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易门狮子山铜矿流体包裹体研究
引用本文:李强,王雷,毛建辉,左琼华,孟石荣. 易门狮子山铜矿流体包裹体研究[J]. 大地构造与成矿学, 2013, 37(1): 57-64
作者姓名:李强  王雷  毛建辉  左琼华  孟石荣
作者单位:1. 云南国土资源职业学院,云南昆明,650217
2. 昆明理工大学国土资源工程学院,云南昆明,650093
3. 玉溪矿业有限公司,云南玉溪,653100
基金项目:云南地矿创新基金项目(编号:2010JJ04)资助
摘    要:在总结狮子山铜矿床地质特征基础上,开展了流体包裹体岩相学、显微测温、成分分析等研究,结果表明狮子山铜矿成矿流体为H2O-NaCl体系,包裹体分三大类:含子矿物包裹体(S型)、液体包裹体(W型)和气体包裹体(V型)。S型包裹体为气液固三相包裹体,子矿物多为石盐,加热时常晚于气相均一为液相。均一温度范围广,在192~570℃之间,盐度在31.2%~69.63%NaCleqv之间,高温高盐度流体包裹体的存在说明有深源流体叠加;W型包裹体均一温度范围在98~583℃之间,盐度低至中等,在3.55%~22.98%NaCleqv之间;V型包裹体为高温(平均454℃)低盐度(平均9.54%NaCleqv)包裹体;矿区高温阶段不同相比的S型、V型、W型包裹体共生,且均一温度相同,说明成矿流体经过沸腾作用。

关 键 词:成矿流体  深源叠加  沸腾作用  狮子山铜矿床  滇中易门

Research on the Fluid Inclusions of Shizishan Copper Deposit, Yunnan
LI Qiang , WANG Lei , MAO Jianhui , ZUO Qionghua , MENG Shirong. Research on the Fluid Inclusions of Shizishan Copper Deposit, Yunnan[J]. Geotectonica et Metallogenia, 2013, 37(1): 57-64
Authors:LI Qiang    WANG Lei    MAO Jianhui    ZUO Qionghua    MENG Shirong
Affiliation:1 (1.Yunnan Land and Resources Vocational College, Kunming 650217, Yunnan, China; 2.Faculty of Land Resource Engineering, Kunming University of Science and Technology, Kunming 650093, Yunnan, China; 3.Yuxi Mining Corporation, Yuxi 653100, Yunnan, China)
Abstract:This paper presents researches of the petrography, microthermometry, and composition of fluid inclusions of the Shizishan copper deposit. The results show that the ore fluid is H2O-NaCl system in this area. The fluid inclusions can be divided into three types, i.e., daughter mineral-bearing fluid inclusion (S-type), liquid fluid inclusion (W-type) and Vapor fluid inclusion (V-type). Most of the daughter mineral in S-type is halite, with vanishing temperature higher than homogenization temperature of vapor-liquid. Its homogenization temperature and salinity vary in ranges of 192℃ to 570℃ and 31.2% to 69.63 % NaCleqv, respectively, which suggest a deep sourced fluid. The homogenization temperature of W-type ranges from 98℃ to 583℃, and salinity is low to medium, from 3.55% to 22.98% NaCleqv. V-type inclusion is characterized by high-temperature (454℃ of homogenization temperature on average) and low-salinity(9.54 % NaCleqv on average). The coexistence of different phase ratios of all types′ fluid inclusions in high temperature stage, with similar homogenization temperature, indicated that the ore-forming fluid experienced boiling. Therefore, it is suggested that boiling is the main metallogenic mechanism. The genesis of this deposit belongs to sedimentary with deep resource hypothermal overprint.
Keywords:Shizishan copper deposit   ore fluid   deep sourced fluid   boiling
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