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仁布-泽当逆冲断层是喜马拉雅大反向逆冲断层(GCT)在藏南地区的重要延伸部分,也是喜马拉雅造山带北部边界新生代最为活动的构造单元之一。新生代以来特提斯喜马拉雅的构造变形组构特征的研究对于深入理解碰撞造山带演化与高原隆升具有重要构造意义。本文综合GCT泽当-琼结段断层的宏观与微观变形特征,对断裂带石英脉、围岩中石英和云母矿物的电子背散射(EBSD)组构及断层两侧岩石磁组构(AMS)特征进行对比分析。结果表明对AMS主要贡献来自顺磁性云母、绿泥石等,磁化率各向异性椭球体以压扁状为主,磁面理与构造面理(劈理、断层面)基本重合,显示较强的构造变形磁组构特征;磁线理优选方向近南北向,且与观测北向逆冲断层方向一致,揭示剪切作用在变形过程中的持续作用。研究发现泽当地区GCT附近石英微观结构从围岩至断层区,石英至少呈现3种不同类型的微观变形机制:围岩区溶解蠕变、断裂带石英以膨凸重结晶和亚颗粒旋转重结晶作用为主。断裂带石英的c轴EBSD组构指示变形为低温(300~400℃)环境,其中黑云母的结晶学优选(CPO)与磁组构主轴优选方向存在高度的一致性,进一步证实了顺磁性矿物黑云母对AMS的主要贡献。综合研究表明泽当地区GCT的韧性变形是断层处在中上地壳韧性带的活动阶段变形的结果,也代表了特提斯喜马拉雅在碰撞、高原隆升期的变形主要特征。 相似文献
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为加深对西藏泽当地区新特提斯洋演化的认识,对西藏泽当蛇绿混杂岩带内的共国日二长花岗岩进行了岩石学、岩石地球化学、同位素及年代学等研究,研究显示:共国日二长花岗岩岩体规模小、岩性稳定,LA-ICP-MS锆石U-Pb年龄为(90.40±0.68)Ma,属晚白垩世;岩石地球化学具高硅、富铝、富钾、低钛和准铝质钙碱性花岗岩特征;轻稀土富集、重稀土亏损,具明显的负Eu异常,微量元素表现为相对富集Rb、K、Ba、Th、U等大离子亲石元素,显著亏损Nb、P、Ti等高场强元素;(87Sr/86Sr)i=0.705 708~0.706 284,(143Nd/144Nd)i=0.512 689~0.512 716,εNd(t)=2.00~2.51。以上特征表明,位于泽当蛇绿混杂岩带内的共国日二长花岗岩属于I型花岗岩,由正常岛弧岩浆形成,应为晚白垩世新特提斯洋向北俯冲形成的岛弧环境下俯冲带上部地壳部分熔融的产物,其不属于泽当蛇绿岩的组成部分,表明在90 Ma前泽当洋内弧已经消失。 相似文献
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冈底斯东段泽当大型钨铜钼矿新发现及走滑型陆缘成矿新认识 总被引:7,自引:0,他引:7
冈底斯成矿带以斑岩型铜矿(伴生钼矿)为主体,通常作为"挤压型"陆缘岩浆弧—"碰撞裂谷带"斑岩成矿的典型代表而被广泛关注,但层矽卡岩型钨铜钼矿和斑岩型独立钼矿的勘查和研究却未能引起足够的重视,尤其是层矽卡岩型白钨矿的发现,填补了区带矿种的空白;在雅鲁藏布江缝合带边部发现的隐伏斑岩型钼矿,突破了"挤压型"陆缘成矿认识的传统误区。中国冶金地质总局新近发现的冈底斯东段则当钨铜钼矿,既是一处大型钨铜钼矿详查开发基地,又是一组统一于陆缘走滑断裂构造成矿体制作用的钨、铜、钼矿床组合,称为"泽当矿田"。在NWW向雅鲁藏布江缝合带陆缘走滑断裂作用下,早期(68~40.3Ma)拉分型转换构造——NEE向剥离断层,控制了层矽卡岩型钨铜钼矿的形成;在NEE向冲木达陆缘走滑断裂作用下,晚期(30.26~23.62Ma)推闭型转换构造——NWW向逆冲断层,控制了隐伏斑岩型钼矿的形成。层矽卡岩型矿床形成和改造于68~66Ma和57~40.3Ma,叠加富集于斑岩型矿床的形成阶段——30.26~23.62Ma。 相似文献
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雅鲁藏布江蛇绿岩带内多个地幔橄榄岩体产有金刚石、碳硅石等异常矿物组合,为了进一步探讨这些异常矿物形成的物理化学条件,在前人已有的研究基础上,对泽当地幔岩体中526 kg的方辉橄榄岩样品开展人工重砂矿物学研究工作。研究表明,同雅鲁藏布江蛇绿岩带内的其他岩体相似,泽当地幔橄榄岩也选出了包含金刚石、碳硅石、锆石等30余种矿物。异常矿物组合指示泽当地幔橄榄岩中存在局部的超高压、极还原环境,可能经历了复杂的演化过程:即古老地壳物质通过深俯冲或者折沉作用,进入地幔甚至是地幔过渡带(410~660 km),随后经历了超高压、极还原环境的改造,在后续的地幔柱或地幔对流作用中从洋中脊上升至浅部环境并返回到地壳中。该过程中地幔橄榄岩中的异常矿物组合记录了岩石的演化信息,因此开展地幔橄榄岩中异常矿物组合的精细矿物学研究,对认识壳-幔物质交换以及深部地幔动力学过程都有重要的研究意义。 相似文献
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泽当蛇绿岩位于雅鲁藏布江缝合带东段,由地幔橄榄岩、辉长辉绿岩、火山岩等组成。地幔橄榄岩主要为方辉橄榄岩和二辉橄榄岩,有少量的铬铁矿化方辉橄榄岩和透镜状纯橄岩。地幔橄榄岩中橄榄石的Fo值为89.6~91.8,属镁橄榄石。斜方辉石为顽火辉石,En端员组分变化于87.8~90.3。单斜辉石En组分变化于44.1~50.0,主要为顽透辉石和透辉石。二辉橄榄岩与方辉橄榄岩铬尖晶石的Cr#为17.0~31.8,为富铝型尖晶石。泽当地幔橄榄岩PGE总量为16.67×10-9~32.59×10-9,与原始地幔相似。矿物化学特征显示泽当二辉橄榄岩属于深海型地幔橄榄岩,方辉橄榄岩属于弧前地幔橄榄岩。尖晶石Cr#、橄榄石Mg#的变化以及高Os含量(3.50×10-9~7.75×10-9)表明泽当地幔橄榄岩经历了部分熔融过程;正斜率的PGE配分模式以及较高的Pd/Ir值(1.09~3.94)表明泽当地幔橄榄岩受到了俯冲带环境下地幔交代作用的改造。泽当地幔橄榄岩矿物学特征与铂族元素地球化学特征显示其形成于MOR环境,后受到SSZ环境的改造。 相似文献
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GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui 《《地质学报》英文版》2016,90(3):900-912
Voluminous platinum-group mineral(PGM) inclusions including erlichmanite(Os,Ru)S_2, laurite(Ru,Os)S_2, and irarsite(Ir,Os,Ru,Rh)As S, as well as native osmium Os(Ir) and inclusions of base metal sulphides(BMS), including millerite(NiS), heazlewoodite(Ni_3S_2), covellite(CuS) and digenite(Cu_3S_2), accompanied by native iron, have been identified in chromitites of the Zedang ophiolite, Tibet. The PGMs occur as both inclusions in magnesiochromite grains and as small interstitial granules between them; most are less than 10 μm in size and vary in shape from euhedral to anhedral. They occur either as single or composite(biphase or polyphase) grains composed solely of PGM, or PGM associated with silicate grains. Os-, Ir-, and Ru-rich PGMs are the common species and Pt-, Pd-, and Rh-rich varieties have not been identified. Sulfur fugacity and temperature appear to be the main factors that controlled the PGE mineralogy during crystallization of the host chromitite in the upper mantle. If the activity of chalcogenides(such as S, and As) is low, PGE clusters will remain suspended in the silicate melt until they can coalesce to form alloys. Under appropriate conditions of ?S_2 and ?O_2, PGE alloys might react with the melt to form sulfides-sulfarsenides. Thus, we suggest that the Os, Ir and Ru metallic clusters and alloys in the Zedang chromitites crystallized first under high temperature and low ?S_2, followed by crystallization of sulphides of the laurite-erlichmanite, solid-solution series as the magma cooled and ?S_2 increased. The abundance of primary BMS in the chromitites suggests that ?S_2 reached relatively high values during the final stages of magnesiochromite crystallization. The diversity of the PGE minerals, in combination with differences in the petrological characteristics of the magnesiochromites, suggest different degrees of partial melting, perhaps at different depths in the mantle. The estimated parental magma composition suggests formation in a suprasubduction zone environment, perhaps in a forearc. 相似文献
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西藏泽当蛇绿岩壳层火山熔岩的岩石地球化学及成因 总被引:3,自引:4,他引:3
泽当蛇绿岩位于雅鲁藏布江蛇绿岩带东段 ,对其壳层火山熔岩的研究表明 ,该熔岩属亚碱性玄武岩 ,岩石化学上表现为低Si、Mg ,高Al、Na的特征 ;稀土分布型式表现为LREE微富集 ,HREE平缓 ,不具有Eu负异常 ;Nb、Ta、Zr、Hf等高场强元素较为富集 ,反映出泽当蛇绿岩的形成并未受到俯冲作用的影响。通过对其构造环境的判别 ,得出泽当蛇绿岩形成于边缘洋盆环境 ,由于印度板块向北推进 ,使边缘海盆俯冲消亡 ,而蛇绿岩被构造侵位到如今的位置上。 相似文献
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The Zedang and Luobusa ophiolites are located in the eastern section of the Yalung Zangbo ophiolite belt,and they share similar geological tectonic setting and age.Thus,an understanding of their origins is very important for discussion of the evolution of the Eastern Tethys Ocean.There is no complete ophiolite assemblage in the Zedang ophiolite.The Zedang ophiolite is mainly composed of mantle peridotite and a suite of volcanic rocks as well as siliceous rocks,with some blocks of olivinepyroxenite.The mantle peridotite mainly consists of Cpx-harzburgite,harzburgite,some lherzolite,and some dunite.A suite of volcanic rocks is mainly composed of caic-aikaline pyroclastic rocks and secondly of tholeiitic pillow lavas,basaltic andesites,and some boninitic rocks with a lower TiO2 content (TiO2 < 0.6%).The pyroclastic rocks have a LREE-enriched REE pattern and a LILE-enriched (compared to HFSE) spider diagram,demonstrating an island-arc origin.The tholeiitic volcanic rock has a LREE-depleted REE pattern and a LILE-depleted (compared to HFSE) spider diagram,indicative of an origin from MORB.The boninitic rock was generated from fore-arc extension.The Luobusa ophiolite consists of mantle peridotite and mafic-ultramaflc cumulate units,without dike swarms and volcanic rocks.The mantle peridotite mainly consists of dunite,harzburgite with low-Opx (Opx < 25%),and harzburgite (Opx > 25%),which can be divided into two facies belts.The upper is a dunite-harzburgite (Opx < 25%) belt,containing many dunite lenses and a large-scale chromite deposit with high Cr203; the lower is a harzburgite (Opx >25%) belt with small amounts of dunite and lherzolite.The Luobusa mantle peridotite exhibits a distinctive vertical zonation of partial melting with high melting in the upper unit and low melting in the lower.Many mantle peridotites are highly depleted,with a characteristic U-shaped REE pattern peculiar to fore-arc peridotite.The Luobusa cumulates are composed of wehrlite and olivine-pyroxenite,of the P-P-G ophiolite series.This study indicates that the Luobusa ophiolite was formed in a fore-arc basin environment on the basis of the occurrence of highly depleted mantle peridotite,a high-Cr2O3 chromite deposit,and cumulates of the P-P-G ophiolite series.We conclude that the evolution of the Eastern Tethys Ocean involved three stages:the initial ocean stage (formation of MORB volcanic rock and dikes),the forearc extension stage (formation of high-Cr203 chromite deposits and P-P-G cumulates),and the islandarc stage (formation of caic-alkaline pyroclastic rocks). 相似文献
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在1:5万区域地质调查的基础上,对雅鲁藏布江缝合带北带与蛇绿岩相伴产出的嘎学组和泽当组进行了综合研究,并就其岩石地球化学参数及构造环境与蛇绿岩进行了对比。结合相关古生物及同位素年龄资料,初步认为: 嘎学组和泽当组火山岩与蛇绿岩是不同时代、不同成因类型的产物,嘎学组和泽当组形成于晚侏罗世—早白垩世与洋内俯冲相关的洋内弧构造环境,为洋板块地层序列的前弧玄武岩类(FAB型); 在后期俯冲碰撞过程中,嘎学组和泽当组主体被改造成混杂岩,或呈断夹片(块)状残存于混杂岩带中,表现为俯冲增生杂岩带的构造组合样式。该认识对合理恢复并建立雅鲁藏布江缝合带北带洋板块地层序列具有重要的地质构造意义。 相似文献