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世界地质 2020, 39(1) 176-184 DOI: 10.3969/j.issn.1004-5589.2020.01.018 ISSN: 1004-5589 CN: 22-1111/P

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地球物理

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	浑河断裂
	重力场特征
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	地震
	断裂活动性
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	张鐘月
	万波
	彭虎
	田德欣
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	Article by Zhang Z
	Article by Wan B
	Article by Peng H
	Article by Tian D

浑河断裂地球物理场特征及地震活动性

张鐘月¹, 万波¹, 彭虎², 田德欣³

1. 辽宁省地震局, 沈阳 110034;
2. 辽宁省能源地质勘查开发研究院有限责任公司, 沈阳 110024;
3. 浙江省有色金属地质勘查局, 浙江绍兴 312000

摘要：浑河断裂是辽宁省内一条重要的北东向地震构造带，断裂两侧的地球物理重磁场存在差异。通过浑河断裂的区域重力场与磁场研究，认为浑河断裂既控制了深、浅部岩石地层的发育，同时浑河断裂的重力场、磁场分布随着深、浅部地层岩性发育的差异而有所变化。浑河断裂的重力场和磁场梯度带主要位于抚顺以西至沈阳一带，浑河断裂历史以来有记录的最大破坏性地震位于重力梯度变化较大的沈阳段。综合浑河断裂地球物理场特征及区域地质资料，浑河断裂虽然活动性一般，但抚顺地区的采煤活动对断裂的活动性有一定影响。近些年抚顺地区频发的沉降、滑坡和地裂缝等地质灾害应当引起对浑河断裂活动性研究的重视。

关键词：浑河断裂重力场特征磁场特征地震断裂活动性

Geophysical field characteristics and seismicity of Hunhe fault

ZHANG Zhong-yue¹, WAN Bo¹, PENG Hu², TIAN De-xin³

1. Earthquake Administration of Liaoning Province, Shenyang 110034, China;
2. Liaoning Energy Geological Exploration and Development Research Institute Co., Ltd., Shenyang 110024, China;
3. Non-ferrous Metals Geological Exploration Bureau of Zhejiang Province, Shaoxing 312000, Zhejiang, China

Abstract: Hunhe fault is an important northeast-trending seismotectonic belt in Liaoning Province, of which the geophysical gravity and magnetic field of the two sides are different. Based on the research of the regional gravity and magnetic field of Hunhe fault, it is concluded that Hunhe fault controls the development of deep and shallow lithostratigraphy, and the gravity and magnetic field changes with the difference of the lithologic development. Its gravity and magnetic field are mainly located in the west of Fushun to Shenyang, the most destructive earthquake recorded in the history of Hunhe fault occurred in Shenyang section where the gravity gradient varies greatly. The Hunhe fault is generally not very active according to its geophysical field characteristics and regional geological data, but the coal mining activities in Fushun have certain impact on the fault activity. There have been frequent subsidence, landslide, ground crack and other geological disasters in Fushun area in recent years, more attention should be paid to the study on the activity of Hunhe fault.

Keywords: Hunhe fault gravitational field characteristics magnetic field characteristics earthquake fault activity

收稿日期 2019-08-26 修回日期 2019-12-12 网络版发布日期

DOI: 10.3969/j.issn.1004-5589.2020.01.018

基金项目:

中国地震局城市活断层探测与地震危险性评价项目（152007000000170013）、沈抚新区浑河断裂带活断层探测与地震危险性评价（LNZC2018-0173）及郯庐断裂带三维地震构造分段模型与地震预测研究专项（TYZ20160110）联合资助。

通讯作者: 万波(1966),男,副研究员,主要从事活动断层和地震构造、地震地质灾害等研究。E-mail:wanbo333@126.com

作者简介:

作者Email: wanbo333@126.com

参考文献：

[1] 于深海. 浑河断裂与地震活动性[J].东北地震研究, 1986, 2(2):82-86. YU Shen-hai. Hunhe fault and its seismicity[J]. Northeastern Seismological Research, 1986, 2(2):82-86.
[2] 刘玉海, 杜东菊. 沈阳-抚顺地区地震工程地质评价[J]. 西安地质学院学报, 1985, 7(1):84-94. LIU Yu-hai, DU Dong-ju. The seismic engineering geology evaluation of Shenyang-Fushun area[J]. Journal of Xi'an College of Geology, 1985, 7(1):84-94.
[3] 佴磊. 浑河断裂活动特性研究[C]//第二届全国工程地质力学青年学术讨论会论文集.北京:工程地质学报, 1992:252-259. NAI Lei. Study on activity characteristics of Hunhe fault[C]//Proceedings of the second national young symposiam on engineering geomechanics.Beijing:Journal of Engineering Geology, 1992:252-259.
[4] 赵广信, 常跃广. 浑河断裂带(抚顺段)应变分析[J]. 测绘通报, 1995(5):3-6. ZHAO Guang-xin, CHANG Yue-guang. Strain analysis of Hunhe fault zone(Fushun section)[J]. Bulletin of Surveying and Mapping, 1995(5):3-6.
[5] 王声喜, 张庆义, 王卓, 等. 浑河断裂带(抚顺段)近期活动性与地质灾害的关系[J]. 地质灾害与环境保护, 2008, 19(4):12-15. WANG Sheng-xi, ZHANG Qing-yi, WANG Zhuo, et al. Relationship between Hunhe fault(Fushun section)short-term activity and geological disaster[J]. Journal of Geological Hazards and Environment Preservation, 2008, 19(4):12-15.
[6] 阿成业.青海省深大断裂及其地质地球物理场特征[J]. 西北地质, 1986(5):7-16. A Cheng-ye. Deep and large faults and its geological and geophysical characteristics in Qinghai Province[J]. Northwestern Geology, 1986(5):7-16.
[7] 宋海斌, 郝天珧, 江为为, 等. 南海地球物理场特征与基底断裂体系研究[J]. 地球物理学进展, 2002, 17(1):24-33. SONG Hai-bin, HAO Tian-yao, JIANG Wei-wei, et al. Researches on geophysical field characteristics and basement fault system of South China Sea[J]. Progress in Geophysics, 2002, 17(1):24-33.
[8] 于平, 杨冬, 杨宝俊. 华北地台聊城-兰考断裂地球物理场基本特征及其构造意义[J].吉林大学学报(地球科学版), 2003, 33(1):106-110. YU Ping, YANG Dong, YANG Bao-jun. The basic character of geophysical field and the tectonic significance of Liaocheng-Lankao fault in northern China platform[J]. Journal of Jilin University(Earth Science Edition), 2003, 33(1):106-110.
[9] 冯晅, 孙成城, 侯贺晟, 等. 大兴安岭两侧控盆断裂域地球物理场基本特征与地质意义[J]. 地球物理学报, 2019, 62(3):1093-1105. FENG Xuan, SUN Cheng-cheng, HOU He-sheng, et al. Features of the geophysical field of basin-control fault regions on either side of the Da Hinggan Mountains and geological implications[J]. Chinese Journal of Geophysics, 2019, 62(3):1093-1105.
[10] 王洪涛,范光禄,王屏路. 闽、台地区地震构造及其地球物理场特征[J]. 地壳形变与地震,1984, 4(4):365-375. WANG Hong-tao, FAN Guang-lu, WANG Ping-lu. The features of some seismo-structures and its geophysical field in Fujian-Taiwan region[J]. Crustal Deformation and Earthquake, 1984, 4(4):365-375.
[11] 马锦琳,马桂芳. 包头西6.4级地震前地球物理场特征的研究[J]. 华北地震科学, 1998, 16(1):61-67. MA Jin-lin, MA Gui-fang. Studies of geophysical filed features before the Baotou earthquake(M_{S 6.4})[J]. North China Earthquake Science, 1998, 16(1):61-67.
[12] 周斌, 张英凯, 李继训. 渤海及邻区地震地质、地球物理场和地震活动特征[J]. 西北地震学报, 2000, 22(3):333-337. ZHOU Bin, ZHANG Ying-kai, LI Ji-xun. Characteristics of geology, geophysical field and seismic activity of Bohai sea and its vicinity[J]. Northwestern Seismological Journal, 2000, 22(3):333-337.
[13] 王庆良. 地壳形变-地球物理场-日长变化十年尺度相关性研究:博士学位论文[D]. 北京:中国地震局地球物理研究所, 2003. WANG Qing-liang. Decade-scale correlation between crustal deformation, geophysical variation and length of day:doctor's degree thesis[D]. Beijing:Institute of Geophysics, China Earthquake Administration, 2003.
[14] 彭艳菊, 孟小红, 吕悦军, 等. 我国近海地震活动特征及其与地球物理场的关系[J].地球物理学进展, 2008, 23(5):1377-1388. PENG Yan-ju, MENG Xiao-hong, LYU Yue-jun, et al. The seismicity of China offshore seas and its relationship with geophysical fields[J]. Progress in Geophysics, 2008, 23(5):1377-1388.
[15] 童迎世, 童琼. 湖南深部地球物理场特征与地震的关系[J]. 高原地震, 2012, 24(1):1-10. TONG Ying-shi, TONG Qiong. Relationship between deep geophysical field features and earthquakes in Hunan Province[J]. Plateau Earthquake Research, 2012, 24(1):1-10.
[16] 李长波. 松辽盆地及邻区地壳-上地幔结构综合地球物理场研究:硕士学位论文[D].南京:南京大学, 2014. LI Chang-bo. The research on crust and upper mantle structure by integrated geophysical methods in Songliao Basin and its adjacent area:master's degree thesis[D]. Nanjing:Nanjing University, 2014.
[17] 万波, 廖旭. 沈阳市(含抚顺)活断层探测与地震危险性评价[M]. 北京:地震出版社, 2008:27-28,326-327. WAN Bo, LIAO Xu. Active fault detection and seismic risk assessment in Shenyang(including Fushun)[M]. Beijing:Seismological Press, 2008:27-28,326-327.
[18] 黄河, 万波, 李东春, 等. 辽宁省主要地震构造精细探测与强震高危区判定研究报告[R]. 沈阳:辽宁省地震预测预警重点实验室, 2016:58-59. HUANG He, WAN Bo, LI Dong-chun, et al. Research report on fine detection of main seismic structures and determination of high risk areas of strong earthquakes in Liaoning Province[R]. Shenyang:Liaoning Key Laboratory of Earthquake Prediction and Early Warning, 2016:58-59.
[19] 吴明大, 钟以章, 高常波, 等. 浑河断裂(沈阳-抚顺段)活动性研究[J]. 东北地震研究, 2004,20(1):25-32. WU Ming-da, ZHONG Yi-zhang, GAO Chang-bo, et al. Activity research on Hunhe fracture(Shenyang-Fushun section)[J]. Seismological Research of Northeast China, 2004,20(1):25-32.
[20] 赵广信, 常耀广, 赵曦. 基于GPS数据的浑河断裂带抚顺市区段现今活动性定量分析[J]. 中国地质灾害与防治学报, 2008, 19(4):101-105. ZHAO Guang-xin, CHANG Yao-guang, ZHAO Xi. Quantitative analysis of the current activity of Hunhe fault zone in Fushun urban district based on GPS data[J]. The Chinese Journal of Geological Hazard and Control, 2008, 19(4):101-105.
[21] 孔繁强, 王莉, 王永江, 等. 浑河断裂抚顺城区段现今活动性观测分析研究[J]. 东北地震研究, 2009, 25(1):1-7. KONG Fan-qiang, WANG Li, WANG Yong-jiang, et al. The present activity analysis and study of the Fushun City segment of Hunhe fault[J]. Seismological Research of Northeast China, 2009, 25(1):1-7.
[22] 万波, 赵晓辉, 侯建军. 1765年沈阳51/2级地震发震构造判定[J]. 北京大学学报(自然科学版), 2010, 46(4):620-628. WAN Bo, ZHAO Xiao-hui, HOU Jian-jun. Determination of seismogenic structure for the Shenyang M51/2 earthquake in 1765[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2010, 46(4):620-628.
[23] 卢良玉, 高常波, 李天成, 等. 浑河断裂现今活动性及抚顺城区段的活动特点研究[J]东北地震研究, 2001, 17(2):48-56. LU Liang-yu, GAO Chang-bo, LI Tian-cheng, et al. Study on current activity of the Hunhe fault and the fault sector in Fushun urban area[J]. Seismological Research of Northeast China, 2001, 17(2):48-56.

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