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1.
北京西山水平分层剪切流变构造初探 总被引:7,自引:2,他引:7
对比国内外关于变质岩区构造变形序列的实例,可知第一世代的构造变形几乎都以发育不同尺度的强烈扁平化平卧褶皱和有关的轴面流劈理或片理,以及近水平的韧性剪切带等构造组合为特征。北京西山的情况也不例外。这可能代表变质岩区早期构造变形的一种普遍模式,可能是地壳较深构造层次发生大规模透入性水平剪切流变的反映 相似文献
2.
嘎拉山大型伸展滑脱构造发育在大兴安岭北段东坡,带内发育倾向SE的剪切面理,普遍发育层间揉皱、眼球状构造、低角度正断层、鞘褶皱和窗棂构造以及云母鱼、旋转残斑、石英条带等各种韧性变形显微组构,变形温度为300~400 ℃。各种宏观和微观不对称褶皱和线理等指向标志显示嘎拉山伸展构造为一指向SE的伸展滑脱构造。通过对剪切变形带中的花岗质片麻岩和大理岩的白云母40Ar/39Ar同位素测年获得144~147 Ma的坪年龄,该年龄代表了伸展剪切变形的形成时间。结合区域上变质核杂岩的研究,认为嘎拉山伸展构造的形成机制很可能与鄂霍茨克造山运动使地壳加厚崩塌,导致大兴安岭地区发生区域性伸展有关。 相似文献
3.
通过构造解析的研究,确定赛马山地区中元古代所发生的阿尔金运动共有三幕变形,第一幕发生在长城纪早期,为EW向伸展机制下中部构造相的大规模顺层滑脱韧性变形,形成了赛马西山顺层滑脱韧性变形带,具超塑性流动变形特征和多层结构样式,第二幕发生在长城纪末,为主期变形,在NS向挤压机制下,在浅部构造相形成了EW向紧闭褶皱(局部倒转褶皱),并卷入早期的顺层滑脱韧性变形带,褶皱后期,由于应力的集聚,在浅表层次下,沿兴地塔格群内岩层软弱面发生剪切而形成了滑脱面,产生由南向北的逆冲,形成了具叠瓦扇结构的永红山飞来峰构,第三幕,蓟县纪末由于SN向强烈挤压后出现“松驰”引张而产生EW向挤压应力,形成NS向开阔褶皱,叠加于主期褶皱之上,形成了赛马西山-永红山穹盆构造。 相似文献
4.
前陆克拉通与造山带增生楔在地壳结构、力学性质等方面有明显的差异。挤压作用使盆山地壳横向变化通过构造变形表现出来。本文设计了具有深浅两个滑脱层"克拉通"与不同能干性的"造山楔"接触砂箱模型,通过模拟实验分析了盆山地壳横向差异变化对挤压构造变形的影响。实验结果表明,端部的挤压收缩位移由刚性的"克拉通"推挤相对软弱的"造山楔"使之形成挤压"冲起构造",而"造山楔"发生收缩变形的同时也斜向推挤刚性的"克拉通",并通过克拉通内部的滑脱层将收缩应变向克拉通内部传递。受不同深度滑脱层发育的影响,"克拉通"发育分层不协调收缩变形。在挤压作用下,随着"造山楔"与"克拉通"地壳在横向上能干性差异的增加,"造山楔"收缩形成的"冲起构造"幅度减小,而向"克拉通"侧向(斜向)挤压形成的"反冲构造"幅度增加,"造山楔"通过深层滑脱层向"克拉通"传递收缩应变的调节能力减弱,通过浅层滑脱层向"克拉通"传递收缩应变的调节能力增强。"造山楔"由深层过渡至浅层形成强变形带,由"克拉通"边缘至内部形成的深层冲断褶皱与浅层褶皱冲断组合过渡为深层褶皱与浅层的褶皱冲断组合,"克拉通"边缘的冲断带由深层的前展式楔状逆冲叠瓦扇构造向"克拉通"内部的浅层褶皱组合过渡。实验结果为理解中国西北部复杂山前冲断带构造的形成机制具有启示作用。 相似文献
5.
雪峰山西侧地区构造形变与油气圈闭 总被引:2,自引:0,他引:2
滑脱构造广泛存在于地壳形变过程中,也是盆山结合带一种重要和常见的变形机制。雪峰山西侧地区发育的一系列“隔档-隔槽式”褶皱为多层次滑脱控制下变形的结果,双冲构造是本区的重要变形方式,也是区别典型滑脱褶皱构造的重要特征。由于滑脱系统变形的相对独立性,以及各个滑脱层在剪切运动过程中变形量、变形规模、变形强度、缩短量等的不同,必定造成地貌高点与深部构造高点之间不一定存在吻合的对应关系。通过系统的变形构造解析,结合油气勘探实例,提出雪峰山西侧地区存在滑脱冲断圈闭、滑脱褶皱圈闭、断坡遮挡圈闭、滑脱层圈闭4种可能的油气构造圈闭形式。雪峰山西侧深部滑脱层变形、展布等的精细研究,应是南方海相油气勘探和优选区圈定的重要工作内容之一。 相似文献
6.
辽南金州隆起区构造变形及流体作用 总被引:6,自引:0,他引:6
详细的野外和室内宏观及微观构造分析和有限应变测量结果表明,自中生代以来,本区至少经历了两期变形,即早期的收缩为及后期的伸展反应,收缩应变主要表现为滑脱--逆冲推覆作用,具有显著的构造层次性,自中、下构造怪次至上支次依次表现为:基底与盖层之间以角闪石及长石碎斑为主的糜棱岩为特征的韧性滑脱剪切罗系之上的逆冲推覆构造;在该构造2剪切主上部盖层中的寒武系,石炭系等逆冲于侏罗系之上的逆冲推覆构造;在该构造变形过程中伴随有强烈的岩浆活动,表明当时的区域热流值较高。伸展应变及同时发生的基底隆升作用,主要表现为基底和盖层中的韧性正剪切带及大量的正断层,基底中大量的NNE向张性白垩纪花岗斑岩脉及区域性的NNE向白垩纪盆地的形成都和本期构造活动相关。辽南地壳基底中大量的沿糜棱面理发育的长英质岩脉表明剪切变形过程中具有局部熔融作用的发生。对长英质岩脉经流体包裹体成分测试表明主要成分为分子水。在野外对长英质脉体的研究表明至少有两期:形成与滑脱作用有关的长英质脉体为含钾长石少、斜长石多、白色;而和伸展应变有关的长英质脉体钾长石含量明显增大,呈红色。两种长英质脉的褶皱变形反映了各自的变形机制。剪切作用过程中发生的动态局部熔融作用,具有自反馈的自组织特征,从而使长英质脉体在糜棱岩中呈现出韵律分布特征。辽南地壳在较短的时间内发生从收缩应变向伸展应变的转化。原因可能为收缩应变导致地壳显著缩短和增厚,并且同期的花岗岩浆的活动表明滑脱作用过程中莫霍面的初始温度较高并且区域热流值亦较高。这种地壳及其热状态的不均衡,导致地壳在较短的时间内发生基底的隆升及相伴随的伸展作用。 相似文献
7.
孟加拉湾若开褶皱带晚新生代构造特征初步研究 总被引:2,自引:0,他引:2
孟加拉湾若开褶皱带位于印度-缅甸山脉西部山前,由NNW—SSE向带状分布的多排背斜构成,其构造特征研究仍然十分薄弱。本文通过钻井资料和二维地震反射剖面精细构造解析,尝试分析若开褶皱带晚新生代构造特征,重点关注若开褶皱带的滑脱层发育特征及背斜几何学及运动学特征,结果表明若开褶皱带发育多个滑脱层:①底部滑脱层,位于约6.5s(双程走时)处;②中部滑脱层,层位存在变化,可能位于第四系底部或上中新统下方约2.5s处。在区域挤压作用下,若开褶皱带发育与底部滑脱层和中部滑脱层相关的滑脱褶皱,构造变形主要受控于底部滑脱层,而中部滑脱层影响了局部构造变形。生长地层记录显示若开褶皱带构造变形自东往西迁移,变形前缘形成于第四纪。基于构造分析结果提出了若开褶皱带褶皱变形的两种运动学端元模型:模型1中不发育中部滑脱层,滑脱褶皱发育于底部滑脱层之上;模型2中发育中部滑脱层,滑脱褶皱发育于中部滑脱层和底部滑脱层之上,形成上、下两套构造层。若开褶皱带背斜几何学和运动学特征受下伏滑脱层控制,背斜在走向上叠置、分叉可能暗示着背斜下伏滑脱层在走向上发生了改变。流体超压可能是影响若开褶皱带构造变形的重要控制因素。 相似文献
8.
胶南地区的伸展作用——以胶南—诸城一带为例 总被引:9,自引:0,他引:9
胶南地区的胶南—诸城一带存在两期不同方向的伸展构造。早期以形成近EN向的拉伸线理为特征,并在不同构造层次上显示出不同的变形。出露于研究区中部桃林尚庄隆起的含榴辉岩片麻岩中,主要以LS的组构为特征,显示出早期伸展作用下地壳岩石的垂直轴缩短、EW向拉伸的共轴应变;而在把下地壳含榴辉岩片麻岩与以变沉积岩为主的中上地壳岩石分开的韧性滑脱带上,此期伸展作用则表现为从东向西剪切的非共轴简单剪切变形,具有近水平的拉伸线理及近水平的EW向剪切褶皱和鞘褶皱枢纽。晚期伸展作用表现为近SN的伸展垮塌作用,形成向北和向南倾斜的两条韧性正剪切带,且遭受低角闪岩高绿片岩相条件下的透入性均匀简单剪切变形,剪切方向分别向北和向南。 相似文献
9.
公格尔西滑脱剪切带位于东北帕米尔公格尔片麻岩穹窿西缘。通过我们详细的野外观测、显微构造观察、石英电子背散射衍射(EBSD)测试以及锆石U-Pb测年,对公格尔西滑脱剪切带的几何学、运动学特征及其形成演化时限进行了研究。公格尔西滑脱剪切带糜棱岩中大量的石榴子石、矽线石和蓝晶石等表明其为高级变质产物。S/C组构、旋转碎斑及不对称褶皱等变形现象说明剪切带上盘向W或SW低角度剪切的运动特征。高级变质糜棱岩和浅色岩脉记录约20 Ma的206 U-238Pb锆石年龄,说明公格尔西滑脱剪切带初始形成于早中新世。结合前人研究成果,我们认为公格尔西滑脱剪切带曾是狭长的帕米尔中下地壳滑脱带的最北段。由于新生代印度亚洲大陆碰撞以后印度板块仍持续向N俯冲推进,帕米尔地壳由S向N开始增厚,进变质作用最初发生于南帕米尔,约20 Ma时到达北帕米尔。东北帕米尔中下地壳物质开始折返于中新世中期。而直到6~4 Ma,东北帕米尔公格尔地区开始快速隆起,此时公格尔新生代高级变质岩才快速折返。 相似文献
10.
藏南冈底斯白垩纪弧后盆地的地壳变形及初始高原的形成 总被引:2,自引:0,他引:2
在藏南"南冈底斯岩浆弧"的北侧,发育一个白垩纪碳酸盐-碎屑岩组成的弧后盆地,盆地基底为早侏罗纪火山岩,其上被大面积晚白垩世-古新世林子宗群火山岩(62~45Ma)角度不整合覆盖,以及65~40Ma花岗岩基的侵位。南冈底斯弧后盆地的主要地壳变形表现为:在自北向南剪切应变下,以早侏罗世火山岩与晚侏罗-白垩世沉积岩之间的冈底斯滑脱带(GD)为主要构造底面,与上部白垩纪地层的强烈褶皱和铲式构造一起组成的"滑脱-褶皱"构造样式。研究表明,弧后盆地的滑脱-褶皱构造是90~62Ma期间与新特提斯大洋岩石圈板片俯冲有关的弧后盆地地壳缩短、加厚和造山作用的表征。大面积存在的冈底斯林子宗火山岩与其下部地层的角度不整合是一种"火山披盖式"的不整合,说明冈底斯弧后盆地经历伸展到地壳缩短变形、造山隆升和剥蚀夷平的演化过程,标志洋-陆俯冲到陆-陆碰撞的转换。提出南冈底斯初始高原在晚白垩世俯冲条件下开始形成的新认识。 相似文献
11.
Strain modeling shows that folds can form in transtension, particularly in simple shear-dominated transtension. Folds that develop in transtension do not rotate toward the shear zone boundary, as they do in transpression; instead they rotate toward the divergence vector, a useful feature for determining past relative plate motions. Transtension folds can only accumulate a fixed amount of horizontal shortening and tightness that are prescribed by the angle of oblique divergence, regardless of finite strain. Hinge-parallel stretching of transtensional folds always exceeds hinge-perpendicular shortening, causing constrictional fabrics and hinge-parallel boudinage to develop.These theoretical results are applied to structures that developed during oblique continental rifting in the upper crust (seismic/brittle) and the ductile crust. Examples include (1) oblique opening of the Gulf of California, where folds and normal faults developed simultaneously in syn-divergence basins; (2) incipient continental break-up in the Eastern California-Walker Lane shear zone, where earthquake focal mechanisms reflect bulk constrictional strain; and (3) exhumation of the ultrahigh-pressure terrain in SW Norway in which transtensional folds and large magnitude stretching developed in the footwall of detachment shear zones, consistent with constrictional strain. More generally, folds may be misinterpreted as indicating convergence when they can form readily in oblique divergence. 相似文献
12.
The foliation formed in a ductile shear zone can become folded by continuing shear in the zone without the foliation having to enter the shortening sector of the flow field. If the foliation lies parallel to the shear plane, infinitesimal variations in the rate of shear strain cause compensating rotations that may amplify into folds. Small increases in the rate cause backward rotations (counter to the sense of shear): these do not amplify. Small decreases cause forward rotations that do amplify. 相似文献
13.
通过野外观察、室内显微构造分析和磁组构测量方法,在桂北四堡地区浅变质地层中厘定出一条NE30°走向,南东倾,倾角约40°的大型左旋斜冲韧性剪切带——四堡韧性剪切带;该韧性剪切带内发育糜棱岩系列、糜棱面理、拉伸线理、A型褶皱、S-C组构、亚颗粒、显微分层及石英条带等宏观和微观构造特征;磁各向异性度测量结果显示四堡韧性剪切带由一宽约4 km的强应变带及边缘弱带组成,全带宽达10 km,长度超30 km;在对韧性剪切带运动学、构造年代学研究的基础上,结合区域地质资料,认为四堡韧性剪切带是华南加里东晚期华夏地块由南东向北西作低角度斜冲到扬子地块的产物。这一发现揭示了扬子地块与华夏地块碰撞拼合的方式,为深化华南构造演化提供了新资料。 相似文献
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15.
Transpressional deformation has played an important role in the late Neoproterozoic evolution of the ArabianNubian Shield including the Central Eastern Desert of Egypt. The Ghadir Shear Belt is a 35 km-long, NW-oriented brittleductile shear zone that underwent overall sinistral transpression during the Late Neoproterozoic. Within this shear belt, strain is highly partitioned into shortening, oblique, extensional and strike-slip structures at multiple scales. Moreover, strain partitioning is heterogeneous along-strike giving rise to three distinct structural domains. In the East Ghadir and Ambaut shear belts, the strain is pure-shear dominated whereas the narrow sectors parallel to the shear walls in the West Ghadir Shear Zone are simple-shear dominated. These domains are comparable to splay-dominated and thrust-dominated strike-slip shear zones. The kinematic transition along the Ghadir shear belt is consistent with separate strike-slip and thrustsense shear zones. The earlier fabric(S1), is locally recognized in low strain areas and SW-ward thrusts. S2 is associated with a shallowly plunging stretching lineation(L2), and defines ~NW-SE major upright macroscopic folds in the East Ghadir shear belt. F2 folds are superimposed by ~NNW–SSE tight-minor and major F3 folds that are kinematically compatible with sinistral transpressional deformation along the West Ghadir Shear Zone and may represent strain partitioning during deformation. F2 and F3 folds are superimposed by ENE–WSW gentle F4 folds in the Ambaut shear belt. The sub-parallelism of F3 and F4 fold axes with the shear zones may have resulted from strain partitioning associated with simple shear deformation along narrow mylonite zones and pure shear-dominant deformation in fold zones. Dextral ENEstriking shear zones were subsequently active at ca. 595 Ma, coeval with sinistral shearing along NW-to NNW-striking shear zones. The occurrence of upright folds and folds with vertical axes suggests that transpression plays a significant role in the tectonic evolution of the Ghadir shear belt. Oblique convergence may have been provoked by the buckling of the Hafafit gneiss-cored domes and relative rotations between its segments. Upright folds, fold with vertical axes and sinistral strike-slip shear zones developed in response to strain partitioning. The West Ghadir Shear Zone contains thrusts and strikeslip shear zones that resulted from lateral escape tectonics associated with lateral imbrication and transpression in response to oblique squeezing of the Arabian-Nubian Shield during agglutination of East and West Gondwana. 相似文献
16.
阿尔卑斯旋回中喜马拉雅山链和阿尔卑斯山链的主要变形特征 总被引:1,自引:0,他引:1
<正> 特提斯—阿尔卑斯山系是当今世界两大造山带之一,它自加勒比海开始,横贯欧亚大陆南部,直达印度尼亚西。这一山系的形成经历新特提斯洋打开至闭合的整个过程。特提斯洋是在华力西造山运动之后(T—J)联合大陆由西太平洋开始剪切张开而形成的;晚侏罗世至老第三纪时期,由于大西洋由南往北张开造成特提斯洋闭合。与此同时大洋内及洋壳和陆壳间发生俯冲或仰冲,以至大洋消亡,南北大陆板块碰撞(有些地段无碰撞)。 相似文献
17.
Transpression 总被引:2,自引:0,他引:2
Transpression is considered as a wrench or transcurrent shear accompanied by horizontal shortening across, and vertical lengthening along, the shear plane. A model for the strain in transpression is derived, from which the shape and orientation of the finite strain ellipsoid, and the stretch and rotation of lines can be determined. Shortening across the zone of transpression leads to oblate finite strain ellipsoids (k<1).By considering the superposition of small increments of strain various model deformation paths are computed. These are used to interpret the development of structures, such as en-échelon folds, in transpression zones. The incremental strain ellipsoid allows prediction of the orientation of the principal stresses and hence brittle structures within such zones. The model is also applied to bends and terminations of shear zones and used to interpret the observed patterns of folds and fractures in these. 相似文献
18.
《Journal of Structural Geology》2001,23(6-7):1043-1065
Transpressive deformation was distributed heterogeneously within the Central Maine belt shear zone system, which formed in response to Early Devonian oblique convergence during the Acadian orogeny in the northern Appalachians. ‘Straight’ belts are characterized by tight folds, S>L fabrics and sub-parallel form lines, and asymmetric structures that together indicate dextral–SE-side-up kinematics. In contrast, intervening zones between ‘straight’ belts are characterized by open folds and L≫S fabrics. Within both types of zone, metasedimentary rocks have fabrics defined by the same minerals at the same metamorphic grade, including a penetrative, moderately to steeply NE-plunging mineral lineation. Thus, we interpret accumulation of plastic deformation and regional metamorphic (re-) crystallization to have been synchronous across the Central Maine belt shear zone system. Discordance between inclusion trails in regionally developed porphyroblasts of garnet and staurolite and matrix fabrics in ‘straight’ belt rocks records shortening by tightening of folds and greater reorientation of matrix fabrics with respect to porphyroblasts. Kinematic partitioning of flow was responsible for the contrasting states of finite deformation recorded in the Central Maine belt shear zone system. Perturbations in the flow were caused by serially developed thrust-ramp anticlines in the stratigraphic succession immediately above the Avalon-like basement, at which décollement of the shear zone system was initially rooted. General shear deformation at the ramps involved strain softening with an enhanced component of noncoaxial flow. In contrast, deformation during extrusion in the intervening zones involved strain hardening with a greater component of coaxial flow. Part of the thickening stratigraphic succession exceeded Tsolidus, reflected by the occurrence of migmatites and granites. The latter were partly sourced from the underlying Avalon-like basement that was involved in the deformation and melting. 相似文献
19.
构造解析证实,金州韧性剪切带是以右行走滑为主的大型缓倾斜剪切带,带内发育的糜棱面理-小型褶皱-香肠构造及肿缩构造-S?C组构的系列,以及广泛分布的拉伸线理,是总体非共轴持续变形条件下,带内共轴与非共轴线路相结合的结果,并且后者占主要地位。糜棱面理是最早生成的透入性构造,对其他构造的形成有重要作用。剪应变量(γ)大小与糜棱岩化程度有直接关系。鞘褶皱多发育于γ≥10地段。微构造发育机制的变化是:γ 由低到高,石英变形从低温晶体-塑性转向塑性变形与重结晶作用; 而云母矿物从外形定向转向粘性颗粒-边界滑动。 相似文献
20.
Jean-Emmanuel Martelat Christian Nicollet Jean-Marc Lardeaux Gérard Vidal Raymond Rakotondrazafy 《Geodinamica Acta》2013,26(3):94-114
AbstractThis paper describes the tectono-metamorphic evolution of a segment of the Precambrian deep crust, in the southern Madagascar island. This crust corresponds to an Archaean basement reworked by a widespread, late panAfrican event (550–580 Ma) during the formation of the Mozambican belt. The finite geometry and associated metamorphism are depicted by satellite imaging, field mapping and P-T estimations using both conventional thermobarometric methods and TWEEQ software program with internally consistent thermodynamic data and uniform set of solution models. The structural pattern developed during high-grade metamorphism shows the juxtaposition of domains with complex fold geometries separated by a 15 km wide ductile shear zone. Within the folded domains, kilometre scale interference patterns associated with strongly dipping metamorphic stretching lineations can be described as superposed folding (F1 and F2 folds). The tight and upright F2 folds result from East-West horizontal shortening. The shear zone is defined by homogeneous orientations of steep foliations, sub-horizontal stretching lineations, and kilometre scale strain gradient. Within the shear zone, we observe dominant non-coaxial criteria at various scales that are consistent with a sinistral strike-slip system during D2 deformation stage. Nevertheless, we have also found in the shear zone, geometries typical of a horizontal shortening. Such a strain pattern is characteristic of transpression tectonics.The synkinematic metamorphic conditions are estimated on mafic garnetiferous metabasites. Results show that regional transpression tectonics has developed under very high and constant thermal regime (about 800°C). A pressure gap, of about 3 kbar between the domains separated by the shear zone is identified. This implies tectonic coupling of two different structural levels during tranpressive tectonic. 相似文献