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1.
鲜水河-小江左旋走滑断裂系是调节青藏高原东南部物质向东南挤出的大型边界断裂。云南巧家断裂作为小江断裂带北段,其晚第四纪走滑速率是认识川滇地块东部边界应变调节方式的关键。本文利用无人机航摄和地面激光扫描技术,获取了该断裂段穿过金沙江河谷区红路和蒙姑两处的高分辨率地形数据,恢复出断层错动T2和T3两期阶地陡坎上缘的左旋位错量分别为120±5~128±1 m和193±1~202±1 m。根据T3中次生碳酸盐的AMS-14C法测年结果,结合已有的类似阶地年龄数据,并经气候曲线校正后认为,区域上T2和T3被废弃应分别发生在冰后期和末次盛冰期末期,时间为8.5~11.2 ka BP和18.6~21.4 ka BP。据此估算,小江断裂带巧家段的晚第四纪平均走滑速率为10~13 mm/a。进一步统计分析小江断裂带的晚第四纪走滑速率,发现巧家至宜良以北的段落,总体保持着10~15 mm/a的高走滑速率。但从宜良向南,断裂走滑速率出现了分段递减的特征,至建水以南快速减小到中-北段的近十分之一。小江断裂带中-北段的高走滑速率以及向南的分段式递减现象,反映在宜良以北,小江断裂带的走滑剪切...  相似文献   

2.
昆阳群滑覆构造的控矿作用   总被引:1,自引:4,他引:1  
黄仲权 《云南地质》1997,16(1):40-51
昆阳群滑覆构造的发现,是近十年来康滇地轴,前震旦纪区域成矿规律的新进展,对进一步深化昆阳群的找矿工作具有意义。大量的研究成果表明:下昆阳群(东川系)是在晋宁运动时期因滑覆构造而滑覆于上昆阳群(易门系)之上。矿床由层控到构控,是滑覆构造发展的结果。认识刺穿构造控矿,为在昆阳群内的找矿工作开辟了新的途径。  相似文献   

3.
根据羊街盆地充填特征和构造演化,认为该盆地是在走滑构造活动中,局部伸展拉陷条件下形成的,南北走向的小江断裂左走滑活动,控制了拉分盆地构造的形成和发展,成盆期末又发生了构造反转变形,同时提出了盆地形成和构造反转的地球动力模式。  相似文献   

4.
郯庐断裂带中段第四纪活动及其分段特征   总被引:22,自引:4,他引:22       下载免费PDF全文
郯庐断裂带是中国东部一条岩石圈尺度的构造不连续带。位于江苏和山东培内的郯庐断裂带中段,在新构造运动时期强烈右旋走滑复活,形成地貌形迹显著的走滑活动断裂带。笔者在断层活动形迹的野外调查和观测的基础上,结合TM遥感影像特征解译和地震震源机制解资料,分析了郯庐断裂中段第四纪活动的分段行为特征。位于嘉山-潍坊之间的郯庐断裂带中段可以进一步划分为3段,北段安丘-茅埠亚段,中段汪湖-宿迁亚段,南段宿迁-嘉山亚段,这三段可能分别是独立的地震破裂段。观测表明,新构造变形主要集中在宿迁以北的中、北段,是历史强震的发生段,而南段变形相对较弱,嘉山以南安徽境内郯庐断裂新构造变形更弱。郯庐断裂带新构造走滑变形的走向分段行为是华北地区不同块体新构造运动位移调节的结果。  相似文献   

5.
喀喇昆仑断裂系(KF)位于青藏高原西缘,具有右旋走滑性质,从帕米尔高原至尼泊尔西部延绵1 000多km。长期以来,对于喀喇昆仑断裂活动的起始时间、总位移量、在不同时间尺度上的滑移速率以及断层两端的精确位置等问题,都存在较大争议。为了更好的了解喀喇昆仑断裂现今的运动学特征及其与喜马拉雅—青藏高原陆内碰撞造山带的关系,确定喀喇昆仑断裂的滑移速率历史以及它随时间和/或空间的变化规律是极其重要的。目前研究表明,从现今的大地测量学尺度到几个百万年的地质学尺度,喀喇昆仑断裂走滑速率的变化范围为3~10 mm/yr。本论文对断裂各段的分布情况进行了详细描述,阐述了获得晚第四纪以来走滑速率的方法,回顾了喀喇昆仑断裂在大地测量学、晚第四纪以及地质学等不同时间尺度的走滑速率,并重点讨论了晚第四纪以来断裂的走滑速率。然后,确定了喀喇昆仑断裂北端的精确位置、讨论了其运动学意义和地震灾害效应。鉴于喀喇昆仑断裂具有长期的活动历史、规模巨大、运动速率较高,我们认为即使板块内部小尺度的似连续变形非常发育,板块模型依然可以很好的解释由于印度-亚洲板块碰撞造成的喜马拉雅北部的岩石圈变形。喀喇昆仑断裂、阿尔金断裂、昆仑断裂及龙木错—郭扎错断裂等青藏高原周缘的主要走滑断裂对青藏高原向东的挤出起着重要的调节作用。  相似文献   

6.
那拉提断裂晚第四纪活动及其反映的天山内部构造变形   总被引:3,自引:0,他引:3  
对天山内部大型断裂带晚第四纪以来变形特征的研究是认知天山现今构造变形特征的重要途径。在大比例尺遥感影像解译的基础上,利用野外调查测量、探槽开挖及热释光测年的方法,对那拉提断裂进行了研究。那拉提断裂是一条晚第四纪以来仍有较强活动的大型逆冲左旋走滑断裂带,断裂带宽度巨大,由多条倾向不同的次级断裂组成,分布在南北宽数公里的范围内,这些滑动面是逆冲走滑断裂在地表分散形成的"正花状"构造。晚第四纪期间,那拉提断裂曾多次发生过断错地表的强震事件,是天山内部一条重要的地震构造带。断裂断错了那拉提山前晚第四纪以来的各级地貌面,主要表现为断层陡坎、冲沟水系和地貌面的左旋位移,根据实测陡坎高度和对应地貌面的定年,获得断裂所造成的南北向地壳缩短速率在O.8~1.1mm/a左右,表明天山内部同样存在明显的构造变形。结合目前已有的地震地质研究资料,对天山山前和天山内部吸收的变形量分配进行了讨论,认为天山南北两侧山前对变形量的吸收调节作用并不显著高于天山内部。那拉提断裂具有左旋走滑特征的发现,对于理解天山现今变形方式以及应变分配具有重要的意义。  相似文献   

7.
黄仲权 《云南地质》1995,14(1):69-78
云南中东部前震旦系昆阳群滑覆构造黄仲权(云南省地质矿产局)昆阳群地层正倒之争,至今认识尚有分歧,主张正层观点的同志,认为因民组与下伏地层之间为假整合或不整合接触,其间存在“东川运动”,持倒层观点的同志则认为因民组与下伏地层之间为断层接触,下昆阳群因民...  相似文献   

8.
龙庆兵 《云南地质》2012,(3):404-406
东川播卡金矿,位于金沙江与小江夹持的三角成矿带上,为昆阳群中迄今发现的唯一独立大型金矿。矿区出露中元古界昆阳群浅变质岩系。结合近年来勘探成果,收集矿石品位进行统计学研究,探讨品位与矿化关系。  相似文献   

9.
构造分析表明,哀牢山-红河构造带哀牢山段由3个不同变形域组成,它们可能代表该构造带所经历的3期左行走滑。第一期左行走滑发生于构造带的整个东部高级带,变形体制为拉张性走滑,并形成角闪岩相L型构造岩。第二期走滑形成东部高级带的强变形带,变形体制接近简单剪切并形成绿片岩相L-S型糜棱岩。第三期左行走滑主要发生于西部低级带,变形体制为挤压性走滑,形成一左行逆冲的整体构造格局,并在变形带上形成千糜岩。地质年代学数据证明,三期左行走滑的形成时代分别是:58~56Ma以前、27Ma到22Ma、13~12Ma左右。哀牢山-红河构造带第一期走滑可…  相似文献   

10.
滇西三江地区新生代主要走滑断裂性质及特征   总被引:15,自引:1,他引:14  
滇西三江地区 ,新生代主要活动断裂以左行走滑为主 ,走滑作用均发生于新生代古新世之后。部分断裂到第四纪表现为右行走滑。这些走滑断裂控制了滇西三江地区新生代地块的边界 ,是滇西新生代陆内变形的重要组成部分。  相似文献   

11.
In the Beaujolais-Lyonnais area of the northeastern Massif Central accretion of continental and possibly oceanic crustal fragments occurred between Cambrian (?) and early Carboniferous time. Three distinct lithotectonic units (terranes?) have been recognized. The southern (Lyonnais-) Unit consists of medium- to high-grade metamorphics and includes eclogites; it formed in the early Paleozoic. The Brévenne-Unit to the north contains low- to medium-grade metamorphic mafic and felsic volcanics and subordinate sedimentary rocks which possibly originated during the early Paleozoic until Devonian time, in a sialic back-arc environment or along an active continental margin. The Beaujolais-Unit is represented by volcanics on the south and predominantly shallow marine clastics and carbonates on the north. It developed in a late Devonian or early Carboniferous ensialic marginal basin. The peak of metamorphism in the Lyonnais-unit (HP/HT) was reached in Silurian time. Subsequent NW-SE to E-W oriented convergence produced mylonitic foliation, structural imbrication of the Lyonnais basement rocks with the Brévenne-Unit and SE-vergent folds accompanied by low- to medium-grade metamorphism. Late Visean to Namurian N-S to NW-SE directed N-vergent thrusting produced tectonic imbrication of the metamorphic northern Brévenne-Unit with the nonmetamorphic Beaujolais-Unit. In the southern Brévenne-Unit and in the Lyonnais-Unit updoming along right-lateral high-angle normal faults was followed by emplacement of voluminous granitic plutons of crustal origin. Late Carboniferous to early Permian crustal thinning in the Beaujolais-Lyonnais area was associated with N-S trending left-lateral strike-slip faults and E-W to NE-SW trending right-lateral strike-slip faults. Basins that developed along these faults contain continental red beds.  相似文献   

12.
Abstract

Variscan convergence produced two-sided (bivergent) crustal-scale thrusting in the Vosges Mountains. In the northern Vosges the central polymetamorphic crystallines were thrust to the NW over Cambrian to Silurian low-grade and very low-grade metamorphic clastics. Synorogenic upper Devonian - lower Carboniferous turbidites and volcanics were folded into NW-vergent structures which display SE-dipping slaty cleavage. The entire sequence shows increasing metamorphism and deformation from NW to SE. Late right-lateral strike-slip faulting along the Lalaye-Lubine fault zone outlasted thrusting. In the southern Vosges a lower Carboniferous turbiditic basin that was fringed on the south by a volcanic arc was tectonically shortened by south-directed tectonic imbrication of slivers of varied rocks including ultramafics, gneissic basement, and synorogenic elastics. The increasing degree of deformation and metamorphism towards the north suggests a thrust contact with the polymetamorphic gneisses of the central Vosges. The final stages of Variscan convergence were accompanied by voluminous granitic plutonism and by faulting along NNE-SSW and E-W-trending strike-slip faults. The tectonic evolution reflects progressive Variscan closure of a previously extended basinal crust in a high-temperature regime.  相似文献   

13.
Role of strike-slip faults in the Betic-Rifian orogeny   总被引:1,自引:0,他引:1  
A new model for the Betic-Rifian orogeny of the Western Mediterranean (Spain and North Africa) is proposed in which four strike-slip faults play an important role; the faults are not of the same age. Two faults, the left-lateral Jebha fault to the south (in Morocco and principally in the Mediterranean Sea) and the right-lateral North Betic fault (southern Spain) to the north, define the boundaries of the Alboran block (Betic and Rifian internal zones). Final movement along these faults was during the Burdigalian time. Two other faults, the left-lateral Nekor fault (North Africa) to the south of the Jebha fault and the right-lateral Crevillente fault, somewhat to the north of the North Betic fault, define a larger Alboran block (including part of the Betic and Rifian external zones) that was present during the Tortonian.The following sequence of events is proposed:
1. (a) During the Eocene and Oligocene, the African and European plates converged in a N-S sense causing the breakup and overthrusting of the Betic, Rifian and Kabyle internal zones and then the movement towards the WSW of the Alboran block by slip along the Jebha and North Betic faults.
2. (b) By the end of Burdigalian time, movement along the Jebha and North Betic faults ceased.
3. (c) With continued N-S convergence, the Nekor and Crevillente faults, which bound a larger Alboran block, were formed during the mid- and late Miocene. The Arc of Gibraltar (the zone lying between the four major faults) seems to be a result of WSW motion of a crustal block being thrust over external zones.
The model proposed adds to the earlier idea that tectogenesis proceeds from the interior to the exterior of an erogenic belt. In the Betic-Rifian orogeny major strike-slip fracture zones shifted to the exterior of the orogenic belt as the orogeny progressed in order to relieve the stress caused by locking of the more internal faults.  相似文献   

14.
淮北夹沟—桃山集地区推覆构造研究   总被引:1,自引:0,他引:1  
本区存在大型中生代推覆构造,所有震旦纪—古生代的沉积岩层都卷入了褶皱和断裂,构造推覆发生在较高构造部位,属脆性变形域,以台阶状逆断层和断层相关褶皱为特征。区内存在若干推覆构造,每个岩片均可分为上盘、下盘和滑动层系三部分,共查明8个滑动岩系。是一种发生在早中生代的盖层推覆,无根褶皱,也是徐宿地区最重要的控煤构造。最后对推覆构造的地球动力学机制进行了讨论。  相似文献   

15.
Two major faults, over 32 km long and 6.4 km apart, truncate or overprint most previous folds and faults as they trend more northerly than the previous N25°E to N40°E fold trends. The faults were imposed as the last event in a region undergoing sequential counter-clockwise generation of tectonic structures. The western Big Cove anticline has an early NW verging thrust fault that emplaces resistant rocks on its NW limb. A 16 km overprint by the Cove Fault is manifested as 30 small northeast striking right-lateral strike-slip faults. This suggests major left-lateral strike-slip separation on the Cove Fault, but steep, dip-slip separation also occurs. From south to north the Cove Fault passes from SE dipping beds within the Big Cove anticline, to the vertical beds of the NW limb. Then it crosses four extended, separated, Tuscarora blocks along the ridge, brings Cambro-Ordovician carbonates against Devonian beds, and initiates the zone of overprinted right-lateral faults. Finally, it deflects the Lat 40°N fault zone as it crosses to the next major anticline to the northwest. To the east, the major Path Valley Fault rotates and overprints the earlier Carrick Valley thrust. The Path Valley Fault and Cove Fault may be Mesozoic in age, based upon fault fabrics and overprinting on the east–west Lat 40°N faults.  相似文献   

16.
The north–south trending Xiaojiang fault system accommodates ~10–12 mm/yr sinistral motions between southeastern Tibet and south China. In the south segment, the fault system composes mainly of four parallel strike-slip faults, namely from west to east, the Luzhijiang fault, the Yimen fault, the Puduhe fault, and the Xiaojiang fault. Geological and Seismological observations have shown that these strike-slip faults are all of active, while the slip rates of the Luzhijiang, the Yimen, and the Puduhe faults are much less than that of the Xiaojiang fault. We use finite element modeling to explore the mechanical relation between crustal rheology, effective fault friction and long-term slip rate partitioning among the four parallel faults. The individual faults are simplified as vertical discontinuities embedded in the crust as geophysical explorations have predicted. A large number of models are tested, associating with variations of the crustal rheolohy and the effective fault friction of individual faults. Result shows that if crust bounding the faults trends to behave like rigid blocks and decoupled mechanically from underlying layer, the modeled result is hard to approximate slip rates of the individual faults. To better fit slip rates of the individual faults, viscous deformation of the lower crust should be included. With a heterogeneously viscous lower-crust model that is built upon thermal structure of the heat flow data, associating with relatively low effective friction of the Xiaojiang fault, the modeled results fit the geological slip rates well, with ~1–1.5 mm/yr for the Luzhijiang, the Yimen and the Puduhe faults, and ~6–6.5 mm/yr for the Xiaojiang fault. Thus, in the southward movement of the Tibetan plateau around the eastern Himalayan syntaxis, slip partitioning among the Xiaojiang fault system should be related to viscous deformation of the lower crust associated with different strength of the individual faults, highlighting that deformation of this fault system is coupled mechanically between the frictional upper crust and the viscous lower crust.  相似文献   

17.
吴珍汉  陆露  赵珍  胡道功  张耀玲 《地质通报》2016,35(7):1056-1068
通过详细的野外观测结合地质填图资料,在聂荣变质杂岩及邻区厘定大规模逆冲推覆构造,不同时代的逆冲岩席自北—北东向南—南西逆冲推覆于上白垩统红层及下伏岩石地层之上,形成大量逆冲断层、滑脱构造、飞来峰、构造窗和褶皱构造。逆冲推覆构造运动导致侏罗纪蛇绿混杂岩、石炭系—二叠系构造层、古生界浅变质岩、变质基底之间发生拆离滑脱,在聂荣变质杂岩内部形成韧性剪切带和高角度斜冲断层。在唐古拉山口南侧形成北西—南东向土门-托纠-杂色右旋走滑断裂,走滑断裂末端转换为近东西向逆冲推覆构造。聂荣变质杂岩顶部逆冲推覆叠加滑覆,导致侏罗系混杂堆积和古生界沉积盖层向南西—西向运移86~110km,在那曲-巴尔达-班戈北形成近东西向长透镜状懂错蛇绿混杂岩逆冲岩席,沿缓倾斜断层发育向西倾斜的构造片理、摩擦镜面和近东西走向的矿物线理。裂变径迹测年表明,聂荣变质杂岩及邻区逆冲推覆及构造隆升时代主要为早白垩世晚期—晚白垩世早期(111±5~91±5Ma)、晚白垩世晚期(89±6~69±5Ma)、古新世晚期—始新世早期(55±4~44±2Ma),估算构造隆升视速率为0.10~0.69mm/a,部分断层逆冲推覆及构造隆升延续至古近纪晚期。综合各类观测资料,建立不同时期构造模式,探讨聂荣变质杂岩及邻区逆冲推覆构造演化过程及形成机理。  相似文献   

18.
内蒙古狼山地区断裂构造十分复杂,主要发育有南北、东西、北东和北西走向的断裂构造.从南北向断裂的几何形态、运动性质、构造应力场特征入手进行研究,结合野外实地调查与测量,运用极射赤平投影方法,求出构造应力场的主应力轴方位,进而对本区的构造演化进行了探讨.初步认为,研究区发育的近南北向断裂至少受到过两期构造应力场的作用,第一期是在晚二叠世,由于华北克拉通向北、西伯利亚板块向南活动而形成碰撞拼贴运动所产生的近南北向近水平挤压构造应力场,此时构造应力场的主应力轴σ1为北偏东10°左右,向北倾伏,倾伏角为15°~20°.在这一期构造应力场的作用下,狼山地区发育了一套破裂系统,它们分别表现为近东西走向的挤压构造带和逆断层、近北东走向的以左行为主的走滑断层、近北西走向的以右行为主的走滑断层以及近南北走向的张性断层.这些早期的断裂系统也制约着该区域后来的构造活动,第二期构造应力场是侏罗纪以来古太平洋板块向亚洲大陆俯冲而产生的.此构造应力场的主应力轴σ1为北西-南东向,倾伏向为150°左右,倾伏角为10°~20°.第二期构造应力场的作用,使早期南北向断裂由原来的张性破裂面转为左行走滑,早期东西向断裂转为右行走滑,早期北东向左行滑动面转为压性面和褶皱轴方向,而早期的北西向破裂面则转为张性破裂性质.   相似文献   

19.
西秦岭北缘构造带是青藏高原东北部一条重要的北西西向构造带,它由一组近于平行的断裂组成,中部发育活动的左旋走滑断裂,两侧发育向外扩展的多条逆冲断裂,剖面上呈向北偏心的花状构造。自古近纪中晚期以来西秦岭北缘构造带成为青藏高原早期的北东边界,其新生代构造活动控制了两侧的新生代盆地沉积演化和构造变形。在构造带南侧滩歌盆地自古近纪中晚期堆积了一套厚度较大的砾岩和砂岩地层,但未见新近纪地层;沿西秦岭北缘构造带中部在中新世形成具有剪切拉张性质的武山—漳县盆地,沉积了厚度超过千米的砾岩、砂岩和泥岩序列;在构造带北侧陇西盆地从古近纪中晚期至中新世晚期一直处于前陆盆地发育阶段,沉积了连续的新生代地层序列。在中新世晚期以后,整个构造带遭受挤压变形,逆冲活动强烈,中部的武山—漳县盆地和北侧的陇西盆地相继消亡,新生代地层发生强烈构造变形,位于构造带南侧的滩歌盆地也同时发生轻微缩短变形。第四纪晚期以来西秦岭北缘构造带断裂活动主要表现为左旋走滑运动方式,而逆冲断裂活动则迁移到了北东方向的海原断裂和香山—天景山断裂(又称中卫—同心断裂)等构造带之上,实现了大区域范围内的应变分配。  相似文献   

20.
青海拉鸡山:一个多阶段抬升的构造窗   总被引:18,自引:2,他引:16       下载免费PDF全文
王二七  张旗 《地质科学》2000,35(4):493-500
拉鸡山断裂带位于祁连山褶皱带内,呈北西-南东向延伸.后者构成青藏高原的东北边缘,由三个主要构造单元组成:北部是一条早古生代的板块缝合带,中部是一个元古代的结晶地块,南部由一套晚古生代到三叠纪的被动大陆边缘沉积物组成.对拉鸡山及其邻区的构造研究结果表明,祁连山褶皱带在古生代加里东期发生过大规模的缩短,北祁连的早古生代蛇绿岩和岛弧火山岩沿祁连山中央冲断层向南,陆内俯冲到中祁连元古界变质杂岩之下.由于发生在晚古生代和晚中生代的陆内变形,位于中祁连之下的北祁连的蛇绿岩和岛弧火山岩发生褶皱,并被抬升到地表.到新生代,由于印度板块和欧亚大陆之间的碰撞和陆内汇聚作用,拉鸡山断裂带再次活动,这些下古生界蛇绿岩和岛弧火山岩通过冲断作用快速抬升,将中祁连地块一分为二.因此,拉鸡山是一个抬升的构造窗,不是一个中祁连结晶地块中的早古生代大陆裂谷.  相似文献   

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