GROWTH STRATA REVEAL THE QUATERNARY TECTONIC FEATURE OF GUDIAN FAULT IN SONGYUAN,SONGLIAO BASIN,CHINA

Because of the frequent seismic activity in Songyuan in recent years, the modes of tectonic movement in this area since the Quaternary have attracted increasing consideration. This paper selects the Gudian Fault which locates between the southeast uplift and central depression of Songliao Basin as the research object. We discussed the Quaternary structural characteristics of the Gudian Fault using growth strata. Using the data of deep seismic reflection prospecting for oil, we determined the location, geometry and kinematics characteristics of the Gudian Fault. And using the shallow seismic reflection prospecting data, the combined drilling exploration data and TL data, we determined precisely the inversion tectonics feature of the fault since late Cenozoic. Based on the above data, we believe that the Gudian Fault is dominated mainly by thrust-folding since Quaternary. A set of growth strata is recognized by shallow seismic reflection exploration data. According to the overlap of growth strata and the relationship between deposition rate and uplift rate, we confirm that the uplift rate of Gudian Fault in the early of Early Pleistocene is less than 0.15mm/a. And according to the offlap of growth strata and the relationship between deposition rate and uplift rate, the uplift rate of the Gudian Fault is more than 0.091mm/a in the late of Early Pleistocene and more than 0.052mm/a in middle Pleistocene. According to the chronological data, it is determined that the uplift rate of the Gudian Fault is 0.046mm/y since 205ka.     

松原市城市设定地震浅析

通过对吉林省松原市及附近(50km范围)历史地震、地震构造、现代小地震活动分析及地震危险性概率分析,综合确定了松原市城市设定地震,其结果可以为松原市制定大震应急预案、建立大震快速反应系统提供参考。     

公元842年甘肃碌曲地震考证与发震构造分析

唐会昌二年(公元842年),在中国西北的汉藏交界地区(现甘肃省东南部地区)发生了一次大地震,造成"地震裂,水泉涌,岷山崩,洮水逆流三日"的严重震害。经过对这次地震史料的系统梳理、考证和综合分析,认为其极震区大致位于今甘肃省甘南藏族自治州碌曲、卓尼和迭部三县交界的光盖山—迭山山区,发震时间很可能为唐会昌二年十二月二十四日(公元843年1月31日或27日),震级可达7~71/2级,震中烈度达Ⅸ~Ⅹ度。在这次地震破坏区附近发育了临潭-宕昌断裂、光盖山-迭山断裂和迭部-白龙江断裂等3条以挤压逆冲为主兼具左旋走滑特征的晚第四纪活动断裂带。根据近年来对上述断裂的最新考察结果和对该区现今小震活动的对比分析,认为这次地震应与其中的光盖山-迭山断裂西段的最新构造活动有关,为这次地震的发震断裂。光盖山-迭山断裂为中国大陆近10多年来7级以上大震主体活动区——巴颜喀拉块体北部边界断裂(东昆仑断裂)东段的重要分支断裂,具备发生7级以上大震的构造条件。     

吉林松原5级震群的重新定位研究

吉林省松原地区2013年10月31日开始发生了5次5级地震,地震活动呈震群态势。震群位于北东向的扶余—肇东断裂南端,台网定位结果显示震群活动集中于一点,没有明显的展布方向。由于该次震群中5级及以上地震较多,最大地震达到了5.8级,推测地震引起的断层破裂应有一定的距离。为深入探讨震群与断裂的关系以及震群展布方向等一系列问题,本文用双差定位的方法,利用2008年以来吉林、辽宁、黑龙江、内蒙古等地台网数据对吉林松原震群进行了重新定位研究。结果显示吉林松原5级震群呈北西近东西向分布,且地震活动在时间上有向东展布的态势。且震源深度变化较大。分析认为松原震群所处的地下断层较为复杂,可能发生在两条断裂相交的位置。     

安徽南部头坡断裂的活动性研究

对位于安徽南部的头坡断裂的野外调查表明,沿头坡断裂没有明显的水平或垂向错动的地貌现象;在取得的剖面中,上覆第四纪地层均未被断裂断错,表明断裂在中、晚更新世以来没有活动。对本区地貌、第四纪地层和断裂活动历史的调查分析表明,该断裂在燕山运动晚期(侏罗纪末—早白垩世)和喜马拉雅运动早期(晚白垩世—古近纪)有过2次强烈活动,前者表现为左旋走滑运动,后者以拉张活动为特征。新近纪以来全区处于长期隆升剥蚀状态,缺失新近系,第四系厚度不大,残坡积地层广泛发育,构造运动微弱。头坡断裂的活动历史及新活动性与其相邻的郯庐断裂带南段相似,前者可能受后者的控制     

2013年吉林前郭MS5.8级地震产生的静态库仑应力影响研究

2013年10月31日在吉林省松原市前郭县发生MS5.5、MS5.0级地震,11月22日和11月23日又分别发生MS5.3、MS5.8和MS5.0级地震,构成2013年吉林前郭5级震群,其中最大的地震为11月23日的MS5.8级地震,发震断层位于扶余-肇东断裂附近。本研究计算前郭MS5.8级地震的静态库伦应力,明确前郭MS5.8级地震对周围的同震库仑应力影响;进一步计算前郭地震对周围主要断裂带的静态库仑应力影响,结果显示,前郭MS5.8级地震对其附近的长春-四平断裂、密山-敦化断裂带的影响是卸载的,对依兰-伊通断裂的影响是加载的,应力加载量在＋0.002-0.004bar。     

有关1976年唐山地震发震断层的讨论

对《地震地质》刊登的两篇文章中有关唐山断裂是高角度西倾的逆冲走滑断裂及唐山市东侧付庄-西河断裂是唐山地震的发震断裂的观点进行讨论。笔者认为,如果唐山地震断层是西倾的逆冲走滑活动,需要考虑唐山逆冲断裂的活动方式与唐山市西侧第四纪凹陷之间的关系;如果付庄-西河断裂是唐山地震震源构造的地表破裂,需要解释该西倾的倾滑断裂带与唐山市内走滑地裂缝带的成因联系。此外,还需要更有说服力的证据排除该地表破裂带是次生构造破裂的可能。建议对控制草泊第四纪凹陷的活动断裂开展调查     

河北省怀安盆地北缘断裂活动性研究

本文以野外地质调查为主，讨论了怀安盆地北缘断裂的几何展布和活动特征，并进行了断裂的活动性分段，对断裂的运动学特片也进行了探讨，研究认为，该断裂是一条第四纪活动断裂，以东段活动性最强，Ｑ３＾２以来平均垂滑动速率达０．２１－０．２２ｍｍ／ａ；中段活动次之，西段活动较弱，整个断裂活动年代有自西南向东北迁移的趋势。最后，文章对１６２６年２５／４级地震的震中位置作了讨论。     

青海大通宝库河断裂活动性研究

本文在对宝库河地区第四系及地貌单元划分对比的基础上，结合年代测试结果，分析了宝库河断裂带的断错微地貌特征。结果表明，宝库河断裂穿过的Ⅰ－Ⅲ级冲积、坡洪积阶地未被断错；经热释光年代测定，至少在距今６．６±０．８万年以来该断裂未再活动过，是一条晚更新世早期断裂，属左旋走滑型兼具挤压逆冲特性。     

沂沭断裂带安丘-莒县断裂安丘-朱里段几何结构与活动特征

安丘-莒县断裂是沂沭断裂带最主要的活动断裂,对强震的发生具有明显的控制作用。该断裂的安丘—朱里段由南流段、双官—眉村段和朱里段3条右阶斜列的次级断裂所组成,以右旋走滑活动为主,兼有正断或逆冲活动分量;其最新活动时代推断为晚更新世—全新世早期。根据断裂活动性的最新研究成果,认为在莒县至昌邑之间安丘-莒县断裂仍是占主导地位的活动断裂,与公元前70年安丘7级地震的发生具有密切关系     

THE DISCUSSION FOR THE NEW ACTIVITY OF THE TIANQUAN SEGMENT OF LONGMENSHAN FAULT ZONE AND ITS RELATIONSHIP TO THE 1327 TIANQUAN EARTHQUAKE,SICHUAN

The 2008 Wenchuan earthquake occurred along the Longmen Shan fault zone, only five years later, another M7 Lushan earthquake struck the southern segment where its seismic risk has been highly focused by multiple geoscientists since this event. Through geological investigations and paleoseismic trenching, we suggest that the segment along the Shuangshi-Dachuan Fault at south of the seismogenic structure of the Lushan earthquake is active during Holocene. Along the fault, some discontinuous fault trough valleys developed and the fault dislocated the late Quaternary strata as the trench exposed. Based on analysis of historical records of earthquakes, we suggest that the epicenter of the 1327 Tianquan earthquake should be located near Tianquan and associated with the Shuangshi-Dachuan Fault. Furthermore, we compared the ranges of felt earthquakes(the 2013 M7 Lushan earthquake and the 1970 M_S6.2 Dayi earthquake)and suggest that the magnitude of the 1327 Tianquan earthquake is more possible between 6½ and 7. The southern segment of the Longmen Shan fault zone behaves as a thrust fault system consisting of several sub-paralleled faults and its deep structure shows multiple layers of decollement, which might disperse strain accumulation effectively and make the thrust system propagate forward into the foreland basin, creating a new decollement on a gypsum-salt bed. The soft bed is thick and does not facilitate to constrain fault deformation and accumulate strain, which produces a weak surface tectonic expression and seismic activity along the southern segment, this is quite different from that of the middle and northern segments of the Longmen Shan fault zone.     

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

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.     

范家坝-临江断裂活动与1879年甘肃武都南8级地震的讨论

1879年甘肃武都南 8级地震发震断裂的确认是一个未决的问题。文中通过卫星影像解译、史料记载分析,认为沿文县东北水坑山北麓NEE向的范家坝 -临江断裂可能分布有该次地震的地表破裂带,因而,这一条断裂可能是该次地震的发震断裂。由此,可在发震断裂的产状变化、活动方式、地表破裂带长度、水平位错量大小及沿断裂的分布、断裂的区域归属、宏观震中位置、可能震级大小、震害分布等诸多方面取得一致     

夏垫断裂带深部构造特征与第四纪活动性讨论

利用重力、浅层地震和高密度电阻率法物探工作成果,由深及浅垂向上“接力拼接”的方式,结合钻探等手段,把夏垫断裂带分解为基岩断裂带和第四纪断裂带2个部分进行研究,结果表明:1)夏垫断裂带的基岩断裂带由主干断裂和次级断裂构成.其北段(马坊-西集一带)较窄,由2条主干断裂构成.其南段(西集-凤河营一带)较宽,由3条主干断裂构成.2)第四纪断裂带是基岩断裂带向上延伸的部分,是断裂带最新活动的直观表现,并受控于基岩断裂带.夏垫第四纪断裂带同样由主干和次级断裂构成,北段(马坊-西集一带)由2条主干断裂和分布于北端尾部次级断裂构成,与基岩断裂带一一对应关系较好.2条主干断裂产状差异较大,最新活动时间均为全新世.而南段(西集-凤河营一带)断裂分布不连续,很难分清主次断裂,同基岩断裂带的对应关系较差,推测为基岩断裂中夏垫断裂的活动.这些主、次级断裂产状均较为陡立,最新活动时间为晚更新世晚期-全新世早期.3)夏垫断裂带内上、下两盘全新世沉积底界垂向累积位错量为1.7 ～4.8m,晚、中、早更新世以来则分别为6 ～ 26m、26 ～ 167m和44 ～ 330m,其中最大累积位错量位于夏垫地区,向南、北逐渐减小.4)以张家湾断裂为界把夏垫断裂带划分为南、北2段.北段第四纪活动性强,中强震及微小地震时有发生,而南段第四纪活动性弱,仅发生微小地震.     

THE HOLOCENE SEISMIC EVIDENCE ON SOUTHERN SEGMENT OF THE RED RIVER FAULT ZONE

Nine earthquakes with M≥6 have stricken the northern segment of the Red River fault zone since the historical records, including the 1652 Midu M7 earthquake and the 1925 Dali M7 earthquake. However, there have been no earthquake records of M≥6 on the middle and southern segments of the Red River Fault, since 886 AD. Is the Red River fault zone, as a boundary fault, a fault zone where there will be not big earthquake in the future or a seismogenic structure for large earthquake with long recurrence intervals?This problem puzzles the geologists for a long time. Through indoor careful interpretation of high resolution remote sensing images, and in combination with detailed field geological and geomorphic survey, we found a series of fault troughs along the section of Gasha-Yaojie on the southern segment of the Red River fault zone, the length of the Gasha-Yaojie section is over ten kilometers. At the same time, paleoseismic information and radiocarbon dating result analysis on the multiple trenches show that there exists geological evidence of seismic activity during the Holocene in the southern segment of the Red River fault zone.     

FAULT ACTIVITY OF THE SOUTHWESTERN SEGMENT OF THE EASTERN BRANCH OF XINYI-LIANJIANG FAULT ZONE IN GUANGDONG PROVINCE

The NE-trending Xinyi-Lianjiang fault zone is a tectonic belt, located in the interior of the Yunkai uplift in the west of Guangdong Province, clamping the Lianjiang synclinorium and consisting of the eastern branch and the western branch. The southwestern segment of the eastern branch of Xinyi-Lianjiang fault zone, about 34km long, extends from the north of Guanqiao, through Lianjiang, to the north of Hengshan. However, it is still unclear about whether the segment extends to Jiuzhoujiang alluvial plain or not, which is in the southwest of Hengshan. If it does, what is about its fault activity? According to ‘Catalogue of the Modern Earthquakes of China’, two moderately strong earthquakes with magnitude 6.0 and 6.5 struck the Lianjiang region in 1605 AD. So it is necessary to acquire the knowledge about the activity of the segment fault, which is probably the corresponding seismogenic structure of the two destructive earthquakes. And the study on the fault activity of the segment can boost the research on seismotectonics of moderately strong earthquakes in Southeast China. In order to obtain the understanding of the existence of the buried fault of the southwestern segment, shallow seismic exploration profiles and composite borehole sections have been conducted. The results indicate its existence. Two shallow seismic exploration profiles show that buried depth of the upper breakpoints and vertical throw of the buried fault are 60m and 4~7m(L5-1 and L5-2 segment, the Hengshan section), 85m and 5~8m(L5-3 segment), 73m and 3~5m(Tiantouzai section), respectively and all of them suggest the buried fault has offset the base of the Quaternary strata. Two composite borehole sections reveal that the depth of the upper breakpoints and vertical throws of the buried segment are about 66m and 7.5m(Hengshan section) and 75m and 5m(Tiantouzai section), respectively. The drilling geological section in Hengshan reveals that the width of the fault could be up to 27m. Chronology data of Quaternary strata in the two drilling sections, obtained by means of electron spin resonance(ESR), suggest that the latest activity age of the buried fault of the southwestern segment is from late of early Pleistocene(Tiantouzai section) to early stage of middle Pleistocene(Hengshan section). Slip rates, obtained by Hengshan section and Tiantouzai section, are 0.1mm/a and 0.013mm/a, respectively. As shown by the fault profile located in a bedrock exposed region in Shajing, there are at least two stages of fault gouge and near-horizontal striation on the fault surface, indicating that the latest activity of the southwestern segment is characterized by strike-slip movement. Chronology data suggest that the age of the gouge formed in the later stage is(348±49) ka.     

台湾9.21集集地震考察兼论强震发震断层

1999年9月21日,台湾中部山麓带发生了M7.3的大地震,震源深度为8km,财产损失及人员伤亡是百年来台湾许多地震中损失及伤亡最大的1次,其震级也是台湾本岛陆上所发生的地震级别最大的。震源机制属低角度逆冲断层成因,余震在平面上围绕着北港高基底作半圆状分布,在垂向上,则分布在逆冲断层的上盘。与此相应,地面变形及上部结构物的破坏,以车笼埔发震断层上盘最为激烈,下盘几乎不受影响。此外,地震断裂的北端,水平位移量高达9.8m,垂直抬升达10m,比主震区要大;其地面加速度峰值,亦高达水平为502gal,垂直为519gal。这些特点表明,地震是受到地下深处侏罗型叠瓦状构造的控制。此外,3个诱发地震中心均受当地的地质构造与地貌条件的控制。文中还叙述了震害及工程结构物破坏的特点,尤其是水工结构物的震害     

阿尔金断裂带中东段地震活动特征及危险性讨论

讨论了阿尔金断裂带1900年以来的5级以上地震活动,结果显示空间上地震活动具有分段性,其中在青海段出现5级地震填空性空段,并形成5级地震的平静区,时间上具有平静和活跃交替的特征。进一步分析阿尔金断裂带青海段(茫崖北—肃北)现代小震活动,结果显示:茫崖以西震源深度约40 km以内,青海段(茫崖北—肃北)震源深度约10 km范围内,超过10 km较少,肃北—黑崖子以东约100 km处震源深度由浅逐渐变深,从10 km左右逐渐变化到40 km左右。与此同时,依据上述资料探讨了阿尔金断裂带青海段的强震危险性。     

FAULT ROCKS AND ACTIVITIES OF THE KANGDING-MOXI FAULT ZONE

Mylonite,cataclasite and especially fault rocks subjected to both mylonitization and cata-clasis widely developed along the Kangding-Moxi fault zone.A mylonite zone has formed as a result of ductile shearing in early stage.In later stage brittle fracturing has occurred along this mylonite zone,accompanied by the formation of the present Kangding-Moxi fault zone.Later on,ductile shearing and multiperiods of brittle fracturing occurred along the fault zone.Differential stress magnitude d     

安丘-莒县断裂北段几何结构与最新活动特征

安丘-莒县断裂是沂沭断裂带的主要分支之一,也是最主要的一条活动断裂。通过断裂活动性调查和地质填图,查明了安丘-莒县断裂北段的空间展布、几何结构以及最新活动特征。在莒县至昌邑一带,安丘-莒县断裂自北向南大致可划分为昌邑—南流段、安丘—孟疃段、青峰岭段和孟堰段等4个段落。它们以左阶斜列形式展布,而每个断层段又由更次一级的段落以右阶斜列的形式组成。昌邑—南流断层段的最新活动时代为全新世中晚期,除右旋走滑断层活动外,还观察到逆冲和正断运动分量,其中正断运动分量的发生时代较新。安丘—孟疃和青峰岭2个断层段以右旋走滑运动为主,兼有逆冲运动分量,最新活动时代分别为晚更新世和全新世早期。孟堰断层段也以右旋为主兼具逆冲分量,最新活动时代为全新世早期。安丘—孟疃断层段公元前70年曾发生过安丘7级地震,结合断层活动性质和最新活动时代综合判断,山东莒县以北的安丘-莒县断裂的未来地震危险性较大,在今后的地震灾害防御和地震预测工作中应予以重视。