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81.
In the classic theory of plate tectonics, ophiolitic mantle peridotites (i.e., abyssal peridotite) are thought to originate in the shallow mantle beneath ocean spreading centers.Diamonds and other UHP minerals have been found in opholitic mantle peridotites and chromitites along the Neo-Tethyan Yarlung Zangbo suture of southern Tibet, and in a Paleozoic ophiolite in the Polar Urals of Russia,suggesting that UHP minerals may be widespread in ophiolitic peridotites.Diamonds from these different localities all have very similar features in C isotope and mineral inclusions,and are distinct from the other two well known types, i.e. kimberlitic diamonds and UHP metamorphicdiamonds. The occurrence of diamond in ophiolite indicate a completely new environment for diamond formation, which can be regarded as ophiolite-type diamond. These new findings indicate a need to reconsider the nature of the upper mantle and the conditions under which ophiolites form. 相似文献
82.
新矿物:罗布莎矿 总被引:4,自引:0,他引:4
最近在西藏罗布莎村豆荚状铬铁矿石中发现一个由70~80种矿物组成的地幔矿物群,其中包括新矿物罗布莎矿,还有金刚石、柯石英、碳硅石、方铁矿、以及Fe-Si相矿物。所有这些矿物都是从豆荚铬铁矿石的人工大样中经选矿后得到的。罗布莎矿作为主矿物而含有自然硅和fersilicite[FeSi]的包裹体或呈交生体与自然硅共生。罗布莎矿呈不规则粒状,粒径0.1~0.2mm,由细粒聚合体组成,呈钢灰色,金属光泽,不透明。以Si为基础实验分子式为Fe0.83Si2。X-射线分析资料斜方晶系,空间群Cmca,a=9.874(14)A。,b=7.784(5)A。,c=7.829(7)A。,V=601.7(9)A。3,Z=16。罗布莎矿已为国际新矿物和矿物命名委员会批准,样品保存在中国地质博物馆。 相似文献
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山东荣成马草夼橄榄岩矿物地球化学研究 总被引:1,自引:0,他引:1
马草夼橄榄岩位于苏鲁超高压变质带山东荣成腾家集附近,其原岩为残余地幔方辉橄榄岩,经历了超高压变质作用和后期麻粒岩-角闪岩相变质作用.对马草夼橄榄岩及侵入于其中的辉石岩脉和角闪岩脉的主要矿物橄榄石、斜方辉石和角闪石做了单矿物微量元素和稀土元素地球化学分析,结果表明Co和Ni在橄榄石中含量最高且富集,在斜方辉石和角闪石中含量低且亏损.由于橄榄石在全岩中含量高达90%以上,因而全岩Co、Ni富集.虽然角闪石在全岩中体积含量仅占3%~8%,但斜方辉石和橄榄石的微量和稀土元素含量远远低于角闪石,故全岩的微量(Co、Ni除外)和稀土元素化学特征受控于角闪石.斜方辉石、橄榄石与角闪石的微量和稀土元素分布特征基本相同,辉石岩脉和角闪岩脉中的角闪石比地幔橄榄岩中的角闪石更富集微量和稀土元素.微量和稀土元素地球化学特征显示马草夼橄榄岩至少受到了含Co、Ni的流体,富含LREE、Ba、Sr、Ta的硅酸盐流体和少量低Th、U的碳酸盐地幔流体的多次交代,流体交代发生于超高压变质后期浅部地幔驻留期间.马草夼橄榄岩所处的氧逸度(相对于FMQ)为+1.0~+2.0,落入正常大陆地幔的范围,在折返过程中未受到壳源流体的影响,保持了地幔氧同位素特征. 相似文献
86.
SHI Nicheng BAI Wenji LI Guowu XIONG Ming FANG Qingsong YANG Jingsui MA Zhesheng RONG He X-ray Laboratory China University of Geosciences Beijing China Institute of Geology Chinese Academy of Geological Sciences Beijing China 《《地质学报》英文版》2009,83(1)
Yarlongite occurs in ophiolitic chromitite at the Luobusha mine (29°5′N 92°5′E,about 200 km ESE of Lhasa),Qusum County,Shannan Prefecture,Tibet Autonomous Region,People's Republic of China.Associated minerals are:diamond,moissanite,wiistite,iridium ("osmiridium"), osmium ("iridosmine"),periclase,chromite,native iron,native nickel,native chromium,forsterite, Cr-rich diopside,intermetallic compounds Ni-Fe-Cr,Ni-Cr,Cr-C,etc.Yarlongite and its associated minerals were handpicked from a large heavy mineral sa... 相似文献
87.
丁青蛇绿岩体位于班公湖—怒江缝合带东段,该缝合带与雅鲁藏布江缝合带并列,是寻找我国铬铁矿床的重要地区。该蛇绿岩体呈近南东向展布,总面积近600 km2,主要由地幔橄榄岩、辉石岩、辉长岩、辉绿岩、玄武岩、斜长花岗岩、硅质岩和泥质岩组成。根据空间分布,丁青蛇绿岩分为东、西两个岩体。在前人工作基础上,通过地质填图、实测剖面、探槽和钻孔编录,共发现豆荚状铬铁矿矿点83处,其中东岩体27处,西岩体56处。根据铬铁矿产出和围岩特征,丁青铬铁矿可分为4种产出类型。类型I:矿体呈脉状产出,围岩为条带状或透镜状纯橄榄岩和块状方辉橄榄岩;类型II:矿体呈透镜状、豆荚状或不规则团块状产出,围岩为薄壳状纯橄榄岩和斑杂状或块状方辉橄榄岩;类型III:矿体呈浸染状弥散分布于纯橄榄岩中,围岩为条带状纯橄榄岩和块状或斑杂状方辉橄榄岩;类型IV:矿体呈条带状产出,围岩为条带状或透镜状纯橄榄岩和具定向结构的方辉橄榄岩。根据矿石构造特征,主要分为块状、脉状、浸染状、浸染条带状4种类型。块状和脉状铬铁矿为矿石的主要类型,少量为浸染状和浸染条带状,局部纯橄榄岩中发育极少量瘤状或豆状构造。本研究选择了13处代表性铬铁矿点开展了详细的岩石学、矿相学、矿物学和矿物化学等工作。根据矿石中铬尖晶石的矿物化学特征,可将丁青铬铁矿矿体分为高铬(Cr#=78~86)、中高铬(Cr#=60~74)、中铬(Cr#2=30~51)和低铬(Cr#=9~14)4种类型(Cr#=100×Cr/(Cr+Al))。丁青东岩体赋存有中高铬型和中铬型铬铁矿,缺少高铬型铬铁矿;西岩体赋存有高铬型和中铬型铬铁矿,缺少中高铬型铬铁矿。同时在丁青东、西岩体内均发现存在一种Cr#极低的铬铁矿,暂定为"低铬型铬铁矿"。这些不同类型的铬铁矿体与野外产出有一定的对应关系,也可能后者制约了它们的成因。与罗布莎岩体中的典型高铬型铬铁矿对比,丁青豆荚状铬铁矿在矿物组合和矿物化学成分等方面具有许多相似性,认为存在较大的找矿空间。 相似文献
88.
正The IGCP-649 project"Diamonds and Recycled Mantle"is an International Geosciences Program sponsored by UNESCO and IUGS,supporting the scientific research on ultrahigh pressure and highly reduced minerals in ophiolitic peridotite and chromitite.Ophiolites are 5-to 10-km-thick fragments of ancient ocean lithosphere emplaced on continental margins,and provide3-dimensional exposures to examine the internal structure, 相似文献
89.
The Qinghai–Tibet plateau is a composite continental fragment formed by collision of multiple terranes and island arcs.The Lhasa terrane,which is located in the central part of the plateau,is bounded by the Yarlung–Zangbo suture to the south and Bangong-Nujiang suture to the north.An E–W–trending belt of(ultra)-high pressure eclogite was discovered in the Sumdo region of the Lhasa terrane.Careful field studies combined with petrological,geochemical and isotopic analyses show that the Sumdo eclogites mark a Carboniferous–Permian suture zone,at least 100 km long,containing ophiolite fragments,eclogites and Indosinian post–orogenic granitoids.This suture divides the Lhasa block into a northern and southern segment.Sumdo eclogite occurs about 200 km east of Lhasa city,and extends over 100km in an E–W direction.Sumdo eclogites were accompanied by garnet amphibolite and plagioclaseamphiboliteformedbyretrograde metamorphism of the eclogites.The eclogites were derived from oceanic basalts.LA–ICPMS U–Pb dating of zircon from the Sumdo eclogites indicates a Permian metamorphic age(260–270 Ma)and a Carboniferous protolith age of 303±4.8 MaThe ophiolite fragments in the Sumdo suture zone are composed of the ultramafic rocks,MORB–type basalt,OIB–type basalt and island arc basaltic andesite,some of which are intruded by post-collisional granites.The ultramafic body,a typical tectonic block in the suture zone,is completely serpentinized.Its geochemical features suggest that it is composed of harzburgite,typical of depleted mantle peridotite.The MORB and OIB–type basalts crop out in the Chasagang Formation,and the basaltic andesite crops out in the Leilongku Formation,both of which make up the Sumdo Group.Zircons from the OIB–type basalt with typical magmatic characteristics yield an average U–Pb age of306(95%)Ma,suggesting formation in a Paleo–Tethyan basin in the Carboniferous.U–Pb dating of zircon from the basaltic andesites yielded a concordant age of 265±3.1Ma,similar to the metamorphic age(266–270 Ma)of the eclogites,suggesting formation during subduction of the oceanic crust.Indosinian granodiorite with an age of194±4.3 Ma crops out north of the Sumdo suture.These granodiorites are similar to the late Indochina granites in the Lhasa block,and most likely formed during continent-arc collision or during closure of the Paleo-Tethyan Ocean.A four–stage model for the evolution of the Sumdo Paleo–Tethyan suture is proposed:1)From the Ordovician to the Devonian Gondwanaland was part of an epicontinental sea;2)In the Carboniferous,continental rifting produced a local basin,which then evolved into a Paleo-Tethyan ocean basin,dividing the Lhasa block into two segments;3)From the Permian to the early Triassic,Paleo-Tethyan oceanic crust was subducted northward and;4)In the middle Triassic and early Jurassic,the two fragments collided to form the modern Lhasa block. 相似文献
90.
The Yarlung Zangbo Suture Zone(YZSZ)in southern Tibet includes the remnants of Neotethyan oceanic lithosphere and marks a major suture between the Indian Plate to the south and the Lhasa Terrane of Tibet to the north(Dupuis et al.,2005;Yang et al.,2011).In the western part of the YZSZ,the Northern and the Southern sub-belts form two sub-parallel zones of mafic–ultramaficrockassemblageswithoverlapping crystallization ages(Xiong et al.,2011;Hebért et al.,2012;Liu et al.,2015).The upper mantle section of the Cuobuzha ophiolite in the northern sub-belt of the Yarlung–Zangbo Suture Zone(YZSZ)in SW Tibet comprises mainly clinopyroxene(cpx)–rich and depleted harzburgites.Spinels in the cpx-harzburgites show lower Cr#values(12.6–15.1)than the spinels in the harzburgites(26.1–34.5),and the cpx-harzburgites display higher heavy rare earth element concentrations than the depleted harzburgites.The harzburgites have subchondritic Os isotopic compositions(0.11624–0.11699),whereas the cpx-harzburgites have suprachondritic 187Os/188Os ratios(0.12831–0.13125)with higher Re concentrations(0.380-0.575 ppb).The cpx-harzburgites plot in a Re vs.Al2O3 diagram as a result of subsequent addition of Re following the last partial melting event that occurred during mid-ocean ridge melt evolution processes(Uysal et al.,2015).Although these geochemical and isotopic signatures suggest that both peridotite types in the ophiolite represent mid-ocean ridge type upper mantle units,their melt evolution trends reflect different mantle processes.The cpx-harzburgites formed from low-degree partial melting(~5%)of a primitive mantle source,and they weresubsequently modified by melt–rock interactions in a mid-ocean ridge environment.The depleted harzburgites,on the other hand,were produced by re-melting of the cpx-harzburgites,which later interacted with MORB-or island arc tholeiite(IAT)-like melts(Fig.1)possibly in a trench-distal backarc spreading center.Our new isotopic and geochemical data from the Cuobuzha peridotites confirm that the Neotethyan upper mantle had highly heterogeneous Os isotopic compositions as a result of multiple melt production and melt extraction events during its seafloor spreading evolution. 相似文献