青海热水-日月山断裂带的新活动特征   总被引：11，自引：5，他引：11       下载免费PDF全文

袁道阳  刘小龙  张培震  刘百篪 《地震地质》2003,25(1):155-165

热水 -日月山断裂带是发育在青藏高原东北缘柴达木 -祁连活动地块内部的 1条重要的NNW向逆 -右旋走滑活动断裂带 ,长约 183km。断裂由 4条不连续的次级断裂段右阶羽列而成 ,阶距 2～ 3km左右 ,在不连续部位形成拉分区。主断裂两端则形成帚状分叉。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 ,其中Ⅰ级阶地右旋断错约 8～ 11m ,Ⅱ级阶地右旋断错约 35m。同时沿断裂带还形成了许多断层陡坎 ,Ⅰ级阶地或洪积台地上断层陡坎高约 0 .5～ 1m ,最高达 2 .8m ,Ⅱ级阶地或台地上的断层陡坎高约 2 .5～ 3m ,最高达 4～ 5m。根据相应的阶地年代 ,计算得到断裂带全新世以来的平均水平滑动速率为 3 16mm/a ,垂直滑动速率为 0 .83mm/a  相似文献   

北京平谷地区地表陡坎的成因识别   总被引：2，自引：0，他引：2       下载免费PDF全文

江娃利 《地震地质》1999,21(4):309-315

根据对北京平谷三河地区地表陡坎的观察比较,研究了河流侵蚀陡坎与断层陡坎的微地貌形态差异。河流侵蚀形成陡坎的方向追随河流的冲沟方向,具不稳定性,并且陡坎的倾向沿河对称。断层陡坎的展布不受河流方向的影响,断层以倾向活动为主时,陡坎两盘的运动方向稳定。研究结果表明,平谷地区的地表陡坎是河流侵蚀陡坎。同时,还从构造地貌学与地层沉积学的角度,分析了平原区河流侵蚀沉积与断层断错沉积的特征,指出平谷地区的浅层人工地震探测及浅钻资料存在两种解释的可能性  相似文献   

北京延庆姚家营探槽开挖简报     

程绍平  方仲景 《地震地质》1991,13(1):52-53

在北京西北约80公里的姚家营村北宽120米的晚更新世冲积扇上发育有11条陡坎,呈阶梯状陡坎带,坎高1.0—6.5米不等。为了准确确定延庆盆地北缘正断裂带地表断层迹线的位置,研究断裂带的近期习性,并区分构造作用和侵蚀作用成因的陡坎,我们在大比例尺地质填图和构造地貌特征测量的基础上,对其中的7条陡坎开挖了6个探槽。6个探槽总体呈345°方向,大致垂直于陡坎带。探槽长5—16米,宽1.2—1.5米,深1.5—5.5米。 岩性层单位 除基岩为燕山期花岗岩以外,探槽揭露的岩性层主要为断层崖崩积物、流水冲积物、和  相似文献   

怀安镇盆地南缘断裂构造地貌特征     

彭远黔  朱坤静  冉志杰  王燕 《华北地震科学》2019,37(2):45-51

基于遥感影像和1∶20万地质图成果资料,对怀安镇盆地南缘断裂沿线断层三角面、断层陡坎、冲沟裂点、断层冲沟等构造地貌以及典型断错剖面进行了野外调查。调查表明:断裂沿线分布大量典型的构造地貌现象,不同部位因断裂活动性的差异,其构造地貌特征各异;在一些地段冲沟壁中见断层断错剖面,断面是错断扇体的较新断裂。  相似文献   

用地貌学方法研究贺兰山山前断层全新世活动状况   总被引：10，自引：5，他引：10  

杨景春  郭正堂  曹家栋 《地震地质》1985,7(4):23

本文根据穿过断层的45条冲沟中的裂点和阶地测量资料,论述贺兰山山前断层全新世以来的活动状况。我们认为全新世以来该断层至少有8次活动。最后一次断层活动错断了距今400年的长城,并在冲沟中形成一个裂点,该裂点现今已距断层陡坎约5米远。假定这次断层活动和1739年平罗大地震有关,求出裂点的溯源侵蚀平均速度为2.0—2.5厘米/年.根据两裂点间的距离和裂点的溯源侵蚀平均速度,并考虑到我国近5000年的气候有逐渐变干的趋势,求出断层活动的周期(表3)。从断层陡坎附近的各级阶地面之间的高差,求出断层各次活动的幅度(表4)。  相似文献   

天山内部博罗可努断裂精河--阿拉山口段晚更新世以来的活动特征   总被引：22，自引：9，他引：13       下载免费PDF全文

杨晓平  沈军 《地震地质》2000,22(3):305-315

通过对博罗可努断裂河－阿拉山口段微地貌的实地调查,发现该断裂错情河东南到阿拉山口之间的晚更新世冲洪积扇,地表留下了冲沟和山脊同步右旋位错、断层陡坎、断层鼓包、拉分盆地等与断层活动有关的微地貌。精河东南冲洪积扇上大冲沟的最大右旋位移为５００ｍ,平均４００ｍ,断层陡坎上的纹沟右旋位移为２．６～４．０ｍ,较大级别的纺沟位移可分为５．７ｍ,８．３ｍ和１５．３ｍ３组,它们大致为３的整数倍。实测断层陡坎的高度  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   

嘉峪关断层中段的新活动特征   总被引：1，自引：0，他引：1  

何文贵  袁道阳  王爱国  梁明剑  刘兴旺  郑文俊 《中国地震》2010,26(3)

嘉峪关断层是河西走廊盆地内部的一条重要断层,断层走向NNW向,晚第四纪以来新活动特征以挤压逆冲为主兼具有右旋走滑特征。通过野外地质调查,在嘉峪关城楼北关园子山嘉峪关断层大陡坎西侧0.5km处的Ⅲ级阶地面上,新发现一段长约1.6km保存完好的小断层陡坎,坎高0.5～2m,且有冲沟发生右旋位错现象。经探槽开挖和热释光测年确认,嘉峪关断层全新世有古地震活动。据断错地貌的差分GPS测量和测年结果,得到断裂晚第四纪晚期以来的平均滑动速率为0.52～0.56mm/a。  相似文献   

云南大理苍山东麓晚第四纪地震断层及古地震年代          下载免费PDF全文

冉勇康  尤惠川  王景钵  张晚霞  李如成 《地震地质》1988,10(2):74

大理盆地是滇西北主要的强震区之一。笔者1986—1987年对大理盆地进行了详细的1/5万活断层地质填图,在苍山东麓断裂带上发现了多处地貌陡坎,通过槽探,揭露出较为典型的古地震断层。1.上关龙首墙西地震断层(照1) 该断层保存有一条长100余米,高7—14米,近南北向延伸的陡坎(照2)。已开挖出两个断层剖面。其中一个剖面上见有两个“崩积楔”和切穿两个崩积楔的裂缝充填物,标志着这  相似文献   

天山古地震遗迹          下载免费PDF全文

冯先岳 《地震工程学报》1987,9(3):113-115

近年来,在我国天山境内发现了许多古地震遗迹(图1),现就几个古地震剖面介绍如下: 1.莫会察汗沟口古地震断层陡坎在和靖县城以西,焉耆盆地的西北隅的莫会察汗沟口西侧(拔海约1800米),发育着三条大致平行的古地震断层陡坎。每条之间相距200—300米,延伸约2公里,由一系列呈雁行  相似文献   

LATE QUATERNARY SINISTRAL STRIKE-SLIP ACTIVITIES OF SANWEI SHAN FAULT IN THE NORTH OF TIBETAN PLATEAU          下载免费PDF全文

YUN Long  YANG Xiao-ping  SONG Fang-min  WANG Ju 《地震地质》2016,38(2):434-446

Sanwei Shan Fault is located in the north of Tibet, which is a branch of eastern segment of Altyn Tagn fault zone. This fault is distributed along the boundary of fault facet and the Quaternary, with the total length of almost 150km. The fault is a straight-line structure read from the satellite image. Based on the spatial distribution of the fault, three segments are divided, namely, Xishuigou-Dongshuigou segment, Dongshuigou-West Shigongkouzi segment and West Shigongkouzi-Suangta segment, these three segments are distributed by left or right step.Though field microgeomorphology investigation along Sanwei Shan Fault, it has been found that two periods of alluvial-pluvial fans are distributed in front of Sanwei Shan Mountain, most of which are overstepped. Comparing the distribution of alluvial-pluvial fans with their formation age in the surrounding regions, and meanwhile, taking the results of optical stimulated luminescence(OSL) dating, it's considered that the formation age of the older alluvial-pluvial fans, which are distributed in northern Qilian Shan, inside of Hexi Corridor and western Hexi Corridor(including the Sanwei Shan piedmont fans), is between later period of late Quaternary and earlier period of Holocene. The gullies on the older fan and ridges have been cut synchronously. The maximum and minimum sinistral displacement is 5.5m and 1.7m, but majority of the values is between 3.0~4.5m. Taking the results from the OSL dating, we conclude that the minimum sinistral strike-slip rate is(0.33±0.04) mm/a since 14 ka BP and(0.28±0.03) mm/a since 20 ka BP.  相似文献   

THE LATE QUATERNARY ACTIVITY CHARACTERISTICS OF THE STRIKE-SLIP FAULTS IN THE TIANSHAN OROGENIC BELT: A CASE STUDY OF THE KAIDUHE FAULT          下载免费PDF全文

HUANG Wei-liang  YANG Xiao-ping  LI Sheng-qiang  YANG Hai-bo 《地震地质》2018,40(5):1040-1058

As the most active intracontinental orogenic belt in the world, the Tianshan orogenic belt has complex and diverse internal structural deformation patterns, and among them, the particularly striking is the linear straight U-type valley landscapes which cut inside the mountains by multiple NW-SE and ENE-WSW strike-slip faults. Many of the modern strong earthquakes in Tianshan orogenic belt are closely related to these strike-slip faults. Therefore, it is important to elaborate the activity characteristics of these faults to understand the deformation process inside the Tianshan Mountains belt. This paper focuses on one of the NW-SE right-lateral strike-slip fault (the Kaiduhe Fault), which lies inside the southeastern Tianshan. Typical offset landforms and scarp lineaments on the western segment of the Kaiduhe Fault can be used to study the activity characteristics and strike-slip rate. In particular, the fault cuts through the late Quaternary alluvial fans and a series of river gullies were right-laterally faulted, producing dextral offsets ranging from 3 to 248m. A digital elevation model (DEM)with resolution of 0.25m was established by using multi-angle photogrammetry technique to stripe about 12km linear tectonic landforms along the Kaiduhe Fault. Geological and geomorphic mapping in DEM with 22 high-resolution dextral offset measurements reveals that the dextral offsets can be divide into four groups of 3.5m, 7.0m, 11.8m and 14.5m. It is presumed from the approximately uniformly-spaced offsets that the coseismic offset was 3~4m. In addition, the exposure age of an older alluvial fan surface was about 235.7ka by in situ ¹⁰Be terrestrial cosmogenic nuclide method. Combining the exposure ages and the maximum dextral offset of 248m, we found that the strike-slip rate of the Kaiduhe Fault is about 1mm/a. It is found by this study that the Kaiduhe Fault plays an important role in regulating SN compression deformation within Tianshan Mountains, and it should also be the main stress-strain accumulation area which has the risk of occurrence of strong earthquake.  相似文献   

中甸-大具断裂南东段晚第四纪活动的地质地貌证据     

李光涛  苏刚  程理  李峰  吴昊 《地震地质》2019,41(3):545-560

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   

THE HOLOCENE ACTIVITY AND STRIKE-SLIP RATE OF THE SOUTHERN SEGMENT OF XIAOJIANG FAULT IN THE SOUTHEASTERN YUNNAN REGION,CHINA          下载免费PDF全文

HAN Zhu-jun  DONG Shao-peng  MAO Ze-bin  HU Nan  TAN Xi-bin  YUAN Ren-mao  GUO Peng 《地震地质》2017,39(1):1-19

The southern segment of the Xiaojiang Fault (SSXF) is located at the intersection of the Xianshuihe-Xiaojiang Fault and Red River-Ailao Shan fault systems in the southeast margin of the Tibetan plateau. Based on the interpretation of remote sensing image, the SSXF clearly shows the linear feature and continuous distribution as a single, penetrating fault. It has a total length of about 70km, trends generally about 20° to the northeast and protrudes slightly in the middle to the east. A typically geomorphologic phenomenon about the synchronous left-lateral dislocation of ridges and gullies can be found at Liangchahe, Longtan Village along the SSXF. The distribution of faults, the sedimentary features, attitude variance and the primary dating results of the offset strata in the trench section across fault sag ponds reveal three paleoseismic events rupturing obviously the surface, which demonstrates that the SSXF has the ability of recurrence of strong earthquakes. High-precision topographic map about two gullies and the platform between them with synchronous dislocation is acquired by using the Trimble 5800 GPS real-time difference measurement system. The dislocation is (18.3±0.5)m. As the top geomorphologic surface between the above two gullies and their adjacent area, the terrace surface T₂ stopped accepting deposits at ~2606a, based on the linear regression analysis of three dating data. According to the geological method, a sinistral strike-slip rate of (7.02±0.20)mm/a on the SSXF in the Holocene is obtained, which has a good consistency with the results provided by using GPS data. The preliminary results about the Holocene activity and slip rate of the SSXF demonstrate that the southward or south-southeast motion of the Sichuan-Yunnan block in the SE Yunnan region has not been absorbed by the possible shortening deformation and the sinistral strike-slip rate of the SSXF has not been drastically reduced. The SSXF is a Holocene fault with obvious activity. This preliminary understanding provides some basic geological data for the seismic risk evaluation of the SSXF in the future, and for the establishment and inspection of the seismotectonic model about the Sichuan-Yunnan block.  相似文献   

盲断裂、褶皱地震与新疆1906年玛纳斯地震   总被引：31，自引：18，他引：31       下载免费PDF全文

张培震  邓起东  徐锡伟  冯先岳  彭斯震  杨晓平  赵瑞斌  李军 《地震地质》1994,16(3):193-204

１９０６年玛纳斯７．７级地震时沿准噶尔南缘断裂产生的地表破坏是由非构造成因的振动和重力效应而形成的。天山山前第二排逆断裂和褶皱带是这次地震的发震构造，沿带已发现了长约１３０ｋｍ的断续的地表破裂和最新隆起带。所以１９０６年玛纳斯地震是沿北天山主逆断裂带发生在深部的一次盲断裂地震。地表变形主要以褶皱隆起为主，是一次典型的“褶皱地震  相似文献   

祁连山北缘玉门-北大河断裂晚第四纪活动特征   总被引：3，自引：2，他引：1       下载免费PDF全文

刘兴旺  袁道阳  邵延秀  张波 《地震工程学报》2016,38(6):948-954

通过卫星影像解译、野外实地调查并结合前人研究成果,对位于祁连山北缘的玉门—北大河断裂晚第四纪构造活动特征进行研究。结果表明,玉门—北大河断裂为一条全新世活动的逆冲断裂,该断裂西起玉门青草湾,向东经老玉门市、大红泉止于骨头泉,全长约80km,整体走向NWW。根据断裂的几何结构及活动习性可将其分为三段:东段构造形态简单连续,为逆冲断层陡坎为主的古地震地表破裂带;中段结构复杂,由多条次级断层组成,以逆冲扩展为主;西段未出露地表而成为盲断裂-褶皱带。通过对断层陡坎差分GPS测量及相应地貌面年代测试,得到断裂晚更新世以来逆冲速率约为(0.73±0.09)mm/a。  相似文献   

甘肃高台合黎山南缘发现地震地表破裂带   总被引：8，自引：6，他引：2       下载免费PDF全文

郑文俊  张培震  袁道阳  葛伟鹏  刘建辉 《地震地质》2009,31(2):247-255

据最新野外考察发现,位于河西走廊中段北部的合黎山南缘断裂东段有2条较新的地震地表破裂带遗迹,破裂带长度分别为7km和10km,保存较为完整,认为其为较近的一次地震活动所致。根据该地区历史地震资料和目前该地区的研究程度,该地震地表破裂带可能与2次历史地震(公元180年表氏8级地震、公元756年张掖-酒泉7级地震)中的其中之一或与一次漏记的历史强地震有关  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   

DISCOVERY OF SURFACE RUPTURE ZONE IN JIUXI BASIN,GANSU PROVINCE          下载免费PDF全文

LIU Xing-wang  YUAN Dao-yang  LEI Zhong-sheng  SHAO Yan-xiu 《地震地质》2016,38(3):605-616

Qilian Shan-Hexi Corridor is located at the northeastern margin of Tibetan plateau. Series of late Quaternary active faults are developed in this region. A number of strong earthquakes even large earthquakes occurred in history and present-day. In the past, the study of active faults in the area was mostly concentrated in the northern margin fault zone of the Qilian Shan on the south side of the corridor, while the research on the interior and the north side of the corridor basin was relatively rare. We found a new fault scarp in the northern part of the Baiyanghe anticline in Jiuxi Basin in 2010. It is an earthquake surface rupture zone which has never been reported before. In this paper, we carried out palaeoearthquake trench analysis on the newly found earthquake surface rupture zone and textual research of relevant historical earthquakes data. According to the interpretation of aerial photo and satellite image and field investigation, we found the surface rupture has the length of about 5km. The rupture shows as an arc-shaped line and is preserved intact comparably. The lower terrace and the latest flood alluvial fan are offset in addition to modern gullies. By differential GPS measurement, the height of the scarp is about 0.5~0.7m in the latest alluvial fan and about 1.5m in the T₁ terrace. From the residual ruins along the earthquake rupture zone, we believe the surface rupture might be produced by an earthquake event occurring not long ago. In addition, the rupture zone locates in the area where the climate is dry and rainless and there are no human activities induced damages. These all provide an objective condition for the preservation of the rupture zone. The trench along the fault reveals that the surface rupture was formed about 1500 years ago, and another earthquake event might have happened before it. Based on the textural research on the historical earthquake data and the research degree in the area at present, we believe that the surface rupture is related to the Yumen earthquake in 365, Yumen Huihuipu earthquake in 1785 or another unrecorded historical earthquake event.  相似文献