戚帮申1,3,
关伟1,
赵玉1,
杜东2,
闫广新1,
刘宏伟2,
尤志鑫1
1. 北京市地质勘察技术院, 北京 100120
2. 中国地质调查局天津地质调查中心, 天津 300170
3. 中国地质科学院地质力学研究所, 北京 100081
基金项目: 中国地质调查局项目(12120114033901,DD20160229,DD20190317),北京市财政专项(PXM2019_158203_000003)联合资助
详细信息
作者简介: 雷晓东, 男, 1983年生, 博士, 正高级工程师, 从事环境地球物理勘查与研究工作.E-mail: lei-xiaodong@139.com
中图分类号: P631 收稿日期:2020-06-02
修回日期:2021-02-05
上线日期:2021-04-10
Research on the faults identification based on gravity anomaly in Beijing plain
LEI XiaoDong1,,QI BangShen1,3,
GUAN Wei1,
ZHAO Yu1,
DU Dong2,
YAN GuangXin1,
LIU HongWei2,
YOU ZhiXin1
1. Beijing Institute of Geo-exploration Technology, Beijing 100120, China
2. Tianjin Center, China Geological Survey, Tianjin 300170, China
3. Institute of Geomechanics, Chinese Academy of Geological Sciences, Beijing 100081, China
MSC: P631
--> Received Date: 02 June 2020
Revised Date: 05 February 2021
Available Online: 10 April 2021
摘要
摘要:区域重力异常蕴含丰富的断裂构造特征信息.采用小波多尺度分解、归一化总水平导数垂向导数(NVDR_THDR)和剖面2.5D重力异常反演方法对北京平原区高精度区域重力资料进行了处理,获得了主要断裂构造平面位置、长度、规模、汇交关系及深浅延伸特征,分析了利用重力异常识别断裂的效果.结果表明:(1)北京平原区NE向断裂平面延展长度大、连续性强,NW向断裂分段性明显,连续性弱,但NW向断裂对NE向断裂有切割改造迹象.近EW或SN向断裂分布较为局限.(2)主控断裂平面和垂向延伸特征差异明显,顺义断裂、孙河断裂、永定河断裂等为盖层断裂;南口断裂、孙河断裂西段、二十里长山断裂和张喜庄断裂为基底断裂;黄庄—高丽营断裂南段、南苑—通县断裂、礼贤断裂、夏垫断裂和皮各庄断裂东段为地壳断裂.(3)利用NVDR_THDR峰值异常带的连续性、幅值、宽度及错切关系可有效识别断裂的平面展布特征,通过小波变换获得的不同深度等效层异常结合2.5D剖面反演可有效研究断裂在基岩内部的深浅延伸情况,但重力异常的垂向分辨能力弱,断裂在新生界内部延伸特征需结合其他地质资料进一步分析.
关键词: 断层/
小波变换/
归一化总水平导数垂向导数/
2.5D重力反演/
北京平原区
Abstract:Abundant information of fault characteristic can be interpreted according to regional gravity anomaly data. The high-precision regional gravity data in Beijing plain are analyzed by multi-scale wavelet, normalized vertical derivative of the total horizontal derivative (NVDR_THDR) and 2.5D inversion of gravity anomaly method. The information about distribution, length, scale, intersection relationship and deep-shallow extension characteristics of faults is obtained, and the accuracy of results is contrasted and analyzed. The results show that: (1) the extension and continuity of NE-trending faults are well, however, the NW-trending faults are discontinuous with obvious segmentation feature in the Beijing plain. It's worth noting that some NW-trending faults cut NE-trending faults. The EW or SN trending faults are relatively rare. (2) The main faults have obvious different characteristics in plane and vertical extension. The Shunyi fault, Sunhe fault and Yongdinghe fault are capping faults. Nankou fault and Ershilichangshan fault are basement faults. The southern section of Huangzhuang-Gaoliying fault, Nanyuan-Tongxian fault, Lixian fault, Xiadian fault, Zhangxizhuang fault and the eastern section of Pigezhuang fault are crustal faults. (3) By analyzing the continuity, amplitude, width and miscutting relation of NVDR_THDR peak abnormal band, the plane distribution characteristics of faults can be effectively identified. By analyzing the anomalies of equivalent layers at different depths obtained by wavelet transform and combining with 2.5D profile inversion, the information of faults extension inside bedrock can be insightfully revealed. However, due to the weak vertical resolution of gravity anomaly, faults extension in the inner Cenozoic should be further analyzed by combining with other geological data.
Key words:Fault/
Wavelet transformation/
Normalized vertical derivative of the total horizontal derivative/
2.5D inversion of gravity anomaly/
Beijing plain
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