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石榴石是研究区内暗色镁铁质岩、麻粒岩及片麻岩的主要造岩矿物之一。成分分析表明,它们是含钙铝榴石分子较多的镁铝-铁铝系列石榴石;红外光谱测定其近于铁铝榴石;穆斯堡尔谱分析表明,Fe~(3+)含量增多将引起石榴石内六配位多面体变形程度增大;晶胞参数a_0与Ca~(2+)含量呈正相关。本区石榴石是麻粒岩相变质作用的产物,形成的温压条件为780—840℃、0.85—1.10GPa。形成石榴石的反应是复杂的,其中包括角闪石与斜长石的增温脱水反应以及紫苏辉石+斜长石组合向石榴石+单斜辉石组合转化的滑动反应。 相似文献
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石榴石宝石是石榴石(garnet)族矿物的总称,岛状硅酸盐、等轴晶系矿物。根据其化学成分可划分成2个系列。铝质系列镁铝榴石:橙红色、红色铁铝榴石:橙红—红色、紫红—红紫色锰铝榴石:橙色—橙红色钙质系列钙铝榴石: 相似文献
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苏北榴辉岩成因型及其形成条件 总被引:4,自引:0,他引:4
苏北榴辉岩至少存在高度压壳源型(H型)、超高压壳源型(U型)和幔源型(M型)三类。其中H型榴辉岩的石榴石为铁铝榴石,具正环带结构,单斜辉石属低硬玉绿辉石,主要形成于晋宁期低温度高压变质条件下的下地壳;U型榴辉岩含微粒金刚石(?)、柯石英及其假象等,发育放射状胀裂结构和正、反环带结构、石榴石为钙铝榴石、单斜辉石属高硬玉绿辉石,主要形成于印支期高温超高压变质条件下的上地幔;M型榴辉岩的石榴石属镁铝榴石 相似文献
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湘南黄沙坪多金属矿床位于南岭构造带中段北缘,属于矽卡岩型矿床。根据矽卡岩产出状态、矿物共生组合及岩相学特征,从早期到晚期可划分为矽卡岩阶段、退化蚀变阶段、早期硫化物阶段和晚期硫化物阶段。矽卡岩矿物主要为石榴石、辉石、符山石等;金属矿物主要为白钨矿、辉钼矿、磁铁矿、方铅矿、闪锌矿等。电子探针分析结果表明,石榴石为钙铝-钙铁榴石系列,从早期到晚期,石榴石具有由钙铝榴石逐渐向钙铁榴石演化的规律。且钙铁榴石普遍发育震荡环带,而环带结构可持续记录钙铁榴石物理化学条件演化的过程。同时两种石榴石中均含Sn的成分,但钙铁榴石中Sn的含量明显高于钙铝榴石。辉石为透辉石-钙铁辉石系列,而且由内接触带向外接触带,辉石中Fe和Mn的含量有逐渐升高的趋势。矽卡岩矿物学特征及矿物成分的变化表明,成矿流体至少经历了两次氧化还原性质的转变。矽卡岩矿物学特征,对W(Sn) Mo Bi等多金属的矿化具有重要的地质指示意义。 相似文献
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苏北榴辉岩成因类型及其形成条件 总被引:5,自引:0,他引:5
苏北榴辉岩至少存在高压壳源型(H型)、超高压壳源型(U型)和幔源型(M型)三类。其中H型榴辉岩的石榴石为铁铝榴石,具正环带结构,单斜辉石属低硬玉绿辉石,主要形成于晋宁期低温高压变质条件下的下地壳;U型榴辉岩含微粒金刚石(?)、柯石英及其假象等,发育放射状胀裂结构和正、反环带结构,石榴石为钙铝榴石,单斜辉石属高硬玉绿辉石,主要形成于印支期高温超高压变质条件下的上地幔;M型榴辉岩的石榴石属镁铝榴石,形成于晋宁期高温超高压条件下的岩石圈与软流圈交界附近。 相似文献
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胶北南山口含榴辉石岩岩石学与锆石U-Pb定年的初步研究 总被引:3,自引:2,他引:1
胶北南山口镁铁-超镁铁质杂岩主要由含榴辉石岩和含榴基性麻粒岩所组成,且以不规则透镜体的形式赋存于太古宙英云闪长质片麻岩之中。岩相学观察、矿物相转变分析与矿物化学研究结果表明,胶北南山口含榴辉石岩不仅普遍发育近等温减压反应结构,即石榴石+富钙流体→单斜辉石+葡萄石+榍石±钠长石与石榴石+富钙流体+二氧化碳→角闪石+葡萄石±钠长石±方解石±榍石,指示其早期可能经历了高压麻粒岩相变质作用。而且,与南山口含榴基性麻粒岩类似,在晚期降温退变过程中,它们还经历了强烈的钙质交代作用,形成富钙矿物组合:富钙铝榴石的石榴石+次透辉石质单斜辉石+钙质角闪石+葡萄石+钠长石+方解石+榍石。SHRIMP锆石U-Pb定年结果表明,胶北南山口含榴辉石岩中的岩浆锆石记录了2900~2850Ma的207Pb/206Pb年龄,指示胶北地体在中太古代晚期存在一次重要的岩浆事件,而其变质锆石还记录了1950~1800Ma的207Pb/206Pb年龄,说明胶北南山口镁铁-超镁铁质杂岩曾卷入了胶北古元古代晚期地壳造山作用。结合研究区其它地质研究资料,本文推断胶北南山口镁铁-超镁铁质杂岩可能形成于古元古代,是华北克拉通胶-辽-吉带古元古代岩系的重要组成部分,并于1950~1800Ma期间,卷入了胶-辽-吉带古元古代造山作用,先后经历了高压麻粒岩相变质作用和晚期降温与钙质交代的联合退变质作用。 相似文献
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中国金伯利岩中的单斜辉石 总被引:3,自引:0,他引:3
本文对我国金伯利岩中,作为巨晶、粗晶、基质相矿物、与镁铝榴石和钛铁矿的连生体、深源岩石包体矿物及金刚石中包体矿物产出的单斜辉石的粒度、形态、颜色及蚀变壳、矿物种属、化学成分特征、端员组分、红外光谱等进行了研究。并与玄武岩中的巨晶及其深源岩石包体矿物、钾镁煌斑岩和云煌岩中的单斜辉石作了对比。研究了单斜辉石和镁铝榴石共生对。探讨了金伯利岩中单斜辉石的成因,形成的温、压条件及所反映出的金伯利岩体形成的构造环境,指出了该矿物在找寻金刚石矿工作中的指示标志。 相似文献
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广东尖山铁矿床内发育了一个完整的钙铝榴石—钙铁榴石系列矿物,它们与矿化有着密切的关系,因此,研究石榴石的标型特征对探讨矿床形成条件是很重要的,对找矿也是有意义的。 一、石榴石的产出特征 尖山矿床赋存在尖山花岗岩体与中—上石炭统壶天群和下二叠统栖霞组碳酸盐岩层的接触带中。从花岗岩体向碳酸盐岩层形成了如下蚀变分带:绿帘石化花岗岩带→透辉石钾长石石英岩带→石榴石透辉石夕卡岩带→石榴石夕卡岩带→钙铁辉石夕卡岩带→大理岩带。钨钼矿化迭加在透辉石钾长石石英岩带中,铁矿化迭加在石榴石夕卡岩和钙铁辉石夕卡岩带中。 相似文献
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Magnesium-rich, calcium-poor, lilac coloured garnets have been found in the heavy mineral concentrate of the Finsch kimberlite pipe. Some of these garnets contain sufficient chromium to place them within the compositional field of the garnets previously only reported as inclusions in diamonds.These lilac garnets are considered to have formed in equilibrium with the minerals found as inclusions in diamond and hence with the diamond itself. Their presence in the kimberlite should be diagnostic of the presence of diamond, but it is not known if there is any quantitative relationship. The garnets are considered to have a deeper provenance than the magnesian garnets commonly found as xenocrysts in kimberlite and in garnet peridotite xenoliths. The mantle composition at their depths of origin must be more refractory in nature than the peridotite xenoliths. The garnets having a higher magnesium and chromium content, a higher Mg/Fe ratio and lower calcium, aluminium and titanium than those found in the xenoliths. 相似文献
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华北地块东南缘中生代侵入杂岩中所含榴辉岩类包体矿物微量元素地球化学特征及其意义 总被引:1,自引:0,他引:1
华北地块东南缘中生代侵入杂岩中所含榴辉岩类包体中矿物的分析结果表明, 组成榴辉岩类包体的各矿物之间元素的分配在榴辉岩相变质阶段已经达到了化学平衡;石榴石中Al、Fe、Mn, 单斜辉石中Na、Mg、Ca, 角闪石中Na、Mg、Fe等主量元素含量与其全岩之间均呈良好的正相关, 受全岩成分制约;石榴石明显富集HREE、贫LREE, 单斜辉石相对富集LREE、MREE、贫HREE, 两者轻、重稀土含量呈相互消长的互补关系, 石榴石和单斜辉石中分别富集Y、Sr, Ga和过渡族元素Sc、Ti、V、Cr、Co等含量较高, 其含量受全岩成分控制;金红石中稀土元素的含量很少, Fe、Al、Mg、Ca、Mn、Nb、Ta、Cr和Zr含量相对较高, Rb、Sr、Ba含量极低, 部分微量元素(如Nb、Cr、Fe、V、W等)含量与其原岩有继承和对应关系;部分原生或/和退变角闪石的REE配分模式分别与单斜辉石和石榴石相似, 过渡族金属元素等的含量与石榴石、单斜辉石和全岩具有一定的相关性, 角闪石容纳Na、K、Sr、Rb、Ba等元素的能力较强, 其成分除受全岩成分的制约外, 石榴石、单斜辉石对其形成也有影响。榴辉岩类包体与其寄主中生代侵入杂岩中部分高价态/高场强元素(HFSE)和重稀土元素(HREE)呈相互消长的关系。榴辉岩的形成与扬子地块和华北地块之间的俯冲-碰撞作用有关。 相似文献
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S. Ranjbar S. M. Tabatabaei Manesh M. A. Mackizadeh S. H. Tabatabaei O. V. Parfenova 《Geochemistry International》2016,54(5):423-438
Grossular-andradite (grandite) garnets, precipitated from hydrothermal solutions is associated with contact metamorphism in the Kal-e Kafi skarn show complex oscillatory chemical zonation. These skarn garnets preserve the records of the temporal evolution of contact metasomatism. According to microscopic studies and microprobe analysis profiles, the studied garnet has two distinct parts: the intermediate (granditic) composition birefringent core that its andradite content based on microprobe analysis varies between 0.68–0.7. This part is superimposed with more andraditic composition, and the isotropic rim which its andradite content regarding microprobe analysis ranges between 0.83–0.99. Garnets in the studied sample are small (0.5–2 mm in diameter) and show complex oscillatory zoning. Electron microprobe analyses of the oscillatory zoning in grandite garnet of the Kal-e Kafi area showed a fluctuation in chemical composition. The grandite garnets normally display core with intermediate composition with oscillatory Fe-rich zones at the rim. Detailed study of oscillatory zoning in grandite garnet from Kal-e Kafi area suggests that the garnet has developed during early metasomatism involving monzonite to monzodiorite granitoid body intrusion into the Anarak schist- marble interlayers. During this metasomatic event, Al, Fe, and Si in the fluid have reacted with Ca in carbonate rocks to form grandite garnet. The first step of garnet growth has been coeval with intrusion of the Kal-e Kafi granitoid into the Anarak schist- marble interlayers. In this period of garnet growth, change in fluid composition may cause the garnet to stop growing temporarily or keep growing but in a much slower rate allowing Al to precipitate rather than Fe. The next step consists of pervasive infiltration of Fe rich fluids and Fe rich grandite garnets formation as the rim of previously formed more Al rich garnets. Oscillatory zoning in the garnet probably reflects an oscillatory change in the fluid composition which may be internally and/or externally controlled. The rare earth elements study of these garnets revealed enrichment in light REEs (LREE) with a maximum at Pr and Nd and a negative to no Eu anomaly. This pattern is resulted from the uptake of REE out of hydrothermal fluids by growing crystals of calcsilicate minerals principally andradite with amounts of LREE controlled by the difference in ionic radius between Ca++ and REE3+ in garnet x site. 相似文献
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富钛钙铁榴石是硅不饱和碱性火成岩中的特征矿物,其Ti含量和Ti进入石榴石的方式可直接反映岩浆体系的硅饱和度和氧逸度。河北矾山超镁铁岩-正长岩杂岩体是华北克拉通北缘东西向展布三叠纪碱性岩带的重要岩体之一,其岩石中发育三种类型的富钛钙铁榴石:类型Ⅰ发育于岩体外带的石榴石辉石正长岩中,与辉石、黑云母呈岩浆共生关系,端元组成为Adr_(25-65)Mmt_(15-37)Slo_(8-28)Grs_(10-14),以高TiO_(2)含量(6.08%~18.61%)、较低的SiO_(2)含量(25.46%~33.26%)为特征,为原生岩浆成因;类型Ⅱ见于各类岩石,呈细粒他形充填于其他矿物颗粒之间,端元组成为Adr_(57-69)Mmt_(5-19)Slo_(0-6)Grs_(19-27),以高Al_(2)O_(3)含量(3.95%~5.56%)为特征,为岩浆演化后期熔体富Al_(2)O_(3)时结晶而成;类型Ⅲ亦见于各类岩石,主要呈细粒他形或细碎状发育于其他矿物内,端元组成为Adr_(68-79)Mmt_(8-14)Slo_(0-5)Grs_(6-14),以低的Al_(2)O_(3)含量(1.18%~2.89%)和较高的FeO含量(21.65%~24.62%)为特征,为岩浆期后热液成因。在矾山杂岩体的富钛钙铁榴石中,Ti主要以Si→Ti^(4+)和2Fe^(3+)→Ti^(4+)+Fe^(2+)/Mg替代方式进入到晶体结构中,反映了矾山杂岩体的母岩浆体系为二氧化硅不饱和的碱性岩浆,并具有较高的氧逸度。受石榴石的主量元素组成和相应的晶体结构控制,在微量元素组成上,矾山杂岩体中的富钛钙铁榴石富集轻稀土或中稀土、亏损重稀土,大离子亲石元素(Rb、Ba、Pb和Sr)含量较低或极低,而高场强元素(如Th、U、Nb、Ta、Zr和Hf等)含量普遍较高。本文对石榴石的成因研究结果支持矾山杂岩体不同类型的岩石形成于封闭体系下同一母岩浆系统充分的结晶-分异和堆晶作用;此演化模式可以较好地解释矾山杂岩体的同心环状特征和韵律层状结构,以及磁铁矿和磷矿的成因。 相似文献
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We present results of study of the specific composition and parageneses of pyrope-almandine garnets from alluvial deposits of the Muna-Markha interfluve drainage in the Yakutian diamondiferous province. The data are correlated with the specific features of garnets (tentatively crustal) from Yakutian and Guinean kimberlites and their crustal xenoliths and from metamorphic rocks of the Anabar Shield. The conclusion is drawn that most of orange pyrope-almandine garnets from the alluvial deposits were generated from kimberlites with varying contents of disintegrated crustal material. This gives grounds to include the studied garnets into a complex of indicator minerals of kimberlites and use them in search for diamonds in the Yakutian diamondiferous province. 相似文献
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热液型矿床形成过程中流体的组成、运移、演化及其矿质沉淀机制是矿床学研究的重点内容和难点。矽卡岩矿床中具有震荡环带结构的石榴子石完整记录了热液流体的性质、组成及演化过程,这种震荡环带的出现暗示了不同成分系列的石榴子石对不同阶段热液流体成矿物化环境的特定选择性。石榴子石晶体元素化学分带现象是流体运移和矿物再沉淀过程周期性循环再现的结果,对指示早期矽卡岩阶段热液流体中主、微量元素化学分带机制具有重要意义。不同成分系列、不同期次石榴子石的Fe_2O_3和Al_2O_3含量差异显著,其对热液流体演化过程中氧化还原环境的变化具有较好的示踪作用;相对主量元素而言,微量元素在流体演化过程中具有更好的探针作用,钙铝榴石常富集Al、Ti、Zr、HREE元素,而钙铁榴石常富集As、W、Mo、Fe、LREE元素。借助EMPA和LA_ICP_MS技术对具震荡环带结构的石榴子石进行主、微量元素(包括稀土元素)的微区和原位分析是探讨成矿过程中流体组成和性质演化的重要手段,其有可能揭示矿物生长机制、成矿环境以及成矿流体组成与性质的演化,而这一地质信息对于全面理解矽卡岩型矿床的矿化分带及成矿作用非常重要。 相似文献
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胶北荆山群富铝岩系石榴石扩散环带特征及其成因指示意义 总被引:9,自引:2,他引:9
通过详细的微区成分测定,发现胶北荆山群富铝岩系中石榴石普遍发育扩散环带,但扩散环带的发育程度及样式很不均匀,明显受与其相邻矿物的控制。与黑云母接触时,石榴石晶体边部的镁含量最低,环带最为发育,与堇青石接触时次之,与长英质矿物接触时则环带发育较弱或不发育。这种特征的石榴石扩散环带样式与传统认识有很大差异,反映降温过程中石榴石与黑云母等镁铁矿物之间的Fe-Mg交换作用主要是通过彼此接触的界面来实现,粒间流体对组分的传输作用有限。但是当岩石中黑云母大量存在而石榴石含量又较低时,由于体系水活度增高,粒间流体也会传输一定的Fe、Mg组分,导致与长英质矿物相邻的石榴石晶体边部发育微弱的扩散环带。通过分析,确定粒径大于1500斗m的石榴石晶体核部可以保存变质峰期的平衡成分,基质中远离石榴石等镁铁矿物处于长英质矿物之间的大颗粒黑云母颗粒核部也基本可以保存变质峰期的平衡成分。 相似文献
18.
西藏列廷冈铁多金属矿床矽卡岩矿物学特征及其地质意义 总被引:2,自引:2,他引:0
西藏列廷冈铁多金属矿床位于冈底斯北缘弧背断隆带内,是近年来勘查评价的规模可达中型的接触交代矽卡岩型矿床。矿区矽卡岩主要呈层状、似层状,矽卡岩型铁多金属矿体赋存于下-中三叠统查曲浦组(T_(1-2)c)矽卡岩和大理岩中,矿体呈透镜状、囊状、似层状产出,矽卡岩矿物较发育。为进一步查明矿床矽卡岩矿物种属及矽卡岩类型,剖析矽卡岩形成环境及其与矿化类型之间的关系,基于对矽卡岩矿物系统的显微镜下观测,利用电子探针对矿床主要矽卡岩矿物化学成分进行了系统分析。矽卡岩矿物主要为石榴子石、透辉石、角闪石、绿帘石、绿泥石等,矿床矽卡岩具典型钙矽卡岩特征。根据矿物共生组合及交代关系推断成矿流体经历了5个阶段,分别为早期矽卡岩阶段、退化蚀变阶段、早期热液阶段、石英硫化物阶段和碳酸盐阶段。特征矿物的电子探针分析结果表明,石榴子石主要为钙铁榴石-钙铝榴石系列(And_(18.37~99.89)Gro_(0.24~79.05)Ura+Pyr+Spe_(0.98~6.63)),且发育环带结构;辉石主要为透辉石-钙铁辉石系列(Di_(53.56~99.91)Hd_(1.61~44.55)Jo_(0.08~5.11));角闪石主要为阳起石,次为铁、镁角闪石,均属钙质角闪石系列;绿泥石主要为富铁的铁镁绿泥石;绿帘石贫Fe、Mg。在矿床成矿演化过程中,其成矿环境是发生改变的,早期矽卡岩阶段到最晚期碳酸盐阶段,成矿环境至少经历了从高温、偏碱性的氧化环境到相对低温、偏酸性的还原环境的转变。 相似文献
19.
The composition of minerals of the titanite-malayaite series and their mineral assemblages and genesis were examined at the Bol’shoi Kan’on deposit in Magadan oblast and at other deposits. These minerals were demonstrated to be typomorphic Sn-bearing silicates in postmagmatic bimetasomatic hypabyssal calc skarns and skarnoids in tin-bearing provinces. The series of these minerals with similar crystal structures has a miscibility gap, and the minerals are characterized by notably different Sn concentrations. Moreover, titanite may contain Al, Fe, F, and OH, whose concentrations decrease in the Sn-bearing members of the series (malayaite). These silicates were formed at many deposits after the successive transforms of skarn mineral assemblages. The early assemblages include wollastonite in calcic carbonate rocks and diopside and salite in skarnoids. The latter minerals are replaced first by hedenbergite with subordinate amounts of vesuvianite and garnet first of grossular and then andradite composition. This process was syngenetic with the formation of borosilicates (danburite, axinite, and tourmaline). Ti thereby may be accommodated in grossular and Sn in Fe-bearing silicates, mostly, in andradite. Skarns often contain both titanite and malayaite, which were produced in these rocks earlier than cassiterite. The isomorphic series of these minerals has a miscibility gap. The oreforming processes ended with the crystallization of quartz, fluorite, and rare sulfides, including stannite. The late Sn-bearing minerals at some deposits are stokesite and Mg, Fe, and Ca stannates, which crystallized during malayaite replacement by newly formed calcite-quartz aggregates. The Sn-bearing sulfides are replaced by varlamoffite during supergene processes. 相似文献