秋格时塔什—黄山韧性剪切带构造变形序列

运用构造解析方法和应变测量与显微构造分析方法，研究了秋格明塔什－黄山声望生剪切带的构造样式，建立了其变形序列。该带依次经历了：（１）中深部构造层次的紧闭同斜褶皱作用；（２）中深部构造层次的顺层（片）韧性剪切变形；（３）中部构造层次的右行走滑脆－韧性剪切变形；（４）中浅构造层次的膝折作用。     

南天山褶皱冲断带西段变形空间差异性及控制因素

新生代早期印度板块与欧亚板块持续碰撞汇聚导致欧亚板块内部发生大规模的陆内变形,天山造山带再次隆升,并向塔里木盆地大规模逆掩推覆,形成了现今南天山褶皱冲断带,其变形表现出明显的空间差异性。本文以南天山褶皱冲断带西段为研究对象,通过对不同构造带的地震剖面解释、运用平衡剖面技术恢复出各演化阶段发育过程并计算出相应的变形量,分析本区构造带的空间差异性及其控制因素。通过分析认为南天山褶皱冲断带西段可以进一步划分为巴什布拉克构造段,乌恰-阿图什-喀什构造段和柯坪西缘构造段。其中,巴什布拉克构造段变形特征主要呈一系列对冲构造和背驮盆地样式。乌恰-阿图什-喀什构造段变形特征表现为深、浅两个层次:深部发育堆垛构造和构造楔,浅部发育断层传播褶皱和逆冲断层改造的褶皱带。柯坪西缘构造段变形更加强烈,也表现为深、浅两个层次:深部发育堆垛构造,堆垛程度更大,浅部也发育断层传播褶皱和逆冲断层改造的褶皱带以及反冲断层系。结合该研究区的地质概况进一步分析,本文认为南天山褶皱冲断带西段构造变形的差异性可能与新生代以来帕米尔块体向北推进、塔拉斯-费尔干纳右行走滑断裂的活动、先存断裂的活化与韧性滑脱层的影响有关。     

瑞士中阿尔卑斯地区Tambo推覆体的基底一盖层间关系：几何学、构造学和运动学特征

在中阿尔卑斯Ｐｅｎｎｉｎｅ带中，Ｔａｍｂｏ推覆体形成薄的、嵌埋于中生代盖层中的结晶岩片。发现第三纪有四期阿尔卑斯式变形。Ｄ＿１韧性变形与始新世推覆体向北西方向递进推叠作用有关。Ｄ＿１期间，基底变形受叠瓦状构造影响，而盖层是薄片状的，并且被强烈褶皱。这些不同的构造反映了基底和盖层间最初为强烈流动的接触关系。在Ｄ＿２非均匀和韧性变形期间，基底和盖层的特性变得相似。Ｄ＿２强烈的垂直缩短作用，伴有“顶向东”剪切，导致先前ＳＥ倾的构造面发生褶皱作用，发育了褶皱轴及Ｌ＿２拉伸线理近Ｅ—Ｗ向而轴面向ＳＥ倾的褶皱。Ｄ＿１，变形期间地壳加厚之后，Ｄ＿２变形对应于碰撞后的地壳变薄作用。Ｄ＿３和Ｄ＿４变形发生于退变质条件下，分别与Ｉｎｓｕｂｒｉｃ线的上升和后期的右旋运动有关。     

库鲁克塔格赛马山一带中元古界构造变形研究

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。     

库车前陆盆地克拉苏构造带的构造特征与油气

克拉苏构造带位于库车前陆盆地的北侧, 由浅部和深部两个层次的构造组成, 上、下不同层次的构造具有不一致性。浅部层次的构造主要为断层传播褶皱、断层传播－ 滑脱褶皱, 这些构造的突破断层发育, 不利于油气的保存; 深部层次的构造主要为被动顶板双重构造、突发构造和断层转折褶皱, 这些构造在走向上相互转变, 构成了本区最有利的构造圈闭。断裂是本区最重要的构造, 它不仅是烃源岩排烃的有效机制, 而且是油气运移的通道。     

哈尔克山西段中浅变质岩系变形解析及构造地层

通过构造地层和构造解析的研究，确定哈尔克山西段上奥陶－下泥盆统中浅变质岩系经历了推覆剪切→推覆强变形→近南北挤压收缩三期变形。前两期以推覆平卧褶皱组合为特点，形成韧性变形带，第三期变形最终形成轴面直立的开阔褶皱。本区构造形态以推覆岩片大量叠置、平卧与尖棱倒转褶皱复合为特征，属板块聚合带成分。变形研究表明，塔里木西北缘构造运动早期以由南向北的韧性推覆为主。     

鞍山地区太古宙地壳的构造演化序列

鞍山地区的太古宙变质岩，主要由花岗质岩石（约占９０％）和表壳岩（含铁岩系）组成。其中花岗岩包括铁架山花岗岩和弓长岭花岗岩，表壳岩由磁铁石英岩和绢云绿泥石石英片岩组成。表壳岩沉积年龄大于３０００Ｍａ，铁架山花岗岩侵位于２９００Ｍａ，稍后即发生第一幕韧性变形，在铁架山花岗岩中发育了ＮＥ走向片麻理，在表壳岩中形成同斜褶皱及轴面片理Ｓ＿１。２６００Ｍａ左右弓长岭花岗岩侵位，稍后又发生第二幕韧性变形，产生了ＮＮＷ逆向剪切带和ＮＥＥ走滑剪切带，这时含铁岩系中形成平行韧性剪切带的片理Ｓ＿２。２０００Ｍａ发生第三幕韧性变形，其中ＮＥＥ和ＮＮＷ向剪切性质与第二幕恰好相反。以上三幕韧性剪切序次，相对应的形成了片麻岩、糜棱岩和构造片岩。     

雪峰山西侧贵州地区中生代构造特征及其演化

贵州中生代变形主要发生在燕山期,发育三幕褶皱变形、两幕逆冲和三幕走滑。根据区域对比、卷入褶皱的地层和褶皱间的叠加关系,判断三期褶皱的形成顺序依次为近东西向、北东向和南北向,时限在J_3—K_2之间。逆冲推覆构造主要由向北西或西逆冲的近南北向逆冲断层组成,大体与南北向褶皱同时形成;自雪峰构造带西缘向西,依次划分出根部带、中部带和前锋带。但是,在根部带识别出两幕逆冲推覆,其它两带各识别出一幕。走滑断层也有3个方向:东西向、北东向和近南北向。东西向走滑断层呈现出右行压扭的运动学特征,而大多数北东向走滑断层是左行张扭性质的。依据各个方向断层间的切割和限制关系,推测东西向走滑断层最早形成,其次是南北向逆冲断层,北东向走滑断层最晚活动。这些断裂和褶皱特征,总体表现出贵州多重多种复合联合的构造特征,最后,探讨了本区的构造成因模式。     

雪峰山西侧贵州地区中生代构造特征及其演化

贵州中生代变形主要发生在燕山期,发育三幕褶皱变形、两幕逆冲和三幕走滑。根据区域对比、卷入褶皱的地层和褶皱间的叠加关系,判断三期褶皱的形成顺序依次为近东西向、北东向和南北向,时限在J3—K2之间。逆冲推覆构造主要由向北西或西逆冲的近南北向逆冲断层组成,大体与南北向褶皱同时形成; 自雪峰构造带西缘向西,依次划分出根部带、中部带和前锋带。但是,在根部带识别出两幕逆冲推覆,其它两带各识别出一幕。走滑断层也有3个方向：东西向、北东向和近南北向。东西向走滑断层呈现出右行压扭的运动学特征,而大多数北东向走滑断层是左行张扭性质的。依据各个方向断层间的切割和限制关系,推测东西向走滑断层最早形成,其次是南北向逆冲断层,北东向走滑断层最晚活动。这些断裂和褶皱特征,总体表现出贵州多重多种复合联合的构造特征,最后,探讨了本区的构造成因模式。     

北祁连山俯冲杂岩带的韧性剪切作用

北祁连山加里东褶皱带中的蓝片岩(包括蓝闪片岩和榴辉岩)产于原岩为中寒武统的典型蛇绿俯冲杂岩带之中,是北祁连古板块缝合线的标志之一。蓝片岩带中强烈的韧性剪切变形作用代表了本区古板块持续俯冲到碰撞过程中地壳深部层次的变形行为。构造分析表明,该蛇绿混杂岩带经历了早、晚两期韧性剪切变形的改造。其中早期韧性剪切变形(DF_1)与区域D_2变形幕有关,蓝闪片岩相矿物(蓝闪石、石榴子石、绿帘石和多硅白云母)是伴随变形叶理生长的同构造产物。晚期韧性剪切变形与区域D_3变形幕有关,伴随有绿泥石、冻蓝闪石等的出现和石英、方解石的动态重结晶作用。运动学指示标志,如拉伸线理、与拉伸线理平行的各种褶皱枢纽、同构造变斑晶的旋转、S-C组构及石英光轴组构等,都清楚地显示DF_1运动方向为南东-南南东,伴有左行旋转,晚期DF_2为由NE向SW的逆冲剪切,伴有右行旋转。方解石和石英光轴组构表明晚期逆冲剪切的古挤压应力方向为北北东-南南西。     

紧闭褶皱翼部的剪切变形作用——五台山绿岩带金矿化的一种构造控矿机制

五台山绿岩带中 ,与变质火山 沉积岩系直接相关的金矿化分布广泛 ,具有多种成矿和控矿机制。但就两种主要类型金矿———剪切带型金矿和铁建造型金矿的时空分布、地质特征和赋存的构造部位来看 ,它们都明显地与剪切变形 (韧性的或脆性的 )所产生的构造 热液活化作用有关 ,具显著的构造控矿意义。区域构造分析表明 ,五台山绿岩带的构造格架是一个多级和多期褶皱与断裂的组合 ,总的构造样式是一个紧闭程度向中心增强的复式倒转向形。它们是在北西 南东向挤压作用下递进变形的结果。在这一区域应力场作用下 ,处于不同构造部位的岩石发生变形分解作用 ,从而在紧闭褶皱的翼部产生一系列剪切变形带 ,构成了五台山绿岩带构造控矿机制。本文将以两类绿岩金矿的典型矿床为例 ,对这一控矿构造机制进行全面分析。     

Archaean greenstone belts: A structaral test of tectonic hypothesis

Tectonic hypotheses for Archaean greenstone belts are tested against structural data from the Agnew belt, Western Australia. This belt shows the following critical features:

1. (1) A sialic infrastructure, formed by semi-concordant tonalitic intrusions, was present before tectonism began.

2. (2) An early deformation formed recumbent folds and a flat-lying schistosity; a second deformation formed major upright folds and steep ductile shear zones that outline the present tectonic belt. Neither deformation caused major disruptions in the stratigraphy. Both were accompanied by metamorph ism under upper greenschist to amphibolite facies conditions and low pressure.

3. (3) The belt is bounded on either side by tonalitic gneiss of unknown age, emplaced along steep shear zones.

Comparison with Phanerozoic orogenic belts representing a subduction complex, a collisional suture zone, and a collapsed marginal basin, indicates that the belt was not formed in any of these plate-tectonic environments.The second deformation in the belt resulted from regional crustal distortion, accomplished by right-lateral ductile wrenching along major N- to NNW-trending shear zones. Associated en-echelon buckle folding formed large granite-cored anticlines and tight synclines. The detailed structural pattern is not consistent with a diapiric origin for these folds. The ductile wrench faults may have been related to mantle flow patterns in a manner analogous to modern transform faults.     

Tectonic Setting of the Kadiri Schist Belt, Andhra Pradesh, India

Plate tectonic activity has played a critical role in the development of petrotectonic associations in the Kadiri schist belt. The calc alkaline association of basalt, andesite, dacite and rhyolite(BADR) is the signature volcanic rock suite of the convergent margin. The N-S belt has gone below the unconformity plane of Cuddapah sediments. In the northern part geochemical and structural attributes of the Kadiri greenstone belt is studied along with microscopic observations of selected samples. Harker diagram plots of major elements generally indicate a liquid line of descent from a common source, such that BADR rocks are derived from a common parent magma of basaltic to andesitic composition. These calc-alkaline volcanic rocks are formed at convergent margins where more silicic rocks represent more highly fractionated melt. All the litho-units of this greenstone belt indicate crush and strain effects. The stretched pebbles in the deformed volcanic matrix with tectonite development along with associated greenschist facies metamorphism, alteration and hydration is remarkable. Flow foliation plane with N-S strike and very low angle(5° to 10°) easterly dip and N-S axial planar schistosity formed due to later phase isoclinal folding can be clearly identified in the field. Basic intrusives are quite common in the surrounding area. All the observations including the field setting and geochemistry clearly demonstrate ocean-continent subduction as the tectonic environment of the study area.     

Pressure–temperature-deformation history for a part of the Mesoproterozoic fold belt in North Singhbhum,Eastern India

The supracrustal rocks in the easternmost part of the Proterozoic fold belt of North Singhbhum, eastern India, are folded into a series of large upright folds with variable plunges. The regional schistosity is axial–planar to the folds. The folds were produced by a second phase of deformation (D2) and were preceded by D1 deformation, which gave rise to isoclinal folds (mapped outside the study area) and the locally preserved, bedding-parallel schistosity. A shearing deformation during D2 was responsible for the sheath-like geometry of a major fold. The axial planes were curved by D3 warping. The first metamorphic episode (M1) of low-pressure type produced andalusite porphyroblasts prior to, or in the early stage of, D1 deformation. The main metamorphism (M2), responsible for the formation of chloritoid, kyanite, garnet and staurolite porphyroblasts, was late- to post-D2 in occurrence. The Staurolite isograd separates two zonal assemblages recorded in the high-alumina and the low-alumina pelitic schists. Geothermobarometric calculations indicate the peak metamorphic temperature to be 550 °C at 5.5 kb. Fluid composition in the rocks before and during M2 metamorphism was buffered and fluid influx, if any, was not extensive enough to overcome the buffering capacity of the rocks. From M1 to M2, the P–T path is found to have a clockwise trajectory, that is consistent with a tectonic model involving initial asthenospheric upwelling and rifting, followed by compressional deformation leading to loading and heating.     

五台山绿岩带主要金矿类型及构造控矿规律探讨

依据构造控矿为成矿主因、矿源层是物质基础,将五台山绿岩带金矿划分为3种主要类型:与次级褶皱有关的条带状铁建造型金矿床、与剪切变形有关的变质中酸性火山沉积岩型金矿床、与剪切变形有关的变质砾岩型金矿床.这些不同类型的金矿床构造控矿特征明显.五台山绿岩带的区域性倒转复式向斜构造制约了含矿带呈NEE向展布,大型紧闭褶皱转折端控制了矿床的定位,与紧闭褶皱伴生的剪切变形及次级褶皱控制着矿体的规模、形态和产状,剪切裂隙控制着金矿脉的分布和金矿化的局部富集.紧闭褶皱倒转翼部(近转折端)的剪切变形是五台山绿岩带金矿构造控矿的普遍规律.矿源层是物质基础,而经历了紧闭褶皱及伴生的剪切变形带叠加改造的矿源层才是最佳的成矿和找矿靶区.文章以构造控矿理论为指导,重点剖析了典型矿床的构造控矿特征,深入探讨了控矿构造对矿床定位、规模大小、矿体形态、富集程度的制约,认为褶皱与剪切变形不仅在于控矿,而且其本身就是一种重要的成矿作用,进而总结了五台山绿岩带金矿构造控矿的普遍规律.     

大巴山弧形构造带中段渔渡地区侏罗纪叠加变形研究

大巴山构造带是秦岭造山带南部发育的一个以逆冲推覆构造为特征的构造带。通过在大巴山弧形构造带中段渔渡地区进行的详细构造解析发现,大巴山构造带在侏罗纪以来经历了至少两期变形叠加,变形地层三叠系嘉陵江组—侏罗系沙溪庙组。早期变形以与滑脱构造相关的轴向北西—北北西向箱状或隔挡状褶皱为主,并在深部发育顺层滑脱构造,变形时代为晚侏罗世到早白垩世。晚期变形与北侧逆冲相关,导致右行走滑变形,主要形成右行走滑断层和北西—北北西向紧闭褶皱,变形时代比第一期稍晚,为晚侏罗世之后到早白垩世。两期变形形成的褶皱延伸方向一致,与区域构造线的方向协调,而且在远离北侧镇巴断裂的地区变形强度有减弱的趋势,两期变形叠加形成共轴或斜交叠加构造。研究表明,变形与大巴山冲断—推覆构造带向南逆冲有关。     

Characteristics of tectonic deformation of the melange zone in the Lachlan Orogen along eastern coast of Australia

The Narooma-Batemans Bay (NBB) area along the southeast coast of Australia is a part of the eastern zone of the Early Paleozoic Lachlan Orogen. In the NBB, a set of rock association consisting of turbidites, siliceous rock, basic lava, and argillaceous melange zone is mainly developed. According to systematic field geological survey, the deformation of 3 stages (D1, D2, and D3) was identified in the NBB. At stage D1, with the original bedding S0 in a nearly east-west trending as the deformation plane, tight folds, isoclinal folds, and other structures formed in the NBB accompanied by structural transposition. As a result, crenulation cleavage developed along the axial plane of the folds and schistosity S1 formed. At stage D2, with north-south-trending schistosity S1 as the deformation plane, a large number of asymmetrical folds and rotated porphyroclasts formed owing to thrusting and shear. At stage D3, left-lateral strike-slip occurred along the main north-south-trending schistosity. Based on the analysis of the characteristics of tectonic deformation in the NBB and summary of previous research results, it is determined that the early-stage (D1) deformation is related to Ordovician Macquarie arc-continent collision and the deformation at stages D2 and D3 is the result of the westward subduction of Paleo-Pacific Plate. That is, it is not the continuous westward subduction of the Paleo-Pacific Plate that constitutes the evolution model of the NBB as previously considered.     

康西瓦走滑构造带及其大地构造意义

康西瓦构造带位于新疆西昆仑山地区，是青藏高原西北缘一条重要的构造带。经实地考察发现；构造由多条长期活动的断裂带构成，沿断裂有糜棱岩带、角砾岩带和片理化带分布，同时发育韧、脆性变形；构造带两侧的地层时代与沉积建造、岩浆活动以及遥感图象和地貌特征都存在明显的差异。糜棱岩定向标本研究表明，构造带中韧性变形具有右行剪切特征；运动矢量及应力场模拟计算证实，构造带中脆性变形的构造运动以水平运动方式为主。综合以上资料及前人的研究成果认为，康西瓦构造带是分隔古亚洲和特提斯两大构造域的右行走滑转换构造带。     

Structures in the banded iron-formation of the southeastern Bababudan Hills, Karnataka, India

The banded iron-formation in the southeastern Bababudan Hills display a macroscopic synformal bend gently plunging towards WNW. The bedding planes in smaller individual sectors show a cylindrical or conical pattern of folding. The dominant set of minor folds has WNW-ESE trending axial planes and the axes plunge towards WNW at gentle to moderate angles, though there is considerable variation in orientation of both axes and axial planes. A later set of sporadically observed folds has N-S trending axial planes. The macroscopic synformal bend within the study area forms the southeastern corner of a horseshoe shaped regional synformal fold closure which encompasses the entire Bababudan range. The minor folds are buckle folds modified to a varying extent by flattening. In some examples the quartzose layers appear to be more competent than the ferruginous layers; in others the reverse is true. The folds are frequently noncylindrical and the axes show curvature with branching and en echelon patterns. Such patterns are interpreted to be the result of complex linking of progressively growing folds whose initiation is controlled by the presence of original perturbations in the layers. Domes and basins have at places developed as a result of shortening along two perpendicular directions in a constrictional type of strain. Development of folds at different stages of progressive deformation has given rise to nonparallelism of fold axes and axial planes. The axes and axial planes of smaller folds developed on the limbs of a larger fold are often oriented oblique to those of the latter. Progressive deformation has caused rotation and bending of axial planes of earlier formed folds by those developed at later stages of the same deformational episode. Coaxial recumbent to nearly reclined fold locally encountered on the N-S limb of the macroscopic fold may belong to an earlier episode of deformation or to the early stage of the main deformation episode. The E-W to ESE-WNW strike of axial plane of the regional fold system in the Bababudan belt contrasts with the N-S to NNW-SSE strike of axial planes of the main fold system in the Chitradurga and other schist belts of Karnataka.     

坦桑尼亚西北部苏库马绿岩带含金石英脉成矿特征

坦桑尼亚克拉通西北部的苏库马绿岩带是坦桑尼亚环维多利亚湖绿岩带重要的金矿聚集区。区内金矿化类型以含金石英脉为主,矿体的产出主要受剪切构造带控制。通过研究区域构造特征和岩石地球化学特征,认为苏库马绿岩带中玄武岩为弧后环境形成,流纹岩和花岗岩形成于陆弧环境,N--S向挤压作用和E--W向伸展作用是区域内主要的构造展布特征。建立了含金石英脉的成矿模式,表明具有金矿化作用的石英脉集中分布在EW、SEE、NE向剪切构造破碎带中,含金石英脉富矿体的形成经历了多期构造变形和成矿流体的叠加、富集作用。