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1.
四川大凉山断裂带古地震研究初步结果   总被引:8,自引:7,他引:8       下载免费PDF全文
沿四川大凉山断裂带的 4条次级断裂开挖了 4个探槽 ,共揭露出 9次古地震事件。根据探槽中年龄样品的测试结果 ,分析了各次事件的距今年龄及其重复间隔。其中 ,有 3个探槽共揭露出4次全新世以来的古地震事件。 9次古地震的垂直位移量在 0 5~ 1 5m之间 ,与鲜水河 -小江断裂带历史地震所产生的垂直位移量进行对比 ,估计它们的震级都在 7级以上  相似文献   

2.
安宁河断裂带北段的古地震事件及其在地震研究中的意义   总被引:8,自引:1,他引:8  
钱洪  伍先国 《中国地震》1990,6(4):43-49
安宁河断裂带是四川省西部的重要强震带。史料表明,安宁河断裂带上的强震主要集中在安宁河断裂带冕宁—西昌一段。冕宁以北没有强烈破坏性地震的记载。本文在安宁河断裂带冕宁以北地段断错地貌特征研究的基础上,根据拖乌以西野鸡洞的探槽揭露讨论了该段的古地震事件。认为该段具有发生7级地震的能力。根据探槽中~(14)C年代测定,古地震的平均重复间隔为940±150年。由于最近一次古地震的发生距今时间已接近其平均重复间隔,因而笔者认为该段已具备再次发生7级地震的能力而应予充分注意。  相似文献   

3.
郯庐断裂带是中国东部活动性最强的断裂带,郯庐断裂带江苏段主要由5条分支断层组成,并于更新世强烈活动,其中安丘-莒县断裂持续活动至全新世,是1668年郯城■级特大地震的发震断裂。文中采用古地震探槽方法研究安丘-莒县断裂江苏段全新世以来的古地震事件,并采用14C测年方法确定古地震的时间。结合前人通过探槽揭露的古地震时间进行综合分析,认为安丘-莒县断裂江苏段全新世以来共有3次古地震事件,时间分别为距今3 000a以来、距今约6 000a和11 000a,垂直同震位移均约1m。1668年郯城8.5级地震在安丘-莒县断裂新沂段山前出露区存在地表破裂的迹象,在隐伏区表现为大量喷砂冒水现象,在探槽揭露的晚全新世地层中有密集的裂缝和砂脉。  相似文献   

4.
佛洞庙-红崖子断裂位于祁连山北缘断裂带中段,是1条活动逆断裂。在佛洞庙-红崖子断裂东、中、西各段落开挖整理了5个探槽。通过探槽揭示的各地层单元的沉积特征、各单元之间的层序关系以及断层对不同地层的切割关系,共辨认出了4次古地震事件。根据探槽中各地层单元的14C样品和光释光样品测年结果,对4次古地震事件给出了年龄制约:最早事件E4发生在距今约10.6ka,事件E3发生在距今约7.1ka,事件E2发生在距今约3.4ka,事件E1为1609年红崖堡地震。这4次地震事件的间隔分别约3.5ka、3.7ka和3.0ka,平均复发间隔约3.4ka,具有准周期重复特征。  相似文献   

5.
山西交城断裂带多个大探槽全新世古地震活动对比研究   总被引:6,自引:2,他引:4  
介绍了沿交城断裂带5个地点开挖探槽揭示的古地震情况.这5个大探槽分别沿交城断裂带北、中、南段分布,其中北段和中段各有2个地点,南段1个地点,探槽之间相距 11~35km.位于该断裂带北段和中段的4个探槽出露了断错全新世地层的断面,在这4个探槽中,位于断裂带北段的西张探槽和位于断裂带中段的新民探槽揭示的全新世3次古地震事件可进行对比,具有活动的同步性.由此显示交城断裂带的中段和北段在距今3 060~3 740a、接近5 910a及8 530~8 560a期间,曾发生3次有地表破裂的古地震事件.位于断裂带北段的冶峪探槽,由于探槽位于台地内冲沟右旋扭曲处,断错的最新地层的年代距今10 730a,其它断面断错晚更新世地层.位于断裂带中段的上固驿探槽地处洪积扇,断层带宽70m,断层走向N58°~74°E,断错的最新地层距今11 570a,揭示了NEE向田庄断层晚更新世时期的活动.位于断裂带南段窑头探槽所在的原始地形受到人工改造影响,探槽剖面揭示全新统覆盖在显示距今 3.0~3.5万年期间受到断裂活动影响的地层之上.交城断裂带5个地点的探槽开挖结果显示,该断裂带全新世时期的活动自南向北迁移.  相似文献   

6.
龙首山北缘断裂带是潮水盆地与龙首山地的地貌分界线,展布于龙首山隆起的北麓。前期曾在龙首山北缘断裂带东段的白家嘴、中段包代河、西段斜坡山开挖了三个探槽,均揭露出多期古地震。本文通过三个探槽古地震事件的对比分析认为,龙首山北缘断裂带第1次古地震(11 ka)到最后1次古地震(1.6 ka)间隔9.4 ka,约1万年时间里有6次古地震发生。如果取算术平均(9.4 ka/6=1.57 ka),则每隔1 500年左右,龙首山北缘断裂带就有一次强地震事件,即古地震平均重复间隔约1.57 ka。这和其它各大断裂带得出的古地震优势重现周期(1~2 ka)并不矛盾。①5 ka年以前龙首山北缘断裂带仅有2次古地震事件,重复间隔5.3 ka,明显偏长,可能有古地震的遗漏问题;②5 ka年以后该断裂地震活动明显丛集,最短间隔0.7 ka,最长间隔1.5 ka,平均重复间隔约0.8 ka。无论是最短、最长或平均重复间隔,均与山丹-张掖地区历史地震的最长重复间隔0.79 ka接近。  相似文献   

7.
利用高分辨率的遥感资料,获得了拉脊山断裂带的几何学特征,通过野外调查和开挖探槽,对拉脊山断裂带上古地震进行了研究。认为拉脊山断裂在大河家地区逆冲活动造成黄河阶地上形成断层陡坎,在陡坎位置开挖探槽,揭露出了3 700 a.BP以来至少发生过2次中强以上古地震事件,并造成了黄河阶地变形,最晚一次古地震事件发生在(3 136±51)a.BP左右,估算断层全新世中晚期以来的滑动速率为0.51 mm/a。形成于3 650~2750 a.BP前后的喇家遗址位于该探槽剖面6.4 km处,因此得出拉脊山断裂带上强烈的古地震事件与喇家文化的毁灭存在密切的联系。该研究对认识拉脊山断裂带的地震危险性和确定形成喇家遗址的古地震证据具有重要的科学价值。  相似文献   

8.
青藏高原北缘三危山断裂东北段的古地震事件   总被引:1,自引:0,他引:1  
三危山断裂位于青藏高原北缘,为阿尔金断裂带的一条重要分支,研究其晚更新世以来的活动特征,可为全面地把握青藏高原北缘的地震活动规律提供基础资料。在对三危山断裂东北段(十工口子西-双塔)进行遥感资料解译、野外地质地貌调查和探槽开挖,并分析探槽内揭露的断层、地层和楔状堆积三者之间关系的基础上,结合相关堆积物的光释光断代研究,最终利用逐次限定法分析了古地震事件发生的年代。研究发现该断裂段上晚更新世以来发生了3次古地震事件:距今最远的一次事件E1发生在约5.3万年前,接近5.3万年;第二次事件E2发生于距今约4万年之前,5.3万年之后,更接近4万年;最近的一次事件E3发生于距今7.42—2.47ka。由于晚更新世以来探槽开挖地点地层沉积的不连续,或地层沉积之后发生的侵蚀作用,导致探槽内揭露出的古地震事件存在严重缺失。但可以确定的是,在晚更新世中晚期和全新世,三危山断裂东北段上确有破裂地表的古地震事件发生。  相似文献   

9.
1970年有台网记录以来,渭河盆地共发生4.0级以上地震2次,均发生在渭河断裂和临潼-长安断裂交界处附近.其中渭河断裂带为渭河盆地一条最显著的地震活动带,自公元前280年以来有20次5级以上地震与该断裂带有关.  相似文献   

10.
拉萨那林拉卡断裂带晚第四纪古地震研究   总被引:1,自引:0,他引:1       下载免费PDF全文
拉萨地区最主要的一条晚更新世活断层为那林拉卡断裂带,是走向NWW、倾向SSW、高陡倾角的左旋逆走滑断层,全长33km。通过对该断裂带的研究,发现其从晚更新世以来有明显的活动,并在地表保留了断错地貌现象。其中,在次角林西沟及谢村最为明显,断层错断河流、山脊、阶地等地质体,形成断头沟、断层陡坎等断错地貌,并且两处晚更新世以来的水平位错分别为54~87m和20~67m。通过对断裂带上4个探槽的研究,发现距今约7万年以来,沿那林拉卡断裂带可能发生了5次古地震事件,各次事件的大致发生年龄为距今68.53,54.40,<41.23,21.96,9.86ka,事件平均复发间隔为14.67ka。由于探槽有限,并且各探槽揭露出的地震事件有限,没有一个探槽能完全揭露5次事件,因此文中对一些事件上下限年龄的确定存在一定的不确定性  相似文献   

11.
It is indicated by historical records and the exploratory trench on the Weihe fault that the Yaodian-Zhangjiawan segment of the Weihe fault zone has experienced a historical earthquake and 3 paleoearthquake events in the past 9110a. The historical earthquake, namely, event Ⅳ, occurred between 1487 and 1568 AD. The date of paleoseismic event Ⅰ is (9110 + 90) a, and the ages of events Ⅱ and Ⅲ are unknown. The coseismic vertical displacement of events Ⅰ, Ⅱ and Ⅲ is 0.5m, 0.5m and 0.2m, respectively. The exploratory trench also indicates that the Yaodian-Zhangjiawan segment of the Weihe fault was active in the Holocene.  相似文献   

12.
Based on the measurement of faulted geomorphic surfaces,large trench logging and systematic chronostratigraphic sampling,we suggest that the total slip amount along the Baying segment of the north margin fault of Fanshan Basin since 90 ka B.P.is 34 m.Nine paleoseismic events occurred in the last 75 ka.Among them,the four events A,B,C,and D revealed by the large trench were dated at 28 ka,14 ka,7.5 ka,and 656 B.P.,respectiv eJy.The model for paleoearthquake recurrence along the segment may have two stages; in the stage from 90 ka to 14 ka B.P.,the "time-predictable model" is suitable,while in the stage from 14 ka B.P.to now,the "displacement-attenuation model" applies.  相似文献   

13.
The Bolokenu-Aqikekuduk fault zone(B-A Fault)is a 1 000km long right-lateral strike-slip active fault in the Tianshan Mountains. Its late Quaternary activity characteristics are helpful to understand the role of active strike-slip faults in regional compressional strain distribution and orogenic processes in the continental compression environment, as well as seismic hazard assessment. In this paper, research on the paleoearthquakes is carried out by remote sensing image interpretation, field investigation, trench excavation and Quaternary dating in the Jinghe section of B-A Fault. In this paper, two trenches were excavated on in the pluvial fans of Fan2b in the bulge and Fan3a in the fault scarp. The markers such as different strata, cracks and colluvial wedges in the trenches are identified and the age of sedimentation is determined by means of OSL dating for different strata. Four most recent paleoearthquakes on the B-A Fault are revealed in trench TC1 and three most recent paleoearthquakes are revealed in trench TC2. Only the latest event was constrained by the OSL age among the three events revealed in the trench TC2. Therefore, when establishing the recurrence of the paleoearthquakes, we mainly rely on the paleoearthquake events in trench TC1, which are labeled E1-E4 from oldest to youngest, and their dates are constrained to the following time ranges: E1(19.4±2.5)~(19.0±2.5)ka BP, E2(18.6±1.4)~(17.3±1.4)ka BP, E3(12.2±1.2)~(6.6±0.8)ka BP, and E4 6.9~6.2ka BP, respectively. The earthquake recurrence intervals are(1.2±0.5)ka, (8.7±3.0)ka and(2.8±3)ka, respectively. According to the sedimentation rate of the stratum, it can be judged that there is a sedimentary discontinuity between the paleoearthquakes E2 and E3, and the paleoearthquake events between E2 and E3 may not be recorded by the stratum. Ignoring the sedimentary discontinuous strata and the earthquakes occurring during the sedimentary discontinuity, the earthquake recurrence interval of the Jinghe section of B-A Fault is ~1~3ka. This is consistent with the earthquake recurrence interval(~2ka)calculated from the slip rate and the minimum displacement. The elapsed time of the latest paleoearthquake recorded in the trench is ~6.9~6.2ka BP. The magnitude of the latest event defined by the single event displacement on the fault is ~MW7.4, and a longer earthquake elapsed time indicates the higher seismic risk of the B-A Fault.  相似文献   

14.
Daliangshan fault zone (DFZ) constitutes an indispensable part of Xianshuihe-Xiaojiang fault system which is one of the main large continental strong earthquake faults in China.Puxiong Fault,the east branch of middle segment of DFZ,is the longest secondary fault.Its paleoseismic activity plays an important role in evaluating regional seismic activity level and building countermeasures of preventing and reducing the earthquake damage.The active fault mapping as well as the study of paleoseismological trench in recent years illustrates that Puxiong Fault is a slightly west-dipping high-angle left-lateral strike-slip fault with strong activity since late Pleistocene.Two trenches excavated across this fault reveal 2 and 3 paleoearthquakes that ruptured the fault at 8206 BC-1172 AD,1084-1549 AD,and 17434-7557 BC,1577-959 BC and 927-1360 AD,respectively.The OxCal model combining the results from both trenches and the another one in previous study across the fault with the historical earthquake record yields the elapsed time of~0.7ka of the latest paleoearthquake event,and the interval time is~2.3ka between the last two events.In the model,the penultimate event is considered to be recorded in all trenches.As all the three trenches are located at north part of the Puxiong Fault whose strike is apparently different from the south part,the~57km long north secondary segment is supposed to be the seismogenic structure of the paleoearthquake.According to the empirical scaling laws between magnitude and rupture length,the magnitude of the surface ruptured paleoearthquake is estimated to be more than M7 with the coseismic displacement~3.5m.However,the difference between the time of the paleoearthquake events on the middle and south segments of DFZ illustrates their independence as earthquake fracture units,and furthermore,the lower connectivity and the new generation of DFZ.  相似文献   

15.
包代河断裂古地震初步研究   总被引:4,自引:0,他引:4       下载免费PDF全文
包代河断裂是 1 954年山丹 7 级地震的主破裂带 ,为右旋正倾滑断裂 ,长约 4 .5km .经开挖探槽在该断裂上揭露出三次古地震事件 ,分别发生在距今约 31 2 0± 2 50a后 ;2 50 0± 1 90a左右 ;2 1 50± 1 70a之后 ,古地震重复间隔约 350~ 70 0年 .  相似文献   

16.
The wedge-shaped deposit formed in front of fault scarp is called colluvial wedge. Repeated faulting by faults may produce multiple colluvial wedges, each of which represents a paleoseismic event. When there are two or more colluvial wedges, the new colluvial wedge is in sedimentary contact with the fault, while the old ones are in fault contact with the fault. The shape of colluvial wedge is usually in the form of horizontal triangle, and the sedimentary facies is usually of binary structure. The overall grain size decreases gradually from bottom to top. Soil layer generally develops on the top, and different types of soil are developed under different climate or soil environments. Another deposit in front of fault scarp is the sag pond graben. The graben in front of sag pond is generally a set of sedimentary assemblages of colluvial facies, alluvial diluvial facies and swamp facies. The area close to the fault, especially the main fault, is of colluvial facies, while the area away from the fault is of alluvial and pluvial facies and marshy facies. In an accumulative cycle, the size of the deposit decreases from bottom to top, and soil layers develop on the top or surface. Multiple pile-ups may be a marker for identifying multiple faulting events. The pile-up strata such as colluvial wedge and fault sag pond can be used as identification markers for paleoseismic events. Colluvial wedge and sag pond, as the identification markers for paleoearthquake, have been well applied to practical research. However, there is still lack of detailed research on the lithological structure and genetic evolution in the interior of colluvial wedge and sag pond sediment, meanwhile, there is still a deficiency in the analysis of the completeness and the regional characteristics of paleoearthquake by using colluvial wedge and sag pond sediment. This paper discusses the method of identifying paleoearthquake by using sag pond sediments and colluvial wedge. We discuss the lithologic combination and sedimentary evolution of sag pond and choose the surface rupture zone of the 1679 M8.0 earthquake on the Xiadian Fault as the research area. In this paper, the distribution range and filling sequence of sag pond are analyzed, using borehole exploration. Four paleoearthquake events are identified since 25ka to 12ka, based on the sag pond sediments and colluvial wedge. The in situ recurrence interval of these seismic events is 480a, 510a, 7 630a and 2 830a, respectively. The lithologic combination and sedimentary evolution law of the sag pond sediments caused by an ancient earthquake are discussed. The sag pond distribution range and filling sequence are determined by the surface elevation survey and drilling exploration. The exploratory trench exposes the sag pond filling strata sequence and lithologic combination. Based on this, we analyze the three sedimentation stages of sag pond sediments formed by a paleoearthquake event near the earthquake fault. It is believed that the filling sequence is composed from bottom to top of the colluvial wedge, the erosion surface or unconformity surface, the fine detrital sediments(containing biological debris)and paleosols. For the fault-sag ponds formed by active faults, the paleoearthquakes occurred near the unconformity or erosion surface of the sediments of the fault-plug ponds. An ancient earthquake event includes the combination of organic deposits such as sediments, clastic deposits, bioclasts, burrow, plant roots and other organic deposits on the vertical scour surface or unconformity. The time interval between two paleoseismic events is defined by two adjacent unconformities(or scour surfaces). According to the vertical facies association and chronological test results of the sediments in the Pangezhuang trough of the Xiatan Fault, four paleo-seismic events are identified since the late Pleistocene period of 25~12ka BP, with recurrence intervals of 480a, 510a, 7 630a and 2 830a, respectively.  相似文献   

17.
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   

18.
在活动构造研究中,开挖探槽,发现隐藏于地下的古地震活动迹象是一项重要的突破。通过详细论述探槽方法研究古地震的原理及选点布槽、设计开挖、探槽记录、采集年龄样品等环节,较系统地总结了探槽研究古地震的整个工作流程。  相似文献   

19.
The geological structure exposed by paleoearthquake trenches is the key material to the right cognition of fault activity and paleoearthquake. However, paleoearthquake trenching inevitably destroys active tectonic geomorphic evidence and trench exposures are usually difficult to reserve. The conventional process of recording the delicate geological information, manually constructing photomosaics by image-editing software, is time-consuming and produces undesirable artificial distortions. Herein, we explored the process of constructing trench orthophotomosaics and the 3D image model using the Image-based Modeling technology and applied it to the Liutiaohe trench across the Tianqiaogou-Huangyangchuan Fault, Gansu Province. Based on the 3D image modeling and orthophotomosaic, we firstly constructed the control points and scale bars on cleaned trench walls and collected photos of all sections of the trench with a digital camera in the field, and then reconstructed the 3D model of the trench through the Agisoft PhotoScan, an efficient image-based modeling software, and finally yielded the 3D image model of the trench and othophotomasaics of the trench exposures. The results show that the automated workflow can produce seamless, sub-millimeter-level high-resolution photomosaics more quickly, with precision in the centimeter range, and the 3D image model is of great help to identify strata and geological structures in trenches with much lower capital and labor costs and low expertise levels compared with LiDAR, meanwhile, the 3D archive benefits the share and communication and even allows future reinterpreting the site using new insights.  相似文献   

20.
韩城断裂是汾渭断陷带临汾盆地WS边界的一条控制性断裂,据最新的野外调查研究结果将该断裂分为3段,其中NE段活动性最强,形成的构造地貌也最为显著。本文在野外地质地貌调查的基础上,在NE段选取4个地点进行了探槽开挖和年代样品测试,并对揭示的古地震事件进行了分析探讨,综合各个探槽及典型地质剖面古地震事件分析结果认为,韩城断裂NE段最新的活动时代为距今6~8ka。  相似文献   

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