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1.
地质过程中,氯可以影响很多元素的性质。本文利用前人的实验数据,模拟计算不同压力和初始含水量等条件下,氯在岩浆和共存富水流体相中浓度随岩浆结晶分异的变化。结果显示,在岩浆演化之初,氯在各种压力下都基本留在岩浆中,表现出高度不相容元素的特点。对于结晶分异晚期的岩浆体系,氯的行为受压力的影响较大。在低压下,氯在岩浆/富水流体之间的分配系数较高,水是否达到饱和对氯在岩浆中的含量变化影响不大。随着压力的升高,该系数迅速降低。在中等压力下,岩浆中水含量一旦达到饱和,大量的氯进入流体相,形成高盐度的流体,氯在岩浆中的含量即迅速降低。随着岩浆分异的进行,共存的流体中的氯含量也随之降低。在更高的压力下,水无法达到饱和,氯始终表现为高度不相容的特点。氯的上述性质可以很好地解释它在很多结晶分异程度较低的火山岩玻璃(如MORB和OIB)中表现为高度不相容的特点,也可以帮助理解氯在侵入岩和喷出岩中性质的差别,以及“花岗岩大岩体不成矿,小岩体成大矿”的现象。 相似文献
2.
大兴安岭中生代双峰式火山岩的地球化学特征 总被引:79,自引:4,他引:79
大兴安岭中生代火山岩的主要活动时期为晚侏罗世至早白垩世,由碱性系列玄武岩和亚碱性系列玄武岩以及伴生的中酸性火山岩组成。它们与邻区俄罗斯和蒙古同时期火山岩构成面形展布的巨型火山岩带。碱性系列玄武岩高度富集不相容元素,其富集程度类似于板内碱性系列玄武岩,但明显亏损Nb和Ta等高场强元素这一点又类似于活动大陆边缘火山弧或岛弧钙碱性玄武岩。亚碱性系列玄武岩适度富集不相容元素而强烈亏损高场强元素的特征类似于活动大陆边缘火山弧或岛弧火山岩,其中低钾玄武岩类似于拉斑玄武岩。大兴安岭酸性火山岩根据地球化学特征可划分为高Sr流纹岩类和低Sr流纹岩类。前者富集Ti、Ba、Sr、Co和Ni而贫Rb、Zr和Th等强不相容元素,类似于大陆溢流玄武岩省分异作用形成的流纹岩;后者明显富集不相容元素Rb、Zr和Th而亏损Ti、Ba、Sr和Co,它们与碱性系列玄武岩之间形成类似于大陆裂谷环境的双峰式火山岩组合。亚碱性系列玄武岩与高Sr流纹岩的成因关系类似于大陆伸张环境的双峰式火山岩,但前者形成从基性到酸性的连续演化系列,并没有形成Daly成分间断。这表明大兴安岭火山岩在源区及其原始岩浆的性质上明显区别于世界大陆溢流玄武岩省。也就是说,大陆溢流玄武岩省的双峰模式起源于干岩浆体系,这种岩浆分异形成的中性岩浆由于其教度大于玄武岩、挥发分含量低于流纹岩而未能喷出地表。大兴安岭富含水的原始岩浆使分异形成的中性熔岩被挥发分过饱和,导致中性熔岩的爆炸性喷发。 相似文献
3.
已有研究表明,峨眉山大火成岩省存在高钛和低钛两个系列的岩浆活动(Xu et al.,2001),区域内广泛发育的钒-钛磁铁矿床和铜-镍硫化物矿床分别与两种类型岩浆密切相关(Zhou et al.,2008).两类岩浆具有不同的岩浆源区并经历了不同阶段的岩浆演化、不同程度的地壳混染和硫化物分异过程.我们利用铂族元素和亲铜元素Cu和Ni的地球化学特征,研究了峨眉山大火成岩省东部富林岩体中两类岩石的成因,探讨岩浆分异过程对铂族元素浓度的影响和硫化物分异对岩石成因的作用. 相似文献
4.
新疆特克斯东南大哈拉军山组玄武安山岩地球化学特征:岩石成因和构造背景探讨 总被引:5,自引:0,他引:5
特克斯东南大哈拉军山组玄武安山岩具有钙碱性火山岩的地球化学特征,Nb、Ta等高场强元素强烈亏损,强不相容元素比值明显不同于原始地幔、亏损地幔和富集地幔而倾向于地壳,具有岛弧火山岩的特点,与新源县南及其东部大哈拉军山组火山岩一起指示了西天山在早石炭世-晚石炭世处于汇聚而不是伸展的大地构造背景。与岛弧作用有关的俯冲沉积物的交代作用是其源区受改造的最主要方式,岩浆演化以包括橄榄石、单斜辉石在内的分离结晶作用为主。 相似文献
5.
相山因是中国最大火山岩型铀矿产地而倍受关注,相山火山-侵入杂岩从喷发-侵出-侵入,SiO2含量、Rb/Sr、Rb/Ba比值降低,而TFe(Fe2O3+FeO)、CaO、MgO、TiO2、P2O5含量、SI(固结指数)、δEu则呈增高趋势,岩浆演化与正常岩浆房酸度逐渐增高的岩浆分异趋势相反,称反方向岩浆演化系列.不相容元素的比值如Th/U、Rb/Ba、Th/Nb、Th/Ta、La/Nb、Nb/Ta变化幅度较大,与SiO2组分没有明显的正消长或反消长关系,稀土配分曲线也不尽一致,火山喷发相、侵出相和侵入相岩石具有不同的源区性质. 相似文献
6.
Ni、Cu和PGE具有不同于其他微量元素的特殊的地球化学性质,这些特殊的性质使得它们在幔源岩浆起源和演化以及岩浆硫化物矿床的成因研究中具有不可替代的作用。在S不饱和的条件下,Ni、Os、Ir和Ru具有相容元素的特性,而Cu和Pd是强不相容元素,因此,它们在玄武岩浆分离结晶过程中常常发生分异。一旦体系达到S饱和,这些元素则会强烈地进入硫化物熔浆,特别是PGE具有极高的硫化物熔浆/硅酸盐熔浆分配系数,极微量的硫化物熔离便可导致残余岩浆中PGE的显著亏损,因此,PGE是玄武岩浆硫化物熔离作用最敏感的示踪元素。硫化物熔离和成矿实质上是幔源岩浆特殊演化过程的结果,所以,Ni,Cu和PGE的特殊性质可用来探讨岩浆硫化物成矿的关键控制因素。Ni、Cu和PGE具有不同的单硫化物固溶体/硫化物熔浆分配系数,因此,它们也是硫化物熔浆结晶分异的重要示踪元素。本文试图从Ni、Cu和PGE地球化学性质和行为入手,并借助一些研究实例,对它们在幔源岩浆起源和演化以及岩浆硫化物矿床成因研究中的示踪意义进行系统介绍。 相似文献
7.
东秦岭丹凤群火山岩系及其包体地球化学研究 总被引:2,自引:0,他引:2
本文对东秦岭褶皱带中古生界丹凤群火山岩系及其包体进行了研究。从火山岩浆演化角度,指出丹凤群不是一套蛇绿混杂岩体,其主体火山岩为岛弧地幔在洋壳俯冲诱导下重熔形成A类岩浆演变所形成,并含有少量的洋壳物质在俯冲带中发生熔融形成B类岩浆的衍生产物。岛弧的地壳结构控制着两类岩浆的演化,它是造成丹凤群火山岩岩石系列、岩石组合、元素地球化学分布及分异在空间上差异的原因。 相似文献
8.
南秦岭城口火山岩锆石LA-ICP-MS U-Pb定年和地球化学研究 总被引:3,自引:0,他引:3
南秦岭大巴山城口断裂带出露一套玄武安山岩、安山岩组合,火山岩锆石LA-ICP-MS U-Pb定年测试结果为716±4Ma,表明其为新元古代岩浆产物;岩石地球化学研究表明火山岩富集轻稀土元素,原始地幔标准化微量元素蛛网图显示以富集大离子亲石元素Cs、Ba、Th、U及高场强元素分异为特征,Nb、Ta强烈亏损以及低的Ti(Ti O_20.85%)含量,与典型的岛弧火山岩相似;微量元素La/Nb、Th/Yb及Hf/Ta比值特征也显示岛弧岩浆属性,相对高的Zr/Y、Ta/Yb和低的Zr/Nb比值区别于大洋岛弧火山岩,具有明显的大陆亲缘性,表明城口火山岩形成于陆缘岛弧环境。综合已有的地质、地球化学及同位素年代学研究表明新元古代晚期扬子板块北缘及南秦岭地区为一活动陆缘岩浆杂岩弧,暗示中国华南板块很可能位于Rodinia超大陆的边缘部位。 相似文献
9.
青藏高原北部黑石北湖新生代钾质火山岩的成因 总被引:3,自引:2,他引:1
昆仑岩带新生代钾质火山活动是青藏高原北缘深部动力学过程的重要记录。有关岩浆源区的性质和岩浆产生的机制一直存在较大的认识分歧。阐述了昆仑岩带黑石北湖钾质火山岩的岩石学和地球化学特征,并与西昆仑康西瓦和泉水沟新生代火山岩进行了成因对比分析。研究表明,昆仑火山岩带玄武质岩石的K2O和Na2O含量变化较大,从钠质过渡到钾质,硅碱图显示玄武质初始岩浆向钾质安粗岩方向演化。黑石北湖火山岩的高场强元素和Sr、Nd同位素组成显示岩浆源区具有EMⅡ的性质。岩石LREE的强烈富集和HREE的强烈分馏指示岩浆来自富集型含石榴子石地幔源区。不相容元素K/Nb、Ba/La等比值具有岛弧火山岩与OIB型玄武岩的过渡特征,指示源区为曾遭受软流圈流(熔)体交代的古俯冲地幔楔。 相似文献
10.
岩浆氧逸度是制约Cu、Au成矿的重要因素之一,Cu、Au为亲硫元素,岩浆结晶分异过程中如果S2-大量存在就会导致Cu、Au硫化物过饱和而过早沉淀,不利于残余岩浆中Cu、Au的富集和晚阶段含Cu、Au岩浆流体的形成,因而不利于Cu、Au矿床的形成。高氧逸度条件下,岩浆中的硫绝大多数以SO42-和SO2形式溶解在硅酸盐熔体中,能形成硫化物的S2-含量很低,硫化物 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.
James E. Mungall David R.A. Andrews Paul J. Sylvester 《Geochimica et cosmochimica acta》2005,69(17):4349-4360
We have performed six experiments in which we equilibrated monosulfide solid solution (mss) with sulfide melt in evacuated silica capsules containing solid buffers to fix oxygen and sulfur fugacity, at temperatures of 950°C, 1000°C and 1050°C at bulk concentrations of ∼50 ppm for each of the PGE and Au, 5% Ni, and 7% Cu. Concentrations of O, S, Fe, Ni and Cu were determined by electron microprobe, whereas precious metal concentrations were determined by laser-ablation inductively-coupled mass spectrometry. Partition coefficients of all elements studied show minimal dependences on oxygen fugacity from the IW to the QFM buffers when sulfur fugacity is fixed at the Pt-PtS buffer. Cu, Pt, Pd and Au are strongly incompatible and Ru remains moderately to strongly compatible under all conditions studied. At all oxygen fugacities, at the Pt-PtS sulfur buffer, Ir and Rh remain highly compatible in mss. In the single run at both low oxygen and low sulfur fugacity Ir and Rh were found to be strongly incompatible in mss. At QFM and Pt-PtS the partition coefficient for Ni shows weak temperature dependence, ranging from 0.66 at 1050°C to 0.94 at 950°C. At lower oxygen and sulfur fugacity Ni showed much more incompatible behavior. Comparison with the compositions of sulfide ores from the Lindsley deposit of Sudbury suggests that the sulfide magma evolved under conditions close to the QFM and Pt-PtS buffers. The compatible behavior observed for Ni, Ir and Rh at Lindsley and most other magmatic sulfide deposits hosted by mafic rocks requires equilibration of mss and sulfide liquid at moderately high sulfur fugacity and low temperatures near to the solidus of the sulfide magma. We argue that this constraint requires that the sulfide magma must have evolved by equilibrium crystallization, rather than fractional segregation of mss as is commonly supposed. 相似文献
13.
M.L.Tolstykh V.B.Naumov A.D.Babansky 《岩石学报》2007,23(1):93-104
Melt inclusions in minerals from some volcanoes of the Kurile-Kamchatka region were examined.The studied basaltic andesites and andesites were sampled from volcanoes of the Central Kamchatka depression(Shiveluch and Bezymyannyi),Eastern Kamchatka volcanic belt(Avachinskii and Karymskii),and Iturup Island,Southern Kuriles(Kudryavyi).Basalts of the 1996 eruption of the Karymskii volcanic center and dacites of Dikii Greben'volcano,Southern Kamchatka were also studied.More than 260 melt inclusions from 31 rock samples were homogenized,and quenched glasses were analyzed using electron and ion microprobes.The compositions of melt inclusions in andesitic phenoerysts vary in silica contents from 56 to 80wt%.Al_2 O_3 ,FeO,MgO,CaO decrease and Na_2O and K_2O increase with increasing SiO_2.Many inclusions(about 80% )are dacitic or rhyolitic.However,the compositions of silicic glasses(>65wt% SiO_2)in andesites significantly differ in TiO2,FeO,MgO,CaO,and K_2O contents from those in dacites and rhyolites.High-potassium melts(K_2O 3.8~6.8wt% )with various SiO_2 from 51.4 to 77.2wt% were found in minerals of all volcanoes studied.This indicates a contribution of a component selectively enriched in potassium to magmas of the whole region.A great compositional diversity of melt inclusions in plagioelase phenocrysts from the Bezymyannyi andesites suggests a complex history of plagioclase crystallization and magma evolution in the andesite formation.Melts from different volcanoes strongly vary in volatile contents.The highest H_2O contents are found in the melts from Shiveluch(3.0~7.2wt%,4.7wt% on average)and Avachinskii (4.7~4.8wt%);while those are lower in melts of Kudryavyi(0.1~2.6wt% ),Dikii Greben'(0.4~1.8wt%),and Bezymyannyi (<1wt%).Chlorine contents are also variable.The lowest values are found in the Bezymyannyi melts(0.09wt% on average),the highest Cl contents are typical of melt inclusions in minerals from the Karymskii andesites(0.26wt% on average).The melts from Avachinskii,Dikii Greben',Kudryavyi,and Shiveluch show intermediate Cl contents(0.13~0.20wt% ).The pressure of 350~1600 bar determined by CO_2 fluid inclusions in plagioclase from the Shiveluch andesites suggests a magma chamber at a depth of 1.5~6 km. Concentrations of 17 elements were determined in glasses of melt inclusions in plagioclases from five volcanoes(Avachinskii, Bezymyannyi,Dikii Greben',Kudryavyi,and Shiveluch).The studied melts show similar trace-element patterns with Nb and Ti minima and B,K,Be,and Li maxima.The melts are close to typical island arc magmas by Sr/Y,La/Yb,K/Ti,and Ca/St ratios, and have some specific regional geochemical features.REE patterns sensitive to degree of magma differentiation indicate that Kudryavyi magmas are most primitive,while Shiveluch magmas are most evolved. 相似文献
14.
V. I. Kovalenko V. B. Naumov A. V. Girnis V. A. Dorofeeva V. V. Yarmolyuk 《Petrology》2010,18(1):1-26
Based on the generalization of data on melt inclusions and quenched glasses, the average compositions of subduction (island
arc and active continental margin settings) basic magmas were estimated. The main geochemical features of the average composition
of these magmas are significant depletion in Nb and Ta, less significant depletion in Ti, Zr, and Sm, and enrichment in Cl,
H2O, F, and P in the primitive mantlenormalized patterns. The average normalized contents of moderately incompatible HREE in
these magmas are close to those in the basic magmas of other geodynamic settings. Subduction basic magmas exhibit negative
correlation of Li, Y, Dy, Er, Yb, Lu, and Ti contents with MgO content. Most of incompatible elements (Nb, Ta, U, Th, LREE)
do not correlate with MgO, but correlate with each other and K2O. Variations in element contents are related to crystallization differentiation, magma mixing, and possibly, participation
of several sources. The water content in the island arc basic magmas varies from almost zero value to more than 6 wt %. Most
compositions are characterized by weak negative correlation between H2O and MgO contents, but some compositions define a negative correlation close to that in magmas of mid-ocean ridges (MOR).
Considered magmas demonstrate distinct positive correlation between MgO content and homogenization temperature, practically
coinciding with that of MOR magmas. Modeling of phase equilibria revealed widening of crystallization field of olivine in
the magmas of subduction zones compared to MOR magmas. This can be related to the high water content in subduction magmas.
Simultaneous liquidus crystallization of olivine and clinopyroxene in subduction magmas occurs at pressure approximately 5
kbar higher than that of MOR magmas. Based on the average ratios of trace element to K2O content, we determined the average
compositions for subduction magma sources. Relative to depleted mantle, they are enriched in all incompatible elements, with
positive anomalies of U, Rb, Ba, B, Pb, Cl, H2O, F, and S, and negative anomalies of Th, K, Be, Nb, Ta, Li, Nd, Pb, and Ti. A general elevated content of incompatible elements
indicates a reworking of the rocks of mantle wedge by fluids and melts that were released from the upper layers of subducted
plate. 相似文献
15.
Anastassia Yu. Borisova Michel Pichavant Michael Wiedenbeck Frédéric Candaudap 《Geochimica et cosmochimica acta》2006,70(14):3702-3716
The dacite pumice erupted from Mt. Pinatubo on June 15, 1991 (whole-rock, rhyolitic groundmass glasses and homogenized melt inclusions) has been analyzed using inductively coupled plasma-mass spectrometry (ICP-MS), nanosecond and femtosecond laser ablation ICP-MS and secondary ion mass spectrometry (SIMS) to evaluate its ore-forming potential. Data suggest that adakite magmas are metal-rich and concentrate ore metals during magmatic differentiation. Sulfides segregate in limited amounts under the hydrous, oxidizing conditions typical of adakitic magmas resulting in incompatible behavior for Au (6-22 ppb), Cu (26-77 ppm), and Pb, Mo, As, and Sb in melts of dacitic to rhyolitic compositions. Metal transfer from this adakite magma to the coexisting aqueous phase was favored by the peraluminous composition of the rhyolitic melt and high aqueous chloride concentrations. Mass balance calculations suggest that the pre-eruptive aqueous phase could have extracted a minimum of 100 t Au and 5 × 105 t Cu from the Mt. Pinatubo magma. Our data suggest that intrusives having adakitic signatures are genetically associated with Au-Cu and Cu-Mo mineralization, auriferous porphyry copper deposits, and epithermal gold veins. High H2O, Cl, Sr/Y, Pb/Ce, Mo/Ce, As/Ce and Sb/Ce in Mt. Pinatubo melts reflect the contribution of deep fluids derived from subducted sediments and altered MORBs in the dacite genesis. The slab-derived fluids carrying mobile elements are likely responsible for the enrichment of adakite magmas in gold, associated metals and H2O, and may explain the exceptional ore-forming potential of adakite magmatism. 相似文献
16.
浅成-次火山岩黑云母Cu,Au成矿示踪意义 总被引:4,自引:3,他引:4
浅成-次火山岩是许多斑岩型和斑岩-浅成低温热液型铜、金矿床矿质和流体的重要来源,斑岩体初始岩浆的Cu,Au丰度,CI,F含量及岩浆结晶时的氧逸度是其能否最终形成含Cu,Au流体的关键因素。黑云母是浅成-次火山中酸性侵入体中最常见的铁镁矿物,含有较丰富的Cu,Au及挥发分CI,F其Fe^3 /Fe^3 (Fe^3 Fe^2 )比值可以反映其结晶时岩浆的氧化还原状态,尤其是斑晶黑云母往往形成于岩浆流体出溶和去气作用发生之前,它能灵敏地指示其母岩浆的初始Cu,Au丰度和CI,F含量及氧化还原状态,因此,可以作为成矿物质、成矿流体来源的理想示踪矿物,并可用于浅成-次火山侵入人体的成矿潜力。在一些斑岩型铜、金矿床和斑岩-浅成低温热液型金、铜矿床分布区开展浅成-次火山侵入体黑云母的成矿示踪研究,对于解决矿床成因和指导找矿实践均具有重要意义。 相似文献
17.
It has long been recognized that magmatic fluids exsolved from the arc-like submarine magmas of immature back-arc basins can directly contribute metals such as Cu and Au to seafloor hydrothermal systems. The extent of this magmatic contribution, however, varies from basin to basin. In order to explain this variation, we make a comparative study of the behavior of Cu during magma differentiation in two immature back-arc ridges: Eastern Ridge (ER) of the Manus Basin and Valu Fa Ridge (VFR) of the Lau Basin. We investigate some of the factors that affect Cu behavior, including oxygen fugacity (fO2), water content, and crystallization pressure, by means of a geochemical model. Cu abundances show a continuous decreasing trend with magma evolution in the VFR lavas, whereas in the ER lavas Cu increases during the early stage of magma evolution, followed by a rapid decrease. The contrasting Cu behavior for the two lava suites is controlled on the first order by the fO2 of their primary magmas. The fO2 values of the primary ER magmas were modeled to be FMQ + 1.2 to FMQ + 1.8, which is sufficiently high to avoid the early sulfide saturation that typically accompanies Cu removal. By comparison, the fO2 values of the primary VFR magmas range from FMQ to FMQ + 1, falling within the range of mid-ocean ridge basalts. We attribute this difference in fO2 values between the primary ER and VFR magmas to variable input of sediment melt to their mantle sources. In addition, we show for the first time that Cu content does not increase significantly until the onset of plagioclase crystallization. This finding suggests that both high water contents and high pressure, which suppress plagioclase crystallization, are unfavorable for Cu enrichment in evolved oxidized magmas. We argue that back-arc ridges that develop shallow submarine magma chambers and have a large input of subducted sediment, have a strong potential to support ore-bearing magmatic–hydrothermal systems. 相似文献
18.
The Tuwu porphyry Cu deposit in the eastern Tianshan Orogenic Belt of southern Central Oceanic Orogen Belt contains 557 Mt ores at an average grade of 0.58 wt.% Cu and 0.2 g/t Au, being the largest porphyry Cu deposit in NW China. The deposit is genetically related to dioritic and plagiogranitic porphyries that intruded the Carboniferous Qieshan Group. Ore minerals are dominantly chalcopyrite, pyrite and enargite. Porphyric diorites have Sr/Y and La/YbN ratios lower but Y and Yb contents higher than plagiogranites. Diorites have highly variable Cu but nearly constant PGE contents (most Pd = 0.50–1.98 ppb) with Cu/Pd ratios ranging from 10,900 to 8,900,000. Plagiogranites have PGEs that are positively correlated with Cu and have nearly uniform Cu/Pd ratios (5,100,000 to 7,800,000). Diorites have concentrations of Re (0.73–15.18 ppb), and 187Re/188Os and 187Os/188Os ratios lower but common Os contents (0.006–0.097 ppb) higher than plagiogranites. However, both the diorites and plagiogranites have similar normalized patterns of rare earth elements (REE), trace element and platinum-group elements (PGEs). All the samples are characterized by the enrichments of LREE relative to HREE and display positive anomalies of Pb and Sr but negative anomalies of Nb and Ta in primitive-mantle normalized patterns. In the primitive mantle-normalized siderophile element diagrams, they are similarly depleted in all PGEs but slightly enriched in Au relative to Cu.Our new dataset suggests that both the diorite and plagiogranite porphyries were likely evolved from magmas derived from partial melting of a wet mantle wedge. Their parental magmas may have had different water contents and redox states, possibly due to different retaining time in staging magma chambers at the depth, and thus different histories of magma differentiation. Parental magmas of the diorite porphyries are relatively reduced with less water contents so that they have experienced sulfide saturation before fractional crystallization of silicate minerals, whereas the relatively more oxidized parental magmas with higher water contents of the plagiogranite porphyries did not reach sulfide saturation until the magmatic-hydrothermal stage. Our PGE data also indicates that the Cu mineralization in the Tuwu deposit involved an early stage with the enrichments of Au, Mo and Re and a late stage with the enrichment of As but depletion of Au–Mo. After the formation of the Cu mineralization, meteoric water heated by magmas penetrated into and interacted with porphyritic rocks at Tuwu, which was responsible for leaching Re from hosting rocks. 相似文献
19.
Amphibole and apatite insights into the evolution and mass balance of Cl and S in magmas associated with porphyry copper deposits 总被引:1,自引:0,他引:1
Chlorine and sulfur are of paramount importance for supporting the transport and deposition of ore metals at magmatic–hydrothermal systems such as the Coroccohuayco Fe–Cu–Au porphyry–skarn deposit, Peru. Here, we used recent partitioning models to determine the Cl and S concentration of the melts from the Coroccohuayco magmatic suite using apatite and amphibole chemical analyses. The pre-mineralization gabbrodiorite complex hosts S-poor apatite, while the syn- and post-ore dacitic porphyries host S-rich apatite. Our apatite data on the Coroccohuayco magmatic suite are consistent with an increasing oxygen fugacity (from the gabbrodiorite complex to the porphyries) causing the dominant sulfur species to shift from S2? to S6+ at upper crustal pressure where the magmas were emplaced. We suggest that this change in sulfur speciation could have favored S degassing, rather than its sequestration in magmatic sulfides. Using available partitioning models for apatite from the porphyries, pre-degassing S melt concentration was 20–200 ppm. Estimates of absolute magmatic Cl concentrations using amphibole and apatite gave highly contrasting results. Cl melt concentrations obtained from apatite (0.60 wt% for the gabbrodiorite complex; 0.2–0.3 wt% for the porphyries) seems much more reasonable than those obtained from amphibole which are very low (0.37 wt% for the gabbrodiorite complex; 0.10 wt% for the porphyries). In turn, relative variations of the Cl melt concentrations obtained from amphibole during magma cooling are compatible with previous petrological constraints on the Coroccohuayco magmatic suite. This confirms that the gabbrodioritic magma was initially fluid undersaturated upon emplacement, and that magmatic fluid exsolution of the gabbrodiorite and the pluton rooting the porphyry stocks and dikes were emplaced and degassed at 100–200 MPa. Finally, mass balance constraints on S, Cu and Cl were used to estimate the minimum volume of magma required to form the Coroccohuayco deposit. These three estimates are remarkably consistent among each other (ca. 100 km3) and suggest that the Cl melt concentration is at least as critical as that of Cu and S to form an economic mineralization. 相似文献