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1.
电英质火山岩——西藏岩的发现   总被引:3,自引:0,他引:3  
世界不少斑岩矿床内都发育有隐爆爆破角砾岩筒,其胶结物是电英岩;这些电英质胶结物一直被视为单一电英岩化产物。基于浅凝相岩浆电英岩(佤山岩)的发现,我们设想过自然界存在一类富硼的酸性岩浆(佤山岩浆),可以在浅成—超浅成、地表和良好封闭条件下,分别形成电...  相似文献   

2.
广西大厂地区笼箱盖黑云母花岗岩与区内晚白垩世锡多金属成矿作用在时空上密切相关。岩相学特征表明,笼箱盖黑云母花岗岩中的电气石可以分为三类:1)浸染状电气石; 2)石英-电气石囊; 3)电气石-石英脉。本文利用电子探针和激光剥蚀等离子体质谱系统测定三种不同产状电气石的化学组成。分析结果显示,三种产状的电气石均具有高的Fe/(Fe+Mg)和Na/(Na+Ca)比值,主体属于碱基亚类铁电气石。浸染状电气石为岩浆晚期结晶,其Fe/(Fe+Mg)比值变化于0. 85~0. 94,随着岩浆分异,电气石逐渐富集Li、F、Fe和Sn等元素。与浸染状电气石相比,石英-电气石囊中早阶段电气石具有低的Fe/(Fe+Mg)比值,高的V、Co和Sr含量,可能反映了岩浆演化晚期出现的不混溶富硼熔/流体对早期黑云母和长石的交代作用,从而使囊中早阶段电气石继承部分被交代矿物的化学组成特征;石英-电气石囊中晚阶段电气石的化学组成变化较大(如Li、F、Mg、Al、V、Fe和Zn),与热液成因电气石的推论一致。与浸染状和囊状电气石相比,石英脉中的电气石具有高的Fe/(Fe+Mg)和Na/(Na+Ca)比值;微量元素组成与囊状电气石相似。就成矿元素锡而言,三种产状的电气石均具有相对高的锡含量,与其他地区锡成矿花岗岩中电气石的成分特征相似。但是,从岩浆晚期到热液阶段,大厂地区电气石的锡含量并没有显著升高,可能反映了早期岩浆热液流体对熔体锡有限的萃取作用。  相似文献   

3.
在绿片岩、角闪岩和麻粒岩和变质岩层中,电气石岩和富电气石的沉积物与喷气矿化伴生,它们遭受了中等到强烈的变形,呈连续层状分布于褶皱构造附近,显示出诸如层理、递变层理、交错层理、层内滑动等沉积构造和拉裂构造。在高级变质作用区,它们显示变质结构,通常被再活化而成的石英-电气石脉所穿切。富电气石岩出现在由海底喷气而形成的Pb-Zn-Ag、Cu-Co、Cu-Bi、W、Sn、Au和稀土元素矿化的下部、内部及矿化之上,且在横向上与矿化同期的地层中。在一些地方,电气石岩没有上述矿化现象,也不与花岗质岩石相伴生。电气石的成分是黑电气石-镁电气石,虽反映了其全岩成分,但不能作为矿化的标志。虽然电气石是与花岗岩、交代岩、角砾岩简伴生的普通矿物,但本文描述的富电气石层为山硅电气石前身的变质作用产生的富硼硅质铁建造。它们是一种常见的喷气岩类型,并且常常出现在早-中元古代厚层的泥质变沉积岩和蒸发岩层序中。这就说明硼是由含硼的粘土的淋滤作用或由含硼酸盐的蒸发岩的淋滤作用产生的。  相似文献   

4.
在布罗肯希尔地区的早元古代维利亚马(Willyama)超群中,富电气石岩石是分布广而数量少的岩石。电气石集中产在层控和局部层状电气石岩、变质碎屑沉积岩、石英—锌尖晶石脉岩、层状 Pb-Zn-Ag 硫化物矿石、石榴石英岩、层控白钨矿矿床、石英-电气石结核、不整合石英脉和花岗伟晶岩内。大部分富电气石岩是产在赋主要 Pb-Zn-Ag的布罗肯希尔群内。在 Globe 矿山,沿主矿脉的西北端,电气石与 Pb-Zn-Ag 矿化紧密共生,在一些地方与富锰石榴石石英岩互层。在局部地方,方铅矿和其他矿石矿物是产在这些电气石岩中的重结晶电气石颗粒的核心,表明电气石和硫化物是在变形和高级变质作用之前已存在  相似文献   

5.
川西甲基卡308号脉的矿物学特征及其岩浆- 热液演化示踪   总被引:1,自引:0,他引:1  
王臻  陈振宇  李建康  陈毓川 《地质学报》2022,96(6):2039-2061
甲基卡稀有金属矿床是亚洲规模最大的伟晶岩型锂矿床,308号脉为其中出露面积最大的伟晶岩脉。308号脉具有完善的分带性:细粒白云母- 钠长石- 石英带(Ⅰ)、中粗粒钠长石- 石英- 微斜长石带(Ⅱ)、中粒电气石- 钠长石- 石英带(Ⅲ)、中粗粒锂辉石- 钠长石- 石英带(Ⅳ)和中细粒锂辉石- 钠长石- 石英带(Ⅴ),并且富含稀有金属矿物(如锂辉石、绿柱石、锡石和铌钽氧化物),因此是系统研究伟晶岩演化历史和成岩成矿机制的理想实验对象。308号脉的矿物学研究较为薄弱,其岩浆- 热液演化过程及该过程中熔- 流体性质的变化规律,以及稀有金属的富集过程和影响因素尚不清楚。本文选取该脉各结构带中的贯通性矿物云母、磷灰石,以及稀有金属矿物锂辉石和特征性矿物电气石,通过详细的电子探针工作,分析它们的产状、结构特征、化学组成及其变化,结果表明:① 308号脉边部Ⅰ带(高温结晶)中电气石的出现(~5%)反映伟晶岩初始熔体具有富B的特征(>2%);锂辉石在Ⅳ和Ⅴ带内的大量结晶说明初始熔体可能具有富Li的性质;主要含氟矿物电气石、磷灰石和云母类在岩石中的含量均较低,并且原生磷灰石具有相对偏低的F浓度(<3%),仅能形成于富F环境中的锂云母矿物也十分稀少,这些特征均表明308号脉初始熔体很可能具有较低的F含量;② 伟晶岩体系演化至Ⅴ带时发生流体出溶现象,自此进入岩浆- 热液过渡阶段,出溶流体可能具有富Cs和贫F的性质;③ 原生白云母和电气石化学成分的规律性变化说明308号脉的演化过程很可能不存在外来流体的加入;④ 308号伟晶岩的成岩和锂成矿过程主要受分异结晶作用支配,有限的出溶流体规模和伟晶岩分异演化程度(仅演化至岩浆- 热液过渡阶段,未充分进入热液阶段)对锂辉石的结晶和保存都起到了重要作用。  相似文献   

6.
对中条山胡-篦铜矿区电气石(岩)的地质特征及有关问题进行研究的结果表明:电气石(岩)是与中元古代西阳河期中-基性火山喷溢作用有关的、主要以脉体形式普遍存在的中(偏低)温富硼气液活动的产物;“条纹状电气石岩”发育于矿区内所有具先存透入性面理岩石中,是变形变质期后富硼气液在此类面理化岩石中拟态定向充填交代所成的脉岩。  相似文献   

7.
内蒙古西乌旗白音查干矿床是大兴安岭南段锡矿带内最典型、规模最大的Sn-Ag-Zn-Pb矿床。电气石在成矿岩体花岗斑岩和围岩地层中均广泛发育,依据其产状可分为四类:Ⅰ团斑状电气石;Ⅱ热液角砾岩胶结物中电气石;Ⅲ热液脉状电气石;Ⅳ弥散状电气石。在详细的岩相学基础上,利用电子探针点分析和面扫描分析对不同产状和结构的电气石进行了详细的成分分析。结果显示,花岗斑岩体深部的团斑状电气石(Ⅰa类)以自形、环带发育为特征,至少可见三期生长环带:核部电气石(Ⅰa-1)极高的Fe/(Fe+Mg)和Al值暗示其岩浆成因;边部电气石(Ⅰa-3)较富Mg,且与热液矿物共生,是从早期热液流体中沉淀形成的;幔部电气石(Ⅰa-2)的结构和成分显示其形成可能与不混溶的富B-Fe-Na的熔体或流体有关。因此,电气石从核部到边部的生长记录了从晚期岩浆到早期热液阶段的演变过程。花岗斑岩体中上部的团斑状电气石(Ⅰb类)环带不发育,其与热液矿物共生的组合及成分暗示其形成更倾向于与热液过程相关,可能是岩浆顶部聚集的早期流体释放之后被固结岩浆"圈闭"的残余流体结晶的产物。随后,大规模释放的富B流体形成了大量以电气石为主要胶结物的热液角砾岩(Ⅱ类)、成矿前电气石-石英阶段脉系(Ⅲa类)及伴随围岩蚀变而形成的弥散状电气石(Ⅳ类)。对Ⅱ类和Ⅲa类电气石内存在的生长环带分析显示,成矿前可能存在多个脉冲期次且成分有差异的流体的叠加作用。同时,电气石从早期到晚期向富Mg方向的演化,及成分明显受围岩地层影响的现象,暗示岩浆热液流体与围岩地层发生的水岩反应可能在金属成矿过程中起了重要作用。此外,本研究显示,不同产状电气石的结构和成分信息能够有效记录矿床内岩浆-热液转变及热液演化过程的众多细节信息,为深入理解成矿过程提供了依据。  相似文献   

8.
湘南某地黄玉岩的地质、地球化学   总被引:1,自引:0,他引:1  
本文报导了湘南某地黄玉岩的地质产状、岩石化学、微量元素、包裹体测温,主要组成矿物(黄玉、锡石、电气石、毒砂)的化学成分。同时也介绍了黄玉岩的主岩(大义山岩体)的岩石类型、岩石化学、微量元素及副矿物特征。 通过与国内外富黄玉的各类岩石比较,作者认为,这是在我国第一次发现的一种岩石,它们是富挥发组分(尤其是F、B)的残余岩浆的结晶产物。 黄玉岩的研究资料,对于认识花岗岩浆的分异演化机理、锡矿化与花岗岩类的成因联系及锡矿找矿工作都具有一定的意义。  相似文献   

9.
为了对西藏错那洞电气石花岗岩源区进一步约束,利用显微镜、电子探针和激光剥蚀多接收等离子质谱仪,对错那洞电气石花岗岩中电气石的形态、成分及硼同位素组成进行了研究.结果表明,错那洞电气石花岗岩中的电气石为碱族黑/铁电气石,直接结晶自富硼熔体,与熔体之间未发生明显的硼同位素分馏.电气石δ11B值主要在-6.91‰^-9.17‰之间,与大陆地壳平均δ11B值(-10‰±3‰)相近,表明错那洞电气石花岗岩主要源自变质沉积岩的部分熔融.然而,与起源于变质沉积岩的花岗岩相比,样品的δ11B值明显偏高,而与前人报道的雅拉香波淡色花岗岩(源自石榴石角闪岩部分熔融)的δ11B值相似.因此,错那洞电气石花岗岩源区中,除了变质沉积岩外,可能还混入了少量石榴石角闪岩.  相似文献   

10.
在皖赣沿江地区分布着大量中生代侵入岩体及其岩石包体和相关的夕卡岩矿床。本文在综合整理作者研究团队近30年来所获得的区内大部分侵入岩体及其岩石包体和夕卡岩矿床研究资料的基础上,聚焦区域中生代壳幔相互作用与多成因夕卡岩成矿过程分析,为发展壳幔成矿学打下一定基础。基性侵入岩和镁铁质岩石包体的同位素年代学和岩石地球化学资料表明,皖赣沿江地区在中生代发生了碰撞后(145~135 Ma)富铜金和造山后(130~120 Ma)富铁金幔源岩浆底侵作用和相应的壳幔混源岩浆作用。壳幔混源岩浆作用主要包括结晶分异作用、同化混染作用、岩浆混合作用和岩浆熔离作用。夕卡岩矿床地质调研和镜下观察结果显示,两期壳幔混源岩浆侵入晚古生代到早中生代围岩地层后引发了多成因夕卡岩成矿作用,形成了接触交代、层控、岩浆和复合叠加等多成因夕卡岩矿床。接触交代、层控、岩浆和复合叠加夕卡岩矿床分别以热液交代、沉积+热液交代、岩浆结晶+热液交代和沉积+岩浆结晶+热液交代矿物组合和结构构造为特征。在碰撞后酸性-中酸性侵入岩体中产有富Cu和Zn等成矿物质的元古宙变质岩包体,表明碰撞后富铜金的底侵玄武岩浆或其演化岩浆在浅位岩浆房中同化了元古宙变质基底成矿物质(铜锌等)储库导致铜进一步富集,从而形成更富铜的酸性-中酸性岩浆。在碰撞后中基性-基性侵入岩体中产有含大量Cu-Fe硫化物(黄铜矿和磁黄铁矿)和氧化物包裹体的深位和浅位堆积岩,表明碰撞后富铜金的底侵玄武岩浆在深位岩浆房中和其演化岩浆在浅位岩浆房中发生了强烈的结晶分异作用导致铜铁亏损,形成更富金的中基性-基性岩浆。酸性-中酸性侵入岩体中夕卡岩包体和夕卡岩中辉长岩-夕卡岩过渡包体的存在表明,碰撞后富铜金的底侵玄武岩浆在侵位处同化晚古生代含铜铁矿源层的碳酸盐地层导致铜进一步富集,形成更富铜的夕卡岩岩浆。更富铜的酸性-中酸性岩浆、更富金的中基性-基性岩浆和更富铜的夕卡岩岩浆是形成碰撞后时期接触交代和层控夕卡岩铜矿、接触交代夕卡岩金矿和岩浆夕卡岩铜矿的最重要控制因素。在造山后中基性-基性侵入岩体中产有含大量Cu-Fe硫化物(黄铜矿和磁黄铁矿)和氧化物包裹体的堆积岩,表明造山后富铁金的底侵玄武岩浆在深位岩浆房中发生了强烈的结晶分异作用导致铜铁亏损,从而形成更富金的中基性-基性岩浆。造山后富铁金的底侵玄武岩浆在侵位处同化晚古生代含铜铁矿源层的碳酸盐地层、早中生代铁矿源层或者早中生代铁硅矿源层,导致铁、铁和铁硅的进一步富集,分别形成更富铁的夕卡岩岩浆、基性岩浆和中基性岩浆。更富金的中基性-基性岩浆及更富铁的夕卡岩岩浆、基性岩浆和中基性岩浆是形成造山后时期接触交代夕卡岩金矿、岩浆夕卡岩铁矿、矿浆型铁矿和接触交代夕卡岩铁矿的关键控制因素。  相似文献   

11.
A previously reported porphyry Cu + Mo deposit in an Eocene pluton within the South Shetland Island magmatic arc has been re-interpreted as three distinct hydrothermal assemblages. The oldest assemblage (1) exsolved under confinement from the deep (~6 km?) cooling magma whereas assemblages (2) and (3) formed during tectonic ± magmatic episodes at depths of < 1.5 km in the late Cenozoic. The three assemblages occur over the 5 × 11 km mapped in Barnard Point tonalite pluton. Assemblage (1) comprises shallowly dipping sheets of aplite, biotite + tourmaline pegmatite, massive ‘grey’ quartz, and quartz + tourmaline + bornite + chalcopyrite + molybdenite veins. Magnetite + tourmaline + chalcopyrite breccias have associated biotite, K-feldspar and muscovite alteration. Fluid inclusions indicate formation from hot (~600°C), saline (40 equivalent weight % NaCl + CaCl2) aqueous-carbonic fluids that exsolved from the partly consolidated magma. The primary control on solution chemistry and nature of fracturing was the depth of pluton emplacement. Assemblage (2) consists of steep, vuggy veins and country-rock breccias, with thick propylitic alteration selvages, cemented by microcrystalline quartz, complex inter-growths of FeMg carbonate, bladed barite and trace amounts of bornite and chalcopyrite. These rocks, previously described as breccia (sensu ‘pebble’) dykes in the porphyry complex, are reinterpreted as an influx of moderately hot (175–330°C), weak to moderately saline (2–21 EWP NaCl), aqueous-carbonic fluids that underwent isobaric boiling at 0.8 to 1.3 km depth. Assemblage (3) consists of thin, hematitic fault infillings formed during a second episode of brittle faulting.  相似文献   

12.
相山铀矿田是我国最大的火山岩型铀矿田,其赋矿围岩主要为流纹英安岩、碎斑熔岩和部分前寒武纪变质岩和中生代花岗斑岩。碎斑熔岩的边缘亚相中发育直径10~20 cm的球形电气石囊包,其主要的矿物组合为电气石、石英以及少量长石、萤石,伴生少量晶质铀矿,另可见电气石交代早期的长石。利用显微镜、电子探针、激光剥蚀多接收等离子质谱仪等分析仪器,对相山如意亭地区碎斑熔岩中电气石囊包进行了详细的矿物学研究工作。电子探针成分分析显示,碎斑熔岩中电气石为典型的黑电气石,以富含Na、Fe等元素为特征,电气石中挥发性组分较高;其中,B2O3质量分数为9.38%~10.04%,F质量分数为0.10%~1.77%。成矿流体中高质量分数的B、F等挥发性组分及岩浆早期阶段的较高氧逸度环境使得U元素更易形成络合物,更利于U的迁移与富集。利用LA-MC-ICP-MS硼同位素微区原位分析法对碎斑熔岩中电气石的硼同位素进行分析测试,结果显示,电气石中的δ11 B质量分数为(-13.15±0.72)‰~(-12.28±0.63)‰,均值为(-12.72±0.94)‰,指示相山火山-侵入杂岩体主要来源于相山底部地壳基底岩石的部分熔融。  相似文献   

13.
Crystallization of anatectic melts in high-temperature metamorphic terrains releases volatile-rich magmas that can be transported into adjacent lithologies. This study addresses the variations in the oxygen, boron and hydrogen isotopic composition of aplite-pegmatite dikes that formed during the crystallization of anatectic melts in regional high-temperature metamorphism on the island of Naxos, Greece, and propagated upward into the overlying sequences of metamorphic schist. The transport distance of these dikes was increased through a significant horizontal component of travel that was imposed by contemporaneous low-angle extensional shearing. Laser fluorination oxygen isotope analyses of quartz, tourmaline, garnet, and biotite mineral separates from the aplite-pegmatite dikes show a progressive rise in δ18O values with increasing distance from the core. Oxygen isotope fractionations among quartz, tourmaline, and garnet show temperature variations from > 700°C down to ∼400°C. This range is considered to reflect isotopic fractionation beginning with crystallization at high temperatures in water-undersaturated conditions and then evolving through lower temperature crystallization and retrograde sub-solidus exchange. Two processes are examined for the cause of the progressive increase in δ18O values: (1) heterogeneous δ18O sources and (2) fluid-rock exchange between the aplite/pegmatite magmas and their host rock. Although the former process cannot be ruled out, there is as yet no evidence in the exposed sequences on Naxos for the presence of a suitable high δ18O magma source. In contrast, a tendency for the δ18O of quartz in the aplite/pegmatite dikes to approach that of the quartz in the metamorphic rock suggests that fluid-rock exchange with the host rock may potentially be an important process. Advection of fluid into the magma is examined based on Darcian fluid flow into an initially water-undersaturated buoyantly propagating aplitic dike magma. It is shown that such advective flow could only account for part of the 18O-enrichment, unless it were amplified by repeated injection of magma pulses, fluid recycling, and deformation-assisted post-crystallization exchange. The mechanism is, however, adequate to account for hydrogen isotope equilibration between dike and host rock. In contrast, variations in the δ11B values of tourmalines suggest that 11B/10B fractionation during crystallization and/or magma degassing was the major control of boron geochemistry rather than fluid-rock interaction and that the boron isotopic system was decoupled from that of oxygen.  相似文献   

14.
A detailed study was given to the composition and structure of alkali feldspars from the pockets of the Sosedka pegmatite vein, a large source of gems within the Malkhan tourmaline deposit. The vein is of concentric-zonal structure. Three types of pockets were recognized by mineral composition: A—quartz–lepidolite–Mn–Li–Al–tourmaline (± pollucite, hambergite, borocookeite, boromuscovite, danburite, light pink beryl); B—quartz–adularia–axinite (± laumontite); and C—quartz and laumontite (± B-containing cookeite). Each type of pockets contains feldspars of specific composition and structure. This evidences that pockets formed in strongly different conditions, though some pockets of different types are localized as close as 0.5–2 m from each other within a zone. The reported data disagree with the common model implying the formation of zonal pegmatite bodies as a result of crystallization differentiation within the vein.  相似文献   

15.
The Neogene quartz andesites from the Oa? and Gutâi Mountains (Romania) are mid-K calc-alkaline rocks and contain plagioclase-orthopyroxene-clinopyroxene-amphibole-magnetite phenocrysts as well as quartz crystals. They are associated with a volcanic sequence ranging from basalts and basaltic andesites to dacites and rhyolites, but form a separate magma group, mostly in respect to the trace elements. Based on the geochemical data combined with inferences from complex zoning patterns in plagioclase and pyroxene, the evolution of quartz andesites is interpreted in terms of fractional crystallization, AFC and magma mixing. A parental magma deriving from a MORB- or OIB-type source modified by fluids and melts originating from sediments is envisaged.  相似文献   

16.
The area of investigation at and around Mashak Pahar, Bankura district, West Bengal, India comprises a number of rock types namely: granite gneiss, migmatized quartz tourmaline gneiss, quartz pebble conglomerate, ferruginous quartzite, quartz tourmaline veins (as veins) and graphite schists. Interestingly, the study area lies in the region extending South Purulia Shear Zone (~Tamar–Porapahar Shear Zone) which marks the boundary between two contrasting tectonic blocks of eastern India, namely, the Chhotanagpur Gneissic Terrane (CGC) to the north and Singhbhum Group of rocks to the south. The rocks of the study area are poly-phasedly deformed by three phases of folding, namely, F1, F2 and F3. All the tourmalines are classified to be of ‘Alkali Group’. Chemistry of tourmalines from migmatized quartz tourmaline gneiss and those from quartz tourmaline veins are in conformity with their relation to (earthquake induced) shear system evolution in this terrain. In general, the compositional evolution of tourmaline during prograde metamorphism (~400°–730°C) has been supported by both petrographic and chemical evidences. Assessment of mineral–chemical data of constituent tourmaline grains clearly suggests compositional variations across zonal boundaries within tourmaline that was controlled by changing metamorphic milieu in this terrane. Field and petrographic evidences clearly indicate activation of earlier and later shears in this region accompanied by infiltration of boron and formation of zoned tourmaline crystals.  相似文献   

17.
西秦岭造山带北缘之金属成矿带是我国重要的斑岩型Cu-Au远景区,该带的德乌鲁岩体及其接触带是重要找矿潜力区。最新的野外调查发现,德乌鲁岩体东南缘接触带的石英闪长玢岩中发育大量含有多种金属矿物的椭圆形或近球形“珠滴构造”,且其矿物组合非常类似于临近的岗岔—克莫金矿床矿石矿物组合,即“珠滴”内含有大量金属矿物黄铁矿、毒砂、黄铜矿、方铅矿、闪锌矿、磁黄铁矿、钛铁矿和辉砷钴矿等,此外还发育有绿泥石、绿帘石、方解石、钾长石、钠长石、石英、绢云母、电气石、葡萄石、磷灰石、榍石和金红石等复杂的非金属矿物组合。详细的矿物学和地球化学研究结果表明,“珠滴”与寄主岩石属同源产物。绿泥石温度计和二长石温度计显示“珠滴”形成温度范围在297~435 ℃,角闪石全铝压力计显示寄主岩石形成压力为1.02~2.28 kbar。因此推断,“珠滴”形成于深部富含金属的流体,金属物质依附气泡按照“浮选”机制随岩浆侵位上升。当载有金属物质的气泡随着岩浆侵位到浅部时便快速解耦,其流体相逃逸,“珠滴”则被冷凝固结在岩浆圈闭之中。依据上述分析结果,认为携带金属物质的气泡把成矿元素运移至石英闪长玢岩体内,其中一些气泡把金属物质卸载到浅部,而大量的金属物质可能仍然留在深部石英闪长玢岩内。“珠滴构造”可能是深部成矿的重要指示标志。  相似文献   

18.
The copper-rich, tourmaline-bearing Donoso breccia pipe is one among more than 15 different mineralized breccias in the giant (>50 million metric tonnes of copper) Miocene and Pliocene Río Blanco-Los Bronces copper deposit in the high Andes of central Chile. This breccia pipe, bracketed in age between 5.2 and 4.9 Ma, has dimensions of 500 by 700 m at the current surface 3,670 m above sea level. Its roots have yet to be encountered, and it is >300 m in diameter at the depth of the deepest drill holes. The Donoso breccia is, for the most part, monolithic, containing clasts of the equigranular quartz monzonite pluton which hosts the pipe. It is matrix supported, with between 5 and 25% of the total rock volume consisting of breccia-matrix minerals, which include tourmaline, quartz, chalcopyrite, pyrite, specularite, and lesser amounts of bornite and anhydrite. An open pit mine, centered on this breccia pipe, has a current production of 50,000 tonnes of ore per day at an average grade of 1.2% copper, and copper grade in the breccia matrix is significantly higher. Measured '18O for tourmaline and quartz from the matrix of the Donoso breccia at different levels of the pipe range from +6.9 to +12.0‰, and measured 'D in tourmaline ranges from -73 to -95‰. Temperatures of crystallization of these minerals, as determined by the highest homogenization temperatures of highly saline fluid inclusions, range from 400 to >690°C. When corrected for these temperatures, the stable isotope data indicate that fluids from which these breccia-matrix minerals precipitated were magmatic, with '18O between +5.6 to +9.1‰ and 'D between -51 to -80‰. These isotopic data preclude participation of a significant amount of meteoric water in the formation of the Donoso breccia. They support a model in which brecciation is caused by expansion of magmatic fluids exsolved from a cooling pluton, and breccia-matrix minerals, including copper sulfides, precipitated from the same magmatic fluids responsible for brecciation. Sericitic alteration of clasts in the breccia was also caused by these magmatic fluids. Different types of fluid inclusions imply that several different magmatic fluids were involved in formation of the Donoso breccia. These include high-temperature, highly saline, non-boiling fluids, trapped in inclusions that homogenize by halite dissolution, which probably exsolved from a magma cooling under relatively high (>1 kbar) lithostatic pressure conditions, consistent with geologic constraints. Other high-temperature, highly saline fluids are trapped in inclusions that homogenize by vapor-bubble disappearance and are spatially associated with vapor-rich inclusions, suggesting either phase separation (boiling) or simultaneous separation of immiscible brine and vapor from a magma cooling at lower hydrostatic pressure conditions. Both types of high-temperature, highly saline fluids circulated intermittently, as pressure fluctuated between lithostatic and hydrostatic conditions because of episodes of sealing and rebrecciation.  相似文献   

19.
稀有金属矿物记录了花岗伟晶岩成岩成矿的重要信息。喜马拉雅是全球著名的淡色花岗岩带,库曲岩体位于喜马拉雅东段的特提斯喜马拉雅岩系中。本文调查了库曲岩体的二云母花岗岩、白云母花岗岩、电气石花岗岩和花岗伟晶岩,其中,花岗伟晶岩涉及花岗岩的伟晶岩相和独立伟晶岩脉。库曲岩体产出的稀有金属矿物包括锂辉石、锂绿泥石、绿柱石、铌铁矿-钽铁矿、钇铀钽烧绿石和细晶石,它们主要赋存于似文象伟晶岩、石英-钠长石-白云母伟晶岩、块体长石-钠质细晶岩、块体长石-电气石钠质细晶岩、锂辉石-块体长石-细晶岩、白云母花岗岩的伟晶岩相以及电气石花岗岩内。显微镜观察、电子探针和LA-ICP-MS测试结果显示锂辉石具有四种产状,包括粗粒锂辉石自形-半自形晶、细粒锂辉石-石英镶嵌晶、中细粒锂辉石-钾长石-钠长石-云母镶嵌晶以及发育锂绿泥石的粗粒锂辉石,揭示了其形成时复杂的熔流体动荡结晶环境。绿柱石背散射电子图像(BSE)下呈均一结构和不均一结构(蚀变边、不规则分带和补丁分带),元素替代机制包括通道-八面体替代、通道-四面体替代以及通道中碱金属阳离子间的置换。铌铁矿族矿物包括原生、蚀变边和不规则分带结构,部分被钇铀钽烧绿石和细晶石交代。与原生铌铁矿相比,蚀变边和不规则分带铌铁矿族矿物总体上富钽贫锰,显示了结晶分异、过冷却引起的过饱和以及流体作用。根据稀有金属矿物揭示的成因信息,独立伟晶岩脉(似文象伟晶岩)、白云母花岗岩的伟晶岩相和电气石花岗岩在岩浆分异程度、经历的演化过程、以及流体活动方面存在差异,很可能是不同期次岩浆活动的产物。库曲岩体绿柱石的Rb和Zn含量、以及铌铁矿族矿物的Sc2O3、SiO2和PbO含量,与已有指示标志存在相关性,作为潜在指示标志仍需开展更多的研究工作。综合含锂辉石伟晶岩的产出、岩浆分异演化程度、多期花岗质岩浆活动、复杂的流体作用以及所属锂丰度高值区等因素,库曲岩体是喜马拉雅东段找锂的有利地段。  相似文献   

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