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1.
最近发现的蛇绿岩指示中、越交界区发育一条古特提斯的地缝合线,分开了越北地块和华南次大陆。滇桂交界处的印支期前陆褶皱冲断带为古特提斯造山带提供了进一步的证据。本文讨论了冲断-推覆构造的特征,提出该地的古特提斯洋具复杂的大陆边缘,沿北西走向段先发生碰撞,之后沿北东东向段发生碰撞,北西向断裂则发生右行的走滑(或右行斜冲)活动。冲断作用是向北或北东扩展的,仰冲的增生杂岩可能掩埋了大部分磨拉石沉积,造成了磨拉石不发育的假象。 相似文献
2.
塔里木盆地西部的吐木休克断裂带是中央隆起(前身是晋宁期碰撞造山带)的次级单元巴楚断隆与北部坳陷的次级单元阿瓦提凹陷之间的分界。本文以大量的地质和地球物理证据,证明它是一条内部结构复杂且切穿地壳的深断裂。结合区域构造演化恢复了断裂发育史,指出它经历过三期重大的冲断活动,分别发生在加里东期、海西期和新近纪。新近纪的冲断与巴楚断隆的南界断裂带有相同的构造样式,可分为两幕:中新世的冲断受制于南天山前陆冲断带的向南扩展,更新世的冲断主要受制于西昆仑前陆冲断带的向北扩展。吐木休克断裂带的东西走向段和北西走向段的构造特征尚有若干差异,前者在加里东期活动较强,反映了构造的继承性;北西走向段则是加里东期出现的新生构造,在海西期进一步发展,更新世时因被卷入西昆仑的前陆冲断作用,表现出强烈而复杂的变形。 相似文献
3.
华北板块南部豫西褶皱冲断带构造地球化学研究 总被引:2,自引:1,他引:1
豫西褶皱冲断带是华北板块南部具有特色的北西向延展的巨型褶皱冲断带的一部分。构造地球化学研究揭示了该带具如下规律性。1)各种化学成份(SiO2、Al2O3、Fe2O3、MgO、CaO、FeO、灼失量以及TiO2、K2O和Na2O等)呈现有规律的递增、递减或峰值变化,说明南、北支冲断带均是在挤压应力作用下形成的压性断裂,而且处于演化阶段的晚期。2)从外围原岩到断裂带中心,Fe2O3的含量逐渐增高,FeO的含量逐渐降低,说明南、北支冲断带经历了封闭性还原环境系统到相对开放性氧化环境系统的过程。3)动热变质强度在南、北支冲断带存在差异:南支强烈,导致新生应力矿物的形成,为断裂的远距离相对逆冲运动增添了塑性润滑层;北支相对较弱,新生应力矿物稀少,反应了逆冲强度较弱。 相似文献
4.
燕山运动可分为2类:一是印支期拼合大陆外侧的新特提斯洋消减及嗣后的碰撞引起的内硅镁质的造山运动,形成滇藏、东南沿海、苏鲁和蒙古-鄂霍次克造山带;二是拼合大陆内部因古缝合线或古深断裂活化发生的内硅铝质的(陆内的)造山运动,前者如川黔湘-鄂南、湘赣闽和阴山-燕山褶皱-冲断系,后者如川南-滇东和中扬子褶皱-冲断系及江南冲断-推覆带.文章剖析了中国大陆晚中生代活化的时空特征,指出陆内造山带及冲断带的发育受制于东亚燕山期山系的形成,简述了研究构造-岩浆活化对内生矿产和油气资源评价的指导意义. 相似文献
5.
Multistage deformation events have occurred in the northeastern Jiangshao Fault (Suture) Belt. The earliest two are ductile deformation events. The first is the ca. 820 Ma top-to-the-northwest ductile thrusting, which directly resulted from the collision between the Cathaysia Old Land and the Chencai Arc (?) during the Late Neoproterozoic, and the Jiangnan Orogenic Belt that formed as the ocean closed between the Yangtze Plate and the jointed Cathaysia Old Land and the Chencai Arc due to continuous compression. The second is the ductile left-lateral strike-slipping that occurred in the latest Early Paleozoic. Since the Jinning period, all deformation events represent the reactivation or inversion of intraplate structures due to the collisions between the North China and Yangtze plates during the Triassic and between the Philippine Sea and Eurasian plates during the Cenozoic. In the Triassic, brittle right-lateral strike-slipping and subsequent top-to-the south thrusting occurred along the whole northeastern Jiangshao Fault Zone because of the collision between the North China and Yangtze plates. In the Late Mesozoic, regional extension took place across southeastern China. In the Cenozoic, the collision between the Philippine Sea and Eurasian plates resulted in brittle thrusts along the whole Jiangnan Old land in the Miocene. The Jiangshao Fault Belt is a weak zone in the crust with long history, and its reactivation is one of important characteristics of the deformation in South China; however, late-stage deformation events did not occur beyond the Jiangnan Old Land and most of them are parallel to the strike of the Old Land, which is similar to the Cenozoic deformation in Central Asia. In addition, the Jiangnan old Land is not a collisional boundary between the Yangtze Plate and Cathaysia Old Land in the Triassic. 相似文献
6.
库车前陆褶皱冲断带自北向南可分为基底冲断带、箱状背斜带、梳状背斜带和挠曲褶皱带,东西方向上可分为西段、中段和东段。本文分段叙述了各变形带的变形特征,指出东段箱状背斜带不发育,秋里塔格山脉(构造带)东延未进入东段,因而总体看自西向东变形强度减弱,地形上趋于夷平。该冲断带的形成经历了两次重大的冲断活动,分别发生在中新世和早(-中)更新世;相应地,该带可分为南、北两个"盆""山"亚系统,两者在地层记录、变形期次和变形机制上尚有若干差异。库车前陆褶皱冲断带的发育,除了受南天山的冲断和向南扩展引起的近南北向挤压应力场控制外,还受到基底断裂在新生代的活化和膏盐层底辟的制约,前者以近北西向的构造变换带及其共轭发育的近北东向断层最为重要,后者既控制了秋里塔格山脉的形成(主要受垂直的挤压应力场作用),也在库车前陆褶皱冲断带东西方向的变形分段中起了重要作用。文章还讨论了变形与地貌发育的关系和在油气勘探中的指导意义。 相似文献
7.
东天山北部哈尔里克晚古生代推覆构造与岩浆作用研究 总被引:10,自引:1,他引:10
东天山北部哈尔里地荀晚古生代火山弧,石炭纪末发生区域性逆冲推覆作用,研究表明,在晚石炭世碰撞造山过程中,哈尔里克地区国三个不同阶段屿性质的构造变形,变民岩浆作用;即346-312Ma从南向北的推覆作用,对应于这期从北向南的俯冲事件;312-260Ma从北向南的推覆作用,对应于晚石炭世的陆-陆碰撞陆内变形事件:260-230Ma洞东西方向的右旋走滑作用,对应于造山期末发生在边界断裂附近的变形事件,大 相似文献
8.
鄂尔多斯西缘北段是一个自中生代末以来形成的、结晶基底和早古生代大陆边缘沉积盖层同时卷入的巨型陆缘逆冲推覆构造体系。根据区域地层发育、变形岩石属性、冲断层几何学以及它们与联冲断层的关系,大体上可以分为不同形成阶段的3个冲断层构造组合,包括9个次级构造单元(B1—B7,BN,BS)。受冲断层运动自西向东的一致推进,整体呈现一个局部被近东西走向联冲断层切错、向东凸出的弧形:前端为陆缘褶皱冲断带;中部表现为一系列"原地"或"异地"推覆体和冲断席,发育低角度滑脱层和双冲构造;后部又被最晚期的冲断体叠置。侏罗-白垩纪为逆冲推覆构造的主要发展阶段,经历了3期主要的冲断层作用。第Ⅰ期发生在侏罗纪末,沿阿拉善—华北两类不同性质结晶基底之间的主滑脱面发生大规模冲断层作用,形成桌子山—岗德尔山褶皱冲断带。第Ⅱ期冲断层作用的持续位移,形成了具有上、下两个构造层的石嘴山—尖山大型异地推覆体,主滑脱面为石炭纪煤系地层,其中发育典型的双冲构造。新生代(距今65Ma)以来,印度—欧亚板块挤压碰撞和青藏高原早期向北推挤,加剧了鄂尔多斯西缘逆冲推覆构造的进一步发育,第Ⅲ期冲断层作用在东部陆缘褶皱冲断带形成了苏海图反冲构造的同时,在西部将异地推覆体下部的奥陶系再次推至地表。第Ⅰ期和第Ⅱ期冲断层作用累计位移幅度可能达到60~80km,第Ⅲ期冲断层作用的位移幅度为8km。相邻冲断席之间位移矢量的差异,通过近东西走向的联冲断层得到了调整。 相似文献
9.
The Daba Mountains define the southern margin of the East Qinling orogenic belt, and form the boundary of the Sichuan basin
in the north and northeast. The Daba Mountains can be divided into two structural belts by the NW-striking Chengkou fault,
namely the northern Dabashan thrust-nappe belt and the southern Dabashan foreland fold-and-thrust belt. The southern Dabashan
fold-and-thrust belt is a southwestward extruding thin-skinned thrust wedge, showing obvious belted change in deformation
style and deformation intensity along the dip direction, and can be divided further into three sub-belts, i.e. the imbricate
thrust sub-belt characterized by imbricate stepped-thrust sheets, the thrust-fold sub-belt characterized by the combination
of the equally-developed thrusts and related folds, and the detachment-fold sub-belt characterized by box folds and closed
overturned-isoclinal folds on the outcrops. Several kinds of structures have been recognized or inferred, including imbricate
thrust system, passive-roof duplex (triangle zone), fault-related folds, back-thrust system and pop-up structure. The NE-SW
compressive stress from the Qinling orogenic belt and detachment layers in the covering strata are the two most important
determinants of deformation style. After the collision between the North China block and Yangtze block at the end of the Middle
Triassic, the northward intracontinental subduction along the southern edge of the Qinling orogenic belt was initiated, which
led to the corresponding southward thrusting in the upper crust. The thrusting propagated towards the foreland through the
Jurassic and extended to the southernmost part of the southern Daba Mountains around the end of the Early Cretaceous, with
thrusting deformation to be preferentially developed along major detachment layers and progressing upwards from the Lower
Sinian through the Lower Cambrian and Silurian to Middle-Lower Triassic.
Translated from Geotectonica et Metallogenia, 2006, 30(3): 294–304 [译自: 大地构造与成矿学] 相似文献
10.
古深断裂活化与燕山期陆内造山运动——以川南—滇东和中扬子褶皱-冲断系为例 总被引:18,自引:1,他引:18
吴根耀 《大地构造与成矿学》2001,25(3):246-253
基于花岗岩侵入、构造变形和磨拉石建造(或长期隆起)提出川南—滇东和中扬子地区侏罗-白垩纪时发生造山事件。分析了造山带的内部结构、范围和动力机制,发现川南—滇东褶皱-冲断系为北东向及近南北向断裂控制发育,其西以滇中古陆块与燕山期消减型造山带相隔;中扬子褶皱-冲断系为北西向断裂控制发育,向南西扩展时止于黄陵古陆核。两者均属印支运动后出现的中国—东南亚次大陆外侧的新特提斯洋消减,及嗣后的碰撞激活拼合大陆内的古深断裂活化而发生的燕山期陆内造山运动,构成中国大地构造演化的一个显著特色。 相似文献
11.
把柯坪断隆“还原”为塔里木板块的一部分,重塑了它与北邻的乌什地区和南邻的巴楚地区古生代“分分”“合合”的演化史,得到以下重要认识。(1)奥陶纪在乌什、柯坪和巴楚一间房地区发育以东西向的古吐木休克断层为南界的台盆;该断层的西段后期被柯坪塔格断裂(东西走向段)迁就利用,中—东段后期因被肢解而“消失”。(2)柯坪地区最西部中泥盆世已有海相沉积,晚泥盆世—石炭纪海侵不断向东扩展;因南天山洋的消减在柯坪—阿克苏—库车一线形成横贯塔里木北缘的石炭纪隆起带,使得塔里木中—北部上泥盆统—石炭系的沉积相有清楚的空间展布规律。(3)据同位素年龄值将柯坪地区东段玄武岩的时代更正为早二叠世,强烈火成活动造成的热隆升使该地区早二叠世即出现陆相沉积;塔西北的其他地区石炭纪末—早二叠世普遍发生海侵。(4)从与南天山洋和西昆仑洋耦合演化的角度简要探讨了塔里木西北地区古生代的成盆动力学背景,认为古生代有东西向、北西向及北东向的控盆和控相断裂发育并总结了其后期演化的特点。 相似文献
12.
LIU Hailing SUN Yan GUO Lingzhi SHU Liangshu YANG Shukang ZHOU Di ZHANG YixiangEarth Science Department Nanjing University Nanjing Open Lab of Geology Palaeoenvironment of Marginal Seas South China Sea Institute of Oceanology Academia Sini Guangzhou 《《地质学报》英文版》1999,73(4):452-463
The Nansha ultra-crust layer-block is confined by ultra-crustal boundary faults of distinctive features, bordering the Kangtai-Shuangzi-Xiongnan extensional faulted zone on the north, the Baxian-Baram-Yoca-Cuyo nappe faulted zone on the south, the Wan'an-Natuna strike-slip tensional faulted zone on the west and the Mondoro-Panay strike-slip compressive faulted zone on the east. These faults take the top of the Nansha asthenosphere as their common detachmental surface. The Cenozoic dynamic process of the ultra-crust layer-block can be divided into four stages: K2-E21, during which the northern boundary faults extended, this ultra-crust layer-block was separated from the South China-Indosinian continental margin, the Palaeo-South China Sea subducted southwards and the Sibu accretion wedge was formed; E22-E31, during which the Southwest sub-sea basin extended and orogeny was active due to the collision of the Sibu accretion wedge; E32-N11, during which the central sub-sea basin extended, the Miri accretion 相似文献
13.
南海北部发育了一系列的新生代盆地,该类盆地记录了新生代早期南海北缘应力场顺时针旋转过程,西江凹陷位于珠江口盆地内,记录了这一过程.利用丰富的二维、三维地震资料,针对西江凹陷断裂体系的演化过程进行了研究.凹陷基底在新生代之前作为华南陆缘的一部分,经历了多期次复杂的构造演化,形成了NE和NW两个方向的基底断层; 早-中始新世,NE向先存断裂优先复活,由太平洋板块俯冲后撤在研究区产生的NW-SE向伸展应力所致; 晚始新世-早渐新世,近EW向断裂大量发育,NW向断裂以走滑方式复活,该时期断层演化主要受太平洋俯冲方向的变化、印度板块碰撞及古南海的拖拽导致该地区应力场顺时针转变为近NS向的影响; 进一步通过物理模拟实验验证了断裂的演化机制,NE向先存断裂施加NS向拉张应力,先存NE向断裂局部复活,大量近EW向断层沿着NE向先存断裂展布位置形成,剖面上表现为正断层; NW向断裂在NS向拉张应力条件下,可见NW向走滑大量复活,局部发育少量的近EW向断裂.该研究对南海北缘新生代应力转变过程研究具有重要的借鉴意义. 相似文献
14.
龙门山南段构造变形及应力序列 总被引:2,自引:2,他引:0
2008年5月12日的汶川大地震表明龙门山断裂带仍然是一个构造活动带,为达到防震减灾的目的,对龙门山进行深入研究显得非常必要。作者通过龙门山南段的怀远和雅安两条实测构造地质剖面,应用传统的构造解析法,结合构造带的分带讨论思想,对野外实测的褶皱、节理和断层等构造变形要素进行综合分析,确定出各构造带的变形和应力序列。中央断裂带构造变形次数达10次以上,其中以NW-SE向逆冲最多,部分为左旋逆冲或右旋逆冲。滑覆体构造变形序列达5次左右。前山断裂带的构造变形序列较少,约5次以上。 相似文献
15.
郯庐断裂带的伸展活动发生于晚白垩世至早第三纪,控制形成了-系列断陷盆地.安徽段的断陷出现在晚白垩世至早第三纪,苏鲁段仅发生于晚白垩世,而山东潍坊以北的断陷皆出现在早第三纪,显示了伸展活动南早北晚的迁移规律.这一伸展活动叠加在前期走滑构造之上,呈现为幕式的正断层运动.现可鉴别出断裂带的伸展活动经历过5次显著的断陷事件.郯庐断裂带的伸展构造多不同于典型的裂谷.它与中国东部同期一系列伸展盆地形成的动力学背景一致,是太平洋板块向西正面高角度俯冲下、中国东部岩石圈上拱中出现的巨型伸展构造. 相似文献
16.
塔里木西北缘北西向古隆起的存在及油气勘探前景 总被引:8,自引:0,他引:8
塔里木西北缘柯坪逆冲带为天山和塔里木盆地在中新生代盆山耦合过程中形成,为印度板块和欧亚板块碰撞影响最显的地区之一.柯坪地区存在两种方向的构造,即NE向逆冲推覆构造和NW向的走滑构造及潜伏构造.在NE逆冲带的走向上,推覆构造变形样式从南向北,以寒武纪蒸发岩作为主要的滑动拆离面——薄皮逆冲,到北部地区卷入元古界结晶基底的逆冲推覆构造.根据变形时代分析,NW向构造为长期发育的巴楚隆起,形成时代为中生代早期,近NE向的柯坪逆冲构造形成于新生代,同时也形成NW向的走滑构造.早期形成的巴楚隆起构造南北两侧发育的阿瓦提盆地和塔里木盆地西南为生油区,巴楚隆起为油气运移指向区. 相似文献
17.
贺兰山北段结晶基底中保留有不同程度的韧性变形剪切带.通过详细的野外考察和室内显微构造研究,明确贺兰山北段的古元古代基底经历了4期韧性剪切变形:(1)早期顺层剪切带表现出中下部地壳层次的变形样式,运动学特征一致反映了近南北向的伸展;(2)麻粒岩相变质的糜棱片麻岩剪切带为南北向挤压的产物,导致经历高温高压变质的孔兹岩系从下地壳向中部地壳抬升;(3)高级糜棱岩(低角闪岩相-高绿片岩相)剪切带涉及的2次伸展运动(北西-南东向伸展和北东-南西向伸展)使得基底进一步向中部地壳抬升,可能发生在形成孔兹岩系的同一造山运动的晚期伸展垮塌过程中;(4)北东-近东西向左行逆冲绿片岩相糜棱岩剪切带则将结晶基底抬升到中上部地壳层次,其运动学特征与高级糜棱岩剪切带明显不同,可能是另一造山运动的产物.贺兰山北段与大青山-乌拉山地区有相似的韧性剪切带和构造变形,表明华北克拉通西部北缘存在一致的近东西走向的古元古代碰撞造山运动以及随后另一造山运动的改造. 相似文献
18.
西秦岭北缘断裂带漳县—车厂断层的结构及构造演化 总被引:2,自引:0,他引:2
西秦岭北缘断裂带是青藏高原东北缘主要构造边界断裂带之一, 其构造变形历史和运动学特征研究可以为西秦岭中新生代构造过程和印度—亚洲板块碰撞动力学的远程构造响应提供约束。漳县—车厂断层是西秦岭北缘断裂带的重要组成部分, 通过对工程开挖所揭露的断层带内丰富构造现象的观测与分析, 至少可以辨别出3期性质、规模、运动学特征各异的构造变形事件。第一期为向北北东陡倾的伸展正断层作用; 第二期为向南南西倾的由南向北的逆冲断层作用; 第三期为沿近直立断面左旋走滑作用。尽管每期变形的时代尚缺乏构造物质测年的约束, 但根据其与白垩系、新近系的空间关系以及已有第四纪以来沿断层地貌位错和相关沉积物测年以及地震活动历史研究对断层左旋走滑作用的时代约束, 认为第一期伸展正断层作用起始于早白垩纪, 可能持续到渐新世; 第二期向北逆冲断层作用起始于渐新世初, 可能持续到早第四纪; 第三期左旋走滑断层作用起始于晚第四纪, 持续至今。漳县—车厂断层是一条典型的多期变形的脆性断层, 其变形特征与历史, 如果代表了西秦岭北缘断裂带特征与构造变形过程, 那么现今西秦岭北缘断裂带仅是起始于早白垩纪、新生的脆性断裂带, 并非是印支主造山期大规模韧性逆冲推覆作用的边界断层。 相似文献
19.
与陆-陆碰撞作用相关的盆-山构造数值模拟 总被引:2,自引:0,他引:2
陆-陆碰撞作用是导致大陆岩石圈各种地质作用发生的最重要的驱动机制,如何识别和标定陆-陆碰撞作用,特别是其四维时空演化,是地学界长期以来关注和研究的重点。陆-陆碰撞作用的主要表现形式为下伏地块沿陆内俯冲带的强烈下插(俯冲)和上覆地块沿陆内俯冲带的不断仰冲(逆冲扩展),在垂直俯冲带方向出现盆-山相间的构造格局和MOHO的弯曲、错断。通过数值模拟计算,详细论述了在仰冲(逆冲扩展)和俯冲作用过程中,盆地坳陷、山体抬升、MOHO上抬和下坳等各种位移量和位移速率之间的耦合关系及盆地中心的迁移规律。说明它们有可能成为判断或标定陆-陆碰撞作用的一种标志或尺度。 相似文献
20.
The Mid-Cretaceous Verkhoyansk-Chukchi Tectonic Domain is characterized by fanlike diverging systems of tectonic sheets and imbricate thrusts verging to the two framing continents. The Verkhoyansk and New Siberian-Chukchi-Brooks Fold-Thrust systems of the deformed margins of the Siberian and Hyperborean-North American continents, respectively, adjoin the inner Verkhoyansk-Kolyma Collision System. The above fold-thrust systems include the Verkhoyansk and Colville foredeeps coeval with thrusting. The Verkhoyansk-Kolyma Fold-Nappe System is composed of Cambrian to Upper Jurassic oceanic, marginal-sea, and island-arc complexes and bounded by a collision suture consisting of the Kolyma Loop abutted on the South Anyui segment along a left-lateral strike-slip fault. The inner root zone and the outer zone of nappes overthrusting the adjacent continents are distinguished in the suture. Several levels of structural unconformities, olistostrome-molasse sequences, and zones of amphibolite-greenschist metamorphism coeval with thrusting correspond to particular stages in the evolution of the Verkhoyansk-Kolyma System. The Neoproterozoic and Early Paleozoic oceans closed during the Baikalian and Caledonian orogenies. The Alazeya-South Anyui-Angayucham ocean that evolved from the Devonian to the Late Jurassic was subject to gradual closure against the background of trilateral compression during convergence of the Siberian and Hyperborean-North American cratons and accretion and collision along the Pacific margin. The fold-nappe structure of the Verkhoyansk-Kolyma Orogen and the boundary collision suture were disturbed by left-lateral strike-slip faults during Mid-Cretaceous compression, and the South Anyui segment of the suture was displaced to the northwest along the strike-slip fault. The Mid-Cretaceous Orogeny at the Pacific margin gave rise to meridional compression of its back zone and latitudinal squashing of the Verkhoyansk-Kolyma Orogen with formation of the Kolyma and Kobuk looplike limitations. 相似文献