Stefan Petrović, Ronald J. Bakker, Vladica Cvetković, Rade Jelenković
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The hydrothermal evolution is inferred from studying six groups of quartz-hosted fluid inclusions (FI). Two-phase FI of high- (Group A) and moderate salinity (Group B) are found in quartz cores and homogenized at 380–390 °C (mode) and 370–380 °C (mode), respectively. Group A FI consists of H<sub>2</sub>O-NaCl liquids and CO<sub>2</sub>-CH<sub>4</sub> gas mixtures and likely represents the original fluid composition, whereas Group B FI records dilution of the original fluid at constant temperature, with a slight increase in CH<sub>4</sub> contents. The quartz cores also contain Group C as volatile-rich FI (mostly CO<sub>2</sub> with up to 10 mol% CH<sub>4</sub> and H<sub>2</sub>S) of a moderately low salinity and liquid-rich Group D FI composed of pure water with homogenization temperatures of 180–200 °C (mode). The transitional zones of quartz crystals show overgrowth textures and host Group E FI with low salinity that homogenized at 235–401 °C, which vapour phase is a CO<sub>2</sub>-CH<sub>4</sub> mixture with up to 17 mol% CH<sub>4</sub>. Group F comprises FI found within the rim zones of quartz crystals and they exhibit a low salinity and homogenization temperatures between 259–365 °C. Accordingly, the hydrothermal history at Rudnik involved: a) mixing of different salinity fluids at high temperatures (Groups A and B—retrograde stage), b) introduction of fluids with high volatile contents (Group C) and cooling of fluids with constant salinity (between Groups E and F), which likely correspond to the quartz-sulfide stage, and c) inflow of meteoric water (Group D—the post-ore quartz-calcite stage).</p></div>","PeriodicalId":18547,"journal":{"name":"Mineralogy and Petrology","volume":null,"pages":null},"PeriodicalIF":1.4000,"publicationDate":"2024-06-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Multiphase evolution of fluids in the Rudnik hydrothermal-skarn deposit (Serbia): new constraints from study of quartz-hosted fluid inclusions\",\"authors\":\"Stefan Petrović, Ronald J. 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引用次数: 0
摘要
本研究首次介绍并讨论了鲁德尼克锌铅铜银矽卡岩矿床(塞尔维亚)石英寄生流体包裹体的详细岩相学、微热学和拉曼光谱数据,并将其与矽卡岩和矿石成因信息相结合。该矿床的变质-热液历史分为三个时期:1)前矿石顺行矽卡岩期,形成石榴石-辉石矽卡岩;2)同步矿石期,包括以闪石和黝帘石为特征的逆行阶段和以石英、黄铁矿、闪锌矿、方铅矿和黄铜矿为特征的石英-硫化物阶段;3)后矿石期,与方解石和石英沉淀有关。热液演化是通过研究六组石英包裹体(FI)推断出来的。在石英岩芯中发现了高盐度(A 组)和中盐度(B 组)的两相流体包裹体,并分别在 380-390 ℃(模式)和 370-380 ℃(模式)下均质化。A 组 FI 由 H2O-NaCl 液体和 CO2-CH4 气体混合物组成,可能代表原始流体成分,而 B 组 FI 记录了原始流体在恒温条件下的稀释情况,CH4 含量略有增加。石英岩芯中还含有 C 组富含挥发性的 FI(主要是 CO2,CH4 和 H2S 的含量高达 10 摩尔%),盐度适中;D 组富含液体的 FI 由纯水组成,均化温度为 180-200 ℃(模式)。石英晶体的过渡带显示出过度生长的纹理,承载着盐度较低的 E 组 FI,其均化温度为 235-401 °C,气相为 CO2-CH4 混合物,CH4 含量高达 17 摩尔。F 组包括在石英晶体边缘区发现的 FI,盐度较低,均化温度在 259-365 ℃ 之间。因此,鲁德尼克的热液历史包括:a)不同盐度的流体在高温下混合(A 组和 B 组--逆变阶段);b)引入高挥发性流体(C 组)和冷却恒定盐度的流体(E 组和 F 组之间),这可能与石英-硫化物阶段相对应;c)流星水流入(D 组--矿石后石英-方解石阶段)。
Multiphase evolution of fluids in the Rudnik hydrothermal-skarn deposit (Serbia): new constraints from study of quartz-hosted fluid inclusions
This study presents and discusses first detailed petrographic, microthermometric and Raman spectroscopic data from quartz-hosted fluid inclusions at Rudnik Zn-Pb-Cu-Ag skarn deposit (Serbia) and combines them with the information on skarn- and ore paragenesis. Three periods in the metamorphic-hydrothermal history of the deposit are recognized: 1) the pre-ore prograde skarn period when garnet-clinopyroxene skarns formed, 2) the syn-ore period that encompasses a retrograde stage marked by epidote and zoisite and a quartz-sulfide stage characterized by quartz, pyrrhotite, sphalerite, galena and chalcopyrite, and 3) the post-ore period associated with precipitation of calcite and quartz. The hydrothermal evolution is inferred from studying six groups of quartz-hosted fluid inclusions (FI). Two-phase FI of high- (Group A) and moderate salinity (Group B) are found in quartz cores and homogenized at 380–390 °C (mode) and 370–380 °C (mode), respectively. Group A FI consists of H2O-NaCl liquids and CO2-CH4 gas mixtures and likely represents the original fluid composition, whereas Group B FI records dilution of the original fluid at constant temperature, with a slight increase in CH4 contents. The quartz cores also contain Group C as volatile-rich FI (mostly CO2 with up to 10 mol% CH4 and H2S) of a moderately low salinity and liquid-rich Group D FI composed of pure water with homogenization temperatures of 180–200 °C (mode). The transitional zones of quartz crystals show overgrowth textures and host Group E FI with low salinity that homogenized at 235–401 °C, which vapour phase is a CO2-CH4 mixture with up to 17 mol% CH4. Group F comprises FI found within the rim zones of quartz crystals and they exhibit a low salinity and homogenization temperatures between 259–365 °C. Accordingly, the hydrothermal history at Rudnik involved: a) mixing of different salinity fluids at high temperatures (Groups A and B—retrograde stage), b) introduction of fluids with high volatile contents (Group C) and cooling of fluids with constant salinity (between Groups E and F), which likely correspond to the quartz-sulfide stage, and c) inflow of meteoric water (Group D—the post-ore quartz-calcite stage).
期刊介绍:
Mineralogy and Petrology welcomes manuscripts from the classical fields of mineralogy, igneous and metamorphic petrology, geochemistry, crystallography, as well as their applications in academic experimentation and research, materials science and engineering, for technology, industry, environment, or society. The journal strongly promotes cross-fertilization among Earth-scientific and applied materials-oriented disciplines. Purely descriptive manuscripts on regional topics will not be considered.
Mineralogy and Petrology was founded in 1872 by Gustav Tschermak as "Mineralogische und Petrographische Mittheilungen". It is one of Europe''s oldest geoscience journals. Former editors include outstanding names such as Gustav Tschermak, Friedrich Becke, Felix Machatschki, Josef Zemann, and Eugen F. Stumpfl.