龙陵-瑞丽断裂北段晚第四纪活动性特征及强震复发间隔1     

杜义  张效亮  黄学猛  杜宇本  谢富仁 《中国地震研究》2013,27(3):344-357

野外地质地貌调查表明,龙陵-瑞丽断裂（南支）北段是以左旋走滑为主兼具一定正断分量的区域性活动断裂。断裂晚更新世以来的平均水平滑动速率为2.2mm/a,平均垂直滑动速率为0. 6mm/a;全新世以来的平均水平滑动速率为1.8—3.0mm/a,平均垂直滑动速率为0.5mm/a。断裂在晚更新世以来的滑动速率在不同的时间尺度上变化不大,反映出该断裂晚更新世以来的活动强度比较稳定。利用Poisson模型、Lognormal模型、BPT模型三种概率模型计算获得未来50a强震发震概率分别是：6.32%、0.08%、0.05%;三种模型分别取权重0.28、0.36、0.36,获得龙陵-瑞丽断裂北段未来50a特征地震发震概率为1.82%。  相似文献   

龙陵-瑞丽断裂北段晚第四纪活动性特征及强震复发间隔     

杜义  张效亮  黄学猛  杜宇本  谢富仁 《震灾防御技术》2012,7(3):215-226

野外地质地貌调查表明,龙陵-瑞丽断裂(南支)北段是以左旋走滑为主兼具一定正断分量的区域性活动断裂.断裂晚更新世以来的平均水平滑动速率为2.2mm/a,平均垂直滑动速率为0.6mm/a;全新世以来的平均水平滑动速率为1.8-3.0mm/a,平均垂直滑动速率为0.5mm/a.断裂在晚更新世以来的滑动速率在不同的时间尺度上变化不大,反映出该断裂晚更新世以来的活动强度比较稳定.利用Poisson模型、Lognormal模型、BPT模型三种概率模型计算获得未来50a强震发震概率分别是:6.32％、0.08％、0.05％；三种模型分别取权重0.28、0.36、0.36,获得龙陵-瑞丽断裂北段未来50a特征地震发震概率为1.82％.  相似文献   

祁连山活动断裂带中东段冷龙岭断裂滑动速率的精确厘定   总被引：14，自引：0，他引：14  

何文贵  袁道阳  葛伟鹏  罗浩 《地震》2010,30(1)

冷龙岭活动断裂是青藏高原东北缘祁连山断裂带的重要组成部分,位于祁连山断裂带中东段。根据野外考察结果认为,该断裂全新世以来活动强烈,主要表现为左旋走滑运动,并伴有正倾滑性质,断错地貌特征明显。通过高分辨率SPOT卫星数字影像和大比例尺航空照片处理确定断层的位置,利用断错地貌测图、热释光(TL)和碳十四(14C)测年方法,厘定了冷龙岭断裂的晚第四纪滑动速率,冷龙岭断裂晚更新世以来的平均水平滑动速率为(4.3±0.7)mm/a,全新世晚期以来的平均水平滑动速率为(3.9±0.36)mm/a。  相似文献   

德钦—中甸—大具断裂晚第四纪活动的地质与地貌表现   总被引：3，自引：0，他引：3  

常祖峰  张艳凤  李鉴林  臧阳 《地震研究》2014,(1):46-52

根据野外地质、地貌调查结果,重点论述了德钦—中甸—大具断裂的几何展布、运动性质和最新活动时代。该断裂多处断错了晚更新世及全新世地层,具明显的右旋走滑兼正断性质,最新活动时代为晚更新世至全新世,水平滑动速率为1.7~2.0 mm/a,垂直滑动速率为0.6~0.7 mm/a。该断裂是川滇菱形块体西北边缘的一条重要的NW向走滑断裂,它与金沙江断裂带一起,共同构成了川滇菱形块体西北边界。  相似文献   

滇西北通甸-巍山断裂中段的晚第四纪滑动速率   总被引：2，自引：0，他引：2       下载免费PDF全文

任俊杰  张世民  侯治华  刘旭东 《地震地质》2007,29(4):756-764

通甸-巍山断裂属于红河断裂带的分支断裂,目前对该断裂中段的晚第四纪活动特征研究较少。野外地质地貌调查和年代学研究结果表明,通甸-巍山断裂中段是以右旋走滑运动为主,兼有张性正断的全新世活动断裂,其最新活动时代距今约2.2ka。晚更新世中晚期以来断裂中段平均水平滑动速率为1.25mm/a,全新世晚期以来垂直运动趋于增强。该研究不仅为该断裂的地震危险性评价工作提供了基础资料,而且有助于理解川滇菱形块体西南边界构造变形的空间分配特点  相似文献   

南迦巴瓦构造结西侧里龙断裂晚第四纪活动特征     

谢平  唐方头  梁小华  李康 《震灾防御技术》2017,12(3):480-490

本文通过卫星影像解译、地质地貌调查、地质探槽开挖、断错地貌测量和样品年代学测试，对南迦巴瓦构造结西侧的里龙断裂晚第四纪活动特征进行了分析和研究，结果表明:里龙断裂是一条以右旋走滑活动为主、兼有挤压逆冲的北北西向断裂，其最新活动时代为全新世；该断裂晚第四纪以来的平均水平滑动速率为3-4mm/a，平均垂直滑动速率为0.10-0.15mm/a。研究还表明，南迦巴瓦构造结晚第四纪以来的向北俯冲运动已经停止，喜马拉雅东构造结地区的构造变形主要受阿萨姆构造结的俯冲影响。  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   

韩城断裂晚第四纪活动性研究          下载免费PDF全文

《地震地质》2017,(1)

在1:5万活断层地质地貌填图的基础上,对韩城断裂的构造地貌特征及晚第四纪活动性进行了详细研究。依据断裂的构造地貌、活动性及几何展布特征等将断裂自北向南分为3段:西硙口至盘河段、盘河至行家堡段和行家堡至义井段。断裂的活动性自NE向SW是逐渐变弱的。西硙口至盘河段为典型的盆山地貌,全新世活动,全新世中期以来的垂直滑动速率估算0.8mm/a;盘河至行家堡段,断裂沿黄土台地前缘展布,晚更新世晚期活动,晚更新世晚期以来的垂直滑动速率约为0.49mm/a;行家堡至义井段,断裂伸入渭河盆地北部黄土塬中,晚更新世早期黄土中发育裂隙及砂土液化现象。  相似文献   

东昆仑断裂带东段玛曲断裂新活动特征及全新世滑动速率研究   总被引：9，自引：1，他引：9  

何文贵  袁道阳  熊振  葛伟鹏  刘兴旺 《地震》2006,26(4):67-75

东昆仑活动断裂是青藏高原东北部一条重要的NWW向边界断裂。玛曲断裂位于东昆仑断裂带的最东段。根据野外考察结果认为玛曲断裂全新世以来活动强烈,主要表现为左旋走滑运动,并伴有正倾滑运动性质。断错地貌特征明显,断裂过玛曲县城以后,沿黑河南岸穿过若尔盖草地向东,直至岷山北端求吉附近。通过两处断错地貌的全站仪器实测和测年资料讨论了玛曲断裂新活动特征和全新世滑动速率,玛曲断裂全新世早期以来的平均水平滑动速率为6.29~5.71 mm/a,全新世晚期以来的平均水平滑动速率为4.19~4.03 mm/a。  相似文献   

川西则木河断裂带强震复发周期的初步研究   总被引：2，自引：0，他引：2  

任金卫 《内陆地震》1990,4(2):107-115

本文从地震活动性和断层活动性两方面初步研究了川西则木河断裂带上地震的复发周期。通过古地震地貌现象的研究,发现则木河断裂北段西昌一带自晚更新世以来多次发生强震,其中全新世时期至少有4次。并得出晚更新世时期,强震在原地重复的周期为2000年,全新世时期为1800年,则木河断裂带滑动速率的研究表明,晚更新世时期断层滑动速率为4.5mm/a,全新世时期为4.9mm/a,以此估计则木河断裂带上晚更新世时期,强震重复的平均周期为965—1380年,全新世时期为885—1275年。  相似文献   

GEOMORPHIC FEATURES AND LATE QUATERNARY SLIP RATE OF THE SOUTHERN ZONGWULONG SHAN FAULT          下载免费PDF全文

DONG Jin-yuan  LI Chuan-you  ZHENG Wen-jun  LI Tao  LI Xin-nan  ZHANG Pei-zhen  REN Guang-xue  DONG Shao-peng  LIU Jin-rui 《地震地质》2019,41(2):341-362

With the continuous collision of the India and Eurasia plate in Cenozoic, the Qilian Shan began to uplift strongly from 12Ma to 10Ma. Nowadays, Qilian Shan is still uplifting and expanding. In the northern part of Qilian Shan, tectonic activity extends to Hexi Corridor Basin, and has affected Alashan area. In the southern part of Qilian Shan, tectonic activity extends to Qaidam Basin, forming a series of thrust faults in the northern margin of Qaidam Basin and a series of fold deformations in the basin. The southern Zongwulong Shan Fault is located in the northeastern margin of Qaidam Basin, it is the boundary thrust fault between the southern margin of Qilian Shan and Qaidam Basin. GPS studies show that the total crustal shortening rate across the Qilian Shan is 5~8mm/a, which absorbs 20% of the convergence rate of the Indian-Eurasian plate. Concerning how the strain is distributed on individual fault in the Qilian Shan, previous studies mainly focused on the northern margin of the Qilian Shan and the Hexi Corridor Basin, while the study on the southern margin of the Qilian Shan was relatively weak. Therefore, the study of late Quaternary activity of southern Zongwulong Shan Fault in southern margin of Qilian Shan is of great significance to understand the strain distribution pattern in Qilian Shan and the propagation of the fault to the interior of Qaidam Basin. At the same time, because of the strong tectonic activity, the northern margin of Qaidam Basin is also a seismic-prone area. Determining the fault slip rate is also helpful to better understand the movement behaviors of faults and seismic risk assessment.Through remote sensing image interpretation and field geological survey, combined with GPS topographic profiling, cosmogenic nuclides and optically stimulated luminescence dating, we carried out a detailed study at Baijingtu site and Xujixiang site on the southern Zongwulong Shan Fault. The results show that the southern Zongwulong Shan Fault is a Holocene reverse fault, which faulted a series of piedmont alluvial fans and formed a series of fault scarps.The 43ka, 20ka and 11ka ages of the alluvial fan surfaces in this area can be well compared with the ages of terraces and alluvial fan surfaces in the northeastern margin of Tibetan Plateau, and its formation is mainly controlled by climatic factors. Based on the vertical dislocations of the alluvial fans in different periods in Baijingtu and Xujixiang areas, the average vertical slip rate of the southern Zongwulong Shan Fault since late Quaternary is(0.41±0.05)mm/a, and the average horizontal shortening rate is 0.47~0.80mm/a, accounting for about 10% of the crustal shortening in Qilian Shan. These results are helpful to further understand the strain distribution model in Qilian Shan and the tectonic deformation mechanism in the northern margin of Qaidam Basin. The deformation mechanism of the northern Qaidam Basin fault zone, which is composed of the southern Zongwulong Shan Fault, is rather complicated, and it is not a simple piggy-back thrusting style. These faults jointly control the tectonic activity characteristics of the northern Qaidam Basin.  相似文献   

畹町断裂晚第四纪活动与水系构造变形   总被引：1，自引：0，他引：1  

常祖峰  安晓文  张艳凤 《地震地质》2012,34(2):228-239

畹町断裂位于滇西中缅交界地带,蚌冬以西走向近EW,以东走向NE,倾向N和NW,全长170km。最新考察发现,沿断裂新活动的断层地貌明显,表现为清晰的断层三角面、平直的断层槽地、断层陡崖、线性山脊、多级跌水等。断裂对第四纪盆地有着明显的控制作用,畹町、曼海等盆地呈串珠状沿断裂展布。龙镇大桥等地第四纪断层及高家寨洪积扇位错等揭示出畹町断裂切错了晚更新世堆积层,被错堆积层热释光年龄为(17.60±1.49)ka～(38.24±3.25)kaBP,表明断裂在晚第四纪有过明显活动。蚌冬一带怒江沿断裂展布,主河道被左旋位错了约9.5km并形成"发卡"型拐弯;公养河等6条河流及其支流均沿断裂发育,局部或整体河段受断裂控制明显,说明这些河段是在断裂新活动后沿断裂破碎带追踪侵蚀形成的。沿断裂多处可见水系同步左旋位错现象,如平子亭—公养河间有11条小溪同步左旋位错,中山—万马河一线有10余条水系表现出同步左旋位错。位错量可分为40～50m、90～100m、200～250m、300～400m和600～1100m5个量级;梳状水系发育。水系左旋位错、阶地及洪积扇等位错现象表明,断裂在晚第四纪以水平左旋走滑为主,滑动速率为1.7～2.2mm/a.。沿断裂曾发生多次中强地震,被认为是1976年龙陵7.3、7.4级地震的余震,但它们不是沿发震断层———龙陵-瑞丽断裂呈带状分布,而是集中于龙陵-瑞丽断裂与畹町断裂间南北长55km、东西宽32km的广阔区域。因此,推断这些余震的发生是龙陵-瑞丽断裂与畹町断裂相继活动所致。  相似文献   

阿尔金主断裂东端第四纪左行走滑的新证据   总被引：1，自引：0，他引：1       下载免费PDF全文

王萍  卢演俦  陈杰 《地震地质》2005,27(1):5-62

通过对阿尔金主断裂东端早更新世冲积相砾岩的追踪,发现疏勒河古冲积扇沉积的西边界距现今疏勒河河口约 10km,由此提出了阿尔金主断裂东端第四纪以来左行走滑错动 10km的沉积学新证据。通过对疏勒河河口阶地的分析,认为疏勒河河道沿阿尔金主断裂 2 8km的肘状弯曲除主要反映了断裂的左行走滑外,可能还包含了河流弯折段侧向侵蚀因素的影响。对阿尔金主断裂东端第四纪期间的位错量和走滑速率进行了讨论  相似文献   

龙陵-瑞丽断裂带附近的构造地貌与断裂活动性   总被引：2，自引：0，他引：2       下载免费PDF全文

贺根文  付碧宏  刘鸣  杨顺虎  时丕龙  刘锋 《地震地质》2014,36(2):434-448

利用ALOS全色、ASTER多光谱遥感影像和SRTM数字高程模型数据解译，并结合野外地质调查和实时差分GPS测量，对龙陵-瑞丽断裂带晚第四纪活动的构造地貌和地质特征进行了研究。综合遥感解译、构造地貌和地震地质调查的结果认为，龙陵-瑞丽断裂带是一条以左旋走滑作用为主的断裂，在晚第四纪具有一定的活动性；并确定了龙陵-瑞丽断裂带各活动段落的空间分布情况。选取朱家寨一带开展了探槽挖掘工作。探槽很好地揭露了基岩中发育的新鲜断层面和晚第四纪冲洪积层，但是未发现断层错动晚第四纪沉积物的迹象。采集了冲洪积层底部的植物化石进行了14C测年，结果为（1150±30）a BP。据此推测，从距今1150年以来，龙陵-瑞丽断裂带活动断层在北段未再发生过破坏性古地震事件。综合分析1976年龙陵地震的发震特点，认为1976年发生在龙陵的大地震未发生在龙陵-瑞丽断裂带上，其震源机制解和余震分布特征表明地震活动与NNW向展布的新生断裂带活动有关，这很有可能造成了NE向龙陵-瑞丽断裂带晚第四纪构造活动性减弱。  相似文献   

THE TECTONIC ACTIVITY CHARACTERISTICS OF AWANCANG FAULT IN THE LATE QUATERNARY,THE SUB-STRAND OF THE EASTERN KUNLUN FAULT     

LI Chen-xia  YUAN Dao-yang  YANG Hu  XU Xi-wei 《地震地质》2016,38(1):44-64

It is well known that the slip rate of Kunlun Fault descends at the east segment, but little known about the Awancang Fault and its role in strain partitioning with Kunlun Fault. Whether the sub-strand(Awancang Fault) can rupture simultaneously with Kunlun Fault remains unknown. Based on field investigations, aerial-photo morphological analysis, topographic surveys and ¹⁴C dating of alluvial surfaces, we used displaced terrace risers to estimate geological slip rates along the Awancang Fault, which lies on the western margin of the Ruoergai Basin and the eastern edge of the Tibetan plateau, the results indicate that the slip rate is 3mm/a in the middle Holocene, similar to the reduced value of the Kunlun Fault. The fault consists of two segments with strike N50° W, located at distance about 16km, and converged to single stand to the SE direction. Our results demonstrate that the Awancang fault zone is predominantly left-lateral with a small amount of northeast-verging thrust component. The slip rates decrease sharply about 4mm/a from west to east between the intersection zone of the Awancang Fault and Kunlun Fault. Together with our previous trenching results on the Kunlun Fault, the comparison with slip rates at the Kunlun fault zone suggests that the Awancang fault zone has an important role in strain partitioning for east extension of Kunlun Fault in eastern Tibet. At the same time, the 15km long surface rupture zone of the southeast segment was found at the Awancang Fault. By dating the latest faulted geomorphologic surface, the last event may be since the 1766±54 Cal a BP. Through analysis of the trench, there are four paleoearthquake events identified recurring in situ on the Awancang Fault and the latest event is since (850±30)a BP. The slip rate of the Awancang Fault is almost equivalent to the descending value of the eastern part of the east Kunlun Fault, which can well explain the slip rate decreasing of the eastern part of the east Kunlun Fault(the Maqin-Maqu segment)and the characteristics of the structure dynamics of the eastern edge of the Tibet Plateau. The falling slip rate gradient of the eastern Kunlun Fault corresponds to the geometric characteristic. It is the Awancang Fault, the strand of the East Kunlun Fault that accommodates the strain distribution of the eastward extension of the east Kunlun Fault. This study is helpful to seismic hazard assessment and understanding the deformation mechanism in eastern Tibet.  相似文献   

钻探揭示的黄河断裂北段活动性和滑动速率   总被引：5，自引：2，他引：3       下载免费PDF全文

雷启云  柴炽章  郑文俊  杜鹏  谢晓峰  王银  崔瑾  孟广魁 《地震地质》2014,36(2):464-477

黄河断裂是银川盆地内展布最长、切割最深的一条深大断裂，也是银川盆地的东边界。由于其北段呈隐伏状，因此，该段的活动性和滑动速率长期未知，影响了对盆地演化和地震危险性的认识。文中选择具有石油地震勘探基础的陶乐镇为研究场点，以人工浅层地震勘探结果为依据，在黄河断裂北段布设了一排钻孔联合剖面，并对标志层进行年代测试，获得了断裂的活动时代和滑动速率。结果表明，黄河断裂北段在晚更新世末期或全新世有过活动，在（28.16±0.12）ka BP 以来的累积位移为0.96m，晚第四纪以来的平均滑动速率为0.04mm/a，该值明显低于南段灵武断层（0.24mm/a）；尽管向下切割了莫霍面，黄河断裂晚第四纪活动强度和发震能力均要低于切割相对浅的贺兰山东麓断裂；黄河断裂可能在新生代之前已经强烈活动并深切莫霍面，新生代以来，银川盆地的构造活动迁移分解到以贺兰山东麓断裂为主的多条断裂之上，地壳双层伸展模型可解释银川盆地现今深浅部构造活动间的联系。  相似文献   

THE QUANTATIVE STUDY ON ACTIVITY OF DENGDENGSHAN-CHIJIACIWO FAULTS SINCE LATE QUATERNARY          下载免费PDF全文

MIN Wei  LIU Yu-gang  CHEN Tao  SHU Peng  YU Zhong-yuan 《地震地质》2016,38(3):503-522

The Dengdengshan and Chijiaciwo faults situate in the northeast flank of Kuantanshan uplift at the eastern terminal of Altyn Tagh fault zone, striking northwest as a whole and extending 19 kilometers and 6.5 kilometers for the Dengdengshan and Chijiaciwo Fault, respectively. Based on satellite image interpretation, trenching, faulted geomorphology surveying and samples dating etc., we researched the new active characteristics of the faults. Three-levels of geomorphic surfaces, i.e. the erosion rock platform, terrace I and terrace Ⅱ, could be found in the northeast side of Kuantanshan Mountain. The Dengdengshan Fault dislocated all geomorphic surfaces except terrace I, and the general height of scarp is about 1.5 meters, with the maximum reaching 2.6 meters. Three paleoseismic events are determined since late Pleistocene through trenching, and the total displacement of three events is about 2.7 meters, the average vertical dislocation of each event changed from 0.5 to 1.2 meters. By collecting age samples and dating, the event Ⅰ occurred about 5ka BP, event Ⅱ occurred about 20ka BP, and event Ⅲ occurred about 35ka BP. The recurrence interval is about 15ka BP; and the vertical slip rate since the late Pleistocene is about 0.04mm/a. The Chijiaciwo Fault, however, dislocated all three geomorphic surfaces, and the general scarp height is about 2.0 meters with the maximum up to 4.0 meters. Three paleoseismic events are determined since late Pleistocene through trenching, and the total displacement of three events is about 3.25 meters, the average vertical dislocation of each event changed from 0.75 to 1.5 meters, and the vertical slip rate since the late Pleistocene is about 0.06mm/a. Although the age constraint of paleoearthquakes on Chijiaciwo Fault is not as good as that of Dengdengshan Fault, the latest event on Chijiaciwo Fault is later than Dengdengshan Fault's. Furthermore, we infer that the recurrence interval of Chijiaciwo Fault is 15ka BP, which is close to that of Dengdengshan Fault. The latest event on Chijiaciwo Fault is later than the Dengdengshan Fault's, and the vertical displacement and the slip rate of a single event in late Quaternary are both larger than that of Dengdengshan Fault. Additionally, a 5-kilometer-long discontinuity segment exists between these two faults and is covered by Quaternary alluvial sand gravel. All these indicate that the activity of the Chijiaciwo Fault and Dengdengshan Fault has obvious segmentation feature. The size of Chijiaciwo Fault and Dengdengshan Fault are small, and the vertical slip rate of 0.04~0.06mm/a is far smaller than that of Qilianshan Fault and the NW-striking faults in Jiuxi Basin. All these indeicate that the tectonic deformation of this region is mainly concentrated on Hexi Corrider and the interior of Tibet Plateau, while the activties of Chijiaciwo and Dengdengshan faults are characterized by slow slip rate, long recurrence interval(more than 10ka)and slow tectonic deformation.  相似文献   

USING DEFORMED FLUVIALTERRACES OF THE QINGYIJIANG RIVER TO STUDY THE TECTONIC ACTIVITY OF THE SOUTHERN SEGMENT OF LONGMENSHAN FAULT ZONE          下载免费PDF全文

SU Peng  TIAN Qin-jian  LIANG Peng  LI Wen-qiao  WANG Lin 《地震地质》2016,38(3):523-545

On 20 April 2013, a destructive earthquake, the Lushan M_S7.0 earthquake, occurred in the southern segment of the Longmenshan Fault zone, the eastern margin of the Tibetan plateau in Sichuan, China. This earthquake did not produce surface rupture zone, and its seismogenic structure is not clear. Due to the lack of Quaternary sediment in the southern segment of the Longmenshan fault zone and the fact that fault outcrops are not obvious, there is a shortage of data concerning the tectonic activity of this region. This paper takes the upper reaches of the Qingyijiang River as the research target, which runs through the Yanjing-Wulong Fault, Dachuan-Shuangshi Fault and Lushan Basin, with an attempt to improve the understanding of the tectonic activity of the southern segment of the Longmenshan fault zone and explore the seismogenic structure of Lushan earthquake. In the paper, the important morphological features and tectonic evolution of this area were reviewed. Then, field sites were selected to provide profiles of different parts of the Qingyijiang River terraces, and the longitudinal profile of the terraces of the Qingyijiang River in the south segment of the Longmenshan fault zone was reconstructed based on geological interpretation of high-resolution remote sensing images, continuous differential GPS surveying along the terrace surfaces, geomorphic field evidence, and correlation of the fluvial terraces. The deformed longitudinal profile reveals that the most active tectonics during the late Quaternary in the south segment of the Longmenshan Fault zone are the Yanjing-Wulong Fault and the Longmenshan range front anticline. The vertical thrust rate of the Yanjing-Wulong Fault is nearly 0.6~1.2mm/a in the late Quaternary. The tectonic activity of the Longmenshan range front anticline may be higher than the Yanjing-Wulong Fault. Combined with the relocations of aftershocks and other geophysical data about the Lushan earthquake, we found that the seismogenic structure of the Lushan earthquake is the range front blind thrust and the back thrust fault, and the pop-up structure between the two faults controls the surface deformation of the range front anticline.  相似文献   

DETERMINATION OF SLIP RATE ON THE SOUTHERN SEGMENT OF THE ANNINGHE FAULT     

WANG Hu  RAN Yong-kang  CHEN Li-chun  LIANG Ming-jian  GAO Shuai-po  LI Yan-bao  XU Liang-xin 《地震地质》2018,40(5):967-979

The Anninghe Fault has been suggested as an important segment of the fault system along the eastern boundary of the Sichuan-Yunnan faulted block in the southeastern region of the Tibetan plateau. Reliable determination of the Late Quaternary slip rate on the Anninghe Fault is very helpful and significant for revealing deformation mechanism and kinematic characteristics of the Sichuan-Yunnan faulted block, which further helps us understand fault activity and seismic potential of the region. However, previous studies were focused mainly on the northern segment of the Anninghe Fault, while slip rate on its southern segment has been less studied. Therefore, in this paper, we chose two sites at Dashuigou and Maoheshan on the southern segment of the Anninghe Fault, and used high-resolution images of unmanned aerial vehicle (UAV)photogrammetry technology, detailed field survey, multiple paleoseismic trenching and radiocarbon dating methods to constrain slip rate on the southern fault segment of the Anninghe Fault. Specifically, we suggest that the slip rate at the Dashuigouo site is narrowly constrained to be~4.4mm/a since about 3^￣￣300a^￣￣BP based on a linear regression calculation method, and speculate that a slip rate of 2.6~5.2mm/a at the Maoheshan site would be highly possible, although we poorly constrained the whole deformation amount of the two branch faults at the Maoheshan site from multiple paleoseismic trenching. The data at the two sites on the southern segment show a consistent slip rate compared with that of the northern segment of the Anninghe Fault. Moreover, considering a similar paleoseismic recurrence interval on the two segments of the Anninghe Fault from previous studies, we further suggest that the fault activity and deformation pattern on the two segments of the Annignhe Fault appears to be well consistent, which is also in agreement with the regional tectonic deformation.  相似文献