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    内蒙古林西边家大院银多金属矿床同位素地球化学特征及成矿物质来源探讨

    A study of isotope geochemistry and sources of ore-forming materials of the Bianjiadayuan silver polymetallic deposit in Linxi, Inner Mongolia

    • 摘要: 提要:边家大院银多金属矿床位于大兴安岭成矿带南段,是一个典型的热液脉型银多金属矿床。基于稳定同位素C、H、O、S和放射性Pb同位素的测试和分析,对边家大院银多金属矿床成矿流体及物质来源进行示踪。同位素测试结果表明:成矿流体中水的δD水?SMOW值为-138.5‰~-111.7‰,δ18О水?SMOW值为-8.85‰~9.38‰,表明成矿流体为岩浆水与大气降水的混合物。热液方解石δ13CPDB值为-7.7‰~-2.67‰,δ18OSMOW为-0.41‰~6.03‰,表明热液矿物方解石是2个阶段成矿作用的产物,成矿早阶段流体与岩浆水特征相似,碳主要来源于岩浆,成矿晚阶段流体具有大气降水的特征。边家大院银多金属矿床矿石硫化物δ34S值为0.7‰~4.4‰,显示银铅锌矿体的形成与岩浆作用密切相关,硫主要来自岩浆源。矿石样品208Pb/204Pb值介于38.1~38.634,207Pb/204Pb值介于15.518~15.681,206Pb/204Pb值介于18.155~18.284,表明成矿与岩浆作用关系密切,成矿流体中铅主要来自深源岩浆。成矿作用的发生是在一种总硫浓度比较低的平衡体系中进行的。边家大院银多金属矿床的成因类型属于火山-次火山热液脉状银多金属矿床。

       

      Abstract: Abstract: Located in the southern part of the Da Hinggan Mountains metallogenic belt, the Bianjiadayuan silver polymetallic deposit is a typical hydrothermal vein-type deposit. Stable (C, H, O and S) and radiogenic (Pb) isotopes of the Bianjiadayuan silver poly-metallic deposit were analyzed with the purpose of determining the source of the ore-forming fluids and materials. TheδDH2O-SMOW and δ18ОH2O-SMOW of the ore-forming fluids are -138.5‰- -111.7‰, and -8.85‰ -9.38‰, respectively, showing that they came from the mixing of magmatic water and meteoric water. The δ13CPDB and 18OSMOW of the hydrothermal calcite vary from -7.7‰ to -2.67‰ and from-0.41‰ to 6.03‰, respectively, indicating that the hydrothermal calcite was formed at two ore-forming stages. At the early stage, the ore-forming fluids were similar to magmatic water and the CO2 was related to the magma, whereas at the late stage, the ore-forming fluid was derived from meteoric water. The δ34S values of polymetallic ore in the Bianjiadayuan deposit range from 0.7‰ to 4.4‰, suggesting that the formation of the Ag-Pb-Zn orebody was closely related to magmatism and the sulfur probably came from the magma source. The ratios of lead isotopes in sulfides range from 38.1 to 38.634 for 208Pb/204Pb, 15.518 to15.681 for 207Pb/204Pb, and 18.155 to 18.284 for 206Pb/204Pb, respectively, indicating that the mineralization might have been induced by the magmatism, and the lead in the deposit was mainly derived from deep-seated magmatic source. The mineralization took place in a low δ34S∑S and equilibrium system. The Bianjiadayuan deposit can be genetically regarded as a volcanic-subvolcanic hydrothermal vein-type silver polymetallic deposit.

       

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