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1.
嘉峪关断裂位于河西走廊西端,是酒西盆地和酒东盆地的分界断裂,其最新活动特征及强震危险性关系到嘉峪关地区及相关文物古迹的地震灾害问题.基于高分辨率卫星影像解译及野外考察,发现嘉峪关断裂中段由多条分支断裂组成,通过古地震探槽研究以及光释光方法测年,对断裂古地震特征进行了研究.结果表明,嘉峪关断裂最新的一次地震事件发生在约4.3~5.3 ka,之前在约20.0~21.2 ka、37.0~45.0 ka、58.1 ka分别发生过3次古地震事件.根据经验公式,嘉峪关断裂具有发生Mw7.0左右强震的潜能及危险性.在此震级下,嘉峪关城楼文物区的烈度可达到Ⅸ度,嘉峪关市区烈度会达到Ⅷ度.因此,嘉峪关断裂是本区防震减灾需重点关注的发震断层. 相似文献
2.
利用冲沟、山脊等断错构造地貌的DEM影像资料和详实的野外踏勘,详细分析了昔格达断裂的晚第四纪活动特征。结果显示:断裂线两侧的河沟和山脊地貌呈"S"或反"Z"形或以多个首尾连接的"S"形雁列式斜列,断裂活动为左行左列式,断层上发育多个拉分盆地和断裂湖;该断裂最新活动时间晚于(12.83±1.09)ka,为全新世走滑活动断裂,倾滑分量不大,倾向总体西倾,且晚更新世以来的左旋走滑速率约为1.70 mm/a;依据断裂线地震遗迹及断裂活动特征,断裂强活动复发间隔大致为10~12 ka或更短。 相似文献
3.
京张高铁预选路线跨越延矾盆地北缘活动断裂隐伏段,隐伏活动断裂的产状、活动性对高铁设计、建设和运营具有直接影响。针对盆地隐伏活动断裂的复杂性特征,利用可控源音频大地电磁测深(CSAMT)、浅层地震、高密度电阻率综合地球物理探测,以及钻孔地层剖面记录等方法,分析延矾盆地北缘活动断裂隐伏段特征,结果表明:(1)延矾盆地北缘活动断裂隐伏段由两条次级断层组成(F2-1、F2-2),二者大致平行分布,走向N56°E,倾角为50~70°,平面上,与地表出露段共同呈右阶雁列分布;(2)F2-1次级断层可分辨上断点埋深约10 m,其晚更新世以来垂直滑动速率大约0.12 mm/a,应是重大工程建设重点设防对象,次级断裂F2-2可分辨上断点埋深约30 m,晚更新世以来活动性弱;(3)通过钻孔地层剖面记录与地球物理探测成果对比,CSAMT法与浅层地震勘探对基岩顶界面探测可靠有效,高密度电阻率法对于该地区浅部第四系松散堆积物探测效果显著,比较直观地反映出电性异常体的形态和规模,通过综合地球物理探测,能够做到优势互补,减少隐伏活动断层解译的不确定性。 相似文献
4.
盐湖南岸断层位于运城市盐湖南岸,在浅层地震勘探的基础上,通过钻孔联合剖面勘探和钻孔样品年龄测试,获得断层的上断点埋深、断层标志层的断距以及地层沉积年龄等数据,在此基础上分析了盐湖南岸断层的晚第四纪活动特征。研究表明,盐湖南岸断层在55.7±0.43 ka B.P.以来没有发生明显的活动,断层的活动时代为晚更新世早、中期。断层在晚第四纪以来经历过2次构造活动期和2次间歇期,间歇时间为约16000 a和55700 a,在2次活动期间断层活动程度存在差异,晚更新世早期断层活动较强,中期活动相对减弱。晚更新世以来断层的平均滑动速率为0.0276 mm/a,属弱活动断层。 相似文献
5.
6.
南口—孙河断裂是北京平原区唯一一条北西向的活动断裂,也是张家口—渤海地震带中最醒目的隐伏、半隐伏的第四纪活动断裂。对南口—孙河断裂北西段开展了浅层地震勘探和钻探工程,验证了该目标断裂的精确定位。笔者通过钻孔岩心及探槽剖面的对比分析,并结合磁性地层研究及~(14)C年龄测定,对该断裂第四纪以来的活动性进行了探讨。研究表明,南口—孙河断裂具有粘滑兼蠕滑的活动特点,中更新世、晚更新世和全新世以来的垂直活动速率分别为0.12 mn/a、0.58 mm/a、0.31 mm/a。总体表现为弱-强-弱的规律。晚更新世以来至少可识别出两次古地震事件,分别为距今(9230±45)aBP~(9370±40)aBP和(13620±90)aBP~(13960±60)aBP,错断地层的最浅深度为1.2 m。同时探讨了城市隐伏活动断裂的研究思路和方法。 相似文献
7.
基于地震剖面解释、数字高程模型、历史地震、测年数据及钻孔等资料,分析了四川盆地熊坡背斜的构造特征、运动学特征及其成因机制。结果显示:(1)熊坡背斜与蒲江-新津断裂空间展布上具有较强的一致性,表现出断层传播褶皱模型,变形显著,缩短量为7.2 km,缩短率约为30%;(2)熊坡背斜隆起于(1.0±0.2) MaB.P.之后,且中更新世早期及晚更新世曾发生过强烈活动,使背斜两侧第四系厚度产生明显差异;(3)蒲江-新津断裂现今地震活动明显且小震频繁,曾有Ms=5.0~5.9的地震历史记录;(4)来自龙门山与扬子克拉通的挤压应力以及断层-滑脱作用是形成熊坡背斜的主要应力机制。熊坡背斜并非均匀应力下连续变形的产物,而是由于断裂活动时发生快速抬升而形成的。 相似文献
8.
阿尔金断裂系东北段阳关断裂的晚第四纪活动性与强震危险性关系到敦煌地区及相关文物古迹的防震减灾问题.基于高分辨率卫星影像对阳关断裂几何展布特征进行解译,采用差分GPS、无人机航空摄影测量方法、古地震探槽方法以及OSL测年方法对两个研究点进行了详细研究,对其定量活动参数进行了初步限定.结果显示,阳关断裂东段运动形式主要表现为挤压逆冲,最新的一次地震事件可能发生在距今43.5~12.1 ka之间,表明阳关断裂东段至少在晚更新世以来有过活动,并且具有发生Mw6.6强震的潜能及危险性.如果发生类似强度的地震,敦煌主城区的烈度至少在Ⅵ以上,阳关土遗址地区则会达到Ⅸ.因此,阳关断裂应该是该区防震减灾重点关注的发震断层之一. 相似文献
9.
马尔康巴拉电站近场区内断层的活动性对工程的设计和坝址的选择极为重要。根据野外调查、ESR测年、断层泥石英形貌、地震活动性等综合分析,认为近场区除松岗断裂以外的其他断层在地表浅部晚更新世以来不具活动性,对工程建设基本不产生影响。松岗断裂中段深部小震频繁,地表未见活动证据,南段错断Ⅱ级阶地,因此中南段属于晚更新世活动断层,北段晚更新世以来不具活动性;日部断裂与松岗断裂中段一样属于深部黏滑浅部闭锁型断层,这种断层可能会在未来地震中产生较大的地表变形,工程建设应避开此类断裂。活动的松岗断裂中南段的潜在地震危险性评估表明,其可能诱发的地震震级约Ms=6.95。拟选的上坝址由于距松岗断裂的安全距离不够,岩石物理条件较差,下坝址的利用落差较小等综合因素考虑,建议选择中坝址更为合理。 相似文献
10.
焉耆盆地活动断层的晚第四纪右行走滑 总被引:4,自引:0,他引:4
本研究对天山东南侧山间盆地——焉耆盆地的晚第四纪右行走滑活动断层的位移和滑动速率进行了测量.详细的卫星图像分析和野外调查表明活动断层(开都河断层带)主要分布在盆地的南缘,具典型的走滑断层特征.发育在晚更新世—全新世冲积扇中的水系记录了3~250 m的右行错断和位移的累积.冲积扇中的断层陡坎高1 m到25 m,沿断层带走向左行雁列状断层崖呈现,向NE和SW倾.基于河道的错断,14C数据和断层岩组构的分析可以得出:①活动断层的平均右行走滑速率为8 mm/a,垂直分量的速率为1 mm/a,(②典型的单次地震断裂事件产生的错断量为3~7 m,③大地震事件(Ms>7)的平均重复间隔约为500年,④开都河断层带最新的地震断裂事件发生在过去2 500 a间.与印度—欧亚板块碰撞相关联的天山是一个逆冲构造占主导地位的造山带,而山间盆地中晚第四纪的走滑断层表明了这种造山机制中具有水平滑动. 相似文献
11.
在河西走廊北侧、北山南缘新发现属于不同断裂系统的两条晚第四纪活动断裂,分别称之为旧井-板滩断裂和俄博庙断裂。其中,旧井-板滩断裂长约28 km,距玉门市约55 km,由4条分支断裂组成,呈复杂的"Y"字形分布。总体走向北东40°~50°,倾向北西,倾角60°~70°,控制了西侧两个晚新生代盆地的发育。俄博庙断裂长约18 km,距金塔县城约50 km,走向近东西,倾向北西,倾角60°~80°。根据卫星影像解译、断错地貌调查、探槽开挖和光释光测年结果,旧井-板滩断裂断错了一系列山脊、冲沟和阶地,在距今约2万年以来有过活动,以正左旋走滑为主;俄博庙断裂北向逆冲形成清晰的线性陡坎,并左旋断错了冲沟,在距今约3万年以来有过活动,以逆左旋走滑为主。以上两条断裂的新构造活动揭示了青藏高原北缘晚新生代以来的远程应变传递已经进入北山造山带南缘。 相似文献
12.
Soft-sediment deformation structures in NW Germany caused by Late Pleistocene seismicity 总被引:1,自引:0,他引:1
New data on seismically triggered soft-sediment deformation structures in Pleniglacial to Late Glacial alluvial fan and aeolian sand-sheet deposits of the upper Senne area link this soft-sediment deformation directly to earthquakes generated along the Osning Thrust, which is one of the major fault systems in Central Europe. Soft-sediment deformation structures include a complex fault and fold pattern, clastic dikes, sand volcanoes, sills, irregular intrusive sedimentary bodies, flame structures, and ball-and-pillow structures. The style of soft-sediment deformation will be discussed with respect to brittle failure, liquefaction and fluidization processes, and was controlled by (1) the magnitude of the earthquake and (2) the permeability, tensile strength and flexural resistance of the alluvial and aeolian sediments. It is the first time in northern Germany that fluidization and liquefaction features can be directly related to a fault. The occurrence of seismicity in the Late Pleistocene and in the seventeenth century indicates ongoing crustal movements along the Osning Thrust and sheds new light on the seismic activity of northern Germany. The Late Pleistocene earthquake probably occurred between 15.9 ± 1.6 and 13.1 ± 1.5 ka; the association of soft-sediment deformation structures implies that it had a magnitude of at least 5.5. 相似文献
13.
The present article is the first time reporting of a paleoearthquake that occurred during Late Pleistocene time along the Nalagarh Thrust (NT) in the Pinjaur Dun in northwestern sub-Himalaya. Using CORONA satellite photographs, multi-spectral IRS satellite data, and aerial photographs, a prominent active fault has been identified at Nalagarh in Pinjaur Dun. This fault in the alluvial fan is located very close to the NT which borders the topographic front of the Tertiary rocks against Quaternary deposits. A trench excavation survey was carried out at Nalagarh for detailed paleoseismic studies across this thrust fault. Displacing all the lithologic units of the fan sequence, the fault plane has an average dip of 30° due ENE and a vertical displacement of 1.6 m and slip of ~2.5 m along the fault. The lithological units, consisting of alternating sand and gravel, show back tilting and asymmetrical tight folding. Based on Optically Stimulated Luminescence (OSL) ages, the oldest litho-unit in the trench is 85.83 ± 7.2 ka and the youngest is 67.05 ± 8.4 ka. The OSL age of the sample collected from the easterly exposure of the fault shows an age of 20 ka. The faulting and associated induced deformation features suggest occurrence of a Late Pleistocene large magnitude earthquake along NT in the Nalagarh region of the Pinjaur Dun following the deposition of the Quaternary sedimentary units. The Late Pleistocene fault substantiates the seismic potential of Pinjaur Dun and calls for more exhaustive study of paleoearthquakes in this fast developing industrial belt and highly populous mountainous region. 相似文献
14.
Stefano Gori Biagio Giaccio Fabrizio Galadini Emanuela Falcucci Paolo Messina Andrea Sposato Francesco Dramis 《International Journal of Earth Sciences》2011,100(1):157-171
In the present work we analyse one of the active normal faults affecting the central Apennines, i.e. the Mt. Morrone normal
fault system. This tectonic structure, which comprises two parallel, NW-SE trending fault segments, is considered as potentially
responsible for earthquakes of magnitude ≥ 6.5 and its last activation probably occurred during the second century AD. Structural
observations performed along the fault planes have allowed to define the mainly normal kinematics of the tectonic structure,
fitting an approximately N 20° trending extensional deformation. Geological and geomorphological investigations performed
along the whole Mt. Morrone south-western slopes permitted us to identify the displacement of alluvial fans, attributed to
Middle and Late Pleistocene by means of tephro-stratigraphic analyses and geomorphological correlations with dated lacustrine
sequences, along the western fault branch. This allowed to evaluate in 0.4 ± 0.07 mm/year the slip rate of this segment. On
the other hand, the lack of synchronous landforms and/or deposits that can be correlated across the eastern fault segment
prevented the definition of the slip rate related to this fault branch. Nevertheless, basing on a critical review of the available
literature dealing with normal fault systems evolution, we hypothesised a total slip rate of the fault system in the range
of 0.4 ± 0.07 to 0.8 ± 0.09 mm/year. Moreover, basing on the length at surface of the Mt. Morrone fault system (i.e. 22–23 km)
we estimated the maximum expected magnitude of an earthquake that might originate along this tectonic structure in the order
of 6.6–6.7. 相似文献
15.
青藏铁路风火山段晚第四纪断裂活动分析 总被引:2,自引:2,他引:0
地表地质调查发现,第四纪期间在风火山逆冲-褶皱构造带以发生近东西向的伸展变形为特征。在该构造带中形成切割早期近东西向挤压变形构造带、指示近东西向伸展变形、整体沿北60°东向展布的二道沟断陷盆地。断裂活动的地质、地貌证据表明,控制该盆地晚第四纪断陷的主边界断裂位于其北缘,是一条断续延伸达24 km左右、可能兼具左旋走滑性质的正断层。根据该区晚第四纪沉积物的分布和时代,并对断裂所错动的晚第四纪地质-地貌体进行初步的年代学分析,可以初步断定该断裂的晚第四纪垂直活动速率应该介于0.2~0.4 mm/a之间。 相似文献
16.
高密度电法在和田隐伏断层探测中的应用 总被引:1,自引:0,他引:1
西昆仑山前一系列的新生代背斜的翼部往往伴生向南斜倾的逆断裂,这些断裂隐伏于早更新世或中更新世洪积砂砾石层,构成了和田隐伏断裂带。该断裂带由2条陡坎状断层组成,宽约10.6km,深度20~300m,落差110~270m。根据卫星影像和地质工作成果,和田隐伏断裂的一支从和田市南部穿过,但南郊飞机场附近没有露头,为探查断层在该区域的位置及深度,沿垂直于推测的断层走向布设2条测线,采用温纳(WN)测量系统对其进行探测。探测结果表明:2条测线皆发现了逆断层,均上切错断了上覆晚更新世地层,其中测线1存在2处断层,一处断层倾向南,倾角50°左右,另一处断层倾向北,倾角约55°;测线2存在一处断层,倾向北,倾角近80°。通过比对高密度电法资料和地质出露点剖面,推断和田断层在第四系以来有过两次明显的活动,导致晚更新世砂砾石土层被断错。 相似文献
17.
CHEN Guihu XU Xiwei ZHU Ailan ZHANG Xiaoqing YUAN Renmao Yann KLINGER Jean-Mathieu NOCQUET 《《地质学报》英文版》2013,87(2):618-628
Three magnitude >6 earthquakes struck Qaidam, Qinghai province, China, in November 10th 2008, August 28th and 31st 2009 respectively. The Zongwulongshan fault has often been designated as the active seismogenic structure, although it is at odd with the data. Our continuous GPS station (CGPS), the Xiao Qaidam station, located in the north of the Qaidam basin, is less than 30 km to the southwest of the 2008 earthquake. This CGPS station recorded the near field co-seismic deformation. Here we analyzed the co-seismic dislocation based on the GPS time series and the rupture processes from focal mechanism for the three earthquakes. The aftershocks were relocated to constrain the spatial characteristics of the 2008 and 2009 Qaidam earthquakes. Field geological and geomorphological investigation and interpretation of satellite images show that the Xitieshan fault and Zongwulongshan fault were activated as left lateral thrust during the late Quaternary. Evidence of folding can also be identified. Integrated analyses based on our data and the regional tectonic environment show that the Xitieshan fault is the fault responsible for the 2008 Qaidam earthquake, which is a low dip angle thrust with left lateral strike slip. The Zongwulongshan fault is the seismogenic fault of the 2009 earthquakes, which is a south dipping back thrust of the northern marginal thrust system of the Qaidam basin. Folding takes a significant part of the deformation in the northern marginal thrust system of the Qaidam basin, dominating the contemporary structure style of the northern margin of the Qaidam basin and Qilianshan tectonic system. In this region, this fault and fold system dominates the earthquake activities with frequent small magnitude earthquakes. 相似文献
18.
Surface Rupture of the 1515 Yongsheng Earthquake in Northwest Yunnan,and Its Seismogeological Implications 总被引:2,自引:0,他引:2
The 1515 M7? Yongsheng earthquake is the strongest earthquake historically in northwest Yunnan. However, its time, magnitude and the seismogenic fault have long been a topic of dispute. In order to accurately define those problems, a 1:50000 active tectonic mapping was carried out along the northern segment of the Chenghai–Binchuan fault zone. The result shows that there is an at least 25 km–long surface rupture and a series of seismic landslides distributed along the Jinguan fault and the Chenghai fault. Radiocarbon dating of the ~(14) C samples indicates that the surface rupture should be a part of the deformation zone caused by the Yongsheng earthquake in the year 1515. The distribution characteristics of this surface rupture indicate that the macroscopic epicenter of the 1515 Yongsheng earthquake may be located near Hongshiya, and the seismogenic fault of this earthquake is the Jinguan–Chenghai fault, the northern part of the Chenghai–Binchuan fault zone. Striations on the surface rupture show that the latest motion of the fault is normal faulting. The maximum co–seismic vertical displacement can be 3.8 m, according to the empirical formula for the fault displacement and moment magnitude relationship, the moment magnitude of the Yongsheng earthquake was Mw 7.3–7.4. Furthermore, combining published age data with the ~(14) C data in this paper reveals that at least four large earthquakes of similar size to the 1515 Yongsheng earthquake, have taken place across the northern segment of the Chenghai–Binchuan fault zone since 17190±50 yr. BP. The in–situ recurrence interval of Mw 7.3–7.4 characteristic earthquakes in Yongsheng along this fault zone is possibly on the order of 6 ka. 相似文献
19.
西藏当雄-羊八井盆地的第四纪地质与断裂活动研究 总被引:7,自引:2,他引:5
在当雄-羊八井盆地进行的详细地质填图工作表明,该盆地中堆积了上新世或早更新世以来多套不同成因的沉积物。其中最显著的是形成于约700~500kaB.P.、250~125kaB.P.和75~12kaB.P.等三个阶段的冰川和冰水沉积物,它们指示念青唐古拉山地区在中更新世以来曾有过三次冰期。对念青唐古拉山东南麓断裂带的研究表明,该断裂带包含了三条次级断层带,它们具有不断向盆地内部迁移和多期活动的特点,其中中更新世以来的几次重要活动分别发生在700~500kaB.P.、350~220 kaB.P.、140kaB.P.和70~50kaB.P.。断裂带错动中更新世以来地层所形成的断层崖高度随着地层时代的变新发生系统地减小,指示该断裂的垂直活动速率介于0.4mm/a~2mm/a之间,其中第四纪期间的长期的平均垂直活动速率为1.1±0.3mm/a,而全新世期间的垂直活动速率为1.4±0.6mm/a. 相似文献