1303年山西洪洞8级地震地表破裂带di   总被引：6，自引：0，他引：6       下载免费PDF全文

江娃利  邓起东  徐锡伟  谢新生 《地震学报》2004,26(4):355-362

综合20世纪90年代初在霍山山前断裂和近年在绵山西侧断裂和太谷断裂获取的最新调查资料，讨论了1303年山西洪洞8级地震地表破裂带的展布和位移特征. 如果太谷断裂、绵山西侧断裂与霍山山前断裂在1303年洪洞地震中同时活动，则该次地震的地表破裂带长163 km，分为3段，即霍山山前断裂段、绵山西侧断裂段和太谷断裂段. 各段长度分别为50，35和70 km，3段之间存在4和8 km的阶区. 该地震地表破裂带具右旋走滑特征，北段和中段右旋走滑位移量6～7 m，南段最大为10 m. 在山西断陷带盆地边界的单条断裂一般只对应7级地震，而该次8级特大地震则突破两个盆地之间的障碍体，显示了强震地表破裂尺度的可变特征.   相似文献   

罗云山山前断裂中段土门-贾朱村晚第四纪断错地貌特征   总被引：2，自引：0，他引：2  

孙昌斌  谢新生  许建红 《中国地震》2013,29(3):347-357

罗云山山前断裂位于山西临汾盆地西侧,控制着盆地的西界。通过对该断裂1∶ 5万地质填图、对河流冲沟阶地及山前断错地貌的调查,介绍了罗云山山前断裂中段土门-贾朱村晚第四纪断错地貌特征。罗云山山前发育D1、D2、D3 等3 级洪积扇,罗云山山前断裂上升盘冲沟发育T1 ～ T5 等5 级阶地。D1 洪积扇与T1、T2 阶地形成于全新世早中期;D2 洪积扇与T3 阶地形成于晚更新世中晚期;D3 洪积扇与T4、T5 阶地形成于中更新世中晚期。罗云山山前断裂中段不同部位断错地貌特征差异较大,D1 洪积扇的断错在席坊沟一带断距约2. 9m;在金殿镇峪口村南西山前断错约3m。D2 洪积扇的断错在土门镇南西堡子村约2. 5m;在杨家庄村西山前断错约4m;在景村西山前断错约6m;在襄陵镇浪泉沟南西侧山前断错约7. 7m。罗云山山前断裂中段山前断错地貌明显,其最新活动时代为全新世。其中,土门段最新活动时代为全新世早期,龙祠段最新活动时代为全新世中晚期。罗云山山前断裂中段晚更新世中晚期以来活动速率为0. 18～ 0. 54mm / a,由北向南活动呈增强趋势;全新世早中期以来活动速率为0. 4 ～ 0. 9mm / a,断裂活动主要集中于席坊沟-峪口一带。罗云山山前断裂中段从晚更新世中晚期到全新世活动速率有增大的趋势,这与该断裂上升盘冲沟阶地从晚更新世中晚期到全新世抬升速率有增大的趋势以及临汾盆地从晚更新世晚期到全新世沉降速率也有增大的趋势具有较好的一致性。  相似文献   

内蒙大青山山前活动断裂带的地震破裂分段特征   总被引：7，自引：0，他引：7       下载免费PDF全文

江娃利  肖振敏  王焕贞  龚复华 《地震地质》2001,23(1):24-34

沿内蒙大青山山前活动断裂进行野外调查及探槽开挖的研究结果表明 ,该断裂西部地段及东部地段的最新活动时期在全新世中期以后及全新世晚期以前 ;中部地段在全新世晚期强烈活动 ,公元 84 9年包头地震的地表破裂沿该段展布。大青山山前台地与断层陡坎分布、洪积扇类型及河流阶地断错等地貌特征、全新世晚期断裂活动范围、沿断裂带探槽开挖获得的古地震事件对比 ,以及现今中小地震震中分布表明 ,全新世晚期大青山山前断裂的活动以土左旗为界 ,该界以西全新世晚期断裂强烈活动 ,该界以东全新世晚期断裂活动不明显。全新世时期大青山山前断裂的活动显示了由东向西的迁移  相似文献   

郯庐断裂带安丘-莒县断裂江苏段全新世活动的新证据     

张鹏  张媛媛  李丽梅  蒋新  孟科 《地震地质》2019,41(3)

安丘-莒县断裂是郯庐断裂带内活动时代最新、地表形迹最明显、地震危险性最大的断裂,也是1668年郯城M8 1/2地震的发震断层。前人对郯城地震的地表破裂向S终止的位置存在多种观点,对该断裂江苏段的全新世活动情况也存在较大争议。文中通过在重岗山西侧和宿迁合欢路北侧开展的探槽开挖工作,发现了该断裂全新世活动的新证据,并对其最新活动时间进行了探讨。重岗山西侧后陈村探槽和宿迁合欢路北侧探槽都表明安丘-莒县断裂江苏段在全新世有过明显活动,推测最新一次古地震事件的发生时间为(4. 853±0. 012)～(2. 92±0. 3) ka BP。最新活动性质以走滑逆冲为主,剖面上获得的最大断错量为1m。未发现1668年郯城M81/2地震的地表破裂带到达江苏段的明确证据。  相似文献   

中旬-大具断裂南东段晚第四纪活动的地质地貌证据   总被引：1，自引：0，他引：1  

李光涛  苏刚  程理  李峰  吴昊 《地震地质》2019,41(3)

中甸-大具断裂南东段位于哈巴和玉龙雪山北麓,属于川西北次级块体西南边界,断裂总体走向310°～320°,是一条重要的边界断裂。了解该断裂的活动性质、活动时代和滑动速率等对分析川西北次级块体运动,研究该断裂与玉龙雪山东麓断裂的交切关系等问题具有重要意义。文中基于1︰5万活动断层地质填图,对断裂沿线地层地貌、陡坎地貌、地表破裂、典型断层剖面以及河流阶地等进行了详细的研究。研究表明:1)中甸-大具断裂南东段按几何结构、断错地貌表现、断裂活动性可分为马家村—大具次级段和大具—大东次级段。2)通过野外地质调查发现,马家村—大具次级段断错了全新世冲洪积扇,形成了地表破裂,为全新世活动段;而大具—大东次级段虽然也断错了晚更新—全新世地层,但其断错规模及滑动速率均较小,由此认为其全新世以来活动较弱。3)通过分析断裂沿线断层陡坎、水平位错及地表破裂等地质地貌问题,认为马家村—大具次级段的活动性质为右旋走滑兼正断,其晚更新世以来的垂直滑动速率为0. 4～0. 8mm/a,水平滑动速率为1. 5～2. 4mm/a;大具—大东次级段以右旋走滑为主、正断为辅,其晚更新世晚期以来的垂直滑动速率为0. 1mm/a。4)在大具盆地内发现的NW向地表破裂带的形成时代很年轻,不排除是1966年中甸6. 4级地震或1996年丽江7. 0级地震造成的地表破裂。  相似文献   

陆内盆地与强震活动ht          下载免费PDF全文

邓起东  高孟潭  赵新平  吴建春 《地震学报》2004,26(4):343-346

1303年9月27日的山西洪洞8级地震发生于山西断陷盆地带中的临汾盆地，这是我国自有地震历史记载以来的第一次8级地震，也是一个在活动陆内盆地中发生的大地震. 2003年9月17~18日在山西太原市召开了1303年山西洪洞8级地震700周年暨陆内盆地与强震活动研讨会. 会上交流的论文讨论了我国不同地区发育的不同性质的陆内活动盆地，包括拉张构造区的地堑、半地堑张性盆地，挤压构造区的压陷盆地和前陆盆地及走滑构造带内的拉分盆地与强震活动的关系. 本文对这些问题作了简要的总结，本期刊登的论文是由部分会议论文组成的专辑.   相似文献   

小江断裂带宜良盆地西缘断裂晚第四纪活动的地质地貌证据     

《地震研究》2021,44(2)

据历史资料记载,云南宜良地区曾于公元1500年发生过一次M7地震,该地震发生在小江断裂带上,但对其具体发震断层及其地表破裂分布的确定,仍存有较大分歧。在高分辨率遥感影像解译基础上,沿宜良盆地西缘断裂进行了翔实的地质地貌调查,获得了该断裂晚第四纪活动的一些地质地貌证据。店房探槽和打挂村探槽组开挖结果揭示:宜良盆地西缘断裂断错了全新世地层,最新一次活动断错了(2 460±30)a BP的地层。结合断错地貌和地震破坏记录的分析,其最新事件可能对应于1500年宜良地震。  相似文献   

依兰-伊通断裂全新世活动的新发现及其意义   总被引：12，自引：3，他引：9       下载免费PDF全文

闵伟  焦德成  周本刚  盛俭  陈涛 《地震地质》2011,33(1):141-150

郯庐断裂带东北段依兰-伊通断裂历史上没有发生过6级以上地震,一般认为是第四纪早期活动断裂,为中强地震发震构造.通过高分辨率卫星影像解译和野外调查,在该断裂多个段落发现断错河流Ⅰ级阶地等全新世地貌面、高1～2m的地表陡坎.其中,在通河县附近的最新地表陡坎长约70km,舒兰附近的最新地表陡坎长约10km.分别对黑龙江通河县...  相似文献   

蔚广盆地南缘断裂带唐山口段山前断层活动性研究   总被引：1，自引：0，他引：1  

王林  田勤俭  李德文  张效亮 《震灾防御技术》2017,12(2):319-328

蔚广盆地是山西地堑系北端京西北盆岭构造区内的一个半地堑盆地，蔚广盆地南缘断裂带为控制该盆地形成的边界断裂。该断裂带位于唐山口段的山前断裂在冲洪积扇体上形成了线性特征显著的断层陡坎。横跨断层陡坎开挖的探槽表明该条山前断裂属于全新世活动断裂，探槽揭示了2条活动断层以及相应的3次古地震事件。在距今约9ka时其中一条断层首次活动，之后在距今约7.3ka时该条断层再次活动并引发了另一条断层的形成与同步活动。最后它们又发生了第三次活动，而最新一次活动的时间由于相应地表沉积的缺失而无法获得。这3次古地震事件的累积垂直位错约为8.1m。估算出整条山前断裂的平均复发周期约为1.7ka、平均滑动速率约为1.6mm/a。此外还依据经验公式估算出了各次古地震的参考震级。  相似文献   

临汾盆地赤峪断裂的活动性研究及有关问题讨论     

苏宗正  贺明华  阎凤忠 《山西地震》1988,(4)

赤峪断裂是临汾盆地北部第四纪隆起区一系列北北东向断裂中的主要断裂,形成于燕山运动,上新世末及中更新晚期有过两次强烈活动.最新的一次活动在晚更新世中晚期,晚更新世末至全新世该断裂趋于稳定.研究认为,1303年洪洞8级地震与该断裂无关.  相似文献   

Holocene activities of the Taigu fault zone, Shanxi Province, and their relations with the 1303 Hongdong M=8 earthquake     

谢新生  江娃利  王焕贞  冯西英 《地震学报(英文版)》2004,17(3)

Introduction The Taigu fault is located on the eastern boundary of the Jinzhong basin in the Shanxi fault depression system, which is one of the 12 major active basin boundary faults, and is also less studied among them. The reason for this is, firstly, the Jinzhong basin has no historical earth-quakes with M 7, while the two basins linked together in the northern and southern sides, the Linfen and Xinding basins all have had historical earthquakes with M 7; secondly, because the Jiaochen…  相似文献   

Holocene activities of the Taigu fault zone,Shanxi Province,and their relations with the 1303 Hongdong <Emphasis Type="Italic">M</Emphasis>=8 earthquake     

Xie Xin-sheng  Jiang Wa-li  Wang Huan-zhen  Feng Xi-ying 《地震科学（英文版）》2004,17(3):308-321

The Taigu fault zone is one of the major 12 active boundary faults of the Shanxi fault-depression system, located on the eastern boundary of the Jinzhong basin. As the latest investigation indicated, the fault zone had dislocated gully terrace of the first order, forming fault-scarp in front of the loess mesa. It has been discovered in many places in ground surface and trenches that Holocene deposits were dislocated. The latest activity was the 1303 Hongdong earthquake M=8, the fault appeared as right-lateral strike-slip with normal faulting. During that earthquake, the Taigu fault together with the Mianshan western-side fault on the Lingshi upheaval and the Huoshan pediment fault on the eastern boundary of the Linfen basin was being active, forming a surface rupture belt of 160 km in length. Moreover, the Taigu fault were active in the mid-stage of Holocene and near 7 700 aB.P. From these we learnt that, in Shanxi fault-depression system, the run-through activity of two boundary faults of depression-basins might generate great earthquake with M=8.  相似文献   

Holocene activities of the Taigu fault zone, Shanxi Province, and their relations with the 1303 Hongdong M =8 earthquake     

Xie Xin-sheng  Jiang Wa-li  Wang Huan-zhen  Feng Xi-ying 《地震学报(英文版)》2004,17(3):308-321

The Taigu fault zone is one of the major 12 active boundary faults of the Shanxi fault-depression system, located on the eastern boundary of the Jinzhong basin. As the latest investigation indicated, the fault zone had dislocated gully terrace of the first order, forming fault-scarp in front of the loess mesa. It has been discovered in many places in ground surface and trenches that Holocene deposits were dislocated. The latest activity was the 1303 Hongdong earthquake M=8, the fault appeared as right-lateral strike-slip with normal faulting. During that earthquake, the Taigu fault together with the Mianshan western-side fault on the Lingshi upheaval and the Huoshan pediment fault on the eastern boundary of the Linfen basin was being active, forming a surface rupture belt of 160 km in length. Moreover, the Taigu fault were active in the mid-stage of Holocene and near 7 700 aB.P. From these we learnt that, in Shanxi fault-depression system, the run-through activity of two boundary faults of depression-basins might generate great earthquake with M=8. Foundation item: Chinese Joint Seismological Science Foundation (201017). Contribution No. 2003A004, Institute of Crust Dynamics, China Earthquake Administration.  相似文献   

Surface rupture zone of the 1303 Hongtong M=8 earthquake, Shanxi Province   总被引：1，自引：0，他引：1  

江娃利  邓起东  徐锡伟  谢新生 《地震学报(英文版)》2004,17(4)

Introduction The 1303 Shanxi Hongtong M=8 earthquake is the earliest M=8 event determined in histori-cal records in China and the largest recorded in Shanxi fault-depression system in history. Some researchers have discussed the tectonic environment of this earthquake (DENG, et al, 1973; DENG, 1984; DENG, XU, 1994, 1995; Seismo-geological Brigade, State Seismological Bureau, Depart-ment of Geology and Geography, Peking University, 1979; LIU, XIAO, 1982; ZHANG, JIA, 1986; SU, …  相似文献   

NEW EVIDENCES FOR LATE QUATERNARY ACTIVITY IN THE SOUTHERN SEGMENT OF THE YISHU-TANGTOU FAULT,THE TAN-LU FAULT ZONE,AND ITS TECTONIC IMPLICATION          下载免费PDF全文

CAO Jun  XU Han-gang  RAN Yong-kang  LIANG Ming-jian  LEI Sheng-xue  ZHANG Peng  LI Li-mei  GU Qin-ping  ZHAO Qi-guang 《地震地质》2017,39(2):287-303

The Tan-Lu Fault Zone(TLFZ), a well-known lithosphere fault zone in eastern China, is a boundary tectonic belt of the secondary block within the North China plate, and its seismic risk has always been a focus problem. Previous studies were primarily conducted on the eastern graben faults of the Yishu segment where there are historical earthquake records, but the faults in western graben have seldom been involved. So, there has been no agreement about the activity of the western graben fault from the previous studies. This paper focuses on the activity of the two buried faults in the western graben along the southern segment of Yishu through combination of shallow seismic reflection profile and composite drilling section exploration. Shallow seismic reflection profile reveals that the Tangwu-Gegou Fault(F₄)only affects the top surface of Suqian Formation, therefore, the fault may be an early Quaternary fault. The Yishui-Tangtou Fault(F₃)has displaced the upper Pleistocene series in the shallow seismic reflection profile, suggesting that the fault may be a late Pleistocene active fault. Drilling was implemented in Caiji Town and Lingcheng Town along the Yishui-Tangtou Fault(F₃)respectively, and the result shows that the latest activity time of Yishui-Tangtou Fault(F₃)is between(91.2±4.4)ka and(97.0±4.8)ka, therefore, the fault belongs to late Pleistocene active fault. Combined with the latest research on the activity of other faults along TLFZ, both faults in eastern and western graben were active during the late Pleistocene in the southern segment of the Yishu fault zone, however, only the fault in eastern graben was active in the Holocene. This phenomenon is the tectonic response to the subduction of the Pacific and Philippine Sea Plate and collision between India and Asian Plate. The two late Quaternary active faults in the Yishu segment of TLFZ are deep faults and present different forms on the surface and in near surface according to studies of deep seismic reflection profile, seismic wave function and seismic relocation. Considering the tectonic structure of the southern segment of Yishu fault zone, the relationship between deep and shallow structures, and the impact of 1668 Tancheng earthquake(M=8(1/2)), the seismogenic ability of moderate-strong earthquake along the Yishui-Tangtou Fault(F₃)can't be ignored.  相似文献   

新疆伊宁盆地活动断裂新活动特征研究   总被引：3，自引：0，他引：3  

罗福忠  柏美祥  陈建波 《内陆地震》2003,17(1):4-10

新疆伊宁盆地主要分布有巩留南、喀什河、雅马特等6条活动断裂，断裂走向近东西向与北酉一北北西向。其中巩留南断裂、喀什河断裂、雅马特断裂等在晚更新世一全新世时期有过多次显著的新活动，切错了晚更新世一全新世堆积物。在喀什河断裂上1812年发生了8级大展，形成长约100km的地震形变带。在巩留南断裂、雅马特断裂、伊宁断裂上也有受控于断裂近代新活动的中等地震发生。  相似文献   

郯庐断裂带莒县胡家孟晏地震破裂带的发现   总被引：4，自引：3，他引：1       下载免费PDF全文

何宏林  宋方敏  李传友  杨晓平 《地震地质》2004,26(4):630-637

郯庐断裂带是中国东部最主要的一条活动断裂带。在该断裂带中部,沂沭断裂东地堑的潍坊—嘉山段中发育了1条长360km的全新世活动断裂带(F5),在该全新世断裂带的北段和中段分别发生了公元70年的安丘地震和公元1668年的郯城地震。2003年底我们考察沭河断裂带时,在莒县境内发现了1条长约7km的地震破裂带,作为活动断层应该归属于F5断裂带,但其是一条独立的地震破裂段还是归属于1668年郯城8.5级地震破裂带有待于进一步的研究。尽管如此,探槽揭示出的上覆未经破坏的地层的14C年代表明,该破裂带在(2140±190)aBP以来没有过活动,因此我们认为其作为1条独立破裂段的可能性较大  相似文献   

山西罗云山山前断裂带中段龙祠-峪口全新世活动证据   总被引：5，自引：4，他引：1       下载免费PDF全文

许建红  谢新生  孙昌斌 《地震地质》2011,(4):855-864

通过断错地貌调查和探槽开挖,获得了临汾盆地西界罗云山山前断裂带龙祠-峪口段的最新活动信息:该段山前洪积扇后缘断断续续存在高2.5m、5.2m、8m左右的地表地貌陡坎;附近冲沟的Ⅰ级阶地热释光测年为距今7500a左右;在NW向的席坊沟内存在拔沟3.5m、8m、18m左右的3级阶地,与地貌陡坎有对应关系;席坊沟探槽揭示罗云...  相似文献   

THE DISCUSSION FOR THE NEW ACTIVITY OF THE TIANQUAN SEGMENT OF LONGMENSHAN FAULT ZONE AND ITS RELATIONSHIP TO THE 1327 TIANQUAN EARTHQUAKE,SICHUAN          下载免费PDF全文

LIANG Ming-jian  CHEN Li-chun  RAN Yong-kang  WANG Hu  LI Dong-yu 《地震地质》2016,38(3):546-559

The 2008 Wenchuan earthquake occurred along the Longmen Shan fault zone, only five years later, another M7 Lushan earthquake struck the southern segment where its seismic risk has been highly focused by multiple geoscientists since this event. Through geological investigations and paleoseismic trenching, we suggest that the segment along the Shuangshi-Dachuan Fault at south of the seismogenic structure of the Lushan earthquake is active during Holocene. Along the fault, some discontinuous fault trough valleys developed and the fault dislocated the late Quaternary strata as the trench exposed. Based on analysis of historical records of earthquakes, we suggest that the epicenter of the 1327 Tianquan earthquake should be located near Tianquan and associated with the Shuangshi-Dachuan Fault. Furthermore, we compared the ranges of felt earthquakes(the 2013 M7 Lushan earthquake and the 1970 M_S6.2 Dayi earthquake)and suggest that the magnitude of the 1327 Tianquan earthquake is more possible between 6½ and 7. The southern segment of the Longmen Shan fault zone behaves as a thrust fault system consisting of several sub-paralleled faults and its deep structure shows multiple layers of decollement, which might disperse strain accumulation effectively and make the thrust system propagate forward into the foreland basin, creating a new decollement on a gypsum-salt bed. The soft bed is thick and does not facilitate to constrain fault deformation and accumulate strain, which produces a weak surface tectonic expression and seismic activity along the southern segment, this is quite different from that of the middle and northern segments of the Longmen Shan fault zone.  相似文献   

LATE QUATERNARY ACTIVITY OF THE CENTRAL SEGMENT OF THE DARI FAULT AND RESTUDY OF THE SURFACE RUPTURE ZONE OF THE 1947 M73/4 DARI EARTHQUAKE,QINGHAI PROVINCE          下载免费PDF全文

LIANG Ming-jian  YANG Yao  DU Fang  GONG Yue  SUN Wei  ZHAO Min  HE Qiang 《地震地质》1979,42(3):703-714

Bayan Hara Block is one of the most representative active blocks resulting from the lateral extrusion of Tibet Plateau since the Cenozoic. Its southern and northern boundary faults are characterized by typical strike-slip shear deformation. Its eastern boundary is blocked by the Yangze block and its horizontal movement is transformed into the vertical movement of the Longmen Shan tectonic belt, leading to the uplift of the Longmen Shan Mountains and forming a grand geomorphic barrier on the eastern margin of the Tibet Plateau. A series of large earthquakes occurred along the boundary faults of the Bayan Hara Block in the past twenty years, which have attracted attention of many scholars. At present, the related studies of active tectonics on Bayan Hara Block are mainly concentrated on the boundary faults, such as Yushu-Ganzi-Xianshuihe Fault, East Kunlun Fault and Longmen Shan Fault. However, there are also some large faults inside the block, which not only have late Quaternary activity, but also have tectonic conditions to produce strong earthquake. These faults divide the Bayan Hara Block into some secondary blocks, and may play important roles in the kinematics and dynamics mechanism of the Bayan Hara Block, or even the eastern margin of the Tibet Plateau. The Dari Fault is one of the left-lateral strike-slip faults in the Bayan Hara Block. The Dari Fault starts at the eastern pass of the Kunlun Mountains, extends eastward through the south of Yalazela, Yeniugou and Keshoutan, the fault strike turns to NNE direction at Angcanggou, then turns to NE direction again at Moba town, Qinghai Province, and the fault ends near Nanmuda town, Sichuan Province, with a total length of more than 500km. The fault has been considered to be a late Quaternary active fault and the 1947 M73/4 Dari earthquake was produced by its middle segment. But studies on the late Quaternary activity of the Dari Fault are still weak. The previous research mainly focused on the investigation of the surface rupture and damages of the 1947 M73/4 Dari earthquake. However, there were different opinions about the scale of the M73/4 earthquake surface rupture zone. Dai Hua-guang(1983)thought that the surface rupture of the earthquake was about 150km long, but Qinghai Earthquake Agency(1984)believed that the length of surface rupture zone was only 58km. Based on interpretation of high-resolution images and field investigations, in this paper, we studied the late Quaternary activity of the Dari Fault and the surface rupture zone of the 1947 Dari earthquake. Late Quaternary activity in the central segment of the Dari Fault is particularly significant. A series of linear tectonic landforms, such as fault trough valley, fault scarps, fault springs and gully offsets, etc. are developed along the Dari Fault. And the surface rupture zone of the 1947 Dari earthquake is still relatively well preserved. We conducted a follow-up field investigation for the surface rupture zone of the 1947 Dari earthquake and found that the surface rupture related to the Dari earthquake starts at Longgen village in Moba town, and ends near the northwest of the Yilonggounao in Jianshe town, with a length of about 70km. The surface rupture is primarily characterized by scarps, compressional ridges, pull-apart basins, landslides, cleavage, and the coseismic offset is about 2~4m determined by a series of offset gullies. The surface rupture zone extends to the northwest of Yilonggounao and becomes ambiguous. It is mainly characterized by a series of linear fault springs along the surface rupture zone. Therefore, we suggest that the surface rupture zone of the 1947 Dari earthquake ends at the northwest of Yilonggounao. In summary, the central segment of the Dari Fault can be characterized by strong late Quaternary activity, and the surface rupture zone of the 1947 Dari earthquake is about 70km long.  相似文献