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北京后沙峪凹陷的第四纪地层划分与构造演化
引用本文:周毅,郭高轩,张磊,蔡向民,雷坤超. 北京后沙峪凹陷的第四纪地层划分与构造演化[J]. 中国地质, 2016, 0(3): 1067-1075
作者姓名:周毅  郭高轩  张磊  蔡向民  雷坤超
作者单位:北京大学地球与空间科学学院, 北京 100187;北京市水文地质工程地质大队, 北京 100195,北京市水文地质工程地质大队, 北京 100195,北京市地质调查研究院, 北京 100195,北京市地质调查研究院, 北京 100195,北京市水文地质工程地质大队, 北京 100195
基金项目:中国地调局地质调查项目(12120113012900)、北京市财政项目(pxm2015-158305-000011)和北京市科委面上基金项目(8162043)联合资助。
摘    要:通过对北京平原北部昌平、顺义、朝阳等区域的多个深孔资料、尤其后沙峪地区G3钻孔资料的深入分析,并开展磁性地层学及孢粉测试成果研究,建立了钻孔的磁性地层序列,结合南口—孙河断裂、顺义断裂以及黄庄—高丽营断裂的活动性研究成果,确定了后沙峪凹陷的第四纪地层格架,分析了凹陷的构造演化过程。结果表明,后沙峪凹陷上G3孔下更新统底界为511.7 m,中更新统底界为175.5 m,上更新统底界为31.6 m。在燕山期晚期,黄庄—高丽营断裂形成,控制了北京凹陷的西部边界,在北东向顺义断裂和北西向南口—孙河断裂共同作用下形成后沙峪凹陷。进入第四纪后,G3钻孔地层在早、中、晚更新世的沉积速率分别为0.198 mm/a、0.255 mm/a和0.243 mm/a;各条断裂活动速率的差异性客观反映出各块体之间的升降特点。由于后沙峪凹陷处于黄庄—高丽营断裂的上盘,同时也是顺义断裂的下盘,因此,断裂间的相互运动在第四纪沉积作用下形成了后沙峪凹陷。

关 键 词:后沙峪凹陷  第四纪  磁性地层学  孢粉  黄庄—高丽营断裂  顺义断裂
收稿时间:2015-12-01
修稿时间:2016-03-11

The division of Quaternary strata and tectonic evolution in Houshayu Sag of Beijing
ZHOU Yi,GUO Gao-xuan,ZHANG Lei,CAI Xiang-Min and LEI Kun-chao. The division of Quaternary strata and tectonic evolution in Houshayu Sag of Beijing[J]. Geology in China, 2016, 0(3): 1067-1075
Authors:ZHOU Yi  GUO Gao-xuan  ZHANG Lei  CAI Xiang-Min  LEI Kun-chao
Affiliation:School of Earth and Space Sciences, Peking University, Beijing 100871, China;Beijing Institute of Hydrogeology and Engineering Geology, Beijing 100195, China,Beijing Institute of Hydrogeology and Engineering Geology, Beijing 100195, China,Geological Survey Institute of Beijing, Beijing 102206, China,Geological Survey Institute of Beijing, Beijing 102206, China and Beijing Institute of Hydrogeology and Engineering Geology, Beijing 100195, China
Abstract:In this paper, a magnetostratigraphic sequence of drill hole was established on the basis of analyzing the deep drill hole data from the northern districts of Beijing plain, such as Changpin, Shunyi and Chaoyang, especially on analyzing magnetostratigraphy and pollen in Houshayu region. In combination with the research onthe activity of Nankou-Sunhe fault, Shunyi fault and Huangzhuang-Gaoliying fault, the authors determined Quaternary stratigraphic framework of Houshayu sag. The results shows that the bottom boundaries of lower Pleistocene, middle Pleistocene and upper Pleistocene of G3 drill hole are 511.7 m, 175.5 m, and 31.6 m respectively in Houshayu sag. In the late Yanshanian period, Houshayu sag was formed by the combined action of NE-trending Sunhe fault, NW-trending Nankou-sunhe fault and Huangzhuang-Gaoliying fault which controlled the western boundary of Beijing sag.In the Quaternary, the variability of the rate objectively reflects the characteristics of rise or fall of the blocks. Housahyu sag located in the hanging wall of the Huangzhuang-Gaoliying fault and the footwall of Shunyi fault were formed by the mutual movement between fracturesduring the Quaternary sedimentation, with the deposition rate of the sag in the early, middle and late Pleistocene being respectively 0.198mm/a, 0.255mm/a, and 0.243mm/a.
Keywords:Houshayu sag  Quaternary  magnetostratigraphy  pollen  Huangzhuang-Gaoliying fault  Shunyi fault
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