| 辽宁榛子沟铅锌矿床热液叠加成矿作用特征及成矿流体来源 |
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| 引用本文: | 王可勇,付丽娟,韦烈民,王志高.辽宁榛子沟铅锌矿床热液叠加成矿作用特征及成矿流体来源[J].吉林大学学报(地球科学版),2016,46(1):80-90. |
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| 作者姓名: | 王可勇 付丽娟 韦烈民 王志高 |
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| 作者单位: | 吉林大学地球科学学院, 长春 130061 |
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| 基金项目: | 中国地质调查局地质调查项目(1212011120156)Supported by Geological Survey Projects of China Geological Survey (1212011120156) |
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| 摘 要: | 榛子沟铅锌矿矿床是青城子矿田代表性矿床之一,矿体赋存于高家峪组和大石桥组之中,呈层状、似层状和脉状产出,受地层、岩浆和构造联合控制。矿床的形成经历了海底喷流、变质变形和热液叠加三期成矿作用,其中热液叠加成矿作用对脉状矿体的形成与层状矿体的局部热液改造起到了重要作用,可划分为Ⅰ黄铁矿-方铅矿-闪锌矿-石英和Ⅱ黄铁矿-方铅矿-石英-方解石两个阶段。流体包裹体和碳、氢、氧同位素研究表明:I阶段石英中发育气液两相和少量的富气相、CO2三相流体包裹体,成矿流体属中高温、低盐度、低密度的CO2-H2O-NaCl体系热液,含H2O、CO2、CH4和N2,流体包裹体的δDH2O-SMOW为-96.5‰和-95.4‰、δ18OH2O-SMOW为-0.62‰和0.04‰、δ13C为-4.8‰和-4.4‰,具有大气降水与岩浆水混合流体的特点;Ⅱ阶段石英中主要发育气液两相包裹体,成矿流体属低温、低盐度和低密度的H2O-NaCl体系热液,流体包裹体δDH2O-SMOW为-88.4‰~-80.0‰、δ18OH2O-SMOW为-7.93‰~-5.57‰,具有大气降水的特点,δ13C为-12.6‰~-7.9‰,具有岩浆水特点。综合分析表明,热液叠加成矿期成矿流体来源于岩浆水与大气降水的混合热液,且成矿后期大气降水的混入比例增加。
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| 关 键 词: | 榛子沟铅锌矿床 热液叠加成矿作用 流体包裹体 碳氢氧同位素 成矿流体 |
| 收稿时间: | 2015-05-16 |
Characteristics of Hydrothermal Superimposed Mineralization and Source of Ore-Forming Fluids in Zhenzigou Pb Zn Deposit,Liaoning Province |
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| Wang Keyong,Fu Lijuan,Wei Liemin,Wang Zhigao.Characteristics of Hydrothermal Superimposed Mineralization and Source of Ore-Forming Fluids in Zhenzigou Pb Zn Deposit,Liaoning Province[J].Journal of Jilin Unviersity:Earth Science Edition,2016,46(1):80-90. |
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| Authors: | Wang Keyong Fu Lijuan Wei Liemin Wang Zhigao |
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| Institution: | College of Earth Sciences, Jilin University, Changchun 130061, China |
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| Abstract: | Abstracts:Zhenzigou Pb Zn deposit is a representative one of Qingchengzi Pb Zn ore field.The deposit mainly occurs in Gaojiayu and Dashiqiao Formation,and is controlled by strata,magmatism,and tectonism with the main ore types being stratiform,stratoid,and veined ore bodies. The deposit experienced three metallogenic episodes such as submarine exhalation,metamorphism or deformation, and hydrothermal superposition.Hydrothermal superposition mineralization played an important role in the formation of the veined ore bodies and the local hydrothermal transformation of stratiform ore bodies.It can be classified into two stages:pyrite-galena-sphalerite-quartz(stage I)and pyrite-galena-quartz-calcite(stage II).According to the fluid inclusions and C D O isotope research,aqueous two-phase is developed in stage I with minor vapor-rich and CO2-bearing three-phase in the quartz fluid inclusions,and the ore-forming fluids are of middle-low temperature,low salinity,and low density CO2 H2 O NaCl system with enrichment of H2 O,CO2 ,CH4 ,and N2 .TheδDH2 O SMOW ,δ18 OH2 O SMOW andδ13 C of the fluid inclusions in the quartz are - 96.5‰ and - 95.4‰,- 0.62‰ and 0.04‰,- 4.8‰ and-4.4‰ respectively,which shows some characteristics of a fluid mixture of meteoric water and magma water.In stage II,aqueous two-phase fluid inclusions are developed in quartz;and the ore-forming fluids are of the low temperature,low salinity and low density H2 O NaCl system,containing a small amount of CO2 ,CH4 ,and N2 .TheδDH2 O SMOW andδ18 OH2 O SMOW of the fluid inclusions in the quartz are-88.4‰ -80.0‰ and - 7.93‰ - 5.57‰ respectively,which shows the characteristics of meteoric water withδ13 C of -12.6‰ -7.9‰,a characteristics of magma water.Based on the above,we can infer that in the early mineralization stage,the ore-forming fluids were the mixture of meteoric water and magmatic water in Yanshan period,and in the late mineralization stage the blending proportion of meteoric water increased. |
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| Keywords: | Zhenzigou Pb Zn deposit superimposed hydrothermal mineralization fluid inclusion C D O isotope ore forming fluids |
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