山西中条山铜矿峪斑岩型铜矿床成矿流体特征  被引量：4

作　　者：李洪英[1] 骆文娟[1] 孙军刚[2] 杨磊 谢坤琪 周新鹏 薛生升 尹德威 郭双龙[6] 赵凤春[6] 吕峰杰 陈永平 LI HongYing;LUO WenJuan;SUN JunGang;YANG Lei;XIE KunQi;ZHOU XinPeng;XUE ShengSheng;YIN DeWei;GUO ShuangLong;ZHAO FengChun;LI;CHEN YongPing(MNR Key Laboratory of Metallogeny and Mineral Assessment,Institute of Mineral Resources,Chinese Academy of Geological Sciences,Beijing 100037,China;No.7 Gold Geological Party,CAPF,Yantai 264000,Shandong,China;No.10 Gold Geological Party,CAPF,Kunming 650111,Yunnan,China;CNOOC Research Institute Co.,Ltd.,Beijing 100027,China;Institute of Geophysical and Geochemical Exploration of Shanxi Province,Yuncheng 044004,Shanxi,China;Zhongtiaoshan Non-ferrous Metals Group Co.,Ltd.,Yuanqu 043700,Shanxi,China)

机构地区：[1]自然资源部成矿作用与资源评价重点实验室中国地质科学院矿产资源研究所,北京100037 [2]2武警黄金第七支队,山东烟台264000 [3]中海油研究总院有限责任公司,北京100027 [4]武警黄金第十支队,云南昆明650111 [5]山西省地球物理化学勘察院,山西运城044004 [6]中条山有色金属集团有限公司,山西垣曲043700

出　　处：《矿床地质》2018年第5期1091-1110,共20页Mineral Deposits

基　　金：国家自然基金项目(编号：41602074);中国地质调查局项目(编号：DD20160124);中央级公益性科研院所基本科研业务专项资金(编号：K1408、YYWF201510)资助

摘　　要：铜矿峪铜矿床位于中条山铜多金属成矿带,是目前中国最古老的斑岩型铜矿床之一。基于详尽的野外地质调查,结合流体包裹体岩相学、显微测温、群包裹体成分和碳、氢、氧、硫同位素分析等研究,探讨铜矿峪铜矿床成矿流体来源、性质及其演化和成矿物质来源。铜矿峪铜矿床的成矿阶段可划分为红钠化(石英-钠长石)阶段,钾长石-石英阶段,石英-硫化物阶段,石英-碳酸盐阶段(石英-方解石-硫化物阶段和石英-铁白云石-硫化物阶段)和碳酸盐阶段。流体包裹体类型主要有富液相气液两相包裹体(Ⅰ型)、含子晶包裹体(Ⅱ型)和CO2包裹体(Ⅲ型),还有少量的富气相包裹体(Ⅳ型)和液相包裹体(Ⅴ型),成矿流体系统早期为中高温、高氧逸度、富CO2的岩浆热液,中阶段经过流体沸腾、温度降低、氧逸度降低、CO2逸失等过程演化为还原性流体,使得大量金属硫化物沉淀,最后由于大气降水的不断加入和降温等过程,形成晚期的低温、中低氧逸度、低盐度、贫CO2的大气降水热液。氢、氧同位素组成(δ18OH2O值变化范围为6.5‰～-1.10‰,δD值变化范围为-99‰～-58‰)显示,从早阶段到晚阶段,成矿流体从以原生岩浆水为主,到晚期大气降水为主。9件硫化物样品δ34S值变化于1.1‰～4.8‰,平均值为2.44‰。表明成矿物质具有深源的特征。Located in the Zhongtiao Mountain copper metallogenic belt, the Tongkuangyu copper deposit is one of the oldest porphyry Cu （Mo） deposits in China. Through detailed field geological survey and petrographic as well as microthermometric studies of fluid inclusions, the authors investigated the origin, characteristics and evolution of ore-forming fluid and the source of ore-forming materials. The ore-forming process of the Tongkuangyu copper deposit can be divided into five stages： red albitization （quartz-albite） stage, potash feldspar-quartz stage, quartz- sulfide stage, quartz-carbonate stage （quartz-calcite-sulfide stage and quartz-sulfide-ankerite stage）, and carbon- ate stage. Quartz and calcite associated with the mineralization contain abundant fluid inclusions. According to the fluid inclusion compositions and the phases presented at room temperature, five different types of fluid inclu-sions were distinguished： liquid-vapor inclusion （Ⅰ-type）, multi - phase inclusion （Ⅱ-type）, aqueous-CO2 in- clusion （Ⅲ-type）, vapor-rich or gas inclusion （Ⅳ type） and pure liquid inclusion （Ⅴ）. Group inclusions composition and H, O, S isotopes were used to study the origin, property and evolution of the ore-forming fluids as well as ore-forming materials. On such a basis, the genesis of the Tongkuangyu copper deposit was revealed. The ore-forming fluid was magmatic fluid with medium-high temperature, high oxygen fugacity, rich CO2 at the early stage, whereas the middle stage fluids evolved into reducing fluids due to boiling, temperature decreasing, dropping of oxygen fugacity, and escaping of CO2 and led to the precipitation of metal sulfide. With the addition of atmospheric precipitation and cooling, metamorphic hydrothermal fluids with low temperature, medium-low oxygen fugacity, low salinity, and poor- CO2 were formed. The isotope composition of oxyhydrogen-oxygen （δ^18OH2O values from -6.5%0 to -1.10‰, and δDVSMOW values from -99‰ to -58‰） shows that, from the e

关 键 词：地球化学 斑岩型铜矿床 流体包裹体 成矿流体 中条山 铜矿峪 

分 类 号：P618.42[天文地球—矿床学]