廖香俊, 王平安, 覃海灿, 路西坤, 董法先, 刘晓春, 舒斌. 2008: 海南屯昌地区高通岭钼矿床的地质、地球化学特征及成矿时代. 地质通报, 27(4): 560-570.
    引用本文: 廖香俊, 王平安, 覃海灿, 路西坤, 董法先, 刘晓春, 舒斌. 2008: 海南屯昌地区高通岭钼矿床的地质、地球化学特征及成矿时代. 地质通报, 27(4): 560-570.
    LIAO Xiang-jun, WANG Ping-an, QIN Hai-can, LU Xi-kun, DONG Fa-xian, LIU Xiao-chun, SHU Bin. 2008: Geology, geochemistry and ore-forming age of the Gaotongling molybdenum deposit, Tunchang area, Hainan, China. Geological Bulletin of China, 27(4): 560-570.
    Citation: LIAO Xiang-jun, WANG Ping-an, QIN Hai-can, LU Xi-kun, DONG Fa-xian, LIU Xiao-chun, SHU Bin. 2008: Geology, geochemistry and ore-forming age of the Gaotongling molybdenum deposit, Tunchang area, Hainan, China. Geological Bulletin of China, 27(4): 560-570.

    海南屯昌地区高通岭钼矿床的地质、地球化学特征及成矿时代

    Geology, geochemistry and ore-forming age of the Gaotongling molybdenum deposit, Tunchang area, Hainan, China

    • 摘要: 高通岭钼矿床位于华南板块南部的华南褶皱系五指山褶皱带内,共查明平行脉状矿体9个、矿化体5个。矿石分石英脉型和钾长花岗岩型2种,矿石中含辉钼矿、黄铁矿、黄铜矿、方铅矿、闪锌矿及石英、钾长石、黑云母、绢云母、绿泥石等。高通岭花岗岩体的Mo含量比其克拉克值高4倍,沿岩体构造裂隙发育钾长石化、黄铁矿化、硅化、绢云母化、绿泥石化等蚀变和钼矿化。成矿流体成分为K+-Na+-Cl--F--SO42-型;S、C、H、O同位素组成反映成矿物质以岩浆源为主,流体为岩浆水与大气降水混合来源。辉钼矿Re-Os等时线年龄为98.4Ma±2.5Ma,与高通岭花岗岩体侵位的时代一致。该矿床为与燕山晚期岩浆活动有关的热液石英-硫化物脉型钼矿床。

       

      Abstract: The Gaotongling molybdenum deposit is located in the Wuzhishan fold belt of the South China fold system, Southern China plate. Nine orebodies of economic value and five mineralized bodies which are approximately parallel to each other have been identified. Ores are mainly of sulfide quartz vein type and K-feldspar granite type. The ores are composed mainly of sulfides such as molybdenite, pyrite, chalcopyrite, galena and sphalerite and gangue minerals such as quartz, potassium feldspar, biotite, sericite and chlorite. The molybdenum content in the Gaotongling granite intrusion is 4 times higher than its clarke value. Potassic alteration, pyritization, silicification, sericitization and chloritization, as well as molybdenum mineralization are observed along structural fractures in the granite intrusion. The ore-forming fluids are of K+-Na+-Cl--F--SO42- type. The sulfur, carbon, hydrogen and oxygen isotopic compositions suggest that the ore-forming materials were mainly derived from magma and that the ore-forming fluids originated by mixed sources of magmatic water and meteoric water. The Re-Os isochron age of molybdenite is 98.4±2.5 Ma, which coincides with the emplacement age of the Gaotongling granite intrusion. It is concluded that the deposit is a hydrothermal sulfide-quartz vein type deposit genetically related to Late Mesozoic (late Yanshanian) granitic magmatism.

       

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