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1.
Tectonic Taphrogenesis and Paleoseismic Records from the Yishu Fault Zone in the Initial Stage of the Caledonian Movement 总被引:3,自引:0,他引:3
TIAN Hongshui ZHANG Zengqi ZHANG Banghu ZHU Jiewang SANG Zhongxi LI Hongkui 《《地质学报》英文版》2013,87(4):936-947
The Yishu fault zone (mid-segment of the Tanlu fault zone) was formed in the Presinian. Periodic tectonic activities and strong seismic events have occurred along the fault zone. During the initial stage of the Caledonian Movement, with the proceeding of the marine transgression from the Yishu paleo-channel to the western Shandong, uneven thick sediments, composed mainly of sand, mud and carbonates of littoral, lagoon, and neritic facies, were deposited in the Yishu fault zone and western Shandong, and constructed the bottom part of the Lower Cambrian consisting of the Liguan and Zhushadong formations. Through field observations and the lab-examinations, various paleoseismic records have been discovered in the Liguan Formation and the Zhushadong Formations of the Yishu fault zone and its vicinity, including some layers with syn-sedimentary deformation structures that were triggered by strong earthquakes (i.e. seismite, seismo-olistostrome, and seismo-turbidite). Paleoseismic records developed in the Zhushadong Formation are mainly seismites with soft-sediment deformation structures, such as liquefied diapir, small liquefied-carbonate lime-mud volcano, liquefied vein, liquefied breccia, convolute deformation (seismic fold), graded fault, soft siliceous vein, and deformation stromatolite, as well as seismites with brittle deformation structures of semiconsolidated sediments. Paleoseismic records preserved in the Liguan Formation are not only seismo-olistostrome with a slump fold, load structure, and ball-and-pillows, but also seismo-turbidite with convolution bedding, graded bedding and wavy-bedding. However, in the western Shandong area, the closer to the Yishu fault zone, the greater the thickness of the Liguan Formation and the Zhushadong Formation, the greater the number and type of layers with paleoseismic records, and the higher the earthquake intensity reflected by associations of seismic records. This evidence indicates that tectonic taphrogenesis accompanied by strong earthquake events occurred in the Yishu fault zone during the initial stage of the Caledonian Movement, which embodied the break-up of the Sino-Korean Plate along the Paleo-Tanlu fault zone at that time. 相似文献
2.
山东郯城麦坡被命名为典型地震活动断层遗址,其最醒目的标志是郯庐断裂带主干断层(F2)东盘的紫灰色下白垩统逆冲到断层西盘的红棕色第四系之上且界线截然。野外调查和试验分析表明,郯城麦坡第四系于泉组中发育液化砂涌管、液化砂脉、震裂缝充填构造和同沉积断层等地震引发的软沉积物变形构造——地震事件记录。根据软沉积物变形构造的砂质黏土光释光测年分析,推断这些软沉积物变形构造所记录的地震事件属郯庐断裂带主干断层F2在中更新世晚期发生的强构造与地震活动。这些地震事件记录为研究郯庐断裂带新构造运动与地震活动提供了新资料,也丰富了该地震活动断层遗址的内涵。 相似文献
3.
通过野外观察,发现贺兰山中段长城系黄旗口组中发育大量的软沉积变形构造,主要包括液化砂岩墙(脉)、液化水压破碎构造和液化角砾岩、负荷构造、砂岩球和砂岩枕构造、砂岩串珠状构造、包卷层理(液化卷曲变形)、阶梯状微断层等。室内显微镜下观察发现,石英砂岩成分成熟度相对较高,但结构成熟度较低,颗粒多呈次圆状-圆状,粒径大小不等,碎屑颗粒间有泥质混入,泥质多呈不规则脉状穿插在砂岩中,显微镜下也见微逆断层切过纹层。沉积环境分析结果显示,黄旗口组发育脊状波痕、小型交错层理、水平层理、泥裂等沉积构造,指示沉积时水体较浅,沉积环境为滨-浅海。认为黄旗口组中的软沉积变形构造不是由上覆重荷引起,可能为古地震成因。在黄旗口组中第一段下部识别出4个地震事件层,推测黄旗口组沉积时早期地壳运动相对活跃,晚期渐趋稳定。地震岩的出现可能与贺兰裂陷槽拉张-裂陷的构造背景有关。 相似文献
4.
M. G. Kale Ashwin S. Pundalik R. A. Duraiswami N. R. Karmalkar 《Journal of the Geological Society of India》2016,87(2):194-204
Soft sediment deformation structures such as slump folds, clastic dyke, syn-sedimentary faults and convolute bedding are present in the coarse–fine grained yellowish buff coloured sandstone, and interbedded reddish brown fine grained sandstone and yellowish–white siltstone at the Khari River section belonging to Rudramata member of Jhuran Formation (Upper Jurassic), Kutch. These soft sediment deformation structures are confined to lower and middle parts of the section and are invariably underlain as well as overlain by undeformed beds that have restricted lateral and vertical extent and occur in close proximity of Kutch Mainland Fault, thereby suggesting that these structures were formed by seismic activity and therefore represents seismites. 相似文献
5.
2018年5月28日,吉林松原市宁江区毛都站镇牙木吐村发生M5.7级地震(45°16'12″N,124°42'35″E),震源深度13 km,震中位于郯庐断裂带西北侧的扶余/松原—肇东断裂带、第二松花江断裂带和扶余北断裂带交汇处。地震诱发震中距3 km范围内普遍的液化和地表裂缝,给当地居民带来严重灾害。可见液化构造以砂火山为主,其次为液化砂堆、液化砂脉和液化砂席等。液化砂火山又可分为有火山口型砂火山、无火山口型砂火山和无砂型(水)火山。地震液化伴生软沉积物变形构造有变形层理、负载构造和火焰构造、滑塌褶皱、碟状构造和包卷层理等。地震诱发液化砂火山形成过程包括液化层内超孔隙流体压力形成、上覆低渗透层破裂和水、砂喷出地表后砂涌3个阶段。液化和流化砂体在上涌过程中会注入低渗透黏土层形成各种形态的砂脉、砂席和多种类型的变形构造。垂向上地震液化结构可划分为底部松散可液化层、下部液化变形层、上部液化变形层和地表砂火山4层结构。液化层埋深2~5 m,液化层厚度2 m。松原M5.7级地震发震机制为NE-SW(35°~215°)方向挤压应力使断层活跃,推测扶余/松原—肇东断裂是主要的发震断层。松原地震液化构造研究为现代地震活动区和灾害易发区预测提供依据,为地震引发的现代软沉积物变形构造研究提供丰富的素材,兼具将今论古意义,为揭示本世纪以来郯庐断裂带北段进入了一个强断裂和地震活跃阶段提供了最新的实际资料。 相似文献
6.
The Feos Formation of the Nijar Basin comprises sediments deposited during the final stage of the Messinian salinity crisis when the Mediterranean was almost totally isolated. Levels of soft‐sediment deformation structures occur in both conglomeratic alluvial sediments deposited close to faults and the hyposaline Lago Mare facies, a laminated and thin‐bedded succession of whitish chalky marls and intercalated sands alternating with non‐marine coastal plain deposits. Deformation structures in the coarse clastics include funnel‐shaped depressions filled with conglomerate, liquefaction dykes terminating downwards in gravel pockets, soft‐sediment mixing bodies, chaotic intervals and flame structures. Evidence for soft‐sediment deformation in the fine‐grained Lago Mare facies comprises syndepositional faulting and fault‐grading, sandstone dykes, mixed layers, slumping and sliding of sandstone beds, convolute bedding, and pillar and flame structures. The soft‐sediment deformed intervals resemble those ascribed elsewhere to seismic shaking. Moreover, the study area provides the appropriate conditions for the preservation of deformation structures induced by seismicity; such as location in a tectonically active area, variable sediment input to produce heterolithic deposits and an absence of bioturbation. The vertical distribution of soft‐sediment deformation implies frequent seismic shocks, underlining the importance of seismicity in the Betic region during the Late Messinian when the Nijar Basin became separated from the Sorbas Basin to the north. The presence of liquefied gravel injections in the marginal facies indicates strong earthquakes (M ≥ 7). The identification of at least four separate fissured levels within a single Lago Mare interval suggests a recurrence interval for large magnitude earthquakes of the order of millennia, assuming that the cyclicity of the alternating Lago Mare and continental intervals was precession‐controlled. This suggestion is consistent with the present‐day seismic activity in SE Spain. 相似文献
7.
Neogene Paleoseismic Events and the Shanwang Biota’s Burial in the Linqu Area, Shandong Province, China 总被引:2,自引:0,他引:2
Several paleoseismic events are recorded in the Neogene Linqu Group, exposed in the Linqu area, Shandong Province, China. The events were interpreted on the basis of fieldwork and laboratory analysis, which showed the presence of seismites with plastically deformed soft-sediment deformation structures in the Shanwang Formation, and of seismic volcanic rocks in the Yaoshan Formation which show brittle deformation. The earthquake-triggered soft-sediment deformations in the seismites include load structures, ball-and-pillow structures, flame structures, pillow-like beds, boudinage structures, slump folds, syn-depositional faults, veins of liquefied sand, and dikes of liquefied sandy lime-mud. The seismic activity is also reflected in what might be called ‘brittle seismites'; these originated when, under the influence of seismic vibrations, semi-consolidated conglomerate was shattered. Moreover, volcanic activity is related to intense earthquakes that affected basalts intercalated with sand layers; these successions are known as ‘seismic volcanic rocks', which are characterized by veins of liquefied sand intruding the basalts. All above traces of paleoseismic activity were left from one single time span of 4 Ma with active seismicity that took place 14–10 Ma. This time span is known as ‘the Linqu Neogene Paleoseismic Active Period', which is divided into four paleoseismic episodes, which were responses to tectonic extension and basin rifting in this area. It even includes the activity of the Yishu Fault Zone during the Miocene and the Neogene. The ratios of trace elements in the seismites, w(La)/w(Sc) and w(La)/w(Th) are higher than the average value of the upper crust, but w(Th)/w(Sc) is lower; this is geochemical evidence for the basin rifting that resulted in a high sedimentation rate. The intense and frequent paleo-earthquakes are held responsible for the rapid burial of the Shanwang Biota. Secondary earthquake-induced processes(e.g. slumping of a lake shore and the strongly increased lacustrine sedimentation rate) contributed to the rapid burial of the biota. 相似文献
8.
通过对6口钻井岩心的详细观察,在塔里木盆地西南缘的西昆仑山前叶城凹陷中新统克孜洛依组和安居安组发现同沉积的软沉积物变形构造,包括液化砂脉、负载及球枕构造、挤入构造、液化卷曲变形、软泥触变变形、液化底劈、软布丁构造及同沉积微断层等,分布广,且重复出现。经与典型的震积岩比较认为,它们都属于地震成因的沉积构造。分析认为,克孜洛依组和安居安组的震积岩可分为4个发育时期,时间跨度大约为5 Ma (16-11 Ma),第1、2期时间较长、构造活动较强烈,第3、4期时间较短、构造活动较弱。这是首次在塔西南地区新近系陆相地层中发现震积岩,震积岩的发育与中新世西昆仑山阶段性隆升、山前逆冲带多条逆冲断层活动引发的周期性地震活动有关。 相似文献
9.
通过对6口钻井岩心的详细观察,在塔里木盆地西南缘的西昆仑山前叶城凹陷中新统克孜洛依组和安居安组发现同沉积的软沉积物变形构造,包括液化砂脉、负载及球枕构造、挤入构造、液化卷曲变形、软泥触变变形、液化底劈、软布丁构造及同沉积微断层等,分布广,且重复出现。经与典型的震积岩比较认为,它们都属于地震成因的沉积构造。分析认为,克孜洛依组和安居安组的震积岩可分为4个发育时期,时间跨度大约为5 Ma(16—11 Ma),第1、2期时间较长、构造活动较强烈,第3、4期时间较短、构造活动较弱。这是首次在塔西南地区新近系陆相地层中发现震积岩,震积岩的发育与中新世西昆仑山阶段性隆升、山前逆冲带多条逆冲断层活动引发的周期性地震活动有关。 相似文献
10.
Characteristics and dynamics origin of the Lower Cretaceous sill in northern Beilaishi section of Lingshan Island,Shandong Province 
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下载免费PDF全文 Zhong Jian-Hua Sun Ning-Liang Hao Bing Ni Liang-Tian Song Guan-Xian Xue Chun-Qi Mao Cui Shao Zhu-Fu Ge Yu-Zhu Chen Bin Liu Sheng-Xin Peng Chao-Feng Gu Dong-Hui Wang Yong-Qiang Li Cong 《古地理学报》1999,22(4):635-646
A lot of sand dikes are found in the Lower Cretaceous Laiyang Formation in northern Beilaishi section located in the Lingshan Island of Shandong Province. There are two types including bedding sand dikes and unbedding sand dikes based on their relationship with the bedding plane. The bedding sand dikes, which are often associated with soft sedimentary deformation, are mainly developed in the black mudstone of delta front, and their top and bottom interfaces are generally uneven. Based on the characteristics of sand dikes, the physical model and formula of bedding sand dikes under non-seismic condition are established. The relationship between the depth of liquefied sand layer, the emplacement depth and thickness of overlying sediment layer is deduced. It is considered that the depth of liquefied sand layer which forms large sand veins is very deep. This paper is of great significance in studying the origin of sand veins, lake related deposition and basin tectonic movement. 相似文献
11.
山东灵山岛北背来石剖面下白垩统莱阳组发育大量砂脉。根据砂脉与层面的关系,将其分为顺层砂脉和非顺层砂脉。前者主要发育在三角洲前缘黑色泥岩中,顶、底界面普遍参差不齐,常与软沉积变形构造共生。在分析砂脉特征的基础上,建立了非地震条件下顺层砂脉侵入的物理模型和公式,推导出液化砂层的深度与侵位深度和上覆沉积层厚度之间的关系,认为形成大型砂脉的液化砂层深度都很大。该实例对研究砂脉的成因、湖泊相关沉积及盆地构造运动具有重要意义。 相似文献
12.
安徽寿县新元古界球-枕状构造的双重成因与古地震脉动旋回研究 总被引:1,自引:0,他引:1
在安徽寿县新元古界四十里长山组下部粉砂-细砂岩沉积地层中,发育一组具有双重成因的球-枕状软沉积物变形构造.对露头剖面进行实地观测研究显示,变形构造形成于浅海陆棚边缘斜坡带的地震灾变事件层中.由于滑塌砾石落入表层粉砂质软沉积层,在地震震颤应力作用下形成具砾石核心的球-枕状体,又在地震脉动旋回性连续震颤作用下,继续沉陷至下部液化砂层中,形成了具有双重成因的球-枕状软沉积变形构造.它经受了地震、海啸、滑塌、滑褶、震颤晃动沉陷、液化泄水、软塑性紧缩变形等多项复杂的同沉积变形作用过程.显示出该地震事件具有前震阶段、主震阶段、余震阶段等多次震颤脉动旋回性地质作用的地质事件,地震能量强度最大应超过里氏7级,为研究海洋震积岩的软沉积变形及脉动旋回性过程提供了重要的实物资料. 相似文献
13.
地质名山馒头山及其附近早寒武世古地震沉积事件研究 总被引:1,自引:0,他引:1
蜚声中外的地质名山馒头山处在济南南部山区。通过野外调查和室内研究,从馒头山及其附近的青杨村东山、红叶谷、滚球山等地的下寒武统中,鉴别出了许多地震引起的同沉积变形构造(震积岩),主要有卷曲变形(震褶岩)、粒序微断层、滑移构造、滑塌褶曲、负载构造、枕状体、混插沉积、软硅质脉、软硅质层底辟构造、硅藻叠层石变形、沉陷构造、触变楔、布丁、震裂缝、震裂角砾岩及震碎角砾岩等。本文较详细地阐述了它们的特征和形成机理。触变楔属国内首次发现。触变楔和沉陷构造发育在夹软硅质层的白云岩中,其原始沉积物是含软硅质层的白云质灰泥。受强震触动,因软硅质沉积物(SiO2·nH2O)的粘度变小,软硅质层的粘度变小而变得更软,灰泥同时发生液化;在竖向震动力作用下,软硅质层被断开、继而沉陷形成了沉陷构造;沉陷构造向下延伸,结果使断开的硅质层汇聚,形成了触变楔。根据早寒武世古构造板块与地震带的分布,认为这些地震沉积遗迹是早寒武世板内地震记录,推测由古郯庐带的构造活动的响应。这些古地震事件记录的发现,丰富了济南南部山区、尤其是馒头山的地质科学内涵。 相似文献
14.
The early Jurassic soft-sediment deformation occurring within lacustrine sandstone is distributed mainly in the Wuqia region of SW Tianshan Mountains, Xinjiang, western China. Triggered by earthquakes, such deformation was found to occur in three beds overlying the lower Jurassic Kangsu Formation. The main styles of deformation structures comprise load cast, ball-and-pillow, droplet, cusps, homogeneous layer, and liquefied unconformity. The deformation layers reflect a series of three strong earthquakes at the end of early Jurassic in the Wuqia region. The differences of deformation mechanisms undergone might represent the varying magnitudes of the earthquake events. During the early Jurassic, the Wuqia region was located in a pull-apart basin controlled by the significant Talas-Ferghana strike-slip fault in central Asia, which initiated the soft-sediment deformation induced by earthquakes. Our research suggests that the paleoseismic magnitudes could have ranged from Ms 6.5 to 7. 相似文献
15.
鄂尔多斯盆地上三叠统延长组长6 油层组是盆地内中生界最重要的含油层段之一。长6油层组以储集砂体发育、成因类型多样为特征。其中,位于湖盆中部的华池—庆阳地区在长6油层组沉积演化过程中广泛发育了一套与古地震事件有关的液化变形构造砂体。该地区长6油层组砂体中所发育的液化变形构造类型主要包括:负荷及砂球构造、振动液化卷曲变形构造、沙侵蘑菇、液化岩脉、液化摆动构造等。地震事件与重力滑塌所形成的变形构造的区别主要表现在:变形构造的优势方位、是否存在滑动面和是否存在均一化层。与古地震事件有关的液化变形构造砂体和其他成因类型砂体的叠置,主要包括两种类型:一为地震事件成因砂体与正常沉积作用所形成的砂体(三角洲前缘砂体)的叠置;二为地震事件成因砂体与由地震作用导致的三角洲前缘滑塌再搬运而形成的浊积砂体的叠置。最后,建立了不同沉积作用所形成砂体的成因模式。 相似文献
16.
滇中中元古界大龙口组地震灾变事件及地质意义 总被引:4,自引:1,他引:3
软沉积物变形构造是确定古地震存在的关键证据之一。笔者在云南易门地区进行野外露头剖面调 查时, 在滇中新元古代大龙口组中识别出了3个地震事件层, 其中发现大量的水塑性褶皱、液化构造等变形构造, 主要类型包括微褶皱纹层、与液化脉有关的褶皱、与液化层有关的褶皱和受侧向挤压而成的顺层滑动、碟状泄水构造、液化脉、液化沙侵、水压破裂等构造。此外, 臼齿构造与水塑性褶皱、液化构造等地震成因变形构造伴生发育, 并且其脉体形态、大小、优势方位等与后者的分布、变形样式、强度等有一定的对应关系。软沉积物变形构造及臼齿构造的形态、位态及发育层位特征表明, 它们的驱动机制是地震活动。迄今为止, 已发现的滇中地区大龙口组震积岩均分布于罗茨?甘庄断裂的东侧, 指示软沉积物变形、臼齿构造与西缘控盆断裂间存在密切的成因联系。 相似文献
17.
通过对26口井岩心观察,结合区域构造背景,在鄂尔多斯盆地富县探区三叠系延长组中识别出典型的震积岩。该区震积岩代表性沉积构造有液化砂脉、液化卷曲变形、环状层理、负载构造、球枕构造、微断层、微裂缝、震裂岩与震碎角砾岩,其中液化砂脉和液化卷曲变形是地震引起的主要软沉积变形构造。震积岩垂向序列划分为两类:一种以脆性变形为主,自下向上依次为下伏未震层,扰动层,微断层、微裂缝及震裂岩层段,液化卷曲变形层段,震碎角砾岩层段,液化砂脉层段及上覆未震层;另一种以软沉积变形为主,自下至上依次为下伏未震层,环状层段,扰动层,球枕构造及负载构造层段,液化砂脉及液化卷曲变形层,枕状层及上覆未震层。富县探区延长组中的震积岩说明在该盆地晚三叠世存在一个强地震事件活跃期;震积岩中的微裂缝、微断层、震裂岩及液化砂脉可改善储集层物性,同时震碎角砾岩和网状砂脉也是良好的储集层。 相似文献
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山东灵山岛早白垩世复理石软沉积物变形期次解析 总被引:6,自引:0,他引:6
前人对软沉积物变形期次研究多数集中于触发变形的地震事件的周期,而对滑塌体内部软沉积物变形期次研究较少。山东灵山岛早白垩世复理石形成于残余盆地背景,且由于地震频发导致滑塌沉积广泛发育。滑塌沉积层中发育有丰富的软沉积物变形构造,如:同沉积滑塌褶皱、底模构造、剖面X形共轭逆断层、同沉积布丁构造、砂岩层断块及变形团块、微型地垒—地堑组合和叠瓦状倒转紧闭褶皱等。不同类型和不同部位的软沉积物变形构造显示出发育期次不同的特征。本文以灵山岛修船厂附近滑塌沉积层为例,分析软沉积物变形构造的变形机制,并将其发育期次大致分为滑塌前、滑塌中和滑塌后三个阶段。只有部分滑塌中的软沉积物变形构造具有滑塌指向意义,而滑塌前的变形构造不能用来判别滑塌体的搬运方向。 相似文献
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Development of large‐scale seismites in Upper Cretaceous fluvial sandstones in a fault‐proximal setting 下载免费PDF全文
下载免费PDF全文 Michael C. Wizevich Edward L. Simpson Hannah L. Hilbert‐Wolf Sarah E. Tindall 《Sedimentology》2016,63(6):1719-1738
Large‐scale soft‐sediment deformation structures occur within fluvial sandstone bodies of the Upper Cretaceous Wahweap Formation in the Kaiparowits basin, southern Utah, USA. These structures represent an exceptional example of metre‐scale fault‐proximal, seismogenic load structures in nearly homogenous sandstones. The load structures consist of two types: large‐scale load casts and wedge‐shaped load structures. Large‐scale load casts penetrate up to 4·5 m into the underlying sandstone bed. Wedge‐shaped load structures include metre‐scale, parallel, sub‐vertical features and decimetre‐scale features along the periphery of the large‐scale load casts or other wedge‐shaped load structures. Wedge‐shaped load structures contain well‐developed, medial cataclastic shear deformation bands. All load structures contain pervasive well‐defined millimetre‐thick to centimetre‐thick internal laminae, oriented parallel to the outside form of the load structures and asymptotic to deformation bands. Both types of load structures formed because of an inverted density profile, earthquake‐triggered liquefaction and growth of irregularities (a Rayleigh–Taylor instability) on the sandstone–sandstone erosional contact. The internal laminae and deformation bands formed during deformation and clearly demonstrate polyphase deformation, recording a transition from liquefied to hydroplastic to brittle modes of deformation. Decimetre‐scale wedge‐shaped load structures on the edge of the large‐scale load casts probably formed towards the end of a seismic event after the sediment dewatered and increased the frictional contact of grains enough to impart strength to the sands. Metre‐scale wedge‐shaped load structures were created as the tips of downward foundering sediments were driven into fractures, which widened incrementally with seismic pulsation. With each widening of the fracture, gravity and a suction effect would draw additional sediment into the fracture. Superimposed laminae indicate a secondary syndeformational origin for internal laminae, probably by flow‐generated shearing and vibrofluidization mechanisms. Large‐scale and wedge‐shaped load structures, polyphase deformation and secondary laminae may characterize soft‐sediment deformation in certain fault‐proximal settings. 相似文献
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青藏高原东北缘的地质地貌特征与基本构造格架受阿尔金左行走滑断裂、东昆仑左行走滑断裂和海源左行走滑断裂控制,在青藏高原的碰撞造山过程中地震作用贯穿始终.2011至2012年,作者对青藏高原东北缘东起靖远(海原断裂东段)西至昌马盆地(阿尔金断裂东南)的软沉积物变形(震积岩)进行的系统调研表明,青藏高原东北缘祁连山地区从三叠纪至第四纪各时代(侏罗纪以外)的地层中,均发现丰富的古地震纪录(震积岩).代表性震积岩发现点和层位有:靖远宝积山上三叠统、靖远糜滩乡下白垩统、昌马盆地下白垩统以及赤金堡和酒泉磁窑口附近的第四系.主要的震积岩类型有:液化脉、负载、球-枕构造、液化卷曲、层间微断裂等.根据区域地质资料分析,这些震积岩均分布于区域性大断裂附近.本文简单讨论了主要震积岩发现点与其相邻的区域构造(地震)活动之间的关系,根据靖远附近上三叠统普遍发育震积岩,提出海原断裂带的初始活动时间很可能就在晚三叠世,与青藏高原东缘龙门山地区印支期的造山地震同时期. 相似文献