Litcius/Paper detail

Multi-stage magmatism-mineralization and tectonic setting of the North Tugeman granitic pegmatite lithium-beryllium deposit in the middle of Altyn Tagh

Hang Li, HONG Tao, YANG ZhiQuan, LIU ShanKe, WANG XueHai, MA YinCe, NIU Lei, Xing‐Wang Xu, 新疆地质矿产勘查开发局第三地质大队, 库尔勒 841000,No. 3 Geological Party, Xinjiang Bureau of Geology and Mineral Exploration and Development, Korla 841000, China

2022Acta Petrologica Sinica13 citationsDOIOpen Access PDF

Abstract

花岗伟晶岩型稀有金属矿床多阶段成岩成矿是近年来伟晶岩型矿床成因研究的热点与前沿问题。吐格曼北花岗伟晶岩型锂铍矿床是阿尔金中段地区近年来新发现的稀有金属矿床, 一些伟晶岩脉发育并保存复杂的分带及多期多阶段的成岩成矿现象。本文在介绍吐格曼北锂铍伟晶岩中多期多阶段成岩成矿现象的基础上, 选择ρ31伟晶岩脉中包含锡石与锂辉石角砾的白云母钠长花岗岩(20AE43-3)、ρ87伟晶岩脉深部的细晶花岗岩(ZK8702-79.3)与TC87探槽中发育含铌钽铁矿细晶花岗岩(20TC8701-1-1)及其中的含铌钽铁矿-白云母伟晶岩(20TC8701-1-2)开展锆石与铌钽铁矿的LA-ICP-MS测年研究。结果显示: 1) ρ31伟晶岩脉中含锡石与锂辉石角砾的白云母钠长花岗岩锆石U-Pb年龄为436.0±1.1Ma; 2) ρ87伟晶岩脉深部的细晶花岗岩锆石U-Pb年龄为415.4±1.5Ma; 3) ρ87伟晶岩脉TC87探槽中含铌钽铁矿细晶花岗岩及其中铌钽铁矿-白云母伟晶岩的铌钽铁矿U-Pb年龄分别为434.6±2.8Ma与414.7±3.0Ma。综合前人发表的测试分析结果, 本文指出吐格曼北锂铍矿区存在三期成岩成矿作用: 468~454Ma、436~434.6Ma与415.4~414.7Ma。结合区域构造演化与花岗岩发育特征, 我们认为吐格曼北锂铍矿区发育的三期锂铍花岗岩-伟晶岩成岩成矿作用分别形成于阿中地块与阿南地块的后碰撞伸展阶段、阿中地块与阿北地块的碰撞阶段以及阿尔金地块与东昆仑地块的后碰撞伸展阶段。

Topics & Concepts

PegmatiteGeologyGeochemistryMagmatismMineralization (soil science)BerylliumTectonicsLithium (medication)Stage (stratigraphy)PetrologySeismologyPaleontologySoil waterSoil scienceMedicineNuclear physicsPhysicsEndocrinologyGeological and Geochemical AnalysisGeochemistry and Geochronology of Asian Mineral DepositsGeochemistry and Geologic Mapping