香山-天景山断裂带西段的运动性质变化及其成因机制          下载免费PDF全文

《地震地质》2016,(3)

香山-天景山断裂带作为青藏高原东北缘弧形构造带的重要组成部分,其东段整体表现为逆-左旋走滑运动性质。相反,其西段运动性质较为复杂,其上一系列的断错地貌特征以及在人工探槽和天然露头剖面上观察到的断裂运动性质,显示整个西段主要以正-左旋走滑运动为主,只在局部特定位置存在逆冲运动分量。为了确定香山-天景山断裂带西段运动性质变化的成因机制,从断裂的几何结构特征对其进行分析,得到影响与控制西段运动性质的3个主要因素:1)阶区构造,断层的左行左阶雁列式结构形成拉张型阶区,并控制着阶区附近及其内部断层的正-左旋走滑运动;2)尾端构造,在断裂端部存在阻止断层破裂传播的障碍体时,断裂一盘向前推挤的一端就会发生挤压构造变形,断层以逆-左旋走滑运动为主;3)双弯构造,次级段内部断层走向变化并呈右阶排列时,中间弯曲段在左旋走滑作用下形成局部挤压应力环境,表现为逆-左旋走滑运动。此外,天景山次级块体做SEE向运动,在其尾端形成走滑拉张构造环境,也是西段以正-左旋走滑运动为主的重要原因。香山-天景山断裂带西段的形成演化过程说明,在青藏高原东北缘弧形构造带向N扩展的过程中,整个香山-天景山断裂带可能并不是同时期形成的,而是分为运动性质显著不同的2个阶段,并表现为自东向西侧向扩展的形成演化模式。  相似文献   

滇东南楔形构造区发震构造背景探讨   总被引：2，自引：4，他引：2       下载免费PDF全文

何宏林 《地震地质》1992,14(3):217-226

滇东南楔形构造区的区域断裂几何结构突出地表现为半棋盘格式。具有区域应力场分界意义的红河断裂,把其它几条断裂限制在其北部,并与小江断裂带构成第一级的半断块。构造区内,曲江断裂被李浩寨断裂限制在其西侧;后者与异龙湖断裂交汇于建水盆地中;建水断裂把黑泥地断裂限制于其东,并与李浩寨断裂构成建水盆地右阶拉分岩桥区,向南终止于山花。 深部构造、区域形变及断裂活动表明该构造区是一个断块挤压隆起构造区。最后,对楔形构造区的地震活动与挤压隆起断块运动的关系作了简要的分析  相似文献   

天山构造带及邻区地壳各向异性   总被引：2，自引：0，他引：2       下载免费PDF全文

鲍子文  高原 《地球物理学报》2017,60(4):1359-1375

天山构造带位于中国大陆西北部,是典型的岩石圈陆内缩短造山带.本文利用新疆区域数字地震台网2009年1月至2014年12月的近场小地震波形资料,采用剪切波分裂分析对天山构造带及邻区的地壳各向异性特征进行研究,获得了研究区域内39个台站的快剪切波偏振方向和慢剪切波时间延迟.剪切波分裂参数的空间特征显示,研究区上地壳各向异性具有分区性,各向异性特征与局部构造、地壳介质变形和应力分布有关.天山构造带的快剪切波偏振呈现出两个优势方向的特点,第一优势方向大致平行于台站附近断裂和天山构造带的走向,与断裂构造和应力的综合影响有关,另一个优势方向反映了主压应力的直接作用.北天山山前断裂带东段的断裂弯折部位和南天山局部地区的剪切波分裂参数与东、西两侧不同,与准噶尔盆地、塔里木盆地的南北向挤压作用密切相关.快剪切波偏振优势方向的剧烈变化揭示,在准噶尔盆地和塔里木盆地双向挤压隆起的过程中,天山构造带产生了强烈的局部不均匀变形.塔里木盆地西侧快剪切波偏振具有两个优势方向,一个为NNE方向,与帕米尔高原受到印度一欧亚板块碰撞产生的北向挤压作用有关,另一个为NW方向,指出了塔里木盆地区域主压应力方向.准噶尔盆地北部也存在NE和NW两个快波偏振优势方向,主要与断裂的影响有关.天山构造带区域内的慢剪切波时间延迟总体上低于塔里木盆地西侧和准噶尔盆地北部,同时慢剪切波时间延迟的结果也进一步证实了天山构造带的局部强烈变形.  相似文献   

高精度无人机航测在2021年玛多7.4级地震地表破裂精细研究中的应用     

张志文  任俊杰  章小龙 《震灾防御技术》2021,16(3):437-447

北京时间2021年5月22日,青海省果洛州玛多县发生M_S7.4地震,震中位于巴颜喀拉地块内部,根据震源机制解和野外地表破裂调查确定发震构造为以左旋走滑运动为主的江错断裂。本研究利用大疆Phantom 4 RTK无人机在震后采集大量地表破裂照片,采用集成SfM（Structure from Motion）算法的PhotoScan软件处理获得高分辨率DEM和正射影像,同时结合野外实地考察对研究区地表破裂的分布特征及断错地貌类型进行详细解译。利用基于MATLAB语言开发的位移测量软件LaDiCaoz,限定玛多地震在研究区产生的左旋走滑位移约为0.4 m。地表破裂精细化解译显示,在左旋右阶阶区发育小规模的挤压鼓包和里德尔共轭剪切破裂,在左旋左阶阶区发育走向为N40°～50°E,宽度达数十厘米的张裂缝带,指示发震构造的左旋走滑性质。本研究为震后基于无人机摄影测量技术快速提取地表破裂的定量参数和进行地表破裂精细化研究提供了可行、高效和科学的技术方法。  相似文献   

再议走滑断裂与地震孕育和发生条件   总被引：1，自引：0，他引：1       下载免费PDF全文

邓起东  朱艾斓  高翔 《地震地质》2014,36(3)

走滑断裂是与大地震关系最紧密的活动断裂带。研究走滑断裂带上大地震是如何孕育和发生的是地震学家们极为关心的问题。构造地质学研究表明,走滑断裂是一个复杂的构造系统,反映了在剪切作用下产生的各类变形组合。文中立足于国内外不同走滑断裂带实例,对连续或不连续走滑断裂的几何学、运动学和演化过程进行了研究和总结;分析了走滑断裂的枢纽作用,发现枢纽轴部强烈挤压,形成闭锁,应力在此集中,应变在此局部化,地震在此成核和孕育。当闭锁的枢纽轴被突破时,沿走滑断裂发生失稳错动,产生突发性大位移,伴随大地震发生。而在不连续走滑断裂不同性质的阶区,则遵循其相应的应力场和破裂机制孕育和发生相应规模和类型的地震。  相似文献   

大巴山弧形断裂（镇巴-高川段）的磁性特征及构造意义   总被引：4，自引：1，他引：3       下载免费PDF全文

张燕  董云鹏  李同国  杨明生  程顺有  王永平 《地球物理学进展》2009,24(4):1267-1274

秦巴山区的大巴山断裂（镇巴-高川段）及周边地区实施了高精度磁力勘探,经过向上解析延拓、垂向不同阶导数及欧拉反褶积等新方法处理及其分析,结果表明研究区磁场特征具有明显的规律性：横向上分别显示出沉积区、挤压构造变形区及侵入岩区的磁性特征,这是研究区多样化构造特征的具体反映;纵向上,浅部磁场呈现方向性磁场,深部呈现稳定基底的特征,这种磁性差异分界面构成了北大巴山地区逆冲推覆构造的滑脱面.而大巴山主断裂在不同区段表现出不同磁性结构的多样化特征,也反映了不同挤压应力作用下变质程度的差异.  相似文献   

川滇地区活动块体边界断裂现今运动和应力分布     

万永魁  沈小七  刘瑞丰  刘峡  郑智江  李媛  张扬  王雷 《地震地质》2021,43(6):1614-1637

基于川滇地区活动块体划分及断裂构造现有认知,文中构建了包含块体主要边界断裂的二维有限元接触模型,利用1991—2015年长期GPS观测结果,采用"块体加载"方法模拟块体边界带现今的运动,得到了断裂滑动速率和应力分布.结合震源机制解、地震活动性等资料,对川滇地区大型左旋走滑断裂带滑动速率分配、传递与应力转换的关联,局部区域正断型震源机制解的构造机制以及红河断裂南、北段地震活动性差异的可能成因进行了初步探讨.主要结论包括:1)东昆仑断裂带和鲜水河-小江断裂带的左旋走滑由NW向转变为近SN向,断裂强烈转折区吸收了部分走滑分量并转化为应变积累,呈高应力分布特征.2)受小江断裂左旋剪切的影响,红河断裂中南段以右旋走滑兼微弱挤压运动为主,并牵引断裂北段右旋走滑,与金沙江和德钦-中甸断裂共同构成右阶斜列右旋剪切变形带,正断型震源机制解多分布于该变形带的构造拉分区内.3)红河断裂中南段为弱压性,北段呈弱张性,更易破裂,地震活动明显强于中南段.  相似文献   

论广州地区的地震构造及其发震危险性   总被引：2，自引：2，他引：2  

潘建雄 《华南地震》1992,12(4):32-41

广州的主要断裂构造是北北东向的广州—从化断裂带与近东西向的瘦狗岭断裂带与广州—三水断裂带。在北西西—南东东向区域构造应力场作用下,上述两条近东西向的断裂带组成右行左阶排列,导致岩桥区出现近东西向的附加挤压应力场,酿成广州—从化断裂带广州段内发生右行剪切运动,它是广州地区历史上数十次地震的发生带,是广州地区的主要发震构造;而右行左阶排列的近东西向断裂带的活动则是蕴育广州地震的原因。由于广州地区之主要发震构造规模不大,地震最大强度将以中强震为主,其极震区之地震烈度一般为六度,少数情况下可能接近七度。  相似文献   

华南褶皱系典型成矿区多期次构造演化与控矿机制数值模拟          下载免费PDF全文

于淼  梁锋  陈建平  龚建华  李海龙  王继春 《地球物理学报》2015,58(12):4534-4543

本文基于流-固耦合模型对研究区主要控矿构造的发育演化过程和控矿机制进行数值模拟研究.根据研究区不同构造期次下形成的最大主应力、体积应变、剪切应变、岩层渗透率变化、孔隙压力以及流体流动样式等成矿地质环境的定量结果,分析个旧超大型成矿系统的构造-岩浆-流体要素的相互作用机制.模拟结果显示,在成矿期构造应力场作用下,在先存背斜构造部位形成了强烈的张应力环境,构成了一系列沿北北东走向的有利侵位通道和空间.岩浆反复侵位于此并产生巨大浮力作用,控制了背斜构造发育并形成了低压力、高渗透的扩容空间,促进矿液长效聚集成矿.另一方面,根据东西向断裂组的应力-应变状态及共轭剪切断裂成生发育情况,剖析了该组断裂的形成机制以及在成矿期的性质、运动状态及导矿容矿作用.  相似文献   

焉耆盆地北缘哈尔莫敦背斜区的活动断裂及其形成机制     

伊力亚尔  李安  杨晓平  黄伟亮 《地震地质》2011,(4):789-803

逆断裂-背斜是天山地区一种重要构造形式.对逆断裂-背斜区中的活动断裂和背斜之间的组合关系和形成机制的探讨,有利于帮助我们认识在挤压应力作用下形成的构造系统.焉耆盆地北缘哈尔莫敦背斜是盆地北缘断裂向盆地内扩展的新生逆断裂-背斜.背斜主逆断裂以30°左右的倾角向盆内逆冲,现今构造运动强烈.通过对哈尔莫敦背斜航片解译和陡坎剖...  相似文献   

Geometry and Late Quaternary Kinematic Characteristics of the Huoshan Fault in Shanxi Province     

Xu Xiwei  Deng Qidong  Han ZhujunInstitute of Geology  SSB  Beijing  China 《中国地震研究》1995,(2)

The Huoshan fault is an important fault controlling the boundary of the Linfen basin at the middle transtensional segment of the Shanxi graben system.In this paper a discussion is made emphatically on the tectonic segmentation of the Huoshan fault,its internal geometric structures and characteristics of its activities since the late Quaternary on the basis of 1:10,000 scale geological mapping.Our investigations indicate that the Huoshan fault can be divided into 3 segments with different behaviors and structures.Among these 3,the shear segment with dextral movement is composed of a number of second-order shear faults in right-lateral stepover or left-lateral stepover arrangement.It has a maximum dextral displacement up to 9.83 km since the Pliocene,a dextral slip rate of 2.0 mm/a; a maximum vertical differential displacement of 3.44 km,and a differential oscillatory movement rate of 0.69 mm/a.The lower limit of dextral Holocene slip rate is about 5 mm/a.  相似文献   

沂沭断裂带中段基底韧性剪切带   总被引：13，自引：1，他引：13       下载免费PDF全文

张家声 《地震地质》1983,5(2):11

在沂沭断裂带中段的泰山群结晶基底中,存在着一系列北东、北北东走向的左行韧性剪切带。对其中发育糜棱岩的韧性剪切带的结构构造、应变测量、变形岩石的显微构造、显微组构以及长石粒度和含量的变化规律进行了观测分析。讨论了韧性剪切带的变形条件和机制。及其递进发展的趋势。指出基底韧性剪切带是沂沭断裂带元古宙时期断裂活动时在地壳较深层次上形成的构造表象。在此基础上,讨论了地壳不同层次上的断裂变形及断裂岩石的综合分类问题  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   

郯-庐断裂带南段深层次的塑性变形特征及区域应变场   总被引：15，自引：0，他引：15       下载免费PDF全文

徐嘉炜  王萍  秦仁高  叶周节 《地震地质》1984,6(4):1

本文研究了郯-庐断裂带南段深层次所表露的塑性构造现象,着重测量和分析了大量的变形砾石,从而确立属韧性平移断裂,具有恒体积的平面应变与不均一的简单剪切位移场特征,产生强烈的压缩与拉伸,并伴随有同变形期的动热变质带。同时还初步确定了四个垂深不同层次的平移剪切模式  相似文献   

太行山山前断裂带的构造特征   总被引：64，自引：1，他引：63       下载免费PDF全文

徐杰  高战武  宋长青 《地震地质》2000,22(2):111-122

据近年来的地质和地球物理资料对太行山山前断裂带做了研究 ,得到一些新的认识。断裂带开始出现于中生代 ,主要形成于早第三纪 ,由一系列NE -NNE向断裂左型斜列组成。断裂带的结构构造和活动具有鲜明的分段性 ,中北段的保定 -石家庄等断裂为大型拆离断裂 ,在倾向上水平延伸 70km左右 ,早第三纪水平拉张断距约 17km ,垂直断距 50 0 0～ 60 0 0m。断裂带基本上是发育于上地壳的拆离滑脱构造 ,不属深大断裂。它第四纪活动性不强 ,与强震活动没有直接成因关系 ,但断裂带南、北两部分与其它走向的地震构造带交汇 ,对区域地震构造和地震预测研究仍有重要意义  相似文献   

ANALYSIS OF EVOLUTION OF THE RIYUESHAN FAULT SINCE LATE PLEISTOCENE USING STRUCTURAL GEOMORPHOLOGY          下载免费PDF全文

LI Zhi-min  LI Wen-qiao  YIN Xiang  HUANG Shuai-tang  ZHANG Jun-long 《地震地质》2019,41(5):1077-1090

The northeastern margin of Tibetan plateau is an active block controlled by the eastern Kunlun fault zone, the Qilian Shan-Haiyuan fault zone, and the Altyn Tagh fault zone. It is the frontier and the sensitive area of neotectonic activity since the Cenozoic. There are widespread folds, thrust faults and stike-slip faults in the northeastern Tibetan plateau produced by the intensive tectonic deformation, indicating that this area is suffering the crustal shortening, left-lateral shear and vertical uplift. The Riyueshan Fault is one of the major faults in the dextral strike-slip faults systems, which lies between the two major large-scale left-lateral strike-slip faults, the Qilian-Haiyuan Fault and the eastern Kunlun Fault. In the process of growing and expanding of the entire Tibetan plateau, the dextral strike-slip faults play an important role in regulating the deformation and transformation between the secondary blocks. In the early Quaternary, because of the northeastward expansion of the northeastern Tibetan plateau, tectonic deformations such as NE-direction extrusion shortening, clockwise rotation, and SEE-direction extrusion occurred in the northeastern margin of the Tibetan plateau, which lead to the left-lateral slip movement of the NWW-trending major regional boundary faults. As the result, the NNW-trending faults which lie between these NWW direction faults are developed. The main geomorphic units developed within the research area are controlled by the Riyueshan Fault, formed due to the northeastward motion of the Tibet block. These geomorphic units could be classified as:Qinghai Lake Basin, Haiyan Basin, Datonghe Basin, Dezhou Basin, and the mountains developed between the basins such as the Datongshan and the Riyueshan. Paleo basins, alluvial fans, multiple levels of terraces are developed at mountain fronts. The climate variation caused the formation of the geomorphic units during the expansion period of the lakes within the northeastern Tibetan plateau. There are two levels of alluvial fans and three levels of fluvial terrace developed in the study area, the sediments of the alluvial fans and fluvial terraces formed by different sources are developed in the same period. The Riyueshan Fault connects with the NNW-trending left-lateral strike-slip north marginal Tuoleshan fault in the north, and obliquely connects with the Lajishan thrust fault in the south. The fault extends for about 180km from north to south, passing through Datonghe, Reshui coal mine, Chaka River, Tuole, Ketu and Xicha, and connecting with the Lajishan thrusts near the Kesuer Basin. The Riyueshan Fault consists of five discontinuous right-step en-echelon sub-fault segments, with a spacing of 2~3km, and pull-apart basins are formed in the stepovers. The Riyueshan Fault is a secondary fault located in the Qaidam-Qilian active block which is controlled by the major boundary faults, such as the East Kunlun Fault and the Qilian-Haiyuan Fault. Its activity characteristics provide information of the outward expansion of the northeastern margin of Tibet. Tectonic landforms are developed along the Riyueshan Fault. Focusing on the distinct geomorphic deformation since late Pleistocene, the paper obtains the vertical displacement along the fault strike by RTK measurement method. Based on the fault growth-linkage theory, the evolution of the Riyueshan Fault and the related kinetic background are discussed. The following three conclusions are obtained:1)According to the characteristics of development of the three-stage 200km-long steep fault scarp developed in the landforms of the late Pleistocene alluvial fans and terraces, the Riyueshan Fault is divided into five segments, with the most important segment located in the third stepover(CD-3); 2)The three-stage displacement distribution pattern of the Riyueshan Fault reveals that the fault was formed by the growths and connections of multiple secondary faults and is in the second stage of fault growth and connection. With CD-3 as the boundary, the faults on the NW side continue to grow and connect; the fault activity time on the SE side is shorter, and the activity intensity is weaker; 3)The extreme value of the fault displacement distribution curve indicates the location of strain concentration and stress accumulation. With the stepover CD-3 as the boundary, the stress and strain on NW side are mainly concentrated in the middle and fault stepovers. The long-term accumulation range of stress on the SE side is relatively dispersed. The stress state may be related to the counterclockwise rotation inside the block under the compression of regional tectonic stress.  相似文献   

断层阶区对震源破裂传播过程的控制作用研究   总被引：4，自引：4，他引：0       下载免费PDF全文

袁杰  朱守彪 《地球物理学报》2014,57(5):1510-1521

地震破裂能否穿越断层阶区（stepover）引发更大震级的地震是震源动力学研究的重要内容.本文利用不连续变形体接触力学的动态有限单元方法,模拟断层阶区对地震破裂传播的控制作用.通过改变断层周边初始应力场、断层面上的摩擦本构关系以及断层阶区的间距大小来分析各个因素对破裂传播的影响,并定量分析产生这些影响的力学机制.模拟结果表明：断层面上的摩擦系数减小或断层周边区域内的初始剪应力增大,都将增加断层破裂跳跃阶区传播的可能性;此外,若断层阶区间距越小,断层破裂也越容易跳跃阶区传播.计算结果还显示：断层上的摩擦系数大、初始剪应力小、断层阶区间隔大,那么此阶区所在之处将可能是断层破裂的终止位置;相反,当断层面上的摩擦系数较小、初始剪应力较大、断层阶区间隔较小,破裂就容易穿越阶区而出现较大的地震.同时,从模拟结果可以看出,在发震断层破裂停止后,应力将继续向四周传播;当应力积累达到破裂极限时,触发断层阶区中的另一断层产生破裂,因此在破裂跳跃断层阶区的过程中存在一个时间延迟.最后,破裂能否跳跃断层阶区,可以利用库仑应力在空间的分布进行合理的解释.  相似文献   

河北磁县北西西向南山村－岔口活动断裂带活动特征与1830年磁县地震   总被引：6，自引：3，他引：6       下载免费PDF全文

江娃利  张英礼 《地震地质》1996,18(4):349

河北磁县西部北西西向南山村－岔口活动断裂为北西西向磁县活动断裂西段，全长３５ｋｍ，又可再分为东西两段。全新世时期该断裂有多次活动，活动方式以具左旋性质的正倾滑为主。１８３０年磁县７．５级地震时，南山村－岔口断裂带出现新的地表破裂，地表垂直位移多处为２～４ｍ，最大约７ｍ。据目前资料，该断裂带最新两次地震事件的时间间隔约为３５００ａ。最近获取的位于磁县最高峰老爷山庙宇碑文资料，补充说明了邻近岔口活动断裂带的古建筑物在１８３０年地震中的严重破坏。  相似文献   

1988年云南澜沧-耿马地震的烈度分布及地表破裂          下载免费PDF全文

王辉  谷一山 《地震学报》1991,13(3):344-353

1988年11月6日,在云南省西南部的澜沧-耿马断裂带上发生了两次大于7级的地震.地震造成的严重破坏和人员伤亡主要是由于极震区内抗震性能极差的毛石房、砖柱土坯房的大量倒塌所致.澜沧地震的震中基本烈度可达Ⅸ度,耿马地震极震区烈度达Ⅹ度.澜沧地震构造活动的地表证据主要是出现在极震区内的张性地裂缝带和小断层陡坎.地裂缝带和小断坎主要出现在四条相对连续的北北西走向的狭窄地带内,其长度从几百 m 到6km 不等.澜沧地震地表破裂带长约35km,宽约3km,最大垂直位移量和最大右旋水平位移量分别为1.5m 和1.4m.耿马地震地表断裂活动的明显证据包括一系列北北西走向的地裂缝带和一段长约5km的地震断层陡坎.耿马地震地表破裂带长约24km,其最大垂直位移3.5m,最大右旋水平位移为3m.两次地震形成的地表破裂带均具有右旋-正断层性质.本文讨论了这两次地震的 度分布及地表破裂特征.   相似文献   

河北磁县北西西向南山村－岔口活动断裂带活动特征与1830年磁县地震   总被引：7，自引：1，他引：7       下载免费PDF全文

江娃利  张英礼 《地震地质》1996,18(4):349-357

河北磁县西部北西西向南山村－岔口活动断裂为北西西向磁县活动断裂西段，全长３５ｋｍ，又可再分为东西两段。全新世时期该断裂有多次活动，活动方式以具左旋性质的正倾滑为主。１８３０年磁县７．５级地震时，南山村－岔口断裂带出现新的地表破裂，地表垂直位移多处为２～４ｍ，最大约７ｍ。据目前资料，该断裂带最新两次地震事件的时间间隔约为３５００ａ。最近获取的位于磁县最高峰老爷山庙宇碑文资料，补充说明了邻近岔口活动断裂带的古建筑物在１８３０年地震中的严重破坏  相似文献