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1.
汇聚板块边缘岩浆中金属和氯的地球化学性质研究 总被引:2,自引:0,他引:2
总结了铜(Cu)、金(Au)、铼(Re)和氯(Cl)在汇聚板块边缘岩浆中的性质。在岛弧型的火山岩岩浆演化的早期,Cu、Au和Re均表现为中度不相容元素,含量随SiO2含量的增加而增加。在SiO2质量分数为58%时,多数岛弧型火山岩中Au、Cu的含量会突然大幅度下降。这一变化与铁和钛的变化是耦合的,铁和钛均由不相容元素变为相容元素,显示钛磁铁矿开始结晶了。进一步的研究表明,钛磁铁矿的结晶使硫酸根被还原为氢硫酸根,后者与Au、Cu形成氢硫酸根络合物,被萃取到流体相中,从而形成成矿流体。这一过程可以很好地解释Au、Cu矿床广泛分布于汇聚板块边缘的现象。与Au、Cu相反,Re的含量在SiO2质量分数为60%时才开始下降,而且是缓慢下降。这是因为Re通常比Au、Cu更亲石。此外,Re还具有强烈的挥发性。氯在东Manus岩浆中表现为高度不相容的特点。氯的性质主要受压力、初始水含量和岩浆演化分异程度的控制。计算结果显示,由于MORB和OIB含水量低,分异演化程度低,氯在上述岩浆中表现为高度不相容的特点。相比之下,氯在岛弧岩浆中的性质就复杂得多。随着水含量和岩浆房深度的不同,氯的性质可以从相容变到高度不相容。 相似文献
2.
芙蓉锡矿田骑田岭花岗岩黑云母矿物化学组成及其对锡成矿的指示意义 总被引:6,自引:2,他引:6
芙蓉锡矿田骑田岭复式岩体主要由早阶段角闪石黑云母花岗岩和晚阶段黑云母花岗岩组成.电子探针分析结果表明角闪石黑云母花岗岩中的黑云母属于铁黑云母,黑云母花岗岩中的黑云母属于铁叶云母.相对于黑云母花岗岩,角闪石黑云母花岗岩中黑云母的MgO、TiO2含量偏高,Al2O3含量偏低.矿物化学研究结果显示,角闪石黑云母花岗岩中黑云母的结晶温度、氧逸度(logfO2)分别为680℃~740℃、-16.00~-15.31,黑云母花岗岩中黑云母的结晶温度、氧逸度分别为530℃~650℃、-19.20~-17.50.从角闪石黑云母花岗岩到黑云母花岗岩,岩浆结晶温度和氧逸度逐渐降低.与花岗岩有关的共存流体性质的研究发现,与角闪石黑云母花岗岩共存的热液流体log(fH2O/fHF)fluid,log(fH2O/fHCl)fluid,log(fHF/fHCl)fiuid值分别为4.22~4.39,2.78~3.24,-1.82~-1.73,而与黑云母花岗岩共存的热液流体log(fH2O/fHF)fluid,log(fH2OfHCl)fluid,log(fHF/fHCl)fluid值分别为3.27~3.53,2.85~3.22,-0.75~-0.22,可见与两种岩石类型共存热液流体的性质存在明显差异,且热液中Cl、Sn含量变化与岩浆结晶分异指数呈正相关关系.骑田岭岩体从角闪石黑云母花岗岩到黑云母花岗岩,随着岩浆的演化.岩浆结晶期后分异出的热液流体向富Cl和Sn方向演化.芙蓉锡矿田的成矿流体应主要来源于黑云母花岗岩岩浆结晶期后分异出的岩浆热液. 相似文献
3.
德兴铜矿花岗闪长斑岩成岩过程分异的初始岩浆流体HF、HCl浓度特征 总被引:4,自引:0,他引:4
用全岩锆饱和温度计和角闪石Al压力计计算得到德兴花岗闪长斑岩体的平均结晶温度为(790±50)℃,压力为(198±60)MPa。以此温压条件为前提,根据化学反应平衡时各组分浓度与反应吉布斯自由能的关系,在假设磷灰石中F-、Cl-与OH-理想替位的前提下,运用电子探针测试及计算得到的花岗闪长斑岩中斑晶矿物磷灰石F-、Cl-、OH-浓度,计算得到磷灰石结晶时流体中HF、HCl的活度分别为0.00079和0.196mol/L。这个浓度代表了岩浆结晶早期分异的初始岩浆流体中HF和HCl的含量特征,且HCl的有效浓度远远大于HF,暗示德兴花岗质岩浆分异的初始岩浆流体富含能与成矿元素Cu形成稳定络合物的挥发性组分Cl,有利于形成花岗质岩浆热液铜矿床。 相似文献
4.
云南鸡街碱性超基性岩铂族元素地球化学特征 总被引:1,自引:1,他引:0
本文首次报道了攀西裂谷南段云南省鸡街碱性超基性岩中铂族元素(PGE)的地球化学特征。采用改进的Carius管法测定了霞霓钠辉岩、霓霞岩和磷霞岩中的低含量PGE。PPGE与IPGE呈现强烈分馏,推断幔源岩在低程度部分熔融过程中Pt、Pd表现为相似的不相容性,而Ir、Ru表现为相容性,这种分馏效应随着结晶分异作用的进行而逐渐增强。3种岩石均出现Ru的负异常及Pt、Pd的解耦,说明母岩浆经历了早期的橄榄石晶出,在结晶分异过程中Pd较Pt更不相容。由于岩浆上升过程中的压力减小和结晶分异作用导致的成份变化使岩浆可以达到硫的局部饱和而熔离,表现为部分样品中Cu/Pd远高于原始地幔值。本文通过碱性超基性岩与金伯利岩、煌斑岩和邻区碱性、过碱性玄武岩PGE特征的对比,探讨了其岩浆源区及演化特征。 相似文献
5.
采用ICP-MS方法分析了布什维尔德杂岩体Platreef矿床含矿岩石的主量及微量元素含量,并与金川铜镍硫化矿床进行对比研究.Platreef矿床含矿岩石与金川二辉橄榄岩的∑REE接近,球粒陨石标准化后的稀土元素(REE)均表现为轻稀土元素(LREE)富集、重稀土元素(HREE)平坦的右倾型配分曲线,但Platreef含矿岩石总体表现为正Eu异常,金川二辉橄榄岩与矿石样品则大部分表现为较强的负Eu异常,二者的差异实质上反映了成岩矿物斜长石与斜方辉石比率细微的变动.Platreef矿床岩(矿)石富集和高度分异不相容元素,Nb、Ta亏损,显示地幔柱岩浆受到地壳混染后,产生与弧苦橄岩相似的微量元素地球化学特征.金川含矿岩石富集Fe和Ti以及强不相容亲石元素,显示铁质玄武岩微量元素分布特征,虽然也可能受到地壳物质混染,但总体表现出含矿岩体母岩浆则可能来自EMI型富集地幔源区.Platreef矿层原始地幔标准化后Pt、Pd、Ru富集,Ir、Rh相对亏损的PGE配分型式以及Cs、Rb、Th、U、LREE等不相容元素和亲铜元素Cu、Ni的富集.暗示布什维尔德杂岩体岩浆源区残留地幔橄榄岩遭受含高度不相容元素的富矿流体的渗透混染即地幔交代,导致幔源岩浆发生PGE分异. 相似文献
6.
广西栗木花岗岩是华南地区具有代表性的含锡、钨、钽、铌矿的稀有金属花岗岩,发育一些紧密共生但结构有明显差异的岩石。在岩相学研究的基础上,运用热动力学原理对这些特殊地质现象进行成因分析以了解相应的岩浆演化过程,得出的结论构成了岩浆演化的动态证据链并相互印证,且与热动力学方程检验结论相吻合。研究结果表明,气—液分异是稀有金属花岗岩最重要的成岩与成矿作用机制。当富水岩浆上升侵位时,岩浆发生大规模的气—液分异作用,形成新的熔体相和大量夹带气相的气泡。新的熔体相因饱和水压尸(H_2O)的突然降低而过冷却结晶形成斑状结构岩石,气泡则上升迁移至不同部位,随后破裂再次发生气—液分异形成残余气流体和残余熔体相。残余气流体进一步交代先结晶的斑状结构岩石形成蚀变带花岗岩,或者结晶形成伟晶岩。残余气流体还是金属成矿元素迁移的主要载体,岩体内带的蚀变花岗岩型锡铌钽矿的成矿作用主要与残余气流体对花岗岩的自交代作用有关,而岩体顶上带的岩脉型钨锡矿的成矿作用主要与残余气流体在围岩裂隙中的结晶作用有关。 相似文献
7.
与花岗岩有关的成矿流体与成矿金属研究 总被引:2,自引:0,他引:2
Wang Cansheng 《地学前缘》1994,(3)
虽然分异结晶和热重力扩散对花岗质岩浆结晶过程中成矿元素的相对富集有重要的影响,但在此过程中富水流体相的分离却显得更加重要,温度、压力、流体成分及水的绝对含量决定着亲花岗岩类元亲从熔浆中分离出来的量.流体中成矿元素主要以Cl ̄-、F ̄-、OH ̄-、HS ̄-等的络合物形式迁移,而其沉淀环境则介于岩石缓冲及流体缓冲条件之间。 相似文献
8.
总结南非布什维尔德杂岩体中Merensky Reef(简称MR矿层)和Platreef(简称PR接触带)两类铂族元素矿床的矿床地质、矿化特征以及铂族元素的赋存状态。MR矿床是典型的层状铂族元素(PGE)矿床,在杂岩体东部和西部发育,PGE总含量稳定,赋存在堆晶间隙硫化物中,常以PGE硫化物的形式产出。PR接触带型矿化集中在杂岩体北段,整体上不连续,各个矿床的具体特征由于底盘岩性的多变而不同,PGE主要赋存在碲化物和砷化物等半金属化合物中,可以脱离硫化物产在硅酸盐矿物中。相关的实验研究显示,PGE在岩浆结晶过程中发生分异,Pd/Ir比值体现了硫化物的分异程度;Pd比Pt更容易被氧化以及在热液中迁移,Pt/Pd比值体现了混染和热液的作用,这些因素造成了PR接触带与MR矿层中PGE赋存状态的差异。岩浆可能在侵入之前已经达到了硫饱和,岩浆房的压力变化和岩浆通道对于PGE的富集有重要意义,热液流体可以对已经形成的PGE矿化进行改造。 相似文献
9.
辽宁赛马岩体是我国典型的产铀碱性杂岩体,但其稀土矿化机制尚不明确.通过光学显微镜、扫描电镜和电子探针分析,得知该岩体从霞石正长岩经霓霞正长伟晶岩至晚期异霞正长岩,代表性稀土矿物层硅铈钛矿[Na2Ca4REETi(Si2O7)2OF3]不断富集,Nb、Zr和REE(特别是HREE)等高场强元素含量不断升高,部分颗粒具Zr、REE等元素成分环带,以上成分变化与稀土等不相容元素性质、碱性岩浆成分和岩浆结晶分异过程密切相关.此外,层硅铈钛矿经历了一系列的热液蚀变,蚀变部分Ti、Ca、Sr、Na含量增加而Zr、REE含量降低,最终形成由残余层硅铈钛矿+方解石+萤石+铈硅磷灰石组成的假晶,可能与富碱质、F和CO2的自交代流体作用有关.该研究揭示了碱性岩浆演化过程中,层硅铈钛矿成分变化及热液蚀变组合对指示岩浆结晶分异程度、探究稀土元素分馏及其热液活动性的具有重要意义. 相似文献
10.
滇西北衙金矿床富水岩浆对成矿的制约 总被引:4,自引:2,他引:2
成矿岩浆富水(4%)是形成斑岩型矿床的关键。滇西北衙金矿床是金沙江-哀牢山新生代富碱斑岩成矿带中规模最大的金多金属矿床,目前探明金资源储量超过320吨,伴生的铅锌、银、铜、铁、硫也达到大-中型规模。本文以北衙成矿的二长花岗斑岩中角闪石斑晶和锆石为研究对象,开展岩相学和地球化学研究,厘定成矿岩浆的特征,并探讨富水岩浆对成矿的制约。研究表明,北衙二长花岗斑岩角闪石斑晶发育、轻稀土富集而重稀土亏损、具有高Sr(300×10~(-6))、低Y(10×10~(-6))和高(La/Yb)N(6.19~26.8)的地球化学特征,暗示在岩浆结晶早期有角闪石斑晶的晶出。角闪石晶出的条件是岩浆中水含量大于4.5%,因此北衙金矿床成矿岩浆演化早期角闪石的晶出显示成矿岩浆相对富水。角闪石矿物组分计算表明岩浆熔体中水含量在3.8%~4.1%之间,进一步证实北衙金矿床成矿岩浆相对富水。北衙金矿床这种具有高水含量的岩浆在源区岩石部分熔融的过程中,水的加入可以降低其熔点,促进源区含Cu、Au硫化物重熔,或萃取岩石中Cu、Au成矿元素,或聚集岩浆中分散分布的金属元素,形成富金属、富水的岩浆。含矿岩浆就位后,其通过压力的降低(岩浆房脆性破裂或岩浆向上侵位)来降低水的溶解度,或通过岩浆持续的结晶(在等压条件下晶出无水矿物)逐渐提高岩浆水含量,促使熔体中水含量大于水在熔体中溶解度,从而导致岩浆水达到饱和状态,流体开始出溶。总体而言,北衙金矿床富水岩浆不仅能促进北衙矿床成矿流体的形成与演化,也对成矿流体中Cu、Au等成矿元素的富集具有重要的作用。 相似文献
11.
W.D. Sun R.A. Binns A.C. Fan V.S. Kamenetsky G.J. Wei R.J. Arculus 《Geochimica et cosmochimica acta》2007,71(6):1542-1552
Submarine volcanic glasses from the eastern Manus Basin of Papua New Guinea, ranging from basalt to rhyodacite, clarify the geochemical behavior of Cl in arc-type magmas. For the Manus samples, Cl is well correlated with non-volatile highly incompatible trace elements, suggesting it was not highly volatile and discounting significant seawater contamination. The Cl partition coefficient is close to but slightly lower than that of Nb and K2O, a behavior similar to that in mid-ocean ridge basalts (MORB) and ocean island basalts (OIB). The similar incompatibilities of Cl and Nb imply that the Cl/Nb values of the eastern Manus Basin glasses reflect their magma source. For glasses from other west Pacific back-arc basins, Cl/Nb, Ba/Nb, and U/Nb increase towards the subduction trench, indicating increased contribution of a component enriched in Cl, Ba, and U, likely from subduction-released slab fluids. It is estimate that ∼80% of the Cl in the Manus arc-type glasses was added directly from subducted slab-derived fluids. We have also modeled Cl behavior during magma evolution in general. Our results show that the behavior of Cl in magma is strongly influenced by pressure, initial H2O content, and the degree of magmatic fractionation. At early stages of magmatic evolution, for magmas with initial H2O content of <4.0 wt%, Cl is highly incompatible under all pressures. By contrast, for more evolved magmas at moderately high pressure and high H2O contents, considerable amounts of Cl can be extracted from the magma once H2O saturation is reached. Accordingly, Cl is usually highly incompatible in MORB and OIB because of their low H2O contents and relatively low degrees of fractional crystallization. The behavior of Cl in arc magmas is more complicated, ranging from highly incompatible to compatible depending on H2O content and depth of magma chambers. The behavior of Cl in the eastern Manus Basin magmas is consistent with low H2O contents (1.1-1.7 wt%) and evolution at low pressures (<0.1 GPa). Modeling results also indicate that Cl will behave differently in intrusive rocks compared to volcanic rocks because of the different pressures involved. This may have a strong influence on the mechanisms of ore genesis in these two tectonic settings. 相似文献
12.
南岭中西段若干复式花岗岩体的成因模式研究 总被引:6,自引:1,他引:6
岩石学、岩石地球化学、黑云母矿物化学和副矿物特征等研究表明,南岭中西段3个复式花岗岩体的演化规律表现为两种方式:一种是以花山复式花岗岩体为代表的不同母岩浆演化方式,其补体美华花岗岩可能经历了与花山主体岩浆相似的分离结晶作用;另一种是以金鸡岭复式花岗岩体和大东山复式花岗岩体为代表的相同母岩浆演化方式,它们的补体螃蟹木花岗岩和猪蹄石花岗岩分别为金鸡岭主体和大东山主体花岗质母岩浆经过分离结晶作用形成。两种不同产出方式的补体花岗岩可能表明它们与主体岩浆的形成机制不同。 相似文献
13.
黑云母是花岗质岩石中常见的造岩矿物,其成分可以有效指示花岗岩形成的物理化学条件和岩石成因。巴斯铁列克矿床是近年来在新疆阿尔泰造山带南缘发现的首例二叠纪矽卡岩型钨多金属矿床。矿区出露多种类型二叠纪含钨花岗岩。为理清花岗质岩体之间、岩体与钨多金属矿化之间的关系,文章采用电子探针测定了黑云母花岗岩、二长花岗岩、二云母花岗岩和钾长花岗岩中的黑云母成分。结果表明,所有黑云母具有富铁、高铝、贫镁特征,含铁指数(Fe2+/(Mg+Fe2+))为0.66~0.80,二云母花岗岩属铁质黑云母而黑云母花岗岩、二长花岗岩和钾长花岗岩属铁叶黑云母。所有岩石是具有A型特征的I型花岗岩。不同类型岩石中黑云母的成分差异与岩浆来源、分异演化程度有关。二云母花岗岩中黑云母的w(MgO)与结晶温度最高,与黑云母平衡流体的log(fHF/fHCl)值(-1.13~-1.25)最低,log(fH2O/fHF)值(4.64~4.96)最高,母岩浆相对富Cl;黑云母花岗岩中log(fHF/fHCl)值最高,log(fH2O/fHF)最低,与二长花岗岩是同一岩浆房不同演化阶段的产物,与二云母花岗岩和钾长花岗岩属不同的岩浆体系,母岩浆相对富F元素。黑云母花岗岩与W矿化关系更密切。 相似文献
14.
In this contribution we report the results of an experimental study that investigated equilibrium and fractional crystallization of hydrous, transitional alkaline basalt at low oxygen fugacity, under lower to middle crustal conditions to constrain the generation of subaluminous and peralkaline differentiation products that typically occur in rift systems. The experiments reveal that liquids produced by equilibrium crystallization in the range 0.7–1 GPa cannot cross the subaluminous/peralkaline compositional divide. In contrast, fractional crystallization experiments under isobaric and polybaric conditions approach closer the naturally observed trend from subaluminous to evolved peralkaline products suggesting that polybaric differentiation starting at elevated pressures can indeed lead to the transition from subaluminous to peralkaline derivative liquids. The presence of water in the parental magmas of silicic derivative products is of prime importance for the fractionation equilibria as well as for the mobility of such magmas toward shallow crustal levels.
We suggest that peralkaline magmas in rift environments are indicative for differentiation under relatively low oxygen fugacity conditions in an extensional environment characterized by a high degree of crustal fracturing that allows rapid upward migration of mafic parental magmas and formation of shallow magma reservoirs. Crystallization–differentiation of parental, hydrous transitional alkaline basalt in such reservoirs is controlled by low pressure phase equilibria that typically evolve through early saturation of anorthite-rich plagioclase and suppressed amphibole crystallization resulting in ‘low-alumina’, peralkaline derivative liquids. 相似文献
15.
《地学前缘(英文版)》2022,13(4):101401
Magmatic-hydrothermal Sn deposits are commonly associated with high silica magmas, but why most global high silica granites do not bear economic Sn ore grades remains unclear. Two crucial factors controlling magmatic-hydrothermal Sn mineralization, including advanced fractionation and depressurization-induced rapid cooling, were revealed in the case study of the Guyong granitic pluton linked with the Xiaolonghe Sn deposit, in the Tengchong block, SW China. The Guyong granitic pluton comprises three petrological facies: less evolved biotite syenogranite, evolved alkali granite and leucogranite, and highly evolved facies (the protolith of greisenized granite). Similar crystallization ages (~77 Ma) and gradual contact between different petrological facies indicate the Guyong granitic pluton records a continuous fractionation process. Monte Carlo-revised Rayleigh fractionation model suggests the fractionation degree of the Guyong pluton is markedly high (>87 wt.%) that can only be achieved by a high initial water (≥4 wt.%) content in the parent granitic magma revealed by rhyolite-MELTS calculation. Advanced degree fractionation causes the first Sn enrichment but it also significantly increases the viscosity of evolved magmas, suppressing the exsolution and transport of hydrothermal fluids. Hence, it must be compensated by the second critical factor: depressurization-induced rapid cooling, reflected by the occurrence of highly metamict zircons in the greisenized granite. The highly metamict feature, indicated by the large full width at half maximum (FWHM) values of zircon ν3(SiO4) peak (>19.5 cm?1), suggests these zircons do not experience thermal annealing but rapidly ascend into a shallow cooling environment. Depressurization-induced rapid cooling facilitates exsolution and transport of hydrothermal fluids, interacting with wall rocks and resulting in Sn mineralization. 相似文献
16.
花岗岩结晶分离作用问题——关于花岗岩研究的思考之二 总被引:11,自引:15,他引:11
岩浆结晶分离作用是一个古老的话题,很早就有学者指出,地球内部生成的岩浆大多是玄武质岩浆,大多数花岗岩是由玄武岩结晶分离形成的。本文在考察了岩浆结晶分离作用的制约因素、比较了不同性质岩浆结晶分离作用的特征之后指出:玄武质岩浆可以发生结晶分离作用,因为有与其相关的堆晶岩产出;安山质岩浆也可以发生结晶分离作用,因为也有与其相关的堆晶岩产出。但是,花岗质岩浆似乎不大可能发生结晶分离作用,因为,很少见到有与(富硅的)花岗质岩浆相伴的堆晶岩产出。花岗质岩浆之所以不大可能发生结晶分离作用的原因在于:(1)岩浆的黏性大,它不仅阻滞了矿物的结晶作用(使斜长石不能发育为自形晶),而且阻止了密度大的矿物(例如角闪石)下沉;(2)主要造岩矿物(例如斜长石)的密度与花岗质岩浆的密度相差无几,使结晶分离作用难以进行。本文详细考察了花岗质岩浆中斜长石的行为,指出在花岗质岩浆中斜长石结晶分离几乎是不可能的。那么,文献中大量充斥的花岗岩结晶分离作用的说法是依据什么呢?作者认为,文献中的许多说法可能主要是根据哈克图解得出的,而不是根据实际观察和理论研究得出的。作者认为,玄武岩和花岗岩不仅来源不同,成分不同,而且解释也不同。哈克图解中许多适合玄武岩的解释未必适合花岗岩。由于鲍文反应原理是结晶分离作用的理论基础,因此,文中也对鲍文反应原理进行了评述,并指出文献中存在的一些需要认真对待的问题,例如,从玄武岩-安山岩-英安岩-流纹岩的连续演化序列是不可能的;单元-超单元填图方法是不科学的;中国东部中生代大规模花岗岩不可能是玄武质岩浆结晶分离形成的等等。本文还以 Ajaji el ai.(1998)报道的摩洛哥 Tanncherfi 花岗岩为例,指出结晶分离作用的解释是不可能的。作者认为,花岗岩类的成分变化大,主要可能与源区组成、温度、压力、挥发分、部分熔融程度和过程、混合作用、岩浆分异及结晶分离作用有关。其中,源区组成可能是花岗岩多样性的最重要的原因,而结晶分离作用的影响可能是微乎其微的。本文认为,花岗岩结晶分离作用对于花岗岩成因的意义已经被大大地夸大了,我们应当重新思考结晶分离作用对于花岗质岩浆的意义。由于花岗岩的极端复杂性,许多问题还得不到比较合理的解释,本文的认识只是初步的。 相似文献
17.
闽中裂谷带梅仙铅锌矿区花岗斑岩的LA-ICP-MS锆石U-Pb年龄、成因及成矿效应 总被引:1,自引:0,他引:1
福建梅仙铅锌(银)矿床位于闽中裂谷带,是一大型多金属VMS型块状硫化物矿床。在详细野外地质考察基础上,通过对梅仙铅锌(银)矿区花岗斑岩2个样品的LA-ICP-MS锆石U-Pb年代学研究,确定其为燕山期花岗斑岩((148.9±1.4)Ma,(152.0±2.1) Ma)。全岩地球化学分析结果表明:所研究花岗斑岩具有高硅、富钾、中等含量的铝和全碱以及弱过铝质等特征。其稀土元素配分曲线普遍向右缓倾,且重稀土元素分配曲线比较平坦,富集大离子亲石元素和高强场元素,不具明显的Nb、Ta亏损,是产于碰撞后构造背景之下的高钾钙碱性I型花岗岩,其母岩浆形成后发生了角闪石、黑云母和斜长石等矿物高程度的结晶分异作用。梅仙矿区花岗斑岩在空间上与铅锌硫化物矿体和赋矿层位关系密切,岩浆富含挥发分和大离子亲石元素,分异程度高,表明该燕山中期岩浆活动有利于矿区矽卡岩化成矿作用,并可对早期层控块状硫化物矿体进行强烈的叠加改造。 相似文献
18.
O. A. Lukanin 《Geochemistry International》2016,54(8):660-680
An empirical computer model was developed to describe granite magma degassing and the partitioning behavior of Cl between melts and aqueous chloride fluids that formed during eutectic isobaric crystallization of magmas at pressures from 4 to 0.4 kbar and a temperature of 800 ± 25°C. This model is the extensions of the earlier model describing the decompression degassing of granite melts (Lukanin, 2015). The numerical modeling was performed for both closed-system conditions, when fluid remains in the system, and open-system conditions, when fluid is removed from the system. The results of numerical modeling revealed the main factors controlling the behavior of Cl during crystallization-induced degassing, such as the initial contents of Cl and H2O of the melts, pressure, and the degree of system openness. At high pressures (>1.6 kbar), isobaric crystallization is accompanied by a decrease in the concentrations of Cl in the melt (CClm) and fluid phase (CClfl). This tendency becomes even more pronounced in an open-system with increasing pressure and initial Cl content. A decrease in pressure in the range of 1.62–0.85 kbar results in a drastic change in the Cl behavior: the trend of CClfl and CClfl decrease dominating during crystallization at high pressures changes to the opposite. At low pressures (<0.85 kbar), the enrichment of the residual melts and released fluids in Cl leads at a certain stage of crystallization to the formation of a heterogeneous fluid consisting of two immiscible aqueous chloride phases, a waterdominated aqueous phase and a chloride-rich liquid (brine). 相似文献
19.
Geochemical evolution of halogen-enriched granite magmas and mineralizing fluids of the Zinnwald tin-tungsten mining district,Erzgebirge, Germany 总被引:10,自引:0,他引:10
We remelted and analyzed crystallized silicate melt inclusions in quartz from a porphyritic albite-zinnwaldite microgranite dike to determine the composition of highly evolved, shallowly intruded, Li- and F-rich granitic magma and to investigate the role of crystal fractionation and aqueous fluid exsolution in causing the extreme extent of magma differentiation. This dike is intimately associated with tin- and tungsten-mineralized granites of Zinnwald, Erzgebirge, Germany. Prior research on Zinnwald granite geochemistry was limited by the effects of strong and pervasive greisenization and alkali-feldspar metasomatism of the rocks. These melt inclusions, however, provide important new constraints on magmatic and mineralizing processes in Zinnwald magmas.The mildly peraluminous granitic melt inclusions are strongly depleted in CAFEMIC constituents (e.g., CaO, FeO, MgO, TiO2), highly enriched in lithophile trace elements, and highly but variably enriched in F and Cl. The melt inclusions contain up to several thousand ppm Cl and nearly 3 wt% F, on average; several inclusions contain more than 5 wt% F. The melt inclusions are geochemically similar to the corresponding whole-rock sample, except that the former contain much more F and less CaO, FeO, Zr, Nb, Sr, and Ba. The Sr and Ba abundances are very low implying the melt inclusions represent magma that was more evolved than that represented by the bulk rock. Relationships involving melt constituents reflect increasing lithophile-element and halogen abundances in residual melt with progressive magma differentiation. Modeling demonstrates that differentiation was dominated by crystal fractionation involving quartz and feldspar and significant quantities of topaz and F-rich zinnwaldite. The computed abundances of the latter phases greatly exceed their abundances in the rocks, suggesting that the residual melt was separated physically from phenocrysts during magma movement and evolution.Interactions of aqueous fluids with silicate melt were also critical to magma evolution. To better understand the role of halogen-charged, aqueous fluids in magmatic differentiation and in subsequent mineralization and metasomatism of the Zinnwald granites, Cl-partitioning experiments were conducted with a F-enriched silicate melt and aqueous fluids at 2,000 bar (200 MPa). The results of the experimentally determined partition coefficients for Cl and F, the compositions of fluid inclusions in quartz and other phenocrysts, and associated geochemical modeling point to an important role of magmatic-hydrothermal fluids in influencing magma geochemistry and evolution. The exsolution of halogen-charged fluids from the Li- and F-enriched Zinnwald granitic magma modified the Cl, alkali, and F contents of the residual melt, and may have also sequestered Li, Sn, and W from the melt. Many of these fluids contained strongly elevated F concentrations that were equivalent to or greater than their Cl abundances. The exsolution of F-, Cl-, Li-, ± W- and Sn-bearing hydrothermal fluids from Zinnwald granite magmas was important in effecting the greisenizing and alkali-feldspathizing metasomatism of the granites and the concomitant mineralization.Editorial Handling: B. Lehmann 相似文献