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1.
新疆白杨河U-Be矿床中电气石的矿物学特征及其成矿指示 总被引:3,自引:2,他引:1
新疆白杨河铀铍矿床是近年发现的亚洲最大的铍矿床,它位于新疆西准噶尔地区雪米斯坦(谢米斯台)火山岩带内。大地构造上处于哈萨克斯坦-准噶尔板块西北缘古生代陆缘活动带内晚古生代成熟岛弧之上。铀铍矿体主要赋存于杨庄花岗斑岩体与上泥盆统塔尔巴哈台组凝灰岩接触带以及花岗斑岩中。野外观察发现白杨河铀铍矿床中电气石以三种不同产状产出:(1)产于玄武岩中电气石;(2)产于凝灰岩中电气石;(3)产于花岗岩中电气石。电气石在玄武岩和凝灰岩中主要以球状集合体为主,部分沿裂隙充填;而在花岗岩中则主要呈针状以浸染状产出。本文在野外详细观察和岩相学基础上,利用电子探针点、面分析技术,对白杨河不同产状的电气石进行了详细的矿物化学研究工作。结果显示,白杨河铀铍矿床中的电气石均属于碱质黑电气石,但不同产状的电气石其化学成分存在明显差异。玄武岩中的富Ti、Mg和Ca,贫Al、Mn和F;凝灰岩中的富Fe和Na,贫Mg和Ca;花岗岩中的富Al、Mn、F,贫Ti、Fe和Na。不同类型的电气石中均具有较高的F(0. 343~1. 117apfu)和Al(5. 648~7. 351apfu)。白杨河U-Be矿床中电气石化学成分的变化是Al~(Y X)□(Y+Na)_(-1)、Al~(Y X)□(Y+OH)-1和FeMg_(-1)、Fe~(3+)Al_(-1)、AlO(MgOH)_(-1)和AlO(Fe3+OH)_(-1)等替代机制联合作用的结果。白杨河铀铍矿床中电气石化学成分表明形成电气石的流体是富Al、富F的流体; Be可能主要以氟化物或者氟络合物、U主要以氟化物或者氟碳酸盐的形式在热液流体中迁移;电气石或萤石的沉淀导致含U和含Be的氟化物或者氟络合物失稳,致使铍、铀富集成矿。 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.
云南大丫口祖母绿常出现颜色环带,且伴随明显成分变化,而目前颜色环带的成因仍存争议,相关的多阶段成矿假说尚缺少明确证据。文章通过电子探针和激光剥蚀电感耦合等离子质谱仪对大丫口祖母绿的颜色环带及黑色矿物包裹体进行主微量元素成分分析,并对不同类型岩脉祖母绿中流体包裹体进行显微测温分析,进而探讨祖母绿颜色环带成因与多阶段成矿的联系。成分测试结果表明,从浅绿白核部至绿色边部,V(970×10-6→10 077×10-6)、Rb(9.6×10-6→27.4×10-6)、Cs(535×10-6→3 108×10-6)、Fe(1 376×10-6→2 199×10-6)和Ga(4×10-6→14.7×10-6)等微量元素的含量急剧增加。结合绿色晶体边部中同生黑色富钒电气石包裹体的分布,有力证明了大丫口祖母绿颜色分带的形成与晶体的多阶段成矿有关。流体包裹体测试结果表明,含矿长石-方解石脉、含矿石英脉和伟晶岩-变粒岩接触带中矿物的流体包裹体盐度范围分别为3.39%~10.36%(NaCleq)、5.71%~12.29%(NaCleq)和8%~18.72%(NaCleq),指示了伟晶岩脉中祖母绿的多阶段结晶,且表明随结晶阶段演变,成矿流体的盐度逐渐升高。同时,成矿流体盐度升高也是晚期云英岩化阶段致色元素含量剧增的原因。 相似文献
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错那洞淡色花岗岩与错那洞穹隆及周边的铅锌和钨锡铍矿床具有时空上的密切关系.含电气石淡色花岗岩是错那洞高分异淡色花岗岩的代表性岩石.岩相学研究表明,错那洞电气石可分为GT型和PT型两类.本次研究利用电子探针以及LA-ICP-MS分析两种类型电气石的化学组成.结果表明,GT型电气石中Fe/(Fe+Mg)原子比值为0.83~0.87,Na/(Na+Ca)的原子比值为0.93~0.95;PT型电气石中则分别为0.78~0.95以及0.81~0.95,表明二者均为碱性电气石和黑电气石.矿物地球化学特征表明GT型电气石来源于早期岩浆阶段的熔体,PT型电气石则来源于晚期岩浆热液流体.二者的成分变化分别符合低—中盐度流体对应的x-vac-Al(NaR)-1趋势和高Na及高盐度对应的AlO(R(OH))-1 趋势,表明从电气石花岗岩到花岗伟晶岩岩浆结晶环境中Na含量的增加,反映花岗伟晶岩结晶分异演化程度更高.与GT型电气石相比(Sn元素平均含量为23.15×10-6),在PT型电气石中Sn元素明显富集(平均为193.57×10-S),二者均表现出Sn成矿电气石的特征,并且PT型电气石特征更为显著.此外,PT型电气石中Sn-W-Be元素含量(193.57×10-6~0.13×10-6~8.41×10-6)较GT型电气石中(23.16~0.02×10-6)显著富集;Pb+Zn1含量(45.47~2 687.29×10-6,平均为787.55×10-6)也较GT型电气石中显著富集.这一特征指示了错那洞高分异花岗岩形成钨锡铍、铅锌等金属矿床的成矿潜力. 相似文献
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新疆阿尔泰可可托海3号伟晶岩脉岩浆-热液过程:来自电气石化学组成演化的证据 总被引:2,自引:0,他引:2
新疆阿尔泰可可托海3号脉不同结构带及其蚀变围岩中电气石化学组成电子探针(EMPA)分析结果显示,蚀变围岩、外接触带和内接触带中电气石为是富钙-铁的镁电气石,电气石化伟晶岩中电气石为富镁-铁的锂电气石,伟晶岩早期结构带(Ⅰ-Ⅳ带)中电气石为黑电气石-锂电气石系列,而伟晶岩晚期结构带(Ⅴ-Ⅶ带)中电气石为锂电气石。蚀变围岩、外接触带和内接触带中电气石以Y位中低Al,高Mg、Ca以及显著低的Al/(Al+Fe)、Fe/(Fe+Mg)比值为特征,主要存在R3++O2-=R2++OH-的置换;伟晶岩内部结构带(Ⅰ-Ⅶ带)中电气石以Y位上极低Mg、Ca,高Fe、Al、Li以及显著高的Al/(Al+Fe)、Fe/(Fe+Mg)比值为特征,主要存在+Al3+=Na++Fe(Mg)2+和Li++Al3+=Fe(Mn)2++Mg2+的置换。蚀变围岩、外接触带和内接触带中电气石化学组成特征指示存在围岩-流体、围岩-熔体相之间的相互作用。伟晶岩早期结构带(Ⅰ-Ⅳ带)中电气石无明显组成分带,为岩浆成因;晚期结构带(Ⅴ-Ⅶ带)中电气石显示振荡环带,形成于岩浆-热液过渡阶段体系。随着伟晶岩由外向里固结,温度逐渐降低,伟晶岩内部结构带中电气石显示Y位上Al、Li、Mn及Fe/(Fe+Mg)比值逐渐增大的演化趋势;内部结构带中电气石几乎不含Mg,指示3号伟晶岩脉岩浆-热液演化是在相对封闭体系中进行的。 相似文献
6.
广西银屏富B花岗岩及其晶洞中电气石的化学组成特征以及对岩浆-热液演化的指示 总被引:1,自引:0,他引:1
利用EMPA对广西花山A型花岗岩最晚期岩相-细粒花岗岩及其晶洞中电气石进行矿物学、地球化学研究.结果表明,细粒花岗岩中电气石与晶洞中电气石化学组成非常一致,以高Fe (2.78~3.44 apfu)﹑低的总Al (5.62~6.20 apfu)﹑极低Mg (0.05~0.12 apfu)﹑不含Li、F、Cl等特征.在Fe-Mg图解中,其化学组成近于端元黑电气石.Al3 =Fe3 和R R2 =R3 □是所研究的电气石中两个主要的置换反应;岩浆电气石和热液成因电气石均位于Al-Fe-Mg三角图解中黑电气石-镁电气石线之下,表明电气石结构中存在明显的Fe3 ,预示岩浆是在相对高的氧逸度条件下分异演化的.细粒花岗岩中普遍发育几厘米到几十厘米尺度的晶洞以及大量电气石在晶洞中沉淀,暗示A型的花山花岗岩形成演化过程中未发生大规模含水流体相出溶,代之的是蒸汽相分离.由于不存在岩浆-热液体系的演化过程,在银屏细粒花岗岩内及周边地区可能不是寻找锡石-石英脉型矿床的理想靶区. 相似文献
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通过对金鸡窝铜矿区花岗闪长斑岩进行详细的岩相学研究和黑云母成分的电子探针原位分析,厘定了黑云母形成的物理化学条件,并探讨了其成岩成矿意义。电子探针研究显示:花岗闪长斑岩中黑云母的Ti为0.44~0.47apfu,Mg/(Mg+Fe)比值范围为0.58~0.62,结合其化学成分在10 TiO_2-Fe O*-Mg O图解和Mg-(Fe2++Mn)-(AlⅥ+Fe3++Ti)图解中的投影,认为该岩体中黑云母具有富镁贫铁特征,属于原生黑云母。黑云母氧化系数(fO)范围为0.31~0.67,MF值范围为0.38~0.41,Mg O含量为13.27%~14.28%,K2O为3.59%~8.93%,Na2O为0.26%~3.28%,Fe O为15.74%~17.30%,TiO_2为3.93%~4.19%,Al2O3为13.52%~14.19%,单位分子中阳离子数AlⅣ为2.00~2.24 apfu,AlⅥ为0.15~0.41 apfu,指示其岩体属于高钾质钙碱性系列的同熔型(或I型)花岗岩,具有壳幔混源成因的特征。黑云母结晶温度为734~748℃,结晶压力为71~89 MPa,相当于深度2.7~3.3 km,平均深度为3.0 km。黑云母化学成分投点主要落在Fe2O3-Fe3O4缓冲线之上,表明其形成于高氧逸度环境,且有利于铜矿的形成。 相似文献
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位于滇西兰坪盆地西缘的茅草坪矿床是近年来新发现的一个脉状铜矿床,与该区其他脉状铜矿不同,它发育大量热液电气石。本文对矿床电气石的发育特征和化学成分进行了研究,以此探讨电气石生长和成分的控制因素、成矿流体来源及成矿过程中氧逸度的变化。茅草坪矿床铜矿体由石英-碳酸盐-硫化物脉及伴生的热液蚀变晕组成。电气石可分为两类:较早沉淀的蚀变晕电气石(T1)和较晚沉淀的脉体内电气石(T2)。T1电气石与石英共生,出现在变碎屑岩(T1-Q)和大理岩(T1-M)中,矿物强烈定向生长,长轴平行于围岩的剪切面理,颗粒相对细小,此阶段无含铜硫化物生成;T2电气石伴有黄铜矿生成,矿物长轴多与围岩的剪切面理斜交、呈弱定向生长,或不定向地生长,矿物颗粒相对粗大。由此反映在矿床热液矿化过程中,控制热液矿物生长的构造应力由强剪切到弱剪切及剪切停止的趋势变化。电子探针分析结果表明,所有电气石均属于碱性族,主体为镁电气石。T2电气石在背散射图像下存在明暗环带,与Ti、Fe、Mg含量的差异有关,也反映该期成矿流体的物理化学条件呈波动变化。茅草坪电气石的化学组成主要受流体成分控制,但T1-Q电气石相对富Al,T1-M电气石相对富Ca,表明围岩对蚀变晕电气石成分有一定影响。矿床以镁电气石为主的特征,暗示成矿流体不可能直接来自未经历水-岩相互作用的壳源花岗岩岩浆水。T2电气石较T1电气石具有高的Fe~(3+)/(Fe~(3+)+Fe~(2+))值,表明矿床成矿流体从早期到晚期可能是一个氧逸度升高的过程。结合区域脉状铜矿流体特征、金属组合、围岩和蚀变特征,推测茅草坪矿床及滇西脉状铜矿床迁移Cu的流体可能是CO_2缓冲p H值的还原性流体,在矿化部位流体氧逸度升高很可能是含铜硫化物沉淀的重要机制之一。 相似文献
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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
10.
近年来喜马拉雅淡色花岗岩带被认为是稀有金属成矿的有利地区,并已在该区伟晶岩中发现诸多稀有金属矿物。错那洞矿床是该带内发现最早并具有较大规模的钨锡铍(W-Sn-Be)矿床,Be矿化包括伟晶岩型和矽卡岩型,但目前铍元素的赋存状态还没有被清晰地查明。伟晶岩型矿化主要为伟晶岩中晶型较好的绿柱石晶体;而矽卡岩型铍矿化表现形式则复杂多样。Be元素除了赋存于绿柱石、硅铍石、羟硅铍石等含铍矿物中,还可以广泛分布于矽卡岩矿物中。其中,符山石(Be含量:43×10-6~887×10-6)和方柱石(Be含量:1333×10-6~4643×10-6)是铍元素赋存的主要载体。矽卡岩型矿化与淡色花岗岩有关,岩浆高分异演化使熔体中Be、Sn、W及挥发分逐步富集,在伟晶岩中饱和绿柱石;之后Be元素在F的络合下随出溶流体进入碳酸盐岩,发生水岩相互作用,萤石的析出引起Be-F络合物失稳,导致Be元素的沉淀。含铍矿物种类及成因机制的研究将有助于指导喜马拉雅地区同类型矿化的评价。 相似文献
11.
12.
Chemical composition of tourmaline from the Yunlong tin deposit, Yunnan, China: implications for ore genesis and mineral exploration 总被引:1,自引:0,他引:1
Summary ?The Yunlong tin deposit is located in the northern part of the Lancangjiang metamorphic zone of the Sanjiang Tethys orogen
series in western Yunan province of China. It consists of vein-type cassiterite ores, which are mainly hosted in migmatites
of Caledonian age. Abundant tourmaline is associated with the ores, quartz–tourmaline veins and barren migmatized gneiss and
migmatites. A detailed electron microprobe study has been carried out to document the chemical compositions of tourmaline
from this deposit. The results exhibit a systematic compositional change that might be used as tracer for ore genesis and
in prospecting for tin mineralization. Tourmalines from the ore bodies are dravite with Fe/(Fe + Mg) ratios of 0.09 ∼ 0.31
and Ca/(Ca + Na) ratios of 0.03 ∼ 0.40. These tourmalines are also rich in chromium (up to 0.74 wt% Cr2O3) and tin (up to 0.42 wt% Sn). In contrast, tourmalines from the barren migmatites are mostly schorl with Fe/(Fe + Mg) ratios
of 0.38 ∼ 0.94 and Ca/(Ca + Na) ratios of 0.00 ∼ 0.14. Tourmalines from quartz–tourmaline veins that occur between ore bodies
and the migmatites show intermediate compositions, i.e., Fe/(Fe + Mg) = 0.09 ∼ 0.59, Ca/(Ca + Na) = 0.01 ∼ 0.22.
It is suggested that the Mg-rich nature of the tourmaline can be used as an exploration tool in this region to target tin
mineralization, because the tourmalines show increasing Mg contents and are more dravitic when approaching the ore bodies.
It is likely that the formation of the Yunlong tin deposit was related to migmatitic-hydrothermal processes. The high Mg and
Cr contents in tourmalines from the ore bodies were probably derived from the local meta-sedimentary and meta-volcanic rocks
of the Precambian Chongshan Group rather than from the granites in the region.
Received December 28, 2000; revised version accepted January 25, 2002 相似文献
13.
Vsevolod Prokofiev Ivan Baksheev Lidiya Zorin Boris Belyatsky Vladimir Ustinov Nadezhda Krivitskaya 《地学前缘(英文版)》2012,3(1):59-71
Zoned tourmaline(schorl-dravite) in the matrix of hydrothermal explosive breccia and ore veins in gold deposits,Chita region.Eastern Transbaikalia.Russia,are associated with Na- and K-rich porphyry-type subvolcanic intrusives.δ18O values of tourmaline from three gold deposits(Darasun. Talatui,Teremkinskoye) are +8.3‰,+7.6‰,and +6.0‰and calculatedδ18O values of fluids responsible for the tourmalinization are +7.3‰,+7.7‰,and +4.2‰,respectively.These data imply an igneous fluid source,except at the Teremkin deposit where mixing with meteoric water is indicated.Wide ranges of Fe3+/Fetot,and the presence of vacancies characterize the Darasun deposit tourmaline indicating wide ranges of f(O2) and pH of mineralizing fluids.Initial stage tourmalines from the gold deposits of the Darasun ore district are dravite or high mg schorl.Second stage tourmaline is characterized by oscillatory zoning but with Fe generally increasing towards crystal rims indicating decreasing temperature.Third stage tourmaline formed unzoned crystals with xMg(mole fraction of Mg) close to that of the hrst stage tourmaline,due to a close association with pyrite and arsenopyrite.From Fe3+/Fetot values,chemical composition and crystallization temperatures.logf(O2) of mineralizing fluids ranged from ca.—25 to—20. much higher than for the gold-bearing beresite—listvenite association,indicating that tourmalinization was not related to gold mineralization. 相似文献
14.
The San Jorge porphyry copper deposit in Mendoza, Argentina in some parts contains breccia pipes that are strongly enriched with tourmaline of the dravite–schorl solid solution series with some quartz, muscovite, orthoclase, kaolinite, Cu sulfides and arsenopyrite. The overall composition of tourmaline is rather homogeneous with an intracrystalline variation of the Fe/Mg ratio reflected by its texture, its core-rim zonation of tourmaline and by the statistical variation of the Fe/Mg ratio. The depth-related intracrystalline changes are best interpreted as a hydrothermal collapse breccia which formed as a result of the reaction of primary hydrothermal B–Fe-enriched fluids with the country rocks enriched in Mg. The chemical composition attests to only small-scale interaction of tourmaline with silicate fragments within the tourmaline breccia itself. Tourmaline as one of the ultrastable heavy minerals in stream sediment offers a potential tool to discriminate between Cu-bearing and barren breccia pipes, using the Fe/Mg ratio of the boron silicate for distinction. Fertile breccias reveal a significantly better correlation between Fe and Mg than barren tourmaline breccias. 相似文献
15.
Tourmaline in the central Swedish ore district 总被引:2,自引:0,他引:2
More than 40 recently discovered tourmaline occurrences have been investigated in the Mid-Proterozoic Bergslagen ore district of central Sweden. Some are spatially associated with ores, others with zones of leaching, remobilization and migmatization. Among the tourmaline-bearing ore deposits are the Dammberg ZnPb-Fe sulphide deposit, the Sala Pb-Zn-Ag deposit, the Dalkarlsberg, Pershyttan and Håksberg Fe oxide deposits, the Leja Cu deposit, and the Zinkgruvan Zn-Pb-Ag deposit. Tourmaline has been recorded a) as tourmalinites and tourmaline-bearing chemical sediments; b) in tourmaline-bearing skarns; c) in tourmaline-quartz veins; d) as disseminations along the foliation in schists; e) in tourmaline pegmatites; f) in tourmalinized haloes in metavolcanites along tourmaline pegmatites; and g) in late joints. Tourmalinites, tourmaline-bearing chemical sediments and tourmaline-bearing skarns are spatially associated with sulphide and oxide mineralizations. The dravite components in these tourmalines are proportional to the size of Zn-Pb sulphide mineralizations. Tourmalines from quartz veins close to and within ore deposits contain high Zr and Cr contents. With increasing distance away from these deposits, the Zr and Cr contents fall significantly. Tourmalines from pegmatites have inherited a number of trace element enrichments through partial melting and assimilation of volcaniclastic sediments into granitic melts. Despite magmatic homogenization, Zn contents in these tourmalines reflect the proximity of Zn-Pb-sulphide deposits, decreasing away from them. Tourmalines from late joints with Zn contents above the 100 ppm level are also indicative for the proximity of Zn-Pb sulphide mineralizations. Thus, some trace elements in these tourmalines may represent suitable exploration tools. 相似文献
16.
电气石的偏振拉曼光谱研究 总被引:3,自引:0,他引:3
电气石达到宝石级称碧玺。通过电气石偏振拉曼光谱的实验研究,表明随电气石含铁量增高电气石中Si-O伸缩振动峰发生分裂,峰形变大。不同成因的电气石晶体中(OH)-离子占位不同,变质岩型、矽卡岩型电气石中(OH)-只有一个有序占位,而伟晶岩型和热液型矿床中电气石(OH)-离子则有两个无序占位 相似文献
17.
Milan Nov��k Petr Gadas Jan Filip Tom��? Vaculovi? Jan P?ikryl Bohuslav Fojt 《Mineralogy and Petrology》2011,102(1-4):3-14
Syn-tectonic quartz-calcite veins containing blue beryl are enclosed in hematite > magnetite-rich portions of the low-grade metamorphosed Fe-deposit Skály near Ryma?ov, Czech Republic. Aggregates of pale to deep blue beryl, up to 2?cm in diameter, are associated with euclase, clinochlore, hematite, albite and dravite. Complexly zoned beryl crystals consist of skeletal aggregates of beryl I randomly distributed within volumetrically dominant beryl II with narrow rims of beryl III. All types of beryl have similar contents of Na (0.32?C0.49 apfu) and Mg (0.31?C0.41 apfu) but variable contents of Fetot (0.05?C0.34 apfu) and Al (1.20?C1.62 apfu). The LA-ICP-MS study yielded elevated contents of Li, up 1,314?ppm (0.28?wt.% Li2O) in beryl I. The quartz-calcite veins represent an unusual type of low-T metamorphic-hydrothermal vein related to Fe-ore deposit characterized by single-stage fracturing and mobilization in a closed system at T~200?C300°C and CO 3 2- as a major complexing agent for the mobility of Be. 相似文献
18.
加拿大Sullivan超大型Pb-Zn-Ag矿床中几个指示成矿环境的特征矿物研究 总被引:2,自引:1,他引:1
加拿大Sullivan矿床是世界上最典型的SEDEX型Pb-Zn-Ag矿床。对该矿床中产出的几个特征矿物,如硼矿物电气石,富氯的方柱石和黑云母,富钡的钾长石和白云母,及富锰的石榴子石、绿泥石、碳酸盐和钛铁矿进行了研究。指出这些矿物的存在反映了该矿床产出的物理化学环境。提出成矿流体可能淋滤了深部存在的非海相蒸发岩层,层状硫化物矿石可能形成于海底高盐度热卤水池中。 相似文献