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青藏高原中的古特提斯体制与增生造山作用 总被引:28,自引:12,他引:16
青藏高原古特提斯体系的特征表现为古特提斯洋盆中多条状地体的存在,多俯冲、多岛弧增生体系的形成和多地体汇聚、碰撞造山的动力学环境,其构架包括4条代表古特提斯洋壳残片的蛇绿岩或蛇绿混杂岩(昆南-阿尼玛卿蛇绿岩带、金沙江-哀牢山-松马蛇绿岩带、羌中-澜沧江-昌宁-孟连蛇绿岩带和松多蛇绿岩带)、5条火山岩浆岛弧带(布尔汗布达岛弧岩浆带、义敦火山岩浆岛弧带、江达-绿春火山岛弧带、东达山-云县火山岛弧带和左贡-临沧岛弧-碰撞岩浆带)、4个陆块或地体(松潘-甘孜地体、羌北-昌都-思茅地体、羌南-保山地体)、3条洋壳深俯冲形成的高压-超高压变质带(金沙江得荣高压变质带、龙木错-双湖高压变质带、松多高(超)压变质带),以及5条弧前增生楔或增生杂岩(西秦岭增生楔、巴颜喀拉-松潘-甘孜增生楔、金沙江增生楔、双湖-聂荣-吉塘-临沧增生楔、松多增生杂岩)。古特提斯洋盆的俯冲增生造山作用普遍存在于青藏高原古特提斯复合造山体中,构成与多条古特提斯蛇绿岩带(缝合带)相伴随的俯冲增生杂岩带(链)。古特提斯俯冲增生杂岩带包括由弧前强烈变形的沉积增生楔、以及高压变质岩、岛弧岩浆岩、蛇绿岩和外来岩块组成的混杂体,代表在洋盆俯冲过程中的活动陆缘的地壳增生。 相似文献
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北山造山带围限于华北克拉通、西伯利亚克拉通和塔里木克拉通之间,是中亚造山带南缘的重要组成部分,学界对其构造-地层区划和地质演化历史长期存在着不同认识。其中贾不泉口子地区的马鬃山增生楔是研究北山地区构造演化的天然载体,本文针对该增生楔的不同地质体开展了详细的识别和解剖,共识别出蛇绿混杂岩岩片、洋岛-海山岩片、洋内弧岩片、深海-半深海硅质岩岩片、活动陆缘-海沟浊积岩岩片和陆缘增生弧岩片等多种岩片类型。在马鬃山增生楔活动陆缘-海沟浊积岩岩片中的两件凝灰质粉砂岩样品(P3-57、P3-110)和一件含砾岩屑砂岩样品(P3-82)获得最大沉积年龄分别为410Ma、430Ma和286Ma。本研究对北山地区古生代的构造古地理格局演变具有重要的约束作用,具体表现为:(1)贾不泉口子地区的马鬃山增生楔岩石组合、变质变形程度与年代学研究存在一定差异,应该对不同类型岩片予以解构分析,还原不同类型岩片的构造古地理背景;(2)贾不泉口子地区的马鬃山增生楔中的3件基质样品的碎屑锆石年龄谱表现出~2.5Ga、~1.5Ga、~0.9Ga、~450Ma、~430Ma、~410Ma、~350Ma和~288Ma的多峰值频谱... 相似文献
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在四川北部松潘西北和甘肃南部合作市一带的上三叠统(深海沉积)复理石中发现了数套火山(碎屑)岩夹层。利用UPb同位素测年,获得4件安山岩、凝灰岩样品锆石的年龄加权平均值分别为205.9±1.6Ma、208.9±1.8Ma、210.4±1.6Ma和212.3±1.5Ma,时代属于晚三叠世诺利期晚期—瑞提期早期。此系第一次较为精准地报道松潘-甘孜褶皱带晚三叠世复理石火山岩夹层及其可能代表的火山喷发年龄。研究结果表明,直到瑞提期早期松潘-甘孜古残留海盆还未停止接受沉积物供给。该套火山(碎屑)岩的测年结果为松潘-甘孜褶皱带上三叠统复理石岩石地层单元的划分和对比提供了重要参考,同时为进一步约束华南与华北板块碰撞-造山事件时限提供了新证据。 相似文献
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1:25万地质填图进一步揭开了青藏高原大地构造的神秘面纱 总被引:57,自引:19,他引:57
1:25万地质填图进一步揭开了青藏高原地区大地构造的奥秘:阿尔金山是昆仑、祁连-秦岭造山系的一部分;阿尔金断裂确是一条大型转换断层;木孜塔格-玛沁缝合带和金沙江缝合带均是华力西缝合带;松潘甘孜三叠系沉积盆地是劳亚大陆南部边缘的浊积岩盆地;冈底斯带曾经历了重要的印支造山运动;不存在从古生代延续到三叠纪的大洋盆地,即不存在所谓古特提斯或永久特提斯;古生代时期,在青藏高原地区亦不存在具古生物、古地理分隔意义的大洋盆地,当时,包括中朝、扬子、塔里木以及青藏高原地区在内的中国大部分均位于古亚洲洋主洋盆——中亚-蒙古带之南,属冈瓦纳大陆结构复杂的北部边缘;雅鲁藏布江和班公湖-怒江带是特提斯洋中的孪生姊妹,它们均是从三叠纪起就发展成大洋裂谷带的;以雅鲁藏布江带为主洋盆带的特提斯洋,从三叠纪晚期开始消减,经历了印支、燕山、喜马拉雅3个阶段脉动式板块汇聚造山过程。 相似文献
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1∶25万地质填图进一步揭开了青藏高原大地构造的神秘面纱 总被引:3,自引:1,他引:3
1∶25万地质填图进一步揭开了青藏高原地区大地构造的奥秘:阿尔金山是昆仑、祁连-秦岭造山系的一部分;阿尔金断裂确是一条大型转换断层;木孜塔格-玛沁缝合带和金沙江缝合带均是华力西缝合带;松潘甘孜三叠系沉积盆地是劳亚大陆南部边缘的浊积岩盆地;冈底斯带曾经历了重要的印支造山运动;不存在从古生代延续到三叠纪的大洋盆地,即不存在所谓古特提斯或永久特提斯;古生代时期,在青藏高原地区亦不存在具古生物、古地理分隔意义的大洋盆地,当时,包括中朝、扬子、塔里木以及青藏高原地区在内的中国大部分均位于古亚洲洋主洋盆———中亚-蒙古带之南,属冈瓦纳大陆结构复杂的北部边缘;雅鲁藏布江和班公湖-怒江带是特提斯洋中的孪生姊妹,它们均是从三叠纪起就发展成大洋裂谷带的;以雅鲁藏布江带为主洋盆带的特提斯洋,从三叠纪晚期开始消减,经历了印支、燕山、喜马拉雅3个阶段脉动式板块汇聚造山过程。 相似文献
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杨宗让 《沉积与特提斯地质》2002,22(3):53-59
地处柴南缘昆中蛇绿杂岩带与羌塘地块北缘可可西里—金沙江古缝合线之间的松潘—甘孜褶皱带(包括东昆仑构造带),其主体应属古特提斯洋晚石炭世一晚三叠世时期向其北侧的柴达木古陆南缘俯冲过程中在活动陆缘弧—沟间隙之间增生形成的一个大型弧前构造带。具有由弧前盆地沉积楔和基底增生杂岩构成的双重结构特点,其形成与冈瓦纳大陆北缘若尔盖“三角”地块的楔入及俯冲带向南迁移有关。大致经历了晚石炭世一早三叠世狭窄弧前盆地和中晚三叠世宽阔弧前盆地两个主要演化阶段。 相似文献
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卡拉库姆盆地位于中亚地区图兰地台南部,北西走向,是中亚地区最重要的含油气盆地之一。对于盆地晚二叠世-三叠纪的构造属性一直都存在着很多争论,我们根据钻井、地球物理及露头资料,认为卡拉库姆盆地是以增生杂岩为基底形成的一个沉积盆地,晚二叠世-三叠纪具有弧后裂谷的性质。卡拉库姆盆地前侏罗纪的构造演化分为4个阶段:1)石炭纪之前古特提斯洋壳开始俯冲增生; 2)石炭纪-早二叠世形成丝路弧; 3)晚二叠世-三叠纪马什哈德-北帕米尔弧形成,卡拉库姆盆地处于弧后拉张的位置; 4)晚三叠世末伊朗等地块与欧亚大陆碰撞,卡拉库姆盆地进入短暂的周缘前陆盆地阶段。其晚二叠世-三叠纪的沉积中心在北阿姆河坳陷,木尔加布坳陷和科佩特山前坳陷,沉积环境主要为陆相,三叠纪发生海侵,部分地区接受海相沉积。岩石类型主要为陆源碎屑岩、火山岩及少量灰岩。 相似文献
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温都尔庙群锆石的LA-MC-ICPMS U-Pb年龄及构造意义 总被引:11,自引:5,他引:6
温都尔庙群分布在内蒙古中部地区,分下部桑达来呼都格组和上部哈尔哈达组,通常被认为属于蛇绿岩套组合,形成时代也一直存在争论。详细的野外调查表明,温都尔庙群不完全是蛇绿岩组合,还发育洋内弧的玄武岩-玄武安山岩-安山岩组合。所以,温都尔庙群为一套包含大洋洋壳、洋内弧等不同时代和成因的增生杂岩。对温都尔庙群洋内弧变质安山岩及变质碎屑岩进行锆石LA-MC-ICPMS法U-Pb同位素测年表明:桑达来呼都格组上部洋内弧变质安山岩年龄为470±2Ma。哈尔哈达组两个样品(10NM142、10NM143)的碎屑锆石年龄主要集中在445~480Ma范围内,其中10NM143样品中最年轻谐和年龄多在424~438Ma之间,表明至少有一部分地层形成于中志留世。考虑温都尔庙群蛇绿岩形成时代(497~477Ma)、高压变质时代(446±15Ma~453±1.8Ma)及晚志留世西别河组不整合覆盖其上的事实,桑达来呼都格组可能形成于寒武纪-晚奥陶世,哈尔哈达组形成于晚奥陶世-中志留世。因此,温都尔庙群是形成于寒武纪-中志留世的变质增生杂岩。 相似文献
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那丹哈达地体是中国境内唯一保存的古太平洋板块俯冲-增生的直接记录,包括跃进山杂岩和饶河增生杂岩。跃进山杂岩出露于那丹哈达地体的西缘,属于地体早期阶段的增生产物,对揭示古太平洋板块的俯冲-增生历史以及古亚洲洋构造域、泛大洋和古太平洋构造域之间的转换过程具有重要意义。本文通过野外地质调查明确了跃进山杂岩是一套构造混杂岩,主要由硅质岩、石英片岩、大理岩、二云母片岩、石英-云母片岩、变玄武岩、辉长岩、纯橄榄岩、异剥橄榄岩和单斜辉石岩组成。LA-MC-ICPMS锆石年代学测试结果表明变玄武岩原岩和辉长岩的形成时代分别为303±2Ma和278±2Ma,此外前人报道了跃进山杂岩中最年轻的玄武岩形成于232±5Ma,这些年代学研究成果限定了镁铁质-超镁铁质岩形成于303~232Ma。大量地球化学研究数据证实了跃进山杂岩中的玄武岩为洋中脊玄武岩(MORB)和洋岛玄武岩(OIB)。糜棱岩化绿泥石-绢云母板岩的绢云母^(40)Ar/^(39)Ar测试结果为193±1Ma,根据跃进山杂岩中最年轻的原岩时代为~220Ma,本文限定了跃进山杂岩的最终就位时代为220~193Ma。结合中国东北地区中生代增生杂岩及佳木斯地块和松辽地块东缘晚古生代至中生代的岩浆弧,本文揭示了中国东北地区古亚洲洋和泛大洋构造域向古太平洋构造域的转换发生在晚三叠世至早侏罗世。 相似文献
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准噶尔盆地石炭系中发现自生自储的大型火山岩油气藏,这不仅大大拓宽了油气勘探领域,而且从含油气盆地原型恢复角度为我们提出了一个新的命题。本文对准噶尔盆地东部的石炭纪盆地进行了剖析,在井间地层对比和锆石U-Pb同位素年代学测定基础上,确定了准噶尔盆地石炭系划分方案,建立了准东地区及邻区石炭系的5条联井对比骨干地质剖面,进而把准东地区石炭系盆地的充填过程划分为两个旋回、7个阶段,其中第一旋回为早石炭世,进一步分为4个阶段,第1至第3阶段以各种火山岩发育为特征,第4阶段为火山活动的间歇期,发育了暗色泥质岩。第二旋回为晚石炭世,进一步分为3个阶段,第5和第6两个阶段以发育中基性火山岩为特征,第7阶段以沉火山凝灰岩和与泥质岩、砂岩互层发育为特征。文中归纳了准东地区石炭纪盆地及其中火山岩油气藏烃源岩和储层的发育特点,建立了其盆地原型,指出准东地区石炭系在沉积时的构造古地理以多岛洋为特征,受准噶尔洋的持续向北东方向俯冲的影响,准东地区盆地基底向南西方向倾斜,造成了沉积中心的向南西迁移。考虑到盆地位于增生型造山带内,将其原型盆地称为增生楔盆地。文中特别指出,任何构造位置上形成的盆地都有形成大油气田的潜力,能否形成大油气田的关键在于有没有优质烃源岩、优质储层和有效圈闭。准东增生楔盆地中烃源岩与火山岩储层的空间关系十分密切,二者往往形成互层状或穿插状,这一特征决定了盆地中油气产出具有近源性,而圈闭的形成则因火山岩储层的成层性差而呈形态和类型的多样性。 相似文献
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We used the K–Ar ages of clay-sized mineral grains to investigate the timing of activity on the Minami-Awa Fault, which is a fossil seismogenic fault along a subducting plate interface separating the coherent strata of the Shimanto accretionary complex to the north from the tectonic mélange to the south. The K–Ar ages from the matrix shale of the mélange range from 85 to 48 Ma and decrease with decreasing amount of detrital mica, indicating that they record a mixture of authigenic illite related to burial diagenesis and detrital mica. In contrast, the K–Ar ages of an ultracataclasite within the fault core are significantly younger, ranging from 29 to 23 Ma, and are unrelated to grain size and amount of detrital mica. This indicates that s Ar diffused completely from the ultracataclasite between 29 and 23 Ma, which postdates the formation of authigenic illite by at least several million years. The diffusion of 40Ar in the ultracataclasite was probably caused by frictional heating or high-temperature fluid migration that occurred when the fault was reactivated. The results indicate that seismogenic faults that separate tectonic mélange from coherent strata in accretionary complexes may slip, not only during accretion, but also long after accretion. 相似文献
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N. I. Volkova S. I. Stupakov V. A. Simonov Yu. V. Tikunov 《Journal of Asian Earth Sciences》2004,23(5):705-713
The blueschist/greenshist Terekta Complex is the only blueschist locality known in the Russian Altai. The Terekta metabasites contain Na and Na–Ca amphibole, actinolite, phengite, epidote, albite, quartz, calcite, magnetite (or hematite). Depending on the amphibole composition, these rocks were subdivided into blueschist, transitional blueschist/greenschist and greenschist. Both blueschists and transitional blueschist/greenschists (glaucophane-bearing and winchite–actinolite schists) have compositions similar to alkaline basalts of oceanic islands, whereas the greenschists correspond to ocean-floor tholeiitic basalts, or MORB. Available geothermobarometry yielded the following estimates of metamorphic conditions: T=350–400 °C and P=6–8 kbar. The different mineral assemblages of the metabasites are believed to be a result of their different lithologies. The presence of matabasalts with ocean island basalt and MORB affinity, as well as the occurrence of layered metachert, marble, metagraywacke, and plates of serpentinized dunites, pyroxenites indicate that the complex was very likely a subduction-accretionary complex. The complex contains rocks of accretionary wedge, and fragments of oceanic crust which are regarded to be a remnant of an Early Paleozoic subduction zone in the Russian Altai. 相似文献
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《Geodinamica Acta》2013,26(5):375-388
The structure of the southernmost domain of the Ossa Morena Zone in Portugal (south sector of the Iberian Autochthonous Terrane) is strongly controlled by earlier deformation events. The first two deformation events correspond to tangential strain regimes, marked by subhorizontal milonitic foliations. These events seem to be directly related with the obduction/subduction process during the Variscan ocean closure and the emplacement of the Beja-Acebuches Oceanic Terrane. In this domain (Évora-Beja Domain), the upper tectono-stratigraphic unit (Moura Phyllonitic Complex) is mainly represented by phyllites and corresponds to a strongly imbricated complex, involving several layers of autochthonous sequence (mainly rocks of a volcano-sedimentary complex), but it also includes dismembered and scattered slices of ophiolites. The widespread greenschists facies overprint an earlier high-pressure metamorphic event (blueschists in the central sector of Évora-Beja Domain and eclogites in the western sector). With regard to its geochemical signature, the Moura Phyllonitic Complex includes amphibolites ranging from N-MORB to T/P-MORB (ophiolitic slices) and mafic alkaline and peralkaline metavolcanics (autochthonous slices). At macroscopic scale, the autochthonous sequence of the Évora-Beja Domain is almost complete in the eastern region, with a stratigraphic sequence ranging from Precambrian to Silurian/Lower Devonian. Towards WSW, the Moura Phyllonitic Complex progressively become tectonically discordant on the sequence below, just near the suture, where it superposes Precambrian levels. The overall evidences (tectonic, metamorphic and geochemical) allow the conclusion that the Moura Phyllonitic Complex is an accretionary complex related with the obduction process during earlier times of the variscan ocean closure. 相似文献
16.
Various fracture filling minerals and secondary minerals in fracture walls were formed by fluid-rock interaction during the exhumation of the Palaeogene Shimanto Belt of Kyushu, Japan, which is located in an accretionary complex. Each mineral formed under favourable geological conditions and can be used to estimate the conditions of accretion and formation of the related rock sequences. Petrographic observations, mineralogical and geochemical analyses were made on fracture filling minerals and secondary minerals from boreholes of ca. 140 m depth, drilled in the Shimanto Belt. Results reveal that the secondary minerals were formed in three major stages distinguished by the sequential textural relationships of the minerals and the interpreted environment of mineral formation. Filling mineral assemblages show that the studied rock formation has been subducted to a depth of several km and the temperature reached was ca. 200–300 °C. After the subduction, the rock formation was uplifted and surface acidic water penetrated up to 80 m beneath the present ground surface. The acid water dissolved calcite fracture filling minerals to form the present groundwater flow-paths, which allowed recent wall rock alteration to occur. The results shown here imply that filling mineral assemblages can be an effective tool to evaluate the environmental changes during exhumation of an accretionary complex. 相似文献
17.
We undertook a boat expedition to explore the geological framework of a very remote, lesser-known island, in the Chilean Patagonia: the Diego de Almagro Island(latitude S51°330'). This uninhabited, ca.400 km~2 Island is one of the very rare exposures of the Mesozoic accretionary subduction complex along the Chilean margin. Unstable weather, strong winds, steep topography, and very dense vegetation make an on-land mission difficult. Careful preparation based on high-resolution satellite images is advised to optimize shore access and minimize risks of injury. Despite a relatively important degree of regional reequilibration of metamorphic assemblages due to sluggish exhumation through the forearc crust, our results have shown that the island is composed of a nappe stack of ocean-floor derived slivers of metasedimentary units that exhibit very different pressure-temperature-time paths during burial by subduction under the Chilean margin and subsequent exhumation. These rocks are witness to a complex thermal evolution of the subduction zone between Jurassic and Cretaceous times from granulite facies to blueschist facies conditions as well as multiple episodes of accretion at ca. 35 -40 km in depth for almost100 Ma over the Mesozoic era. 相似文献
18.
The Mw 7.7 earthquake that struck SE Pakistan on 24 September 2013 at 11.29.48 UTC was a sinistral strike-slip event on a branch of the Ornach-Nal-Chaman fault system which hereabouts separates the Eurasian Plate from the Indian Plate. Although the focus was at a depth of 15 km and 400 km inland the earthquake was accompanied by the emergence of an island off the Makran coast and the generation of a tsunami with a peak amplitude of 27 cm at Muscat (Oman) and 20 cm at Chah Bahar (Iran). At DART marine buoy 23228 in the Indian Ocean 500 km to the south a series of seismic Rayleigh waves about 4 min after the main shock was followed 54 min later by a tsunami with a peak amplitude of 1 cm. The Rayleigh series is here attributed to seafloor vibration during accelerated subduction of the Arabian Plate beneath the Eurasian Plate, and the tsunami to the development or reactivation of one or more reverse faults on the seaward portion of the Makran imbricate fan. As in the 2010.2.27 Mw 8.8 Maule (Chile), the 2004.12.26 Mw 9.2 Sumatra–Andaman, the 2005.3.28 Mw 8.7 Nias (Indonesia) and the 2011.3.11 Mw 9.0 Tohoku (Japan) earthquakes, the link between tsunami generation and slip on the megathrust is thus very indirect, to the detriment of attempts to mitigate coastal hazards using teleseismic data when nearshore seafloor monitoring would probably prove more effective. 相似文献
19.
The notion that the Yakuno ophiolite and overlying Maizuru Group represents an accretionary prism formed during the Permian evolution of Japan on the Yakuno eruptive sequence, association of hemipelagic mudstone with silicic tuff, exotic fossiliferous limestones derived from previously accreted sea-mounts, upward coarsening of sequences terrigenous sandstone and conglomerate, and mildly deformed Permian and Triassic forearc basin formations. The most important indicator, however, is the seaward imbrication and repetition observed in both the Maizuru Group and the ophiolite itself. D1 deformation structures include axial–planar foliations (pressure-solution cleavage for the Maizuru Group and granulite–amphibolite metamorphic layering in the ophiolite), flattening type strain, symmetric pressure shadows and fringes, and isoclinal folds showing axial–planar foliations and thrust faulting at their overturned limb. The exceptional asymmetry observed indicates seaward-directed shearing near the thrust, while D1 structures in the Maizuru zone are explained by off-scraping, above the basal decollement. The later Jurassic D2 kink fold structure includes a first-order asymmetric kink with a brittle thrust at its overturned limb, more-or-less coeval with M2 retrograde metamorphism. Medium-pressure M1 prograde metamorphism in the Yakuno ophiolite produced layering of granulite and amphibolite, and in the Maizuru Group, formation of illite along pressure-solution cleavage of mudstones. The metamorphic grade is controlled by the stratigraphic relationships and appears typical of that in ocean floor regions. However, there was only one episode of M1 prograde metamorphism which occurred contemporaneously with D1 off-scraping. Given that subduction zones are normally characterized by high P/T metamorphic regimes, the observed P/T history appears to reflect relatively unusual conditions. Such high thermal gradients may plausibly reflect the approach of a young, hot oceanic plate which continued subducting beneath the Japanese arc. Accordingly, the Yakuno ophiolite was probably formed at the trench–trench–ridge triple junction. 相似文献
20.
The Makran accretionary prism in southeastern Iran contains extensive Mesozoic zones of melange and large intact ophiolites, representing remnants of the Tethys oceanic crust that was subducted beneath Eurasia. To the north of the Makran accretionary prism lies the Jaz Murian depression which is a subduction-related back-arc basin. The Band-e-Zeyarat/Dar Anar ophiolite is one of the ophiolite complexes; it is located on the west side of the Makran accretionary prism and Jaz Murian depression, and is bounded by two major fault systems. The principal rock units of this complex are a gabbro sequence which includes low- and high-level gabbros, an extensive sheeted diabase dike sequence, late intrusive rocks which consist largely of trondhjemites and diorites, and volcanic rocks which are largely pillow basalts interbedded with pelagic sedimentary rocks, including radiolarian chert. Chondrite- and primitive-mantle-normalized incompatible trace element data and age-corrected Nd, Pb, and Sr isotopic data indicate that the Band-e-Zeyarat/Dar Anar ophiolite was derived from a midocean ridge basalt-like mantle source. The isotopic data also reveal that the source for basalts was Indian-Ocean-type mantle. Based on the rare earth element (REE) data and small isotopic range, all the rocks from the Band-e-Zeyarat/Dar Anar ophiolite are cogenetic and were derived by fractionation from melts with a composition similar to average E-MORB; fractionation was controlled by the removal of clinopyroxene, hornblende and plagioclase. Three 40Ar–39Ar plateau ages of 140.7±2.2, 142.9±3.5 and 141.7±1.0 Ma, and five previously published K–Ar ages ranging from 121±4 to 146±5 Ma for the hornblende gabbros suggest that rocks from this ophiolite were formed during the Late Jurassic–Early Cretaceous. Plate reconstructions suggest that the rocks of this complex appear to be approximately contemporaneous with the Masirah ophiolite which has crystallization age of (150 Ma). Like Masirah, the rocks from the Band-e-Zeyarat/Dar Anar ophiolite complex represent southern Tethyan ocean crust that was formed distinctly earlier than crust preserved in the 90–100 Ma Bitlis-Zagros ophiolites (including the Samail ophiolite). 相似文献