对1812年3月8日新疆尼勒克8级地震发震构造的初步探讨          下载免费PDF全文

杨章  张勇  李军  尹光华 《地震学报》1985,(4)

本文根据现场考察,航片解译和历史记载资料,对1812年3月8日尼勒克地震的震级及地震地质背景进行了讨论。根据地震主断裂带的展布和运动特征与喀什河断裂带相一致等特点,指出1812年尼勒克8级大震是喀什河断裂作右旋逆冲的结果。 喀什河断裂是一条控制伊犁盆地北界和喀什河河谷的活断裂,它错断了喀什河阶地和古尼勒克沟,有着明显的新活动性。在震区还发现了一些古地震遗迹。对比1812年地震陡坎和古地震陡坎角度变化情况,对断层运动速率进行了估计,并估算出喀什河断裂带发生M≥8地震的重复周期为800—1600年。  相似文献   

新疆伊犁喀什河断裂带分段性研究   总被引：1，自引：0，他引：1  

吴国栋  尹光华 《内陆地震》2010,24(1):25-30

据两种关系,即1812年尼勒克8级地震产生的地表破裂与断裂破裂的对应关系和地震最高烈度与破裂延伸烈度区间的关系,同时考虑古地震研究成果和现代地震活动特征,对喀什河断裂带进行了破裂分段性研究,将喀什河断裂带以博尔博松为界分为东、西两段,东段长220 km以上,西段长290 km。研究表明,东段目前处于1812年尼勒克8级地震以后的地震活动相对平静期,在未来的时间里喀什河断裂带西段可能是大震活动的主要区段。  相似文献   

喀什河断裂带古地震研究   总被引：3，自引：2，他引：3       下载免费PDF全文

冯先岳 《地震地质》1987,9(2):74

喀什河断裂带是我国北天山西段一条规模较大的活动断裂,第四纪以来垂直运动速率为3.8毫米/年,现今地震活动频繁。历史上曾发生过1812年尼勒克8级地震,沿断层带造成长达80公里的形变带,史前地震也很活跃,经初步研究,断裂带至少发生过两次古地震活动,大震复发周期为2000—2500年  相似文献   

新疆伊犁喀什河断裂带及其活动性研究   总被引：5，自引：4，他引：5  

尹光华  蒋靖祥  张勇 《内陆地震》2003,17(2):109-116

通过对1812年新疆伊犁尼勒克地震的考察研究，认为该地震以地震断层为主体的地表地震形变带展布方向与发震断裂喀什河断裂带的走向一致。喀什河断裂带可分为3段，全长315km，它是由多条断层组成的活动断裂带，总体以逆冲活动为主，东段具有右旋扭错性质。喀什河断裂带具有长期发育的历史，它控制了中生代地层的分布，在新生代仍有多次活动并以垂直运动为主，晚第四纪以来的垂直活动速率为O．9—6mm／a。  相似文献   

新疆尼勒克1812年地震断层构造特征   总被引：5，自引：0，他引：5       下载免费PDF全文

尹光华  蒋靖祥  张勇  李军 《地震工程学报》2002,24(2):183-186

研究了1812年尼勒克地震断层的展布、构造类型和组合型式等地表特征，认为属倾滑型地盐碱地。破裂展布与逆冲性质的喀什河断裂一致，可分为三段。地震破裂的类型有正断层、走滑正断层、逆断层和地震裂缝四种，连续性较差，垂直错距约为水平位移的4倍，断裂带东西两端具有不同的特点。最后对发震构造与地表地震破裂的性质不一致问题进行了简单讨论。  相似文献   

卡兹克阿尔特断裂带活动特征   总被引：7，自引：0，他引：7  

尹金辉  陈杰  郑勇刚  李锰  胡军 《中国地震》2001,17(2):221-230

卡兹克阿尔特断裂带是帕米尔和天山新生代造山带间一个重要的活动构造边界,通过对其活动构造特征的详细地质调查和大比例尺填图,可将卡兹克阿尔特断裂带进一步划分为吉勒格由特断裂带、乌恰地震断裂带和木什断裂带3段.吉勒格由特断裂带的地表破裂为一系列的断层陡坎和偏转的冲积扇,经过别尔托阔依河出山口处时,切割了T1至T3堆积阶地.断裂带在T1、T2和T3阶地的断层陡坎高度分别为0.67m、3.90m和36.50m.对采自T2阶地顶部和底部的粉砂样品进行光释光测年,测定的初步结果分别为8900aBP和10500aBP,因此对T3、T2阶地以来的滑动速率估计分别约为3.5mm/a、0.8mm/a.断裂的前缘开挖的探槽揭示出全新世以来有4次古地震活动.乌恰地震带主要切割克兹勒苏河的T3阶地后缘,沿断裂带分布有大小不等的断塞塘和断层陡坎.1985年8月23日在乌恰地震带上发生Ms7.4地震,地震最大位错为1.5m.根据断层陡坎计算出断裂的滑动速率约为0.54mm/a.卡帕河的东岸探槽同样揭示出有4次古地震活动.在乌恰地震带的东端,木什断裂带地表长度约6km,由数十条左阶排列的反向断层陡坎(坡向北)组成,沿这些断坎多处可见冲沟被断错,横跨断层陡坎的探槽揭示出3次古地震活动.  相似文献   

卡率克阿尔特断裂带活动特征     

尹金辉  李锰等 《中国地震》2001,17(2):221-230

卡兹克阿尔特断裂带是帕米尔和天山新生代造山带间一个重要的活动构造边界，通过对其活动构造特征的详细地质调查和大比例尺填图，可将卡兹克阿尔特断裂带进一步划分为吉勒格由特断裂带、乌恰地震断裂带和木什断裂带3段。吉勒格由特断裂带的地表破裂为一系列的断层陡坎和偏转的冲积扇，经过别尔托阔依河出山口处时，切割了T1至T3堆积阶地。断裂带在T1、T2和T3阶地的断层陡坎离高度分别为0．67m、3．90m和36．50m。对采自T2阶地顶部和底部的粉砂样品进行光释光测年，测定的初步结果分别为8900aB和10500PaBP，因此对T3、T2阶地以来的滑动速率估计分别约为3．5mm/a、0．8mm/a。断裂的前缘开挖的探槽揭示出全新世以来有4次古地震活动。乌恰地震带主要切割克兹勒苏河的T3阶地地后缘，沿断裂带分布有大小不等的断塞塘和断层陡坎。1985年8月23日乌恰地震上发生Ms7．4地震，地震最大位锚为1．5m。根据断层陡坎计算出断理解的动速度约为0．54mm/a。卡帕河的东岸探槽同样揭示出有4次古地震活动。在乌恰地震带的东端，木什断裂带地表长度约6km,讪数十条左阶排列的反向断层陡坎（坡向北）组成，沿这些断坎多处可见冲沟被断错，横跨断层陡坎的探槽揭示出3次古地震活动。  相似文献   

青海热水-日月山断裂带古地震的初步研究          下载免费PDF全文

袁道阳  刘小龙  刘百篪  张培震 《地震工程学报》2003,25(2):136-142

热水—日月山断裂带是青藏高原东北缘柴达木—祁连山活动地块内部一条重要的NNW向的右旋走滑活动断裂带.断裂活动形成了一系列山脊、冲沟和阶地等右旋断错微地貌及断层崖、断层陡坎等垂直断错微地貌.本文对发生在该断裂带上的古地震事件开展了研究,综合探槽剖面和断层陡坎年代,大致可以确定两次古地震事件,其年代分别为距今6280±120a,2220±360a,复发间隔约4000a左右.  相似文献   

喀什河断裂中更新世以来的活动速率研究   总被引：1，自引：0，他引：1  

尹光华  裴宏达  蒋靖祥 《内陆地震》2007,21(3):205-212

利用地貌和新近系位错测量的方法,结合遥感、地貌、变形测量与新近纪测年等手段,重点研究了伊犁盆地喀什河断裂中更新世以来的垂直活动速率。喀什河断裂在中更新世以来的新活动主要表现在河流阶地和地层的位错,综合研究了这些位错数据,分析了断裂各段在中更新世以来的活动速率,讨论了1812年尼勒克地震的平均位错反映的断裂现今最新的活动速率,提供了喀什河断裂中更新世以来不同时期活动的定量数据,填补了天山内部新近纪晚期研究的部分空白,对现今地壳运动与地球动力学研究及减轻地质灾害有重要意义。  相似文献   

新疆尼勒克1812年地震地质灾害遥感解译研究     

王俊锋  韩立钦  过磊  苏英明  李彬  张军 《内陆地震》2023,(4):334-345

为研究新疆尼勒克1812年地震地质灾害特征,基于多源、多时域、多尺度遥感影像对喀什河沿线主要地质灾害进行解译,对地温异常进行目视解译和遥感定量提取,对地震断层进行多源高分辨率详细解译。结合地震地质灾害解译结果、断层特征、地温异常、航磁异常等进行综合讨论,结果对喀什河流域基础地质研究提供一定参考。  相似文献   

榆木山北缘断裂古地震特征研究   总被引：5，自引：0，他引：5       下载免费PDF全文

金卿  何文贵  史志刚  袁道阳 《地震地质》2011,33(2):347-355

榆木山北缘断裂位于祁连山主体山系以北的榆木山北部边缘.断裂活动形成一系列沿山前发育的断层陡坎.通过探槽剖面对发生在该断裂带上的古地震事件进行了分析,大致可以确定全新世以来的2次古地震事件.事件Ⅰ的年代为距今(4.066±0.086)ka;事件Ⅱ为距今(6.852±0.102)ka至(6.107±0.082)ka之间.该...  相似文献   

1998年7月28日拜城5.5级地震发震构造及其选择性破坏   总被引：1，自引：1，他引：0  

杨纪林  胡伟华 《内陆地震》1999,13(1):58-63

１９９８年７月２８日拜城发生５．５级地震,震中烈度为Ⅵ度,造成不同程度的破坏,该地震的发震构造可能为秋立塔格断裂。在拜城农贸市场发现,地震在人工改造地形条件下,有选择性破坏现象。拜城地震迁移与伽师地震有相似之处。  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       下载免费PDF全文

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   

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   

STUDY ON RELATIONSHIP BETWEEN THE ACTIVITY OF MIYALUO FAULT AND WENCHUAN EARTHQUAKE SEQUENCE     

LI Zhen-yue  WAN Yong-ge  SHENG Shu-zhong 《地震地质》2019,41(1):72-83

Under the background of thrusting stress regime, a large number of strike-slip earthquakes occurred on the Miyaluo Fault during the Wenchuan earthquake sequence process, which is in the southern part of the Longmenshan Fault. In order to find the cause of their occurrence, stress tensors in subregions near the Miyaluo Fault are estimated. The result shows that in both north and south side of the Miyaluo Fault, the direction of principal compressive stress is nearly perpendicular to the Longmenshan Fault, and its dip is nearly horizontal, and the direction of tensile stress is nearly vertical. While in the Miyaluo fault zone, the direction of principal compressive stress is SWW-NEE, and its dip is nearly horizontal, the direction of principal tensile stress is NNW-SSE, also its dip is nearly horizontal. It is consistent with sinistral shear stress state in the Miyaluo fault zone. It was referred that the behavior of Miyaluo Fault during the Wenchuan earthquake sequence process was caused by tearing effect generated from unbalanced forces of two sides of the fault. To understand the rupture mode of the aftershocks in subregions as described above, the total seismic moment tensors are estimated by adding the corresponding component separately of the seismic moment tensor of aftershocks in each region. The result shows the similar trend of total seismic moment tensor components in the north and south side of the Miyaluo Fault(indicating the consistency of rupture mode in the north and south side of the Miyaluo Fault), and most seismic moment tensor components in the south side is higher than that in the north side, especially the compression component perpendicular to Longmenshan Fault and expansion component in the vertical direction. It indicates that thrusting component in the southeast direction in the south side is greater than that in the north side, and the thrusting difference causes the sinistral tearing effect of the Miyaluo Fault. We also find that the sinistral tearing component of the Miyaluo Fault is the same order of magnitude with the thrusting difference of its two sides, which indicates that the tearing effect of Miyaluo Fault can be completely explained by thrusting difference of its two sides. According to the analysis, we put forward the dynamic model of the Miyaluo Fault, which can explain the above phenomenon.  相似文献   

LIMITATION OF CURRENT TECTONIC DEFORMATION MODES IN THE WESTERN MARGIN OF ORDOS BASED ON SEISMIC ACTIVITY CHARACTERISTICS          下载免费PDF全文

ZHAN Hui-li  ZHANG Dong-li  HE Xiao-hui  SHEN Xu-zhang  ZHENG Wen-jun  LI Zhi-gang 《地震地质》1979,42(2):346-365

Due to the interaction between the Tibetan plateau, the Alxa block and the Ordos block, the western margin of Ordos(33.5°~39°N, 104°~108°E)has complex tectonic features and deformation patterns with strong tectonic activities and active faults. Active faults with different strikes and characteristics have been developed, including the Haiyuan Fault, the Xiangshan-Tianjingshan Fault, the Liupanshan Fault, the Yunwushan Fault, the Yantongshan Fault, the eastern Luoshan Fault, the Sanguankou-Niushoushan Fault, the Yellow River Fault, the west Qinling Fault, and the Xiaoguanshan Fault. In this study, 7 845 earthquakes(M≥1.0)from January 1st, 1990 to June 30th, 2018 were relocated using the double-difference location algorithm, and finally, we got valid locations for 4 417 earthquakes. Meanwhile, we determined focal mechanism solutions for 54 earthquakes(M≥3.5)from February 28th, 2009 to September 2nd, 2017 by the Cut and Paste(CAP)method and collected 15 focal mechanism solutions from previous studies. The spatial distribution law of the earthquake, the main active fault geometry and the regional tectonic stress field characteristics are studied comprehensively. We found that the earthquakes are more spatially concentrated after the relocation, and the epicenters of larger earthquakes(M≥3.5) are located at the edge of main active faults. The average hypocenter depth is about 8km and the seismogenic layer ranges from 0 to 20km. The spatial distributions and geometry structures of the faults and the regional deformation feature are clearly mapped with the relocated earthquakes and vertical profiles. The complex focal mechanism solutions indicate that the arc-shaped tectonic belt consisting of Haiyuan Fault, Xiangshan-Tianjingshan Fault and Yantongshan Fault is dominated by compression and torsion; the Yellow River Fault is mainly by stretching; the west Qinling Fault is characterized by shear and compression. The structural properties of the fault structure are dominated by strike-slip and thrust, with a larger strike-slip component. The near-north-south Yellow River Fault is characterized by high angle NW dipping and normal fault motion. Based on small earthquake relocation and focal mechanism solution results, and in combination with published active structures and geophysical data in the study area, it is confirmed that the western margin of Ordos is affected by the three blocks of the Tibetan plateau, the Alax and the Ordos, presenting different tectonic deformation modes, and there are also obvious differences in motion among the secondary blocks between the active faults. The area south of the Xiangshan-Tianjingshan Fault has moved southeastward since the early Quaternary; the Yinchuan Basin and the block in the eastern margin of the Yellow River Fault move toward the SE direction.  相似文献   

华南滨海断裂带地震危险性的数学模拟   总被引：5，自引：1，他引：5  

丁原章  黄新辉 《华南地震》1995,15(1):14-20

华南滨海断裂带是南海北部规模巨大的活动断裂，其地震危险性的确定将为地震几地震工程提供地质背景依据，应用二维有限元分析和正交设计法反演南海北部及其今近地区的构造应力场，探讨可能发震的危险地段。研究结果表明，滨海断裂带的某些地段，尤其是滨海断裂带被ＮＷ向断裂切割的部位有一定的地震危险性。南海北部地区最主要的地震威胁来自巴士系断裂带和珠江口盆地南缘的ＮＷＷ向断裂带，对华南滨海断理解带潜在的地震危险性不宜  相似文献   

A PRELIMINARY RESEARCH ON THE RIGHT-LATERAL STRIKE-SLIP CHARACTERISTICS AND THE STRUCTURAL SIGNIFICANCE OF THE NORTHERN KUANTANSHAN FAULTS,HEXI CORRIDER,BASED ON HIGH-RESOLUTION IMAGERY          下载免费PDF全文

GUO Chang-hui  LI An  LIU Rui  ZHANG Shi-min 《地震地质》2018,40(4):784-800

The sinistral strike-slip characteristic of the Altyn Tagh Fault gradually disappears near the Jiuxi Basin at the west end of Hexi Corridor, and the Kuantanshan Fault and the northern marginal fault of Heishan on its east are thrust structures. There are two faults distributed in the north of Kuantanshan, namely, the Taerwan-Chijiaciwo Fault and the Ganxiashan Fault, both are featured with obvious activity. Predecessors thought that the Taerwan-Chijiaciwo Fault is a thrust fault with low movement rate, but there is few detailed study on its horizontal motion. Is there horizontal strike-slip movement in the northern marginal fault of Kuantanshan? This issue has an important significance to further explore the structural transformation mode between the Altyn Tagh strike-slip faults and the northern thrust faults in the north margin of Qilianshan. Using high resolution remote sensing images and field work, such as combining with UAV SfM photogrammetry, the paper studies the strike-slip characteristics of the Taerwan-Chijiaciwo Fault and Ganxiashan Fault on the northern margin of Kuantanshan, and get two preliminary understandings:(1) The northern marginal fault of Kuantanshan is an active right-lateral strike-slip fault with thrust component, the horizontal to vertical dislocation ratio is about 3-4 times. Based on the statistics of dislocation amount of the gullies and terraces along the north marginal Kuantanshan fault, it is preliminarily estimated that the late Pleistocene right-lateral strike-slip rate is about 0.2-0.25 mm/a and the Holocene right-lateral strike-slip rate is about 0.5-1.5 mm/a. (2) The main driving force to the tectonics at the western end of Hexi Corridor, where the northern marginal fault of Kuantanshan locates, comes from the northward extrusion of the Qilian Mountains, which results in the right-lateral strike-slip of the northern marginal fault of Kuananshan and the thrust movement of several faults inside the Jiuxi Basin. The effect of the Altyn Tagh Fault on other tectonic structures is not obvious in this region.  相似文献   

LATE QUATERNARY TECTONIC DEFORMATION AROUND THE HUJIATAI ANTICLINE ALONG THE EAST SEGMENT OF THE FODONGMIAO-HONGYAZI FAULT,NORTHERN QILIAN SHAN: AN INSIGHT ON THE SEISMOGENIC PATTERN OF 1609 HONGYAZI M7 1/4 EARTHQUAKE          下载免费PDF全文

YANG Hai-bo  YANG Xiao-ping  HUANG Xiong-nan  HU Zong-kai 《地震地质》2018,40(5):980-998

The Fodongmiao-Hongyazi Fault (FHF)is one of the most active faults of the northern Qilian thrust fault zone. The 1609 Hongyazi M7 1/4 earthquake occurred on the east segment of the FHF, an area with a complex geometry at the Mayinghe River site. The seismogenic pattern of this earthquake revealed by complex surface ruptures remains unclear. In this paper, we focus on active tectonic deformation around the Hujiatai anticline (HA)in the Mayinghe River site. Combining with topographic survey via dGPS across deformed terraces and alluvial fans, a field survey of the geological section across the HA, the characteristics of the active fold and several sub-faults were constrained. Meanwhile, combined with the seismic reflection profiles passing through the anticline, the correspondence relationship between surface expressions of this tectonic and the deep structure was discussed. According to our research, the HA is a result of northward propagation of the range-front thrust fault F₁. At the same time, a thrust fault F₂ with dextral strike-slip motion and a thrust fault F₄ were formed on the east side and north side of the HA, respectively. These two active faults accommodated local deformation. Trench results and ¹⁴C dating reveal that the 1609 Hongyazi M7 1/4 earthquake ruptured the T₁ terrace in the Huangcaoba site. Combined with previous field investigations and literature about the 1609 Hongyazi earthquake, we suggest that this earthquake occurred on the range-front fault F₁, and the depth of the hypocenter may be about 8~22km.  相似文献