江西崇义铁木里碱长花岗岩中铌和稀土元素的富集机制  被引量：2

作　　者：郭娜欣[1] 刘善宝[1] 陈振宇[1] 蒋胜雄 李宏伟 GUO NaXin;LIU ShanBao;CHEN ZhenYu;JIANG ShengXiong;LI HongWei(MNR Key Laboratory of Metallogeny and Mineral Assessment,Institute of Mineral Resources,Chinese Academy of Geological Sciences,Beijing 100037,China;School of Earth Sciences and Resources,China University of Geosciences(Beijing),Beijing 100083,China)

机构地区：[1]中国地质科学院矿产资源研究所,自然资源部成矿作用与资源评价重点实验室,北京100037 [2]中国地质大学(北京)地球科学与资源学院,北京100083

出　　处：《岩石学报》2022年第2期371-392,共22页Acta Petrologica Sinica

基　　金：国家重点研发计划项目(2016YFC0600208);中央高校基本科研业务费项目(310827171123)联合资助.

摘　　要：华南是我国重要的战略性矿产资源基地,以花岗岩相关的稀有和稀土金属成矿作用而举世瞩目。其中,铌的成矿作用一般与过铝质高分异花岗岩有关,稀土元素则随岩浆演化程度增强而富集程度降低,而江西铁木里含黑云母碱长花岗岩体同时富集铌和稀土元素,矿化组合极具特色。本文在详细的矿物岩相学研究基础上,利用电子探针、飞秒激光电感耦合等离子质谱对铌和稀土矿物进行了矿物地球化学分析,借此对铁木里碱长花岗岩中铌和稀土元素的富集机制进行探讨。铁木里岩体由肉红色含黑云母碱长花岗岩(r-G)和灰白色含黑云母碱长花岗岩(g-G)组成,发育暗色包体。r-G中的铌矿物主要为岩浆期形成的铌铁金红石,稀土矿物包括岩浆期形成的硅钛铈矿、独居石、磷灰石和热液期形成的独居石和氟碳(钙)铈矿。g-G中的铌矿物包括岩浆期形成的铌铁金红石和热液期形成的铌铁金红石、易解石、铌铁矿,稀土矿物包括岩浆期磷灰石和热液期磷灰石、独居石、氟碳(钙)铈矿。暗色包体为岩浆混合成因,内含磷灰石、独居石和零星的硅钛铈矿、金红石。矿物组合特征显示,铁木里碱长花岗岩中的铌和稀土元素经过了岩浆和热液两个时期的富集。应用金红石、磷灰石、绿泥石等矿物成分特征约束了岩浆-热液演化过程中体系的物理化学状态,反演了铌和稀土元素的富集过程。在岩浆结晶阶段(688~500℃)铌形成铌铁金红石,稀土元素形成磷灰石、独居石、硅钛铈矿,部分稀土元素进入云母类矿物。在岩浆期后热液阶段,铌主要在高温阶段(500~486℃)形成热液金红石、易解石、铌铁矿,稀土元素发生活化、迁移,在中温热液阶段(~280℃)形成热液独居石、氟碳铈矿、氟碳钙铈矿等稀土矿物。岩浆体系处于高氧逸度状态,随着演化程度的增高,温度、氧逸度均呈下降趋势,热液体系处�South China is an important critical metal mineral resources base,and it is remarkable for widespread granites and extensive rare and rare-earth metal metallogeny.Niobium mineralization is closly assosicated with highly differentiated peraluminous granites,while the REEs decrease as magma evolves.The Early Cretaceous Tiemuli granitic pluton,located in Chongyi County,Jiangxi Province,eastern Nanling metallogenic belt,is mainly composed of flesh red and grey metaluminous-peraluminous biotite-bearing alkali-feldspar granites(r-G and g-G in short,respectively)which are chemically distinctive with high contents of niobium and rare earth elements.In this paper,detailed mineral analyses were carried out to probe into the enrichment mechanism of Nb and REEs in this intrusion.Niobium minerals in r-G mainly compose ilmenorutile,while rare earth minerals compose magmatic chevkinite,monazite,apatite and hydrothermal monazite,bastnaesite and parasite.Niobium minerals in g-G contain magmatic ilmenorutile and hydrothermal ilmenorutile,aeschynite and columbite,while magmatic apatite and hydrothermal apatite,monazite,bastnaesite,parasite comprise the REE minerals in g-G.Enclaves in the granites were caused by mixing of mafic and acidic magmas and contain apatite,monazite,a little rutile and chevkinite.Mineral assemblage characteristics indicate that Nb and REEs of the Tiemuli alkali-feldspar granite were concentrated during the magmatic and hydrothermal stages.Physicochemical conditions of the magmatic-hydrothermal system have been constrainted by rutile,apatite,chlorite,etc.And the enrichment mechanism of Nb and REEs has been delineated.Niobium was accommodated into ilmenorutile during the magmatic crystallization at temperature of 688~500℃,and be contained by hydrothermal rutile,aeschynite and niobite during the hydrothermal stage at temperature of 500~486℃.The rare earth elements were mainly taken into apatite,monazite,chevkinite,while some were reserved into biotite during the magmatic crystallization,and then turned to b

关 键 词：铌和稀土元素 铁木里 岩浆-热液 白垩纪 南岭东段 

分 类 号：P588.121[天文地球—岩石学] P618.79[天文地球—地质学]