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1.
桐柏高压变质地体:对桐柏-大别-苏鲁高压/超高压变质带构造框架和俯冲/折返机制的制约 总被引:3,自引:1,他引:2
桐柏造山带位于秦岭造山带和大别-苏鲁造山带之间,是揭示秦岭-桐柏-大别-苏鲁巨型造山带中各地质体之间构造关系及地质演化差异的关键地区。桐柏高压变质地体主要由两个高压岩片(I和II)及其北侧的构造混杂岩带和南侧的蓝片岩-绿片岩带构成。高压岩片I以北、南两条榴辉岩带为代表,构成桐柏山背形构造的两翼,其峰期变质条件分别为530~610℃、1.7~2.0GPa和460~560℃、1.3~1.9GPa。高压岩片II以桐柏杂岩中的变质岩包体为代表,其峰期变质条件推测在<700℃、>1.2GPa的榴辉岩相范围内,而退变质条件为660~700℃、0.80~1.03GPa。U-Pb、Lu-Hf、Rb-Sr和Ar-Ar同位素年代学研究表明,高压岩片I的峰期变质时代为255Ma,冷却至白云母封闭温度的时代为238Ma;而高压岩片II的主期变质作用发生在232~220Ma,作为桐柏杂岩主体的片麻状花岗岩则侵位于140Ma。这说明,高压岩片I和II分属于两个时代不同的俯冲/折返岩片,当高压岩片II被俯冲到地壳深处并经受高压变质时,其上覆的高压岩片I已经折返到中上地壳的水平。这一结果验证了在西大别、东大别和苏鲁地区提出的高压/超高压岩石的穿时(或差异)俯冲/折返模型,同时说明华南大陆地壳最早的俯冲发生在晚二叠世,这也代表华北与华南陆块之间从洋壳俯冲转化为陆壳俯冲的时间。基于桐柏杂岩与北大别杂岩的可比性,认为桐柏高压变质地体相对低温低压的变质环境以及超高压岩石的缺乏缘于华南陆块的俯冲深度向西逐渐变浅,而早白垩世的构造挤出造成了桐柏-大别高压/超高压变质带东宽西窄的构造格局。 相似文献
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阿尔金山地区构造单元划分和前寒武纪重要地质事件 总被引:25,自引:4,他引:21
阿尔金山地区构造单元从北至南划分为敦煌地块、阿尔金北缘蛇绿混杂岩带、中阿尔金中—新元古代构造岩片、阿尔金构造杂岩带和阿尔金南缘基性超基性岩带5个构造单元,它们具有不同的岩石组合和变质变形特征。在正确识别地质事件的性质和特征的基础上,根据现有同位素年龄资料甄别出5期重要地质事件。3600~2500Ma的数据表明敦煌地块内存在始太古代、古太古代、中太古代、新太古代古老地壳和多期的岩浆活动;2500~1800Ma的古元古代是敦煌地块遭受强烈改造和中基性侵入岩形成的时代;1000~800Ma存在新元古代碰撞造山和大规模的岩浆活动;530~500Ma是阿尔金北缘蛇绿混杂岩带、高压变质泥质岩和榴辉岩的变质时代,形成的构造杂岩带是古生代早期秦岭-柴达木盆地北缘巨型碰撞带的西延部分;400Ma的柴水沟辉长岩的斜锆石年龄代表了碰撞后的裂解事件。 相似文献
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桐柏地区高压变质地体在地壳中的抬升机制 总被引:9,自引:7,他引:2
桐柏杂岩位于秦岭与大别造山带之间,南北两侧为NWW-SEE向延伸的含榴辉岩高压变质地体,其构造就位过程及其与高压变质地体的构造关系为地质学家们所关注.本文研究表明,所谓的桐柏杂岩实际上是一个早白垩世花岗质片麻岩杂岩体,其内包裹一定数量的三叠纪中高级变质岩石.桐柏杂岩南北两条边界韧性剪切带具有相反的运动学指向,分别为大型右行和左行韧性剪切带,其形成时代为131Ma.这两条韧性剪切带中的剪切面理分别朝SSW和NNE向倾斜,韧性剪切带及杂岩体内部发育的拉伸线理均稳定地朝SEE方向缓倾伏.而在杂岩体的东端发育低角度近南北向韧性剪切变形带,其糜棱面理朝SEE方向低角度缓倾斜,矿物拉伸线理也朝SEE方向低角度缓倾伏,运动学标志指示东侧地质体朝295°~310°的方向逆冲.因此,桐柏杂岩实际上被一个顺造山带的韧性剪切带所围限,这个韧性剪切带及杂岩体内部韧性变形运动学指示了一个早白垩世由东向西的低角度抬升过程,而这一过程直接导致了含榴辉岩高压变质地体沿着造山带的方向从地壳深部抬升到近地表.这一研究结果对理解和认识桐柏-大别-苏鲁地区高压一超高压变质地体的晚期抬升过程具有重要意义. 相似文献
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桐柏-大别碰撞造山带的基本组成与结构 总被引:37,自引:3,他引:37
桐柏-大别碰撞造山带的组成与结构,主要是印支期碰撞及高压、超高压变质期后伸展构造和中新生代热-构造演化的结果。在组成上,除了燕山期及其后的岩浆活动和盆地堆积产物以外,主要包括核部杂岩单元、超高压单元、高压单元、绿帘-蓝片岩单元和沉积盖层单元等,此外还有一些镁铁质和超镁铁质岩体残留或侵入其中。桐柏-大别碰撞造山带的整体结构样式类似于北美西部的变质核杂岩带,即以总体具穹隆形态及多层拆离滑脱带的发育为特征,构成了以罗田和桐柏山为核部的两个穹隆。超高压单元、高压单元和绿帘蓝片岩单元作为不同的岩片夹持于核部杂岩和沉积盖层之间,其分布格局受碰撞期后伸展构造格架所制约。 相似文献
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桐柏山L构造岩形成机制构造解析及其对造山带演化的制约 总被引:1,自引:0,他引:1
桐柏杂岩中发育一套典型的L构造岩,其构造位置位于桐柏造山带核部,被两条近似对称的韧性剪切带所夹持,北侧剪切带左旋,南侧剪切带右旋。由于L构造岩构造位置特殊,其位于剪切带、桐柏背形、桐柏穹窿等多种构造体的交叉部位,L构造岩的构造成因解析可以为桐柏造山带的形成演化提供重要制约。通过对桐柏造山带L构造岩的构造成因机理解析和其变形温压条件的研究,同时结合前人对桐柏山其它主要构造单元的研究,我们提出,桐柏山L构造岩的形成主要受其南北两侧两条韧性剪切带控制,传统意义的桐柏杂岩体白垩纪之前与南北一体的韧性剪切带沿近似东西方向发生管状韧性剪切,剪切作用形成了一套典型的L构造岩。L构造岩的形成指示了桐柏山单元可能经历了一期中下地壳物质的管状的韧性的向东剪切流动,后期白垩纪桐柏山核部的L构造岩经历了大规模的岩浆上升与浮力增加,该L构造岩同剪切带一起发生隆升但管状剪切构造特征并未被改造,随着不均匀隆升桐柏山出现了现今的几何学特征。L构造岩反映出管状剪切形成了现今桐柏造山带近东西向线状构造样式的主体。 相似文献
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牡丹江地区黑龙江杂岩的变质变形特征 总被引:4,自引:0,他引:4
黑龙江牡丹江地区出露一套具有洋壳性质的构造混杂岩,根据特征矿物组合及岩相学特点,将这套杂岩自北向南划分为3个变质变形相带:蓝片岩带、黑硬绿泥石带和黑云母带,带与带之间被强烈的韧性变形带所分隔,表明彼此间为构造接触,而非连续的变质相带,说明了牡丹江地区的黑龙江杂岩不是正常的变质地层单元。3个相带的出露与自北向南的逆冲推覆事件有关。根据黑龙江杂岩变质变形特征和其年代学资料,将本区构造演化划分为3个阶段: (1)305~296 Ma之前的陆间洋洋壳俯冲及闭合阶段;(2)170.26~154 Ma佳木斯和兴凯地块之间的陆陆碰撞和后期作为整体统一受西太平洋构造域影响的阶段;(3)154 Ma之后敦密断裂左行走滑并对黑龙江杂岩进行改造的阶段。 相似文献
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冀北高压麻粒岩带岩石组合性质、同位素特征及其演化 总被引:2,自引:0,他引:2
通过对冀北高压麻粒岩带中各岩石单元岩石组合和同位素年代学研究,划分出北部红旗营子表壳岩带、中部高压麻粒岩带和南部单塔子-桑干杂岩带三个构造岩石单元,进而对中部高压麻粒岩带划分出南北两个亚带。南部亚带主要为2500Ma的钾长花岗岩、高压麻粒岩和再造的单塔子-桑干杂岩;北部亚带由2000-1800Ma的花岗岩带、红旗营子群岩片组成。推断本区高压麻粒岩带实际是新太古代和古元古代两次超大陆汇聚事件的产物。 相似文献
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北阿尔金恰什坎萨依沟地区早古生代构造变形特征及构造演化启示 总被引:1,自引:0,他引:1
出露在青藏高原北缘的红柳沟-拉配泉蛇绿混杂岩带一直以来为深入研究北阿尔金早古生代构造格架及演化提供了宝贵信息。经详细的野外地质填图和构造解析,文章针对红柳沟-拉配泉蛇绿混杂岩带内的构造样式、变形特征及形成时限进行研究,将北阿尔金蛇绿混杂岩带进一步细分为北侧混杂单元、中间层序单元和南侧混杂单元三个次级构造单元,南、北两侧混杂单元内以发育一系列复杂褶皱和逆冲断层为典型构造特征。卷入褶皱变形的最年轻地层岩石为中-晚奥陶世硅质岩,并被(416.8±3.7)Ma未变形的正长斑岩脉所截切;卷入逆冲断层的混杂岩中辉长岩和斜长花岗岩年龄为479~521 Ma和512.1~518.5 Ma,随后也被410.7~418.5 Ma未变形的冰沟岩体所侵位。这些基本事实表明,褶皱构造与逆冲断层均形成于中奥陶世-早泥盆世,推测其成因与北阿尔金洋俯冲作用导致的洋壳强烈缩短变形有关。在南侧混杂单元,褶皱构造样式自北向南逐渐由直立褶皱转变为斜歪褶皱,最后转变为倒转褶皱,显示出递进变形特征。褶皱所对应的应变椭球体也发生了旋转,表现出顶端指向北北东向的剪切作用,与混杂单元内逆冲断层所具有的向北北东方向逆冲、推覆特征相一致,从而推测它们与北阿尔金洋南南西向俯冲消减有密切联系。另外,在北侧混杂单元内还发育有同时期向南南东方向逆冲的断层以及轴面倾向北北东的斜歪褶皱,暗示北阿尔金洋在早古生代可能还发育有北北东方向的俯冲极性,整个北阿尔金洋俯冲消减模式可能具有双向性。 相似文献
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北山中部增生造山过程:构造变形和~(40)Ar-~(39)Ar年代学制约 总被引:3,自引:2,他引:1
北山造山带是诠释中亚造山带南缘增生构造过程的关键区域之一。北山中部变质杂岩及相关侵入岩经历了复杂变质变形作用,是解剖北山增生构造演化过程的关键。本文在详细野外观察基础上,结合显微构造变形和黑云母~(40)Ar-~(39)Ar年代学研究,厘定北山中部相关岩石的变质变形时限。北山中部岩石普遍经历了韧性剪切变形。4个样品的黑云母~(40)Ar-~(39)Ar坪年龄分别为323.1±3.6Ma、296.0±3.7Ma、261.2±3.1Ma和209.2±4.0Ma,具有自北向南逐渐变年轻的特征。结合区域上岩石大地构造单元的展布特征,这些年龄反映了北山中部地区古生代至早中生代古洋壳(牛圈子洋盆)向北俯冲、造山带往南增生的过程。北山最晚的增生造山事件可能延续到三叠纪。 相似文献
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《Geodinamica Acta》2001,14(6):345-360
In the southeastern Ötztal basement remnants of eo-Alpine high-pressure metamorphism as well as deformation related to the emplacement of these eclogites are preserved. The eo-Alpine age of the two main ductile deformation phases is constrained by Ar-Ar and Rb-Sr mica cooling ages of about 80 Ma, providing a lower, and by deformed Permo-Mesozoic rocks, providing an upper time limit. While high-pressure minerals (M1) are aligned along structures of the first deformation phase (D1), subsequently grown amphibolite facies minerals (M2) are late- to post-kinematic with respect to the third phase (D3). D1 is characterized by non-coaxial deformation producing an E-W oriented stretching lineation, the younger phases D2 and D3 by folding, where the older set of folds strikes N-S, the younger one E-W. These results imply a basic change of tectonic movement direction during the eo-Alpine event. Structural and petrological evidences favour a two-stage exhumation model, where tectonic exhumation (D1, D2 and D3) is correlated with the first stage, statically overprinted under amphibolite facies conditions (M2). As there is no evidence of significant deformation after this stage, erosion and surface uplift most probably represent the relevant processes for the last part of the exhumation path. During this stage the high-pressure rocks were exhumed from amphibolite facies conditions to the surface. 相似文献
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北祁连加里东朝俯冲-增生楔可分为浅部和深部两个单元。浅部单元主要由蛇绿岩、蛇绿混杂岩及深海复理石所组成,极浅变质或没有变质。深部单元主要由HP/LT蓝片岩、透镜状的蛇纹岩、变辉长岩及绿片岩(主要为退变质产物)所组成。普遍遭受HP/LT变质作用和绿片岩相的退变质作用。两个单元同时形成于不同的构造层次,具有类似的原岩特征。在加里东期,俯冲-增生楔共经历4期变形作用(D1,D2,D3,D4)和3期变质作用(M1,M2,M3).从D1→D4反映了俯冲-增生楔从俯冲作用→深部构造板底垫托作用→折返(构造顶蚀)→剥蚀的动力学演化过程。 相似文献
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大别山东北缘桐城高压-超高压变质带的构造解析及其对郯庐断裂带的制约 总被引:2,自引:1,他引:1
通过对郯庐断裂带南段桐城地区高压-超高压变质带详细的岩石学和构造学研究,将研究区从空间结构上划分为三个构造单元:上部低温-高压单元、中部中温-高压单元和下部超高压单元。根据研究区多期构造变形分析,共识别出了五期有区域构造地质学含义的事件(D_1-D_5):D_1代表高压-超高压变质岩中-晚三叠世同碰撞早期折返过程;D_2表征了高压-超高压变质岩晚三叠世同碰撞晚期折返过程;D_3记录了早白垩世中大别变质核杂岩的形成,也即整个中国东部晚中生代大规模伸展构造在研究区的表现;D_4可能标志着郯庐断裂走滑构造对高压-超高压造山带的叠加;D_5表现为脆性正断作用,控制了晚白垩世-古近纪潜山半地堑盆地的形成。这些结果表明了研究区所经历构造演化的复杂性,其构造几何形态很难用郯庐断裂左行平移南大别超高压变质岩来解释,也不支持桐城地区存在巨大走滑作用的证据。 相似文献
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哀牢山构造带是青藏高原东南缘重要的边界构造带,其内出露的深变质岩系一直被认为是古老的变质基底岩石。利用LA-ICP-MS原位微区分析技术对哀牢山深变质岩系锆石进行U-Pb年龄、微量元素分析。结果表明深变质岩系的原岩有728±8Ma、727±3Ma、231±4Ma的花岗质岩石和其它年龄的碎屑岩,变质时代为27.8~23.7Ma。综合野外地质特征和分析结果,我们认为哀牢山深构造带在晚渐新世27.8~23.7Ma发生了大规模的地壳深熔作用,现今所见深变质岩系是由不同时代、不同岩性的原岩在晚渐新世(27.8~23.7Ma)变质形成,不全是古老的变质基底岩石。深熔过程中熔/流体发生了明显的迁移。哀牢山变质带具有混合岩化特征的岩石很可能是峰期变质作用后减压熔融的产物。晚渐新世地壳深熔作用与左行走滑剪切是哀牢山深变质带折返过程中近似同时发生的两种不同变质表现形式,两者相互影响、相互制约。 相似文献
15.
在滇西南澜沧江构造带东侧、扬子板块西缘中元古代团梁子岩组含有大量的平行于区域面理(S2)的构造热液石英脉,利用LA-ICP-MS对3件石英脉和1件绿片岩中的锆石进行~(206)U/~(238)Pb测年,获得3组明显的组合年龄:395~461Ma、240~260Ma和222~228Ma,大部分集中于222~228Ma。对比研究表明,区域上2期变质变形(M_1D_1、M_2D_2)与获得的锆石年龄有较好的对应性,早期的变质变形(M_1D_1)形成于早古生代(395~461Ma)原特提斯洋盆向东俯冲阶段;晚期的2期变质变形(M_(2a)D_(2a),M_(2b)D_(2b))发生于晚古生代—中生代早期(240~260Ma)古特提斯洋盆向东俯冲阶段和晚三叠世早期(222~228Ma)古特提斯洋盆闭合阶段。晚三叠世早期变质变形(M_(2b)D_(2b))构造热液发生在临沧花岗岩侵位和弧陆碰撞型忙怀组火山岩(229~235Ma)之后,早于小定西组/芒汇河组拉伸期火山岩(210~222Ma),是古特提斯洋与扬子陆块碰撞后的应力松弛阶段俯冲岩片快速折返的证据,同时也反映了古特提斯洋盆在晚三叠世早期之前已经关闭。 相似文献
16.
Summary The Cretaceous Eclogite-Gneiss unit and its tectonic overburden (Micaschist, Phyllite and Lower Magdalensberg units) and the
underlying Preims subunit of the Saualpe, Eastern Alps, have been investigated in order to constrain the mode of exhumation
of the type locality of eclogites. 40Ar/39Ar ages of white mica from the eclogite-bearing unit suggest rapid, uniform cooling and exhumation between 86 and 78 Ma (Santonian-Campanian).
Overlying units show upwards increasingly older ages with an age of 261.7 ± 1.4 Ma in the uppermost, low-grade metamorphic
unit (Lower Magdalensberg unit). We consider this Permian age as geologically significant and to record a Permian tectonic
event. Rocks of phyllite and micaschist units along western margins of the Saualpe block yield amphibole and white mica ages
ranging from 123 to 130 Ma. These are considered to closely date the age of nappe stacking, whereas a single biotite age of
66–68 Ma from a shear zone is interpreted to date retrogression during normal faulting. Biotite and amphibole of Micaschist
and Eclogite-Gneiss units show variable contents of extraneous argon. Consequently, their ages are in part geologically meaningless
whereas other samples yield meaningful ages. The white mica ages from the Eclogite-Gneiss unit range from 78 to 85 Ma and
argue for cooling through ca. 400 °C during the time as the westerly adjacent Upper Cretaceous Krappfeld collapse basin formed.
The Preims subunit with paragneiss and marbles is considered to represent a large synmetamorphic shear zone at the base of
the overthrusting Eclogite-Gneiss unit. The unit comprises a flat-lying foliation and a SE-trending lineation. This zone is
interpreted to represent a zone of top-NW thrusting. A major ductile low-angle normal fault with top to ESE shear has been
detected between the Eclogite-Gneiss and overlying units, and between the Micaschist and Phyllite units. The ductile thrust
at the base and the low-angle normal fault at the top are considered to confine a NW-ward extruding high-pressure wedge. The
new observations argue for rapid exhumation of a subducted high-pressure wedge within a subduction channel. Rapid surface
erosion of the exhuming wedge might have facilitated exhumation. Eroded sedimentary rocks are preserved within adjacent Gosau
basins, although only pebbles of low-grade metamorphic rocks of the uppermost tectonic unit can be found in these basins. 相似文献
17.
ABSTRACT Microstructural and petrological data from the Jumping Brook metamorphic suite, western Cape Breton Highlands, suggest that a single episode of syntectonic prograde metamorphism, followed by uplift, cooling and associated retrogression, affected these rocks during mid-Palaeozoic times. Microstructures indicative of progressive crenulation foliation development can be traced from low-grade (chlorite zone) through high-grade (kyanite zone) rocks, allowing a clear sequence of porphyroblast growth to be established. Metamorphic reactions and P-T calculations suggest metamorphic conditions of 700-750°C at 8-10 kbar were achieved in kyanite zone rocks. Although a complete P-T-t path was not defined, combined petrological and geochronological data can be used to constrain computed P-T-t models. These models suggest that a component of post-metamorphic tectonic exhumation is required to explain the observed times of cooling and uplift. The microstructural and petrological data to not support the interpretation that the high-grade rocks represent pre-existing crystalline basement. Indeed, the metamorphic history, geochronology and computed tectonic models all point to a single, short-lived episode of Silurian-Devonian volcanism, intrusion, convergence, regional metamorphism and uplift, probably resulting from collision tectonics at an irregular continental margin. 相似文献
18.
The Kamieniec Metamorphic Belt comprises a volcano-sedimentary succession exposed within a collision zone between the Saxothuringian and Brunovistulian crustal domains of the European Variscides. The studied rocks recorded two metamorphic episodes. The first episode, M1, occurred at conditions of c. 485 ± 25 °C and 18 ± 1.8 kbar related to burial within a subduction zone. The subsequent episode, M2, was linked to the final phases of exhumation to mid-crustal level, associated with pressure and temperature (P–T) conditions ranging from c. 520 ± 26 °C and 6 ± 0.6 kbar through 555 ± 28 °C and 7 kbar ± 0.7 to ~590 ± 30 °C and 3–4 ± 0.4 kbar. The documented deformation record is ascribed to three events, D1 to D3, interpreted as related to the burial and subsequent exhumation of the Kamieniec Metamorphic Belt. The D1 event must have witnessed the subduction of the Kamieniec Metamorphic Belt rock succession whereas the D2 event was associated with the exhumation and folding of the Kamieniec Metamorphic Belt in an E-W-directed shortening regime. A subsequent folding related to the D2 event was initiated at HP conditions, however, the planar fabric produced during a late stage of the D2 event, defined by a low-pressure mineral assemblage M2, indicates that the D2 final stage was synchronous with the onset of the M2 episode. Consequently, the entire D2 event seems to have been associated with the exhumation of the Kamieniec Metamorphic Belt to mid crustal level. The third deformation event D3, synchronous with the M2 episode, marked the last stage of the exhumation, and was linked to emplacement of granitoid veins and lenses. The latter resulted in heating and rheological weakening of the entire rock succession and in the formation of non-coaxial shear zones. 相似文献
19.
The western terranes exposed east of the Pan-African suture in western Hoggar (southwest Algeria), are reexamined in the light of new structural, petrologic and by the 40Ar/39Ar laser probe data on metamorphic micas and amphiboles. To the north, the Tassendjanet nappe includes the Paleoproterozoic basement, its Mesoproterozoic cover and mafic rocks representing the roots of a ca. 680 Ma arc overlain by Late Neoproterozoic andesites and volcanic greywackes. The nappe preserved at rather shallow crustal level in the east was emplaced southward (D1a) to southeastward (D2). In the south, two metamorphic suites are distinguished. The Tideridjaouine–Tileouine high-pressure metamorphic belt (T=550–600 °C, P=1.4–1.8 GPa) represents a slab of subducted continental material exposed along the western edge of the In Ouzzal granulite unit interpreted as a microcontinent. Differential exhumation of tectonic slices from the high-pressure belt occurred around 615–600 Ma through a system of west-directed recumbent folds (D1b). The Egatalis high grade belt in the west was intruded by syn-metamorphic gabbro–norite bodies. It includes unretrogressed low-pressure granulite facies rocks (T around 750–800 °C, P0.45 GPa) cooled at a rate of 15°/m.y. between 600 and 580 Ma, and followed by the emplacement of several late-kinematic granitic plutons. Final exhumation of the low-pressure, high-temperature metamorphic rocks, that are not found as pebbles in the molasse, took place in the Late Cambrian. The early and relatively fast cooling of the high-pressure and high-temperature metamorphic rocks of the southern part of the Tassendjanet terrane is at variance with the slow cooling of central Hoggar where repeated magmatic activity as young as Late Cambrian occurred [Lithos 45 (1998) 245]. 相似文献