北京南口-孙河断裂与黄庄-高丽营断裂交会区沉积速率差异对断裂活动性的响应

doi:10.3969/j.issn.0253-4967.2017.05.013

摘要/Abstract

摘要： 通过对北京地区南口-孙河断裂与黄庄-高丽营断裂交会处钻孔剖面开展磁性地层学研究，结合沉积物岩石组合特征以及浅部测年数据进行分析，建立了钻孔剖面的第四纪地层格架，由于地层沉积速率对控盆断裂的活动具有较好的响应，对比钻孔沉积速率的变化特征能够对目标断裂的第四纪活动性进行探讨。研究表明，南口-孙河断裂与黄庄-高丽营断裂交会处所控制的断块在第四纪时期存在明显的差异性沉降。早更新世至全新世，南口-孙河断裂活动性表现为强弱交替的特点，黄庄-高丽营断裂则表现为逐渐减弱的特点。早更新世，黄庄-高丽营断裂活动强度大于南口-孙河断裂，之后南口-孙河断裂的活动强度大于黄庄-高丽营断裂的活动强度，直至全新世，2条断裂的活动性趋于一致。

关键词: 磁性地层, 南口-孙河断裂, 黄庄-高丽营断裂, 沉积速率, 第四纪

Abstract: Beijing plain area has been always characterized by the tectonic subsidence movement since the Pliocene. Influenced and affected by the extensional tectonic environment, tensional normal faulting occurred on the buried NE-trending faults in this area, forming the "two uplifts and one sag" tectonic pattern. Since Quaternary, the Neocathaysian stress field caused the NW-directed tensional shear faulting, and two groups of active faults are developed. The NE-trending active faults include three major faults, namely, from west to east, the Huangzhuang-Gaoliying Fault, Shunyi Fault and Xiadian Fault. The NW-trending active faults include the Nankou-Sunke Fault, which strikes in the direction of NW320°~330°, with a total length of about 50km in the Beijing area. The northwestern segment of the fault dips SW, forming a NW-directed collapse zone, which controls the NW-directed Machikou Quaternary depression. The thickness of the Quaternary is more than 600 meters; the southeastern segment of the fault dips NE, with a small vertical throw between the two walls of the fault. Huangzhuang-Gaoliying Fault is a discontinuous buried active fault, a boundary line between the Beijing sag and Xishan tectonic uplift. In the Beijing area, it has a total length of 110km, striking NE, dipping SE, with a dip angle of about 50~80 degrees. It is a normal fault, with the maximum fault throw of more than 1 000m since the Tertiary. The fault was formed in the last phase of Yanshan movement and controls the Cretaceous, Paleogene, Neogene and Quaternary sediments.There are four holes drilled at the junction between Nankou-Sunhe Fault and Huangzhuang-Gaoliying Fault in Beijing area. The geographic coordinates of ZK17 is 40°5'51"N, 116°25'40"E, the hole depth is 416.6 meters. The geographic coordinates of ZK18 is 40°5'16"N, 116°25'32"E, the hole depth is 247.6 meters. The geographic coordinates of ZK19 is 40°5'32"N, 116°26'51"E, the hole depth is 500.9 meters. The geographic coordinates of ZK20 is 40°4'27"N, 116°26'30"E, the hole depth is 308.2 meters. The total number of paleomagnetism samples is 687, and 460 of them are selected for thermal demagnetization. Based on the magnetostratigraphic study and analysis on the characteristics of sedimentary rock assemblage and shallow dating data, Quaternary stratigraphic framework of drilling profiles is established. As the sedimentation rate of strata has a good response to the activity of the basin-controlling fault, we discussed the activity of target fault during the Quaternary by studying variations of deposition rate. The results show that the fault block in the junction between the Nankou-Sunhe Fault and the Huangzhuang-Gaoliying Fault is characteristic of obvious differential subsidence. The average deposition rate difference of fault-controlled stratum reflects the control of the neotectonic movement on the sediment distribution of different tectonic units. The activity of Nankou-Sunhe Fault shows the strong-weak alternating pattern from the early Pleistocene to Holocene. In the early Pleistocene the activity intensity of Huangzhuang-Gaoliying Fault is stronger than Nankou-Sunhe Fault. After the early Pleistocene the activity intensity of Nankou-Sunhe Fault is stronger than Huangzhuang-Gaoliying Fault. The activity of the two faults tends to consistent till the Holocene.

Key words: magnetostratigraphy, Nankou-Sunhe Fault, Huangzhuang-Gaoliying Fault, deposition rate, Quaternary

中图分类号:

P315.72⁺1

张磊, 白凌燕, 赵勇, 张晓亮, 杨天水, 蔡向民, 何付兵. 北京南口-孙河断裂与黄庄-高丽营断裂交会区沉积速率差异对断裂活动性的响应[J]. 地震地质, 2017, 39(5): 1048-1065.

ZHANG Lei, BAI Ling-yan, ZHAO Yong, ZHANG Xiao-liang, YANG Tian-shui, CAI Xiang-min, HE Fu-bing. THE DIFFERENCE OF DEPOSITION RATE IN THE BOREHOLES AT THE JUNCTION BETWEEN NANKOU-SUNHE FAULT AND HUANGZHUANG-GAOLIYING FAULT AND ITS RESPONSE TO FAULT ACTIVITY IN THE BEIJING AREA[J]. SEISMOLOGY AND GEOLOGY, 2017, 39(5): 1048-1065.

参考文献

安芷生, 魏兰英, 卢演俦, 等. 1979. 顺5孔的磁性地层学和早松山世的北京海侵［J］. 地球化学, (4):343-346. AN Zhi-sheng, WEI Lan-ying, LU Yan-chou, et al. 1979. Magnetostratigraphy of the core S-5 and the transgression in the Beijing area during the early Matuyama Epoch［J］. Geochimica, (4):343-346(in Chinese).
常旭, 李林新, 刘伊克, 等. 2003. 北京断陷黄庄-高丽营断层伪随机可控震源地震剖面［J］. 地球物理学报, 51(5):1503-1510. CHANG Xu, LI Lin-xin, LIU Yi-ke, et al. 2003. Seismic profile of Huangzhuang-Gaoliying Fault in Beijing by Mini-Sosie method［J］. Chinese Journal of Geophysics, 51(5):1503-1510(in Chinese).
车兆宏. 1994. 南口-孙河断层活动性研究［J］. 地震地质, 16(2):115-120. CHE Zhao-hong. 1994. Study of the activity of Nankou-Sunhe Fault［J］. Seismology and Geology, 16(2):115-120(in Chinese).
车兆宏, 范燕. 2003. 北京黄庄-高丽营断层、八宝山断层现今活动追踪研究［J］. 地震, 23(3):97-104. CHE Zhao-hong, FAN Yan. 2003. Tracing study of fault activity of the Beijing Huangzhuang-Gaoliying Fault and Babaoshan Fault in recent time［J］. Earthquake, 23(3):97-104(in Chinese).
车兆宏, 巩曰沐, 刘善华, 等. 1997. 北京黄庄-高丽营断层、八宝山断层中段活动性综合研究［J］. 中国地震, 13(4):330-337. CHE Zhao-hong, GONG Yue-mu, LIU Shan-hua, et al. 1997. Comprehensive study of fault activity of the Huangzhuang-Gaoliying and Babaoshan Fault in the middle section［J］. Earthquake Research in China, 13(4):330-337(in Chinese).
陈杰, Heermance R V, Burbank D W, et al. 2007. 中国西南天山西域砾岩的磁性地层年代与地质意义［J］. 第四纪研究, 27(4):576-578. CHEN Jie, Heermance R V, Burbank D W, et al. 2007. Magnetochronology and its implications of the Xiyu conglomerate in the southwestern Chinese Tian Shan foreland［J］. Quaternary Sciences, 27(4):576-578(in Chinese).
邓成龙. 2008. 黄土高原西部白草塬剖面L₁和S₁记录的古地磁场特征［J］. 第四纪研究, 28(5):854-865. DENG Cheng-long. 2008. Paleomagnetism of the loess/paleosol couplet L₁/S₁ at the Baicaoyuan section, western Loess Plateau［J］. Quaternary Sciences, 28(5):854-865(in Chinese).
邓起东. 2005. 活动构造研究及其应用:谨以此文深切悼念先师陈国达院士［J］. 大地构造与成矿学, 29(1):17-23. DENG Qi-dong. 2005. Studies and applications of active tectonics:Mourning for Academician Chen Guoda, the great master of Chinese geology［J］. Geotectonica et Metallogenia, 29(1):17-23(in Chinese).
董文杰, 汤懋苍. 1997. 青藏高原隆升和夷平过程的数值模型研究［J］. 中国科学(D辑), 27(1):65-69. DONG Wen-jie, TANG Mao-cang. 1997. A numerical modelling study on the processes of uplift and planation of the Tibetan plateau［J］. Science in China(Ser D), 40(3):246-252.
胡平, 刘保金, 白立新, 等. 2010. 奥林匹克公园地区隐伏断裂综合探测［J］. 地球物理学报, 53(6):1486-1494. HU Ping, LIU Bao-jin, BAI Li-xin, et al. 2010. Synthetic exploration of the buried faults in Olympic park area［J］. Chinese Journal of Geophysics, 53(6):1486-1494(in Chinese).
黄秀铭, 汪良谋, 徐杰, 等. 1991. 北京地区新构造运动特征［J］. 地震地质, 13(1):43-51. HUANG Xiu-ming, WANG Liang-mou, XU Jie, et al. 1991. Characteristics of neotectonic movement in Beijing area［J］. Seismology and Geology, 13(1):43-51(in Chinese).
江娃利. 2006. 有关华北平原强震发震构造问题的讨论［J］. 中国地震, 22(2):135-141. JIANG Wa-li. 2006. Discussion on problems for seismo-tectonics of strong earthquakes in the North China Plian［J］. Earthquake Research in China, 22(2):135-141(in Chinese).
江娃利, 侯治华, 谢新生. 2001. 北京平原南口-孙河断裂带昌平旧县探槽古地震事件研究［J］. 中国科学(D辑), 31(6):501-509. JIANG Wa-li, HOU Zhi-hua, XIE Xin-sheng. 2001. Research on paleoearthquakes in Jiuxian trenches across Nankou-Sunhe fault zone in Changping County of Beijing plain［J］. Science in China(Ser D), 45(2):160-173.
柯柏林. 2009. 北京市平原区北部孙河断裂的地热地质特征［J］. 现代地质, 23(1):43-48. KE Bai-lin. 2009. Geothermal and geological features of Sunhe Fault in the northern part of Beijing plain［J］. Geoscience, 23(1):43-48(in Chinese).
李海燕, 张世红, 赵坤玲, 等. 2012. 直流场和交变场对泥岩磁化率的影响［J］. 第四纪研究, 32(4):635-640. LI Hai-yan, ZHANG Shi-hong, ZHAO Kun-ling, et al. 2012. Effects of direct field and alternating field on magnetic susceptibility of mudstone［J］. Quaternary Sciences, 32(4):635-640(in Chinese).
李龙吟, 陈华慧. 1994. 北京怀柔HR_88-1 钻孔剖面磁性地层学研究［J］. 地层学杂志, 18(1):39-44. LI Long-yin, CHEN Hua-hui. 1994. On magnetostratigraphy of the borehole HR_88-1 in Huairou area, Beijing［J］. Journal of Stratigraphy, 18(1):39-44(in Chinese).
刘进峰, 郭正堂, 郝青振, 等. 2005. 甘肃秦安糜子湾剖面中新世风尘堆积的磁性地层学研究［J］. 第四纪研究, 25(4):503-509. LIU Jin-feng, GUO Zheng-tang, HAO Qing-zhen, et al. 2005. Magnetostratigraphy of the Miziwan Miocene eolian deposits in Qin'an County(Gansu Province)［J］. Quaternary Sciences, 25(4):503-509(in Chinese).
罗明辉, 张世民, 任俊杰, 等. 2007. 北京断陷的新生代沉积与构造演化//地壳构造与地壳应力文集. 北京:地震出版社. 62-74. LUO Ming-hui, ZHANG Shi-min, REN Jun-jie, et al. 2007. Cenozoic sedimentation and tectonic evolution of Beijing down-warped basin//Crustal Structure and Crustal Stress. Seismological Press, Beijing. 62-74(in Chinese).
栾英波, 蔡向民, 郭高轩, 等. 2011. 北京平原区新5孔岩心特征及地层初步划分［J］. 中国地质, 38(2):495-503. LUAN Ying-bo, CAI Xiang-min, GUO Gao-xuan, et al. 2011. Core characteristics and preliminary stratigraphic classification of the New -5 Hole in Beijing Plain［J］. Geology in China, 38(2):495-503(in Chinese).
马文涛, 唐文榜, 徐锡伟, 等. 2005. 北京黄庄-高丽营隐伏断裂立水桥段浅部活动特征的地震探测［J］. 物探与化探, 29(6):503-505, 509. MA Wen-tao, TANG Wen-bang, XU Xi-wei, et al. 2005. Seismic exploration of shallow deformation along Lishuiqiao section of Huangzhuang-Gaoliying active fault in Beijing urban area［J］. Geophysical and Geochemical Exploration, 29(6):503-505, 509(in Chinese).
缪卫东, 李世杰, 王润华. 2009. 长江三角洲北翼J9孔岩心沉积特征及地层初步划分［J］. 第四纪研究, 29(1):126-134. MIAO Wei-dong, LI Shi-jie, WANG Run-hua. 2009. Preliminary study on sedimentary characteristics and stratum division of J9 Core in the north wing of the Yangtze River Delta［J］. Quaternary Sciences, 29(1):126-134(in Chinese).
乔彦松, 赵志中, 王燕, 等. 2006. 川西甘孜黄土磁性地层学研究及其古气候意义［J］. 第四纪研究, 26(2):250-256. QIAO Yan-song, ZHAO Zhi-zhong, WANG Yan, et al. 2006. Magnetostratigraphy and its paleoclimatic significance of a loess-soil sequence from Ganzi area, west Sichuan plateau［J］. Quaternary Sciences, 26(2):250-256(in Chinese).
王红强. 2007. 泥河湾盆地东谷坨剖面磁性特征及环境意义［J］. 第四纪研究, 27(6):1081-1091. WANG Hong-qiang. 2007. Magnetic properties of lacustrine sediments at the Donggutuo section in the Nihewan Basin and their environmental significance［J］. Quaternary Sciences, 27(6):1081-1091(in Chinese).
王挺梅, 胡言, 方仲景, 等. 1983. 北京黄庄断裂新活动的地质证据［J］. 地震地质, 5(1):6-7. WANG Ting-mei, HU Yan, FANG Zhong-jing, et al. 1983. Geological evidence for the recent activity of Huangzhuang Fault in Beijing［J］. Seismology and Geology, 5(1):6-7(in Chinese).
王喜生, 杨振宇, Løvlie R, 等. 2007. 松山-布容地磁极性倒转在黄土高原东南缘记录的可靠性探讨［J］. 第四纪研究, 27(6):963-971. WANG Xi-sheng, YANG Zhen-yu, Løvlie R, et al. 2007. Discussion on the recording fidelity of the Matuyama/Brunhes boundary in the southeastern extremity of the Chinese Loess Plateau［J］. Quaternary Sciences, 27(6):963-971(in Chinese).
向宏发, 方仲景, 贾三发, 等. 1994. 隐伏断裂研究及其工程应用:以北京平原区为例［M］. 北京:地震出版社. 1-97. XIANG Hong-fa, FANG Zhong-jing, JIA San-fa, et al. 1994. Study on the Buried Fault and Its Application to Engineering Project［M］. Seismological Press, Beijing. 1-97(in Chinese).
向宏发, 方仲景, 张晚霞, 等. 1996. 北京平原区隐伏断裂晚第四纪活动特征的联合剖面研究［J］. 地震研究, 18(1):75-79. XIANG Hong-fa, FANG Zhong-jing, ZHANG Wan-xia, et al. 1996. Joint profile survey of active features for the late Quaternary subsurface faults in Beijing plain region［J］. Journal of Seismological Research, 18(1):75-79(in Chinese).
肖国桥, 郭正堂, 陈宇坤, 等. 2008. 渤海湾西岸BZ₁钻孔的磁性地层学研究［J］. 第四纪研究, 28(5):909-916. XIAO Guo-qiao, GUO Zheng-tang, CHEN Yu-kun, et al. 2008. Magneto stratigraphy of BZ₁ borehole in west coast of Bohai Bay, northern China［J］. Quaternary Sciences, 28(5):909-916(in Chinese).
徐海鹏, 李树德, 杨景春, 等. 1984. 北京南口山前断裂活动及其对地貌发育的影响//中国地理学会. 中国地理学会第1次构造地貌学术讨论会论文选集. 北京:科学出版社. 40-46. XU Hai-peng, LI Shu-de, YANG Jing-chun, et al. 1984. Nankou piedmont fault and its influence to geomorphic development//Geomorphology Board of the Geography Society of China. Proceedings of the First Tectono-geomorphological Symposium of the Geography Society of China. Science Press, Beijing. 40-60(in Chinese).
徐杰, 汪良谋, 方仲景, 等. 1992. 北京八宝山断裂和黄庄-高丽营断裂构造活动性的初步分析［J］. 华北地震科学, 10(3):1-11. XU Jie, WANG Liang-mou, FANG Zhong-jing, et al. 1992. Preliminary analysis of the tectonic activities of Babaoshan and Huangzhuang-Gaoliying faults in Beijing area［J］. North China Earthquake Sciences, 10(3):1-11(in Chinese).
于慎谔, 龚复华, 卢造勋, 等. 2000. 华北平原及其邻近地区强震构造环境与地震活动趋势分析［M］//地壳构造与地壳应力文集. 北京:地震出版社. 16-30. YU Shen-e, GONG Fu-hua, LU Zao-xun, et al. 2000. The tectonic environment of strong earthquakes in North China and its adjacent areas and their seismic tendency analyses［M］//Crustal Structure and Crustal Stress. Seismological Press, Beijing. 16-30(in Chinese).
张磊, 白凌燕, 蔡向民, 等. 2014a. 北京南口-孙河断裂北西段综合物探剖面定位及其活动性研究［J］. 现代地质, 28(1):234-242. ZHANG Lei, BAI Ling-yan, CAI Xiang-min, et al. 2014a. Study on the position of north west section of Nankou-Sunhe Fault in Beijing and its activity［J］. Geoscience, 28(1):234-242(in Chinese).
张磊, 白凌燕, 蔡向民, 等. 2014b. 北京平原南口-孙河断裂南段第四纪活动性的磁性地层学研究［J］. 第四纪研究, 34(2):381-390. ZHANG Lei, BAI Ling-yan, CAI Xiang-min, et al. 2014b. Magnetostratigraphy study on the south segment of Nankou-Sunhe Fault at Beijing plain and its implications for the fault activity during Quaternary［J］. Quaternary Sciences, 34(2):381-390(in Chinese).
张磊, 何静, 白凌燕, 等. 2016. 北京凹陷北缘第四纪凹陷盆地沉积速率变化特征与顺义断裂活动性的响应关系［J］. 中国地质, 43(2):511-519. ZHANG Lei, HE Jing, BAI Ling-yan, et al. 2016. The response relationship between the variation characteristics of deposition rate of Quaternary depression basin on the northern margin of Beijing depression and the activity of Shunyi Fault［J］. Geology in China, 43(2):511-519(in Chinese).
张世民, 王丹丹, 刘旭东, 等. 2008. 北京南口-孙河断裂晚第四纪古地震事件的钻孔剖面对比与分析［J］. 中国科学 (D辑), 38(7):881-895. ZHANG Shi-min, WANG Dan-dan, LIU Xu-dong, et al. 2008. Using borehole core analysis to reveal Late Quaternary paleoearthquakes along the Nankou-Sunhe Fault, Beijing［J］. Science in China(Ser D), 51(8):1154-1168.
赵勇, 蔡向民, 王继明, 等. 2013. 北京平原顺义ZK12-2钻孔剖面第四纪磁性地层学研究［J］. 地质学报, 87(2):288-294. ZHAO Yong, CAI Xiang-min, WANG Ji-ming, et al. 2013. Quaternary magnetostratigraphy of the Shunyi area in Beijing plain using ZK12-2 borehole profile［J］. Acta Geologica Sinica, 87(2):288-294(in Chinese).
郑妍, 郑洪波, 邓成龙, 等. 2012. 还原成岩作用对磁性矿物的影响及古气候意义:以长江口水下三角洲岩心YD0901沉积物为例［J］. 第四纪研究, 32(4):652-662. ZHENG Yan, ZHENG Hong-bo, DENG Cheng-long, et al. 2012. Diagenetic alteration on magnetic minerals and the paleoclimate implications, results from core YD0901 of Yangtze subaqueous delta［J］. Quaternary Sciences, 32(4):652-662(in Chinese).
朱日祥, 邓成龙, 潘永信. 2007. 泥河湾盆地磁性地层定年与早期人类演化［J］. 第四纪研究, 27(6):922-944. ZHU Ri-xiang, DENG Cheng-long, PAN Yong-xin. 2007. Magnetochronology of the fluvio-lacustrine sequences in the Nihewan Basin and its implications for early human colonization of Northeast Asia［J］. Quaternary Sciences, 27(6):922-944(in Chinese).
Cogné J P. 2003. PaleoMac:A Macintosh^TM application for treating paleomagnetic data and making plate reconstructions［J］. Geochemistry, Geophysics, Geosystems, 4(1):1007. doi:10.1029/2001GC000227.
Enkin R J. 1990. Formation et deformation de l'Asie depuis la fin de l'ere primaire:les apports de l'etude paleomagnetique des formations secondaires de Chine du Sud. University of Paris, Paris.
Kirschvink J L. 1980. The least-squares line and plane and the analysis of palaeomagnetic data［J］. Geophysical Journal International, 62(3):699-718.
Walker J D, Geissman J W. 2009. Geologic time scale:Geological Society of America［J］. The Geological Society of America Bulletin, 19(4):259-272.
Lourens L J, Hilgen F J, Shackleton N J, et al. 2004. The Neogen period［M］//Gradstein F M, Ogg J G, Smith A G(eds). A Geologic Time Scale 2004. Gambridge. Cambridge University Press:409-440.

[1]	刘庆, 刘韶, 张世民. 大凉山断裂带中段越西断裂晚第四纪古地震[J]. 地震地质, 2023, 45(2): 321-337.
[2]	左玉琦, 杨海波, 杨晓平, 詹艳, 李安, 孙翔宇, 胡宗凯. 阿拉善地块南缘北大山断裂的晚第四纪构造活动证据[J]. 地震地质, 2023, 45(2): 355-376.
[3]	原浩东, 李安, 黄伟亮, 胡宗凯, 左玉琦, 杨晓平. 西准噶尔地区托里断裂晚第四纪构造变形[J]. 地震地质, 2023, 45(1): 49-66.
[4]	张伟恒, 陈杰, 李涛, 邸宁, 姚远. 龙门山前陆冲断带南段三苏场背斜晚第四纪变形速率[J]. 地震地质, 2022, 44(6): 1351-1364.
[5]	冯晶晶, 赵勇伟, 李霓, 陈正全, 王丽竹, 刘永顺, 聂保锋, 张学斌. 琼北晚第四纪火山锥体形貌与喷发机制[J]. 地震地质, 2022, 44(5): 1107-1127.
[6]	杨文健, 赵波, 于红梅, 许建东, 潘波, 王锡娇. 琼北峨蔓地区火山地质与喷发历史[J]. 地震地质, 2022, 44(4): 859-875.
[7]	沈军, 戴训也, 肖淳, 焦轩凯, 白其乐格尔, 邓梅, 刘泽众, 夏方华, 刘玉, 刘明. 夏垫西断裂的晚第四纪活动性[J]. 地震地质, 2022, 44(4): 909-924.
[8]	徐伟, 刘志成, 王继, 高战武, 尹金辉. 西藏阿里地区喀喇昆仑断裂断错地貌及最近强震活动时代的初步研究[J]. 地震地质, 2022, 44(4): 925-943.
[9]	张驰, 李智敏, 任治坤, 刘金瑞, 张志亮, 武登云. 日月山断裂南段晚第四纪活动特征[J]. 地震地质, 2022, 44(1): 1-19.
[10]	张鹏, 汪勇, 范小平, 许奎, 刘嘉彬. 幕府山-焦山断裂镇江段第四纪活动性[J]. 地震地质, 2022, 44(1): 63-75.
[11]	何翔, 杜星星, 刘健, 李艺豪, 李群. 武威盆地第四纪沉积过程及其构造意义[J]. 地震地质, 2022, 44(1): 76-97.
[12]	常昊, 常祖峰, 刘昌伟. 金沙江断裂带活动与大型滑坡群的关系研究:以金沙江拿荣—绒学段为例[J]. 地震地质, 2021, 43(6): 1435-1458.
[13]	杨晨艺, 李晓妮, 冯希杰, 朱琳, 李苗, 张恩会. 渭河盆地北缘口镇-关山断层的晚第四纪—现今的活动性[J]. 地震地质, 2021, 43(3): 504-520.
[14]	张鹏, 许奎, 范小平, 张媛媛, 汪勇, 郝景润. 镇江地区主要NW向断裂的第四纪活动性[J]. 地震地质, 2021, 43(1): 144-157.
[15]	白鸾羲, 徐锡伟, 罗浩, 李康, 李梦妮, 魏雷鸣, 王启欣, 赵俊香. 河套盆地第四纪晚期不整合面的时代厘定及其构造意义讨论[J]. 地震地质, 2020, 42(4): 806-824.