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1.
新疆阿尔泰巴特巴克布拉克铁矿床赋存于上志留统—下泥盆统康布铁堡组变质火山-沉积岩的矽卡岩中,矿体形态复杂,呈似层状、透镜状及不规则状分布。围岩斜长角闪岩、变粒岩和浅粒岩稀土元素配分模式为轻稀土元素相对富集的右倾型,与矿区英云闪长岩稀土元素配分模式相似;矿石和矽卡岩稀土元素配分模式多表现为重稀土元素相对富集的左倾型,综合了围岩和英云闪长岩二者的特征,表明它们之间有明显的成因联系。结合硫同位素特征(1.4‰~4.8‰)表明,成矿物质来源于基性火山岩(围岩)。矽卡岩为花岗质岩浆期后热液交代火山岩的产物,铁矿化是矽卡岩退化蚀变的产物,矿床形成于弱还原-氧化环境。 相似文献
2.
辽吉地区古元古界含硼岩系经过了中高级区域变质和混合岩化作用,主要由黑云母变粒岩、浅粒岩、电气石变粒岩、斜长角闪岩及富镁质含矿岩石组成,局部形成层状混合花岗岩。斜长角闪岩在含硼岩系内各个岩组中都有分布,岩石化学分析显示斜长角闪岩具有富钠、富镁、高铁、高钛特征,MgO含量成多众数值分布,辽东地区斜长角闪岩MgO含量高于集安地区,并且各类斜长角闪岩中硼含量都较高。辽东地区B、Cr、Ni明显高于集安地区,显示为海相地幔岩浆岩特征更为明显,集安地区则显示为变质热液改造特征。辽东地区斜长角闪岩的稀土地化显示为热液改造的幔源岩浆特征,集安地区的斜长角闪岩的稀土地化显示为壳源沉积岩特征。含硼岩系斜长角闪岩与浅粒岩稀土配分模式相似,表明部分斜长角闪岩与浅粒岩具有岩浆成因特征,而电气变粒岩、黑云变粒岩与混合岩稀土富集模式显示海相沉积泥岩变质成因,混合岩化及变质热液对原岩具有明显改造作用。斜长角闪岩石的地球化学特征表明原岩环境为富钠、富硼的海相环境,原岩主要是海相富镁拉斑玄武岩和海相泥质岩。 相似文献
3.
白云鄂博REE-Nb-Fe矿床的富钠岩石类型析及成因分 总被引:4,自引:1,他引:4
白云鄂博稀土-铌-铁矿是世界最大的稀土多金属矿床之一,主要产于中元古界富钠岩石、白云岩和富钾板岩中。富钠岩石与含矿碳酸岩、富钾板岩一起在白云鄂博广泛分布,特别是在主矿和东矿南侧分布广泛,也产在含矿围岩和底盘围岩中。富钠岩石包括富钠长石岩、含钠闪石钠长岩脉、钠闪石岩脉及钠闪石碳酸岩脉和钠闪石化蚀变白云岩。富钠岩石在一个地质单元内出现,但成分略有不同,其岩石化学分析表现出富钠特征,大部分样品的w(Na2O)在6%以上,w(Na2O+K2O)>8%,w(Na2O)>w(K2O)。富钠长石岩的里特曼指数δ为2.96~8.56,n(A l)/n(K+Na)>1,n(A l)/n(K+Na+Ca)<1,表明为弱碱性偏铝质岩石。富钠岩石以富集地壳不相容元素、亏损地幔元素为特征,其稀土总量低于矿化白云岩,但轻稀土元素高度富集,具弱负铕异常,与含矿白云质火山岩一致。根据岩石产状、组构及化学成分分析,富钠长石岩属于富钠火山岩,而其他含钠闪石岩脉则属于岩浆分异侵入的岩脉与岩浆热液充填岩脉。钠化交代以霓石化、钠铁闪石化和钠长石化出现为特征。另外,富钠流体与白云岩反应形成了钠铁闪石化白云岩,强烈的钠化蚀变作用主要出现在稀土强烈富集的主矿和东矿。比较蚀变与未蚀变岩石的化学成分,表明蚀变作用引起稀土的重新分配和弱负铕异常。钠铁闪石化白云岩的w(S iO2)、w(TiO2)、w(K2O)和w(Na2O)升高,w(P2O5)降低。钠化蚀变前的碳酸岩中稀土元素已经富集,热液蚀变引起稀土元素的活化和重新分配,但是没有提供新的稀土来源。 相似文献
4.
本文以新疆库布苏金矿北矿带为研究对象,讨论了库布苏金矿床北矿带元素活动特征,成矿及伴生元素、主量元素、微量元素、稀土元素的质量迁移规律;根据稀土元素的质量迁移、地球化学特征,初步探讨了成矿流体的环境条件和来源问题;并依据元素迁移地球化学图研究了库布苏北矿带105勘探线剖面的元素质量迁移程度和范围。研究结果表明,赋矿闪长玢岩脉及围岩的元素发生明显的带入带出作用,元素迁移活动规律明显,成矿阶段发生明显带入有Au、As、Bi、Ag、Sb、K2O、Si O2,说明引起闪长玢岩脉和接触带围岩蚀变的流体中富含Au、As、K2O、Si O2等,导致这些带入元素向矿体迁移富集;发生明显带出的有Ba、Sr、Cu、Mg O、Na2O、Fe2O3、Ca O,说明Ba、Sr、Mg O、Na2O等受热液蚀变作用随流体迁出。矿区岩脉的稀土元素质量变化显著,发生明显的带入带出,岩脉交代蚀变前后的轻重稀土分馏均明显,蚀变后的岩脉轻重稀土分馏程度有减小趋势。赋矿闪长玢岩脉稀土元素配分曲线右倾,轻稀土富集,轻重稀土分馏明显,Eu强烈负异常,Ce弱负异常,说明库布苏金矿成矿流体条件应为较高温度和还原环境。从围岩与脉岩中元素的迁移程度和迁移范围可见,带入的成矿指示元素有As、W、Sb、Bi,带出的成矿指示元素有Mg、Na。 相似文献
5.
相山矿田邹家山铀矿床碱交代矿化蚀变岩地球化学 总被引:4,自引:0,他引:4
相山矿田邹家山铀矿床成矿作用与碱交代关系密切。钠、钾的带入和带出极大地影响铀成矿作用过程,钠交代和钾交代对铀成矿的影响差异明显。本文以邹家山铀矿床中典型的钠化和钾化矿体为研究对象,通过比较两矿体剖面的地球化学特征,研究其异同,探讨钠交代、钾交代与铀成矿作用关系,得出以下认识:(1)与矿体两侧的围岩相比,钠交代和钾交代矿石中都富U和Mo,而Ba含量明显降低;(2)钠交代对原岩化学成分的改变不强。除了钠含量明显增高、钾含量明显降低、钠钾摩尔比M(Na2O/K2O)明显增大外,矿石与原(或围)岩的化学成分相差不大,总碱摩尔数M(Na2O+K2O)几乎不变;(3)钾交代对原岩的矿物及化学成分改变很大。除钾高、钠低等含量变化外,强烈去Si和Na,M(Na2O+K2O)有20%~30%的减少,而且许多微量(成矿)元素含量明显增加,特别是稀土元素明显增高,且重稀土增加更快;(4)两类碱交代中行为反差最大的组分是Na2O、K2O、Si O2和REE。钠交代过程中,Na2O和Si O2增加,K2O和REE减少,M(Na2O/K2O)明显增大;而钾交代过程正相反;(5)在相山铀成矿过程中,仅有钠交代时铀的含量较低,强钾交代是形成富铀矿的必要条件。 相似文献
6.
赣中变质岩带在空间上具递增变质带分布特征,根据随变质作用增强而出现的新变质矿物及矿物组合划分出绢云母绿泥石带、黑云母带、铁铝石带、十字石带、矽线石带,部分地段还出现混合岩带。矽线石发育于矽线石带的含榴矽线云母片岩、含矽线斜长变粒岩中,化学成分与其寄主岩石的化学成分、成物成分有一定的关系,富含Al、K和云母的含榴矽线云母片岩,其中的矽线石中Al含量相对高,K含量很低。而富含Si、Ca、Na、K和斜长石,贫Al和云母的含矽线斜长变粒岩,其中的矽线石中Al、Na含量相对稍低,K含量稍高。 相似文献
7.
辽东铀成矿带黄沟铀矿床地质特征及成因探讨 总被引:1,自引:0,他引:1
连山关地区位于华北陆块铀成矿省辽东铀成矿带。笔者近几年在连山关地区开展铀矿普查找矿工作,通过黄沟铀矿床野外工作和室内研究,对其赋矿围岩的岩石学特征、地球化学特征、蚀变特征进行了细致研究。结果表明:赋矿围岩重熔混合岩有4种类型,主要特点是石英含量高,绿泥石含量变化大,石英与绿泥石的含量呈负相关;地球化学特征表明其主量元素具富Si、略富Al、富Na、富K和低Mg、低Ca特点;微量元素表现出富集Be、Mo、Pb、Y、Ba、La、Cu和亏损Co、Ni、Zn、Cr、Ti、V等特点;与铀关系密切的共生元素有Pb、Mo、V、Be;稀土元素具有明显的轻稀土元素富集和重稀土元素相对亏损等特征,具有较显著的Eu负异常;蚀变特征研究表明胶状黄铁矿化、绿泥石化、硅化与铀矿化关系密切。最后探讨了铀矿成因,并首次提出了重熔混合岩热液型铀矿。 相似文献
8.
甘肃省龙首山地区芨岭铀矿区蚀变特征分析 总被引:1,自引:0,他引:1
文章重点对龙首山芨岭铀矿区近矿围岩蚀变特征、分带特征以及蚀变期次进行研究,蚀变大致可分为高温钾钠混合交代阶段、区域性钾交代阶段、中低温热液钠钙交代阶段、矿化期钠交代阶段,其中与成矿关系密切的是矿化期钠交代阶段。通过对新水井铀矿床各中段的系统取样分析表明:与正常花岗岩相比钠交代蚀变岩的Cu、Pb、Ni、Sn、V、Zr、As等微量元素含量显著增加,而W、Rb的含量明显减少;钠交代蚀变岩随着埋深增大其Na2O、SiO2、Al2O3含量减小。Fe2O3、FeO、CaO含量增加;钠交代蚀变岩具有的碱性(A型)花岗岩型稀土分配型式、富集型(La/Sm)N特点、明显的Eu亏损和重稀土显著增加等特征。 相似文献
9.
新疆可支塔格蛇绿混杂岩位于青藏高原北缘东昆仑西段,属于木孜塔格-鲸鱼湖大断裂的西延部分。主要由辉橄岩、辉长岩、闪长岩、斜长花岗岩、辉绿岩、玄武岩及硅质岩等组成,形成时代为早石炭世。其中辉橄岩具有高Mg,贫Al,Ca,低硅、低碱的特点,富集相容元素Cr,Ni,Co。稀土总量低,接近于球粒陨石稀土元素总量,以LREE略富集为特征。闪长岩SiO2,K2O含量较低,MsO,CaO,Na2O较高,稀土总量高,∑REE为90.95×10^-6,LREE富集。斜长花岗岩SiO2 69.8%,Na2O〉K2O,K2O/Na2O为0.78,A/CNK为1.68,具有大洋斜长花岗岩的岩石化学特征。闪长岩、斜长花岗岩的微量元素特征相似,表现为大离子亲石元素K,Sr,Rb,Ba相对富集,高场强元素Nb,Ta,Zr,Hf相对亏损。研究表明,辉橄岩来源于亏损的地幔岩,接近于强烈亏损的方辉橄榄岩,而明显不同于结晶分异作用成因的超镁铁质岩石。闪长岩、斜长花岗岩为蛇绿混杂岩的浅色岩组分,是地幔岩浆结晶分异的产物,但可能受到了围岩的混染和后期热液交代影响。 相似文献
10.
蕲春花岗质杂岩体包括斑状二长花岗岩和花岗岩两部分,它们之间在化学性质上存在着很大的差异,前者表现为高Al 2O3(15.73%)、相对高CaO(2.46%)、Na2O含量明显高于K2O(Na2O/K2O=1.27),尤以强烈亏损重稀土元素和极强的轻、重稀土元素分馏程度[(La/Yb)N=46.8]为特征而类似于太古宙高Al2O3的TTG岩石.而后者则以较低的Al2O3含量(14.05%)、贫CaO(0.82%)、K2O含量明显高于Na2O(Na2O/K2O=0.81)为特征,轻、重稀土元素的分馏程度[(La/Yb)N=10.89]也较片麻状二长花岗岩中弱得多.两类岩石中锆石的U-PbSHRIMP年龄分别为824.6±17.6 Ma和784±20 Ma,该时代与大别山造山带内花岗片麻岩的原岩形成年龄类似.大别山造山带内弱变质-未变质晋宁期花岗岩的出现表明扬子板块印支期向北俯冲时,该花岗质杂岩处于俯冲板片的后缘,可代表造山带内扬子基底的原地露头.而岩体周围的高压变质杂岩应是折返上来的无根构造岩片,大别山造山带内高压超高压变质杂岩的出露不是整体性抬升剥蚀的结果. 相似文献
11.
Partial Melting of Aluminous Metagreywackes in the Northern Sierra de Comechingones, Central Argentina 总被引:1,自引:2,他引:1
We describe a suite of metamorphic and migmatitic rocks fromthe Sierra de Comechingones (Sierras Pampeanas of Central Argentina)that include unmelted gneisses, migmatites and refractory granulites.The gneisses are aluminous greywackes metamorphosed in the amphibolitegrade and are likely to have been the protoliths for the higher-grademigmatites and granulites. Mineralogical characteristics andmajor and trace element compositions show that metatexite migmatites,diatexite migmatites and granulites are all melt-depleted rocks.The migmatites (both metatexites and diatexites) have undergoneH2O-fluxed melting and lost 相似文献
12.
Acid and basic granulites, migmatites, and lherzolites outcrop along the Leiza Fault (Navarra, Spain) in the western extremity of the Pyrenean Belt. The protoliths of the acid granulites have granodioritic composition. Textural and mineralogical data suggest that the acid granulites evolved from a first, syn kinematic medium-pressure granulite-facies stage [garnet-biotite I-Kfsp] to a post-kinematic granulite-facies stage of lower pressure and higher temperature [garnet-biotite II-cordierite-Kfsp-(spinel?), kinzigites]. Basic granulites were formed from protoliths with composition of tholeiitic to alkaline basalts. Basic granulites exhibit millimeter size subidiomorphic garnets dispersed through the matrix and smaller coronitic garnets between opaques or orthopyroxenes and plagioclase. Thermo-barometric estimates for the peak of the granulite-facies metamorphism are c. 800°C and 8 kbar. The migmatites presumably represent a shallower level of metamorphism (andalusite/sillimanite-Kfsp). Scapolite in the basic granulites was formed during a post-granulitic metamorphic episode. The lherzolites have been intensely brecciated and serpentinized, which makes difficult the comparison of their evolution with that observed in the other rocks associated with the Leiza Fault. Acid and basic granulites, migmatites, and lherzolites along the Leiza Fault may be correlated with similar rocks outcropping elsewhere in the North-Pyrenean Zone and along the North-Pyrenean Fault as tectonic slices and massifs. By analogy with those rocks, the granulitefacies metamorphism observed in the rocks studied must be Hercynian in age. The Leiza Fault constitutes, therefore, the western continuation of the North-Pyrenean Fault, and the rocks studied (except perhaps the lherzolites) may be considered as remnants of an Hercynian metamorphic massif, dismembered as a consequence of the activity of the fault at the end of the Hercynian cycle and during the Alpine tectonometamorphic events. 相似文献
13.
14.
Andrea Galli Benjamin Le Bayon Max W. Schmidt Jean-Pierre Burg Eric Reusser 《Swiss Journal of Geoscience》2013,106(1):33-62
We describe field occurrences of sapphirine-bearing granulites, charnockites and migmatites in the Gruf complex, Central Alps and present a new geological map and a structural analysis of the entire Gruf complex for the first time. We have carried out an accurate analysis of the relationships between granulite facies metamorphism, migmatisation and deformation within the complex, in relation to the intrusion of the Bergell pluton. Granulites and charnockites display fabrics different from those defined by the regional foliation and lineation, which are, typically for migmatites, disordered on the mesoscale. On a regional scale, strike variations are also related to the structural complexity of migmatites within which no major antiform could be identified. Irregular interfingering of sub-parallel leucosome veins and back-veining along the contact between the Gruf migmatites and the Bergell tonalite are evidence for contemporaneous emplacement and crystallisation at about 740 °C and 6.5–7.5 kbar in Oligocene times (ca 30 Ma). Metamorphic conditions in the charnockites and granulites (>920 °C for 8.5–9.5 kbar) largely exceed these regional metamorphic conditions and are dated at 282–260 Ma. We propose that the ascending Bergell pluton entrained the polymetamorphic, granulitic lower crust enclosed within the peripheral migmatitic Gruf complex. 相似文献
15.
Reiner Kleinschrodt 《地学学报》1996,8(3):236-244
In Sri Lanka a suite of rocks is regionally exposed which once formed a part of the middle to lower crust of a collisional orogen with about doubled crustal thickness. A subhorizontal to gently west-dipping major thrust zone (Highland Basal Thrust) crosses Sri Lanka from NNE to SSW. It separates a granulite facies upper unit, the Highland Complex from an amphibolite facies lower unit, the Vijayan Complex with a displacement of more than 300 km. The basal Highland Complex was migmatized during thrusting. Rheological contrasts between dry granulites and migmatites were high in the presence of partial melts. Granulite facies fragments within the migmatites vary from the decimetre to kilometre scale. Granulites in the area of Kataragama, formerly interpreted as the Kataragama Klippe, are now identified as a large-scale raft within the migmatites, which is completely separated from the overriding Highland Complex. During thrusting strain was concentrated in the migmatized basal parts of the Highland Complex. After crystallization of the migmatites thrusting continued, and strain was still localized within the migmatites. Therefore, granulite facies parageneses, structures and textures are preserved in the granulite rafts. The deviation of the granulite facies structures in the Kataragama raft from the general trend in the Highland Complex is interpreted to indicate counterclockwise rotation of the whole raft by about 90° around a subvertical rotation axis. 相似文献
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MICHAEL BROWN 《Journal of Metamorphic Geology》2012,30(5):453-456
This virtual special issue represents a collection of papers concerning Crustal Melting selected by the Editor from those published on various aspects of this theme in the JMG since 1982. The papers are grouped into sequences that address topics that have been prominent in the JMG during the last 30 years concerning the origin, evolution and tectonic role of migmatites and migmatitic granulites in crustal evolution. These topics are: Open‐ and closed‐system processes in the formation of migmatites and migmatitic granulites; thermobarometry, P–T paths, phase equilibria modelling and retrograde processes in formerly melt‐bearing rocks; geochronology in partially melted rocks; and, microstructures, deformation and tectonics of melt bearing rocks. About one‐third of the papers published in the JMG since its inception concern the origin, evolution and tectonic significance of migmatites and migmatitic granulites in crustal evolution, including the first special issue published by the JMG concerning ‘Studies in the genesis and deformation of migmatites’ edited by Tracy & Day ( 1988; Volume 6, Issue 4, Pages 385‐543 ). Three subsequent Special Issues of the JMG include papers relevant to the theme of this virtual special issue; they are ‘Metamorphic processes: a celebration of the career contribution of Ron Vernon’, ‘Processes in granulite metamorphism’ and ‘Granulites, partial melting and the rheology of the lower crust’, edited by Brown & Clarke ( 2002; Volume 20, Issue 1, Pages 1‐213 ), Brown & White ( 2008; Volume 26, Issue 2, Pages 121‐299 ) and Brown et al. ( 2011; Volume 29, Issue 1, Pages 1‐166 ), respectively. The selection of papers in this virtual special issue is by no means comprehensive, but it is intended as a representative selection of what has been published in the JMG over 30 years to give the reader a broad overview of crustal melting. Furthermore, although many papers address more than one topic, each is included only once and has been placed within the most appropriate section. 相似文献
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Phase equilibria modelling of residual migmatites and granulites: An evaluation of the melt‐reintegration approach 
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下载免费PDF全文 Omar Bartoli 《Journal of Metamorphic Geology》2017,35(8):919-942
Suprasolidus continental crust is prone to loss and redistribution of anatectic melt to shallow crustal levels. These processes ultimately lead to differentiation of the continental crust. The majority of granulite facies rocks worldwide has experienced melt loss and the reintegration of melt is becoming an increasingly popular approach to reconstruct the prograde history of melt‐depleted rocks by means of phase equilibria modelling. It involves the stepwise down‐temperature reintegration of a certain amount of melt into the residual bulk composition along an inferred P–T path, and various ways of calculating and reintegrating melt compositions have been developed and applied. Here different melt‐reintegration approaches are tested using El Hoyazo granulitic enclaves (SE Spain), and Mt. Stafford residual migmatites (central Australia). Various sets of P–T pseudosections were constructed progressing step by step, to lower temperatures along the inferred P–T paths. Melt‐reintegration was done following one‐step and multi‐step procedures proposed in the literature. For El Hoyazo granulites, modelling was also performed reintegrating the measured melt inclusions and matrix glass compositions and considering the melt amounts inferred by mass–balance calculations. The overall topology of phase diagrams is pretty similar, suggesting that, in spite of the different methods adopted, reintegrating a certain amount of melt can be sufficient to reconstruct a plausible prograde history (i.e. melting conditions and reactions, and melt productivity) of residual migmatites and granulites. However, significant underestimations of melt productivity may occur and have to be taken into account when a melt‐reintegration approach is applied to highly residual (SiO2 <55 wt%) rocks, or to rocks for which H2O retention from subsolidus conditions is high (such as in the case of rapid crustal melting triggered by mafic magma underplating). 相似文献
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Cooling rates based on the retrograde diffusion of Fe2+ and Mg between garnet and biotite inclusions commonly show two contrasting scenarios: a) narrow closure temperature range with apparent absence of retrograde diffusion; or b) high result dispersion due to compositional variations in garnet and biotite. Cooling rates from migmatites, felsic and mafic granulites from Ribeira Fold Belt (SE Brazil) also show these two scenarios. Although the former can be explained by very fast cooling, the latter is often the result of open-system behaviour caused by deformation. Retrogressive cooling during the exhumation of granulite-facies rocks is often processed by thrusting and shearing which may cause plastic deformation, fractures and cracks in the garnet megablasts, allowing chemical diffusion outside the garnet megablast – biotite inclusion system.However, a careful use of garnets and biotites with large Fe/Mg variation and software that reduces result dispersion provides a good correlation between closure temperatures and the size of biotite inclusions which are mostly due to diffusion and compositional readjustment to thermal evolution during retrogression.Results show that felsic and mafic granulites have low cooling rates (1–2 °C/Ma) at higher temperatures and high cooling rates (∼100 °C/Ma) at lower temperatures, suggesting a two-step cooling/exhumation process, whereas migmatites show a small decrease in cooling rates during cooling (from 2.0 to 0.5 °C/Ma). These results agree with previously obtained thermochronological data, which indicates that this method is a valid tool to obtain meaningful petrological cooling rates in complex high-grade orogenic belts, such as the Ribeira Fold Belt. 相似文献
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Omar Bartoli 《地学前缘(英文版)》2019,10(2):517-525
A recent fascinating development in the study of high-grade metamorphic basements is represented by the finding of tiny inclusions of crystallized melt(nanogranitoid inclusions) hosted in peritectic phases of migmatites and granulites. These inclusions have the potential to provide the primary composition of crustal melts at the source. A novel use of the recently-published nanogranitoid compositional database is presented here. Using granulites from the world-renowned Ivrea Zone(NW Italy) on which the original melt-reintegration approach has been previously applied, it is shown that reintegrating melt inclusion compositions from the published database into residual rock compositions can be a further useful method to reconstruct a plausible prograde history of melt-depleted rocks. This reconstruction is fundamental to investigate the tectonothermal history of geological terranes. 相似文献