| 西藏甲玛铜多金属矿床流体包裹体研究 |
| Received:July 23, 2021 Revised:January 19, 2022 点此下载全文 |
| 引用本文:CHEN HongJin,WANG LiQiang,HU GuYue,GU FengHua,TANG Pan,ZHANG ZhongKun,ZHOU Aorigele.2022.Fluid inclusion study on Jiama copper-polymetallic deposit, Tibet[J].Mineral Deposits,41(2):303~323 |
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| Author Name | Affiliation | | CHEN HongJin | MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of GeologicalSciences, Beijing 100037, China | | WANG LiQiang | MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of GeologicalSciences, Beijing 100037, China | | HU GuYue | MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of GeologicalSciences, Beijing 100037, China | | GU FengHua | MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of GeologicalSciences, Beijing 100037, China | | TANG Pan | Faculty of Geosciences and Environmrntal Engineering, Southwest Jiaotong University, Chengdu 611756, Sichuan, China | | ZHANG ZhongKun | Tibet Huatailong Mining Development Co. Ltd., Lhasa 850212, Tibet, China | | ZHOU Aorigele | MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of GeologicalSciences, Beijing 100037, China |
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| 基金项目:国家重点研发计划(编号:2018YFC0604106)、国家自然科学基金项目(编号:41902100)、西藏自治区科技计划项目(编号:XZ201901-GB-24)、中国地质科学院院基本科研业务费(编号:KK2017、SYSCR2019-03)和中国地质调查局二级项目(编号:DD20190167)联合资助 |
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| 中文摘要:甲玛铜多金属矿床是西藏冈底斯中段东部的超大型矿床,主要由角岩型铜钼矿体、斑岩型钼铜矿体以及矽卡岩型铜多金属矿体构成。根据矿物组合与脉体穿插关系,将角岩型和斑岩型矿体中各类热液脉体分为成矿早阶段A脉、转换阶段B脉以及成矿晚阶段D脉。A脉包括具有钾长石蚀变晕的石英脉、石英+钾长石±黄铜矿±辉钼矿脉、石英+黑云母脉、黑云母+黄铜矿±黄铁矿脉,有微弱矿化;B脉主要为石英±辉钼矿±黄铜矿±黄铁矿脉,为主成矿阶段;D脉包括黄铁矿脉、石英+黄铁矿±黄铜矿±辉钼矿脉,矿化微弱。研究发现矿床共发育6种类型的流体包裹体,分别为富液相的气液两相包裹体(L)、富气相的气液两相包裹体(V)、纯气相包裹体(PV)、富CO2的富气相包裹体(VCO2)、含石盐子晶的多相包裹体(S1,升温过程中气泡晚于子晶消失达到均一)和含石盐子晶的多相包裹体(S2,升温过程中子晶晚于气泡消失达到均一)。A脉主要发育L、V、PV、VCO2、S1、S2型包裹体,均一温度集中在300~500℃,盐度w(NaCleq)为0.6%~43.3%;B脉发育L、V、PV、VCO2、S1、S2型包裹体,均一温度集中在350~450℃,盐度w(NaCleq)为1.0%~47.4%;D脉只发育L型包裹体,均一温度介于250~397℃,盐度w(NaCleq)为1.1%~9.9%。从成矿早阶段到成矿晚阶段,高温、高盐度、高氧逸度的流体逐渐演化为中温、低盐度的流体。笔者通过压力估算得到甲玛矿床A、B、D脉阶段的成矿深度分别约为3.2 km、3.2 km、3 km。主成矿阶段水岩反应引起的流体CO2逃逸、pH值降低、氧逸度降低以及体系压力骤降是导致硫化物沉淀的主要因素。 |
| 中文关键词:地质学 流体包裹体 流体来源与演化 甲玛铜多金属矿床 冈底斯 西藏 |
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| Fluid inclusion study on Jiama copper-polymetallic deposit, Tibet |
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| Abstract:The Jiama copper-polymetallic deposit, one of the super-large skarn-porphyry deposits in China currently being mined, is located in the eastern part of the Gangdese porphyry Cu belt, Tibet, China. The deposit is composed of hornfels-type Cu-Mo ore body, porphyry-type Mo-Cu ore body and skarn-type Cu, Mo, Pb, Zn, Au, Ag ore body. According to the vein types and crosscutting relationships, the mineralization in Jiama deposit was divided into three stages: early ore-forming stage (A vein), main ore-forming stage (B vein) and late ore-forming stage (D vein). A veins usually with weak mineralization, mainly include quartz veins with K-feldspar alteration halo, quartz+K-feldspar±chalcopyrite±molybdenite veins, quartz+biotite veins, biotite+chalcopyrite±pyrite veins; B veins mainly comprise quartz±molybdenite±chalcopyrite±pyrite veins; D veins include pyrite veins and quartz+ pyrite ±chalcopyrite±molybdenite veins. Fluid inclusions in quartz from the early and main ore-forming stages mainly include liquid-rich, vapor-rich、pure vapor、CO2-rich and daughter mineral-bearing fluid nclusions; whereas the late ore-forming stage minerals only contain liquid-rich fluid inclusions. The fluid inclusions from A vein through B vein to D vein have homogenization temperatures ranging from 300~500℃, 350~450℃, 250~397℃ and salinities w(NaCleq)ranging from 0.6% to 43.3%, 1.0% to 47.4%, and 1.1% to 9.9%, respectively. It reveals that from early to late ore-forming stage, the fluids evolved from high-temperature, high-salinity and high-oxygen fugacity to middle-temperature and low-salinity. The pressure estimation in Jiama deposit indicates that the oreforming depth in A vein, B vein and D vein are probably 3.2 km, 3.2 km and 3 km respecively. The major factors influencing the participation of ore-forming elements in Jiama deposit are CO2 escaping, pH values increasing, variation of oxidation-reduction and the plunge of pressure. |
| keywords:geology fluid inclusions fluid origin and evolution Jiama copper-polymetallic deposit Gangdese Tibet |
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