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1.
The Xigaze ophiolite, (Tibet) displays unusual lithological, petrological, textural, and structural characteristics. There are no large masses of cumulate gabbros, but dolerite intrusives throughout the whole ophiolite sequence, some of which were intruded into already serpentinized peridotites, only minor residual harzburgites and dunites in dominantly Iherzolitic peridotites equilibrated at low temperatures and pressures, and relatively low-temperature deformation structures in the uppermost peridotites. These features suggest a very low heat flow at the spreading center where the Xigaze ophiolite was formed, in good agreement with a discontinuous and slowly-accreting spreading center origin. However, this ophiolite does not represent a typical mid-oceanic ridge ophiolite; rather it was formed in a small basin located at the southern margin of Eurasia, hence within a preexisting oceanic lithosphere. The opening of the nearly N-S Xigaze paleo-ridge resulted from the W-E drift of Africa relative to Eurasia from 180 to 110 Ma. The N-S emplacement onto the continent of the Xigaze ophiolite, formed 120 to 110 Ma ago, can be correlated to changes in direction of motion of the African and Indian plates: a primary intra-oceanic thrusting event probably occurring at 110 or 85 Ma and the final obduction near 50 Ma during the India-Eurasia collision. 相似文献
2.
日喀则蛇绿岩位于雅鲁藏布构造带中段,其成因和构造环境仍存在较大争议。日喀则蛇绿岩下部为蛇纹石化地幔橄榄岩,壳幔过渡带缺失超镁铁质堆晶岩。少量辉长岩脉呈块状或韵律结构并侵入到地幔橄榄岩和辉绿岩中。辉绿岩呈席状岩床侵入到地幔橄榄岩之上,且少量辉绿岩脉侵入到下覆的地幔橄榄岩中。通过野外关系和地球化学研究,日喀则辉长岩可能并不是洋壳中岩浆房原位结晶堆积而成,而是深部位置岩浆囊经过不同程度分异演化形成富晶粥岩浆并向上侵入的结果。而席状辉绿岩床则是基性岩浆沿着构造薄弱面顺层侵入的结果。拆离断层可能导致了岩石圈地幔抬升和剥露,进而引起下覆软流圈地幔减压熔融和岩浆上侵。日喀则辉长-辉绿岩形成于慢速扩张脊较小规模的岩浆供应和不连续的岩浆侵入。 相似文献
3.
The geodynamic setting of the Xigaze ophiolite has long been debated. Structural and geochemical evidence suggest the Xigaze ophiolite was formed at a slow‐spreading ridge (Nicolas et al., 1981; Liu et al., 2016). Based on incompatible element concentrations, the Xigaze ophiolite volcanics are consistent with the ubiquitous subduction signature in suprasubduction zone (Bedard et al., 2009; Hebert et al., 2012; Dai et al., 2013). It is noteworthy that the Xigaze ophiolite is different from the Geotimes and Lasail and Velly units from Oman ophiolite, respectively. The mafic rocks of the Xigaze ophiolite generally resemble typical N‐MORB and Geotimes volcanics in composition except for slight depletions of Th and Nb (Fig.1a). Although the Xigaze rocks have similar Th and Nb concentrations to Lasail and Velly rocks, most incompatible elements in the Xigaze rocks are comparable to N‐MORB. Petrography in gabbro of Xigaze ophiolite shows that euhedral plagioclases are enclosed by clinopyroxenes suggesting that these minerals have crystallized from an anhydrous magma (Sisson and Grove, 1993). Although the Xigaze volcanic rocks are slightly depleted in Th and Nb, they have MORB‐like trace element characteristics implying that they are derived from an anhydrous MORB magma at spreading centre. Godard et al. (2006) suggested that the mantle source of the Oman ophiolite have element and isotopic characteristics similar to Indian Ocean MORB, where the mantle preserved some older slab materials. A negative Nb anomaly of Oman Geotimes volcanic rocks may be resulted from contamination of the slab materials via decompression melting of the convecting mantle. Moreover, the Xigaze rocks have 1.27–3.18 of (Th/Nb)N ratios similar with those of Geotimes volcanics ((Th/Nb)N =0.51–2.77) and lower than those of Lasail and Velly units ((Th/Nb)N =2.12–6.35). These features suggest that the Xigaze ophiolite may have formed at the spreading centre. 相似文献
4.
The Pulan-Xiangquanhe ophiolite in the western Yarlung Tsangpo suture zone of Tibet is investigated for its geochemistry,geochronology,and tectonic implications in detail.Sensitive high resolution ion micro-probe zircon U-Pb dating reveals that diabases in the ophiolite from the three locations of Xugugab,Mapam Yum Co and La'nga Co are dated at 122.3±2.5 Ma,118.8±1.8 Ma and 120.5±1.9 Ma,respectively.These early Cretaceous mafic rocks have Na_2O+K_2O,rare earth element patterns,trace elemental spider diag... 相似文献
5.
Xi-chen Wang Wei-liang Liu Xi-chong Hu Bin Xia Wei Huang 《International Geology Review》2018,60(10):1267-1289
The Mesozoic Xigaze ophiolite is a key to understanding the tectonic evolution of the Yarlung Zangbo suture zone. Although many studies have been reported, the formation age and petrogenesis of the Xigaze ophiolite remain controversial. In this paper, new geochronological and geochemical data for mafic dikes (diabase, dolerite), lavas, and gabbros of the Xigaze ophiolite are provided to constrain the origin of the Xigaze ophiolite. Combined with previous studies, three new zircon U–Pb ages of samples from two gabbro and one dolerite samples show that the Xigaze ophiolite was produced at two distinct stages of 174–149 Ma and 137–123 Ma. Whole-rock geochemical data indicate that these rocks exhibit N-MORB-like features, but the gabbros are more depleted in trace elements and belong to cumulates. Geochemical characters, combined with their positive εNd(t) values (+3.2 to +9.6), suggest that these samples originated from depleted mantle sources with minor influence of slab-derived fluids. Considering the previous studies on the Yarlung Zangbo suture zone, the Xigaze ophiolite was likely generated in an active continental margin fore-arc basin with a multistage model associated with the northward subduction of the Yarlung Zangbo Neo-Tethys Ocean beneath the Lhasa terrane. The Middle–Late Jurassic ophiolitic massifs (174–149 Ma) were produced as the result of slab rollback and were followed by subsequent slab break-off at ~ 150 Ma. The fore-arc lithosphere may be frozen at ~150–137 Ma, consistent with the termination of the Gangdese arc magmatism during this period. The Early Cretaceous ophiolitic massifs (137–123 Ma) were developed in relation to the reinitiation of the Neo-Tethyan oceanic lithosphere subduction, the retreat of the subduction zone, and the creation of a fore-arc basin with strong hyperextension in a new cycle. 相似文献
6.
The Xigaze ophiolite is located in the middle section of the Yarlung Zangbo River ophiolite belt and includes a well-preserved sequence section of seven ophiolite blocks. The relatively complete ophiolitic sequence sections are represented by Jiding, Dejixiang, Baigang, and Dazhuqu ophiolites and consist of three–four units. The complete ophiolite sequence in order from the bottom to top consists of mantle peridotite, cumulates, sheeted sill dike swarms, and basic lavas±radiolarian chert. These cumulates are absent in the remaining blocks of Dejixiang and Luqu. The age of radiolaria in the radiolarian chert is Late Jurassic–Cretaceous. The basalt and ultramafic rock of the ophiolite also are overlaid by Tertiary Liuqu conglomerate, which contains numerous pebble components of ophiolite, indicating that the Tethys Ocean began to close at the end of Cretaceous Period. The isotopic data of gabbro, diabase, and albite granite in the Xigaze ophiolite are approximately 126–139 Ma, which indicates that the ophiolite formed in the Early Cretaceous. The K–Ar age of amphibole in garnet amphibolite in the ophiolite mélange is 81 Ma, indicating that tectonic ophiolite emplacement occurred at the end of Late Cretaceous. 相似文献
7.
通过对日喀则蛇绿岩的镁铁质岩石进行岩石学和地球化学研究,探讨其岩石成因及源区性质,同时根据Re-Os同位素的地球化学约束来探索雅鲁藏布蛇绿岩的形成机制。研究表明,日喀则蛇绿岩镁铁质岩石微量元素的标准化配分型式与洋中脊玄武岩类似,又具有岛弧玄武岩的地球化学特征。结合微量元素和同位素特征,均表明岩石的形成与俯冲作用有关。日喀则蛇绿岩产出于远离大陆地壳的SSZ环境,其形成过程未受到陆壳的混染;同时,Re-Os同位素体系受蚀变作用的影响也不明显。日喀则蛇绿岩镁铁质岩石的Re、Os含量低,187Os/188Os同位素比值较高,主要是源区性质和俯冲作用影响的结果。特提斯洋早期发生的多次俯冲作用造成地幔源区不均一。新特提斯洋壳俯冲过程中,上述不均一地幔发生部分熔融产生的镁铁质岩浆上升,经过遭受了早期熔体/岩石作用的纯橄岩通道,发生强烈的Re-Os同位素分馏,使熔体与地幔残余Os同位素组成表现出明显的解耦现象,进而形成现今的日喀则蛇绿岩。 相似文献
8.
藏南雅鲁藏布蛇绿岩被认为是新特提斯大洋岩石圈的残留。该带中段的日喀则白马让蛇绿岩是保存较完整的蛇绿岩岩块之一。该蛇绿岩主要由橄榄岩、蛇纹岩、镁铁质侵入岩和玄武岩组成,缺堆晶岩系。镁铁质侵入岩主要呈辉绿岩脉、岩床和少量的岩墙产出。辉绿岩脉在整个蛇绿岩层序中均有分布,侵入橄榄岩的部分岩脉已经变为变辉绿岩和异剥钙榴岩。辉绿岩床(墙)向上逐渐过渡为玄武岩。局部可见日喀则群整合覆盖在玄武岩之上。地球化学分析显示不同产状的镁铁质岩均属于低钾或中钾的拉斑玄武岩,亏损Nb、Ta、Ti和LREE,具有弧前玄武岩(FAB)或弧后盆地玄武岩(BABB)的特征,它们的Ti/V和Yb/V的比值与BABB或正常大洋中脊玄武岩(N-MORB)相似,Sr-Nd-Pb同位素数据指示了亏损地幔(DM)与富集地幔(EM)过渡的源区。镁铁质岩野外产出关系和地球化学特征表明,白马让蛇绿岩的镁铁质岩组合可能形成于SSZ环境。考虑到超镁铁质岩、镁铁质岩和日喀则群在空间上的连续性,认为白马让蛇绿岩可能是起源于亚洲大陆边缘俯冲带上的洋盆,属于原地系统,而非外来的构造岩片。 相似文献
9.
Ophiolites worldwide show striking diversities in their rock assemblage and structure (i.e., ophiolite diversity), raising a question whether ophiolites are originally similar before intense tectonic dismemberment. Comparison between ophiolites and oceanic lithospheres at modern mid-ocean ridges may provide key constraints on the origin of ophiolite diversity, because oceanic lithospheric structures are inherently controlled by spreading rates. Here, we present a case study of the Xigaze ophiolite in southern Tibet focusing on its gabbroic intrusions outcropping in three localities, i.e., Dazhuqu, Baigang and Jiding. Compared to the Jiding sequence, the Dazhuqu and Baigang gabbroic rocks are less evolved, characterized by higher Cr2O3 contents but lower contents of TiO2 and rare earth element in both clinopyroxene and bulk compositions. It is evident, hence, that the Xigaze ophiolite is characterized by variably evolved and discontinuously distributed gabbroic intrusions, rather by a continuous lower oceanic crust between the mantle and sheeted dike complex as the Penrose-type ophiolites. Our study, along with the identification in previous studies of oceanic detachment faults within the Xigaze ophiolite, demonstrates that the Xigaze ophiolite shows close similarities to oceanic lithospheres at modern slow- and ultraslow-spreading ridges. Hence, the significant structural distinctions between the Xigaze ophiolite and the Penrose-type ophiolites (e.g., the Oman ophiolite) may be inherently associated with different spreading rates of paleo-ridges. Considering the limited scale of the Xigaze gabbroic rocks, here we suggest the Xigaze ophiolite as a typical representative of fossil ultraslow-spreading ridges. 相似文献
10.
雅鲁藏布蛇绿岩——事实与臆想 总被引:15,自引:12,他引:3
位于西藏南部的雅鲁藏布蛇绿岩在我国研究程度最高,在国际上也有较高的知名度。该蛇绿岩东西延伸约2000km,代表了印度和亚洲之间消失的新特提斯洋,是确定上述两大板块间缝合线存在的重要岩石学标志。本文根据作者近几年的野外考察,结合前人发表的资料发现,该蛇绿岩有如下方面的重要特点。(1)各蛇绿岩剖面均发育大规模的橄榄岩体,超镁铁岩的分布远远大于镁铁质岩石。这些超镁铁岩体尽管在岩性上以方辉橄榄岩为主,但出现大量二辉橄榄岩;(2)镁铁质堆晶辉长岩不发育;(3)不存在席状辉绿岩墙群,取而代之的是顺层侵入在橄榄岩中的辉长岩-辉绿岩岩席。部分情况下,辉绿岩还侵入到玄武岩之中;(4)蛇绿岩上部发育有一定厚度的玄武岩,但玄武岩与橄榄岩之间经常被辉绿岩席所占据,部分情况下玄武岩与橄榄岩直接接触。(5)地幔橄榄岩与镁铁质岩石在Sr-Nd同位素和形成时代上存在显著差别;(6)辉长岩与辉绿岩形成在120~130Ma的狭窄时间段内,并具有类似亏损地幔的地球化学特点。上述资料表明,雅鲁藏布蛇绿岩中的超镁铁岩和镁铁质岩形成于不同时代,且在成因上不具任何联系。根据这些资料,本文提出,该区蛇绿岩的地幔橄榄岩可能为大陆岩石圈地幔。早白垩世期间,北侧亚洲大陆南缘位置的岩石圈由于拉张而使深部岩石圈地幔物质向上剥露。随着岩石圈拆离和减薄的不断进行,软流圈地幔发生减压熔融,形成目前见到的玄武岩和辉长-辉绿岩席。在拉张作用的高峰期,早期亏损的大陆岩石圈地幔在经历交代作用后发生部分熔融形成少量玻安质熔体。因此,雅鲁藏布蛇绿岩并不能代表新特提斯大洋,它与经典的蛇绿岩定义相差甚远。考虑镁铁质岩石发育有限的特点,雅鲁藏布蛇绿岩代表了一种超慢速扩张的洋盆形成环境,其扩张速率甚至慢于目前广为人知的西Alps地区。根据全球蛇绿岩的情况,该蛇绿岩可被定义为日喀则型,是目前超慢速扩张洋盆的端元代表。 相似文献
11.
新疆中天山南缘库米什地区蛇绿岩的锆石U-Pb同位素定年:早古生代洋盆的证据 总被引:13,自引:7,他引:6
新疆中天山南缘库米什地区的榆树沟和铜花山蛇绿混杂岩包括地幔橄榄岩,辉石岩、辉长岩、斜长岩等堆晶岩,辉绿岩墙和基性熔岩,以及上部的硅质岩等。岩石地球化学研究表明,蛇绿岩的岩石类型来自MORB型和SSZ型两种构造背景。蛇绿岩及有关岩石的锆石U-Pb同位素年代学的研究表明,与中天山南缘洋盆扩张和闭合有关的事件至少可以分为4期: (1)奥陶纪-志留纪的洋盆形成事件,证据来自蛇绿岩斜长花岗岩和斜长岩,两者的年龄分别为435.1±2.8Ma、439.3±1.8Ma;(2)志留纪的岛弧岩浆作用,获得岛弧火山岩英安岩年龄422.1±2.6Ma 和花岗闪长岩年龄423.1±1.8Ma;(3)泥盆纪的剪切变形和糜棱岩化变质作用,由于板块斜向俯冲和碰撞作用,产生大规模的走滑作用和与之伴生的由剪切作用形成的糜棱岩,糜棱岩的形成年龄为402.8±1Ma,为早泥盆世;(4)俯冲碰撞后的造山带伸展阶段的岩浆作用,在俯冲碰撞作用之后发生与垂直主受力面张裂作用伴生岩浆作用,获得石英正长斑岩294.8±1.2Ma年龄,即晚石炭世。 此外,认为榆树沟蛇绿岩北部出露的麻粒岩是一个很特殊的构造岩块,岩石的锆石中普遍存在500~1800Ma的老核,表明其原岩很复杂,不属于蛇绿岩的组合 。 相似文献
12.
《International Geology Review》2012,54(8):778-786
The Mersin ophiolite is an ~6-km-thick oceanic crustal sequence in the central Taurides (southern Turkey), forming large outcrops on the southern flank of Bolkardag. It comprises a sequence of units and includes, in ascending structural order, the Mersin melange, subophiolitic metamorphics, tectonics, ultramafic and mafic cumulates, and pillow lavas interlayered with deep-marine sediments. Thin beds of ophiolite-related metamorphics occupy a constant stratigraphic position at the base of the thick ultramafic unit and include a characteristic rock association of amphibolite and amphibolitic schist, epidote-amphibole schist, quartz-mica schist, calcschist, and marble, which exhibits a typical inverted metamorphic zonation from upper amphibolite to greenschist facies. The protoliths of these metamorphics are oceanic-island basaltic rocks and associated pelagic sediments. They are cut by a swarm of approximately E-W-trending, post-metamorphic, MORB-type tholeiite, microgabbroic-diabasic dikes, which are seen not to affect the structurally overlying harzburgites. The initial detachment of these metamorphics from the oceanic crust during closure of the Neotethyan ocean commenced in the late Cenomanian (96 to 92 Ma, 40Ar/39Ar hornblende ages). The metamorphics have a well-developed migmatitic structure and metamorphic banding defined by alternating epidote-rich and carbonate layers. A pronounced regional foliation (S1), NW-SE-trending mineral lineation (L1), and first-order intrafolial folds (F1) were produced during their deformation. Imbricated structure also is typical in these metamorphics. The meso-structures-such as asymmetry of calcite-augen, vergence and asymmetry of F1 folds, general trend of brittle-ductile structures such as oblique-slip normal and thrust/reverse faults, and vergence of thrusts in the imbricate structure—all indicate unambiguous non-coaxial deformation and a shear sense of upper levels moving up to the NW. The structural evidence suggests that the Mersin ophiolite was obducted over the Bolkardag Mesozoic carbonates from the SE to the NW. The shear sense obtained from the subophiolitic metamorphics is compatible with the general trend and vergence of the large-scale thrust sheets that comprise the Mersin ophiolite. 相似文献
13.
武当地块位于勉(县)略(阳)地区东侧,南部逆冲于扬子板块北缘之上,中-晚古生代期间曾经历过一期伸展构造作用。伸展构造系统以现今中元古代武当山群与新元古代耀岭河组之间的界面为主滑脱面,盖层系统由南往北滑脱拆离。沿主滑脱面上、下侵位了大量的基性岩席,其单颗粒锆石U-Pb年龄为401±14Ma和407±12Ma。滑脱系统上部次级滑脱面上新生白云母的40Ar-39Ar年龄为282±8.5Ma和261±0.25Ma,表明伸展作用可能一直持续到二叠纪。考虑到邻区同时代的碱性岩浆作用,作者认为伸展构造是伴随着古生代大规模的上地幔基性岩浆的底侵作用发生的,很可能代表了勉略洋打开的早期阶段。这对认识秦岭造山带的构造演化具有重要的意义。 相似文献
14.
近年来,对雅鲁藏布蛇绿岩带的研究引起了国内外学者的广泛兴趣,因为它不仅对了解中生代以来特提斯海的演变,而且对阐明青藏高原地质发展历史都是十分重要的。虽然,这条带内大规模超基性岩体的分布早已被发现,有些岩体已作过很好的研究。但是,整个蛇绿岩组合的综合性研究还刚开始。最近一些作者根据野外路线调查,对这条蛇绿岩带作了初步的论述。但由于缺乏对蛇绿岩比较系统的填图工作,关于它的分布、组成、层序、形成、侵位及其演化历史还有许多重要情况不十分清楚。 相似文献
15.
西藏南部雅鲁藏布构造带分布有一系列蛇绿岩体。人们对这些蛇绿岩体的形成环境仍然存在较大的争议。雅鲁藏布构造带中段日喀则蛇绿岩路曲和大竹曲岩体镁铁质岩石的微量元素和Pb同位素特征指示其母岩浆起源于亏损地幔源区。这些镁铁质岩石的La/Sm和Sm/Yb比值显示其岩浆产生于尖晶石二辉橄榄岩地幔经过大约10%部分熔融作用。综合岩相学和全岩主量元素特征暗示这些镁铁质岩石形成于无水玄武质岩浆。而且这些镁铁质岩石的微量元素和REE元素配分模式均非常相似于N-MORB,除了弱Nb-Ta负异常。这些特征表明路曲和大竹曲岩体形成于大洋中脊环境。此外,路曲和大竹曲镁铁质岩石的Pb同位素结果指示其地幔源区与印度洋MORB地幔域具有相似的地球化学特征。这些镁铁质岩石N-MORB标准化微量元素模式显示弱Nb-Ta负异常可能是由于其地幔源区交代了古老的俯冲带物质。 相似文献
16.
Petrology of the mafic rocks of the Xigaze ophiolite,Tibet 总被引:2,自引:0,他引:2
Jacques Girardeau Jean Claude C Mercier Wang Xibin 《Contributions to Mineralogy and Petrology》1985,90(4):309-321
The Xigaze ophiolite (Yarlung-Zangbo suture zone, Southern Tibet, China) shows an unusual crustal sequence characterized by a lack of large masses of cumulate gabbros, by dolerites intrusive throughout the whole ophiolite sequence, and by the injection of dolerites in already serpentinized peridotites. The abyssal tholeiitic nature of all the mafic rocks indicates that they have been generated at an oceanic ridge. All the geological arguments and petrological and textural data on the mafic rocks point to very low heat production and large heat losses through widespread intensive sea-water circulation, for the spreading centre in which they have been formed, in good agreement with a slow-spreading ridge origin. 相似文献
17.
北喜马拉雅穹隆带雅拉香波穹隆的构造组成和运动学特征 总被引:21,自引:0,他引:21
雅拉香波穹隆构造位于北喜马拉雅穹隆带,由上、下两个拆离断层分割成3个构造层。下拆离断层以韧性变形为主,其下的糜棱状片麻岩和花岗岩体形成穹隆核部即下构造层;上拆离断层以脆性变形为主,其上为低级变质的西藏沉积岩系及基性岩墙群(上构造层);千糜岩和糜棱状片岩构成上、下两拆离断层间的中构造层。穹隆构造内经历3期运动,第1和第2期的线理具有统一的北北西—南南东倾伏向,前者仅保存于局部下构造层,代表上盘向南南东的运动学特征,为早期构造变形,成因尚待查明;第2期为穹隆内主导线理,代表穹隆统一的上盘向北北西的运动。第3期低透入性线理向穹隆外侧倾伏,代表垮塌下滑运动。雅拉香波穹隆下构造层与高喜马拉雅岩系相似,下拆离断层为主拆离断层,中构造层可能为西藏沉积岩系底部经拆离作用形成,所以下拆离断层可能是分割高喜马拉雅结晶岩系与西藏沉积岩系的藏南拆离系在北喜马拉雅的出露。雅拉香波穹隆早期(距今14.5Ma±)可能经历了沿藏南拆离系的北北西向拆离,后期(距今13.5Ma±)因岩浆底辟和剥蚀反弹而发生穹隆作用。 相似文献
18.
Late Triassic Granites From the Quxu Batholith Shedding a New Light on the Evolution of the Gangdese Belt in Southern Tibet 总被引:2,自引:0,他引:2
The Gangdese magmatic belt formed during Late Triassic to Neogene in the southernmost Lhasa terrane of the Tibetan plateau. It is interpreted as a major component of a continental margin related to the northward subduction of the Neo-Tethys oceanic slab beneath Eurasia and it is the key in understanding the tectonic framework of southern Tibet prior to the India-Eurasia collision. It is widely accepted that northward subduction of the Neo-Tethys oceanic crust formed the Gangdese magmatic belt, but the occurrence of Late Triassic magmatism and the detailed tectonic evolution of southern Tibet are still debated. This work presents new zircon U-Pb-Hf isotope data and whole-rock geochemical compositions of a mylonitic granite pluton in the central Gangdese belt, southern Tibet. Zircon U-Pb dating from two representative samples yields consistent ages of 225.3±1.8 Ma and 229.9±1.5 Ma, respectively, indicating that the granite pluton was formed during the early phase of Late Triassic instead of Early Eocene(47–52 Ma) as previously suggested. Geochemically, the mylonitic granite pluton has a sub-alkaline composition and low-medium K calc-alkaline affinities and it can be defined as an I-type granite with metaluminous features(A/CNK1.1). The analyzed samples are characterized by strong enrichments of LREE and pronounced depletions of Nb, Ta and Ti, suggesting that the granite was generated in an island-arc setting. However, the use of tectonic discrimination diagrams indicates a continental arc setting. Zircon Lu-Hf isotopes indicate that the granite has highly positive εHf(t) values ranging from +13.91 to +15.54(mean value +14.79), reflecting the input of depleted mantle material during its magmatic evolution, consistent with Mg~# numbers. Additionally, the studied samples also reveal relatively young Hf two-stage model ages ranging from 238 Ma to 342 Ma(mean value 292 Ma), suggesting that the pluton was derived from partial melting of juvenile crust. Geochemical discrimination diagrams also suggest that the granite was derived from partial melting of the mafic lower crust. Taking into account both the spatial and temporal distribution of the mylonitic granite, its geochemical fingerprints as well as previous studies, we propose that the northward subduction of the Neo-Tethys oceanic slab beneath the Lhasa terrane had already commenced in Late Triassic(~230 Ma), and that the Late Triassic magmatic events were formed in an active continental margin that subsequently evolved into the numerous subterranes, paleo-island-arcs and multiple collision phases that form the present southern Tibet. 相似文献
19.
雅鲁藏布江缝合带西段东波MORB型均质辉长岩的大洋核杂岩成因 总被引:1,自引:0,他引:1
为解决雅鲁藏布江缝合带西段南带中数个大型超镁铁岩体的成因问题,对南带西段约400 km2的东波蛇绿岩开展区域地质填图,研究蛇绿岩岩石组合和构造性质及西北缘均质辉长岩年代学和成因.研究表明,东波蛇绿岩以地幔橄榄岩、薄层洋壳和周缘出露大面积晚侏罗世-早白垩世残余海山为特征,地幔橄榄岩中发育大量拆离、韧性剪切和正断层及糜棱岩和糜棱岩化蛇纹岩和蛇绿角砾岩;均质辉长岩的锆石普遍受到流体交代,锆石U-Pb年龄为129.0±1.8 Ma,地球化学具有低Si、K、P、Fe和Ti,高Ca和Mg,N-MORB型的稀土配分特征及明显的Th、Nb、Sr和Pb负异常.认为均质辉长岩形成于慢速-超慢速大洋扩张阶段,在大洋核杂岩沿拆离断层侵位过程中形成. 相似文献
20.
Miocene Tectonic Evolution from Dextral-Slip Thrusting to Extension in the Nyainqêntanglha Region of the Tibetan Plateau 
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下载免费PDF全文 Dextral-slip in the Nyainqêntanglha region of Tibet resulted in oblique underthrusting and granite generation in the Early to Middle Miocene, but by the end of the epoch uplift and extensional faulting dominated. The east-west dextral-slip Gangdise fault system merges eastward into the north into the dextral-slip North Damxung shear zone and Jiali faults. These faults were took shape system in 18.3-11.0 Ma as the western block drove under the eastern one. The dextral-slip movement ended at ~11 Ma and the batholith rose, as marked by gravitational shearing at 8.6-8.3 Ma, and a new fault system developed. Northwest-trending dextral-slip faults formed to the northwest of the raisen batholith, whereas the northeast-trending South Damxung thrust faults with some sinistral-slip formed to the southeast. The latter are replaced farther to the east by the west-northwest-trending Miocene deposits preserved was followed by a regional uplift and the initiation of a system of generally north-south grabens in the Late Miocene at ~6.5 Ma. The regional uplift of the southern Tibetan Plateau thus appears to have occurred between 8.3 Ma and 6.5 Ma. The Gulu, Damxungcontrolled by the earlier northeast-trending faults. These grabens dominate the subsequent tectonic movement and are still very active as northwest-trending dextral-slip faults northwest of the mountains. The Miocene is a time of great tectonic change that ushered in the modern tectonic regime. 相似文献