藏高原目前仍然处在持续向外扩张之中,因此青藏高原的边界地带作为高原向外扩张的最前缘地区代表了高原最新的变形状态,是研究青藏高原地壳变形加厚的关键地区.本文以一条穿过青藏高原东北缘祁连山与酒西盆地结合部的深地震反射剖面为基础,结合前人地质、地球物理资料,通过细致的地质构造解译,获得青藏高原东北缘祁连山与酒西盆地结合部位地壳变形以壳内滑脱带为界上、下解耦.滑脱带位于壳内低速层的顶部,深度14~24 km.滑脱带之上的地壳部分以一系列南倾、北冲,并向下终止于滑脱带的逆冲断裂变形为主,指示了青藏高原向北的扩张方式;滑脱带之下的地壳以Moho面作为变形标志,指示了复杂的挤压缩短变形.据此我们推测上、下地壳的解耦缩短变形对青藏高原东北缘地壳的变形加厚起到了决定性的作用,甚至在整个青藏高原地壳的变形加厚过程中都起到了重要作用.
青藏高原东北缘/
深部地壳结构/
Moho面结构/
深地震反射剖面/
地壳加厚

The mechanism of crustal thickening in the Tibetan Plateau has long been a highly debated issue. The Tibetan Plateau continues to expanse outward at present, so the border areas as the leading edges of the plateau represent the latest deformation of the plateau, and are the critical places to study on crustal deformation and thickening of the plateau. Based on a deep seismic reflection profile across the junction of the Qilian Shan and the Jiuxi Basin in the northeastern margin of the Tibetan Plateau, combined with previous geological and geophysical data, this work obtained a clearly crustal deformation style beneath the junction of the Qilian Shan and the Jiuxi Basin by detailed geological interpretation of the seismic profile. The crustal deformation is bounded by a decollement layer at a depth of 14~24 km which is consistent with the upper boundary of the low velocity layer within crust. Crustal deformation above the decollement layer is featured by south-dipping, north thrusting faults which downwards ended at the decollement layer, implying the northward out-growth of the plateau. While the crust below the decollement layer experienced complicated shortening marked by a complex Moho geometry. We deduced that the decoupled upper crust and lower crust shortening played a critical role in the formation of the northeastern Tibetan Plateau, even in the formation of entire plateau.
NE Tibetan Plateau/
Deep crustal structure/
Moho structure/
Deep seismic reflection profiling/
Crust thickening



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