Texture and trace element characteristics of quartz in the Dongyuan porphyry W deposit, eastern China

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Liu Yang, Yuanyuan Tian, Quanzhong Li, Jun Yan, Jiancheng Xie
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Abstract

Most W mineralization in the world is genetically related with highly fractionated granites, but little is known about ore-forming fluid evolution of W mineralization associated with weakly fractionated granites. To reveal the ore-forming fluid evolution of W mineralization related to the weakly fractionated granites, a combined study of field and petrographic observations, mineralogical, morphological, and in-situ geochemical data of different-type quartz from Dongyuan porphyry W deposit in the world-class Jiangnan W belt, China, was carried out. The petrographic observation and cathodoluminescence (CL) imaging revealed the quartz in the Dongyuan W deposit can be divided into hydrothermal quartz (Qz1 with core-edge structure, and Qz2 with oscillating zone) in the mineralized alteration zone, and magmatic quartz (Qz3 with inherited core) in granodiorite porphyry. The LA-ICP-MS results of the Dongyuan quartz samples show that Al may enter the quartz structure with trivalent Al3+ instead of Si4+, monovalent alkali metals and bivalent (Ge2+, Sr2+) cations is mainly of charge compensators in quartz, while Ti possibly is in the form of microinclusions of titanium-containing minerals in quartz. The integrated interpretation of the trace element compositions (e.g., Al and Ti contents, Al/Na ratios) and CL texture of quartz indicate high temperature (>400 °C) and uniform Al-rich acidic fluid are conducive to W precipitation of the Dongyuan deposit. Furthermore, trace element compositions (e.g., Ge, Al) and micro-textures of quartz have the potential for distinguishing magmatic and hydrothermal quartz in the Dongyuan W deposit.

中国东部东源斑岩W矿床石英的质地和微量元素特征
世界上大多数W矿化在遗传上与高分理花岗岩有关,但对与弱分理花岗岩有关的W矿化的成矿流体演化却知之甚少。为了揭示与弱分理花岗岩有关的W成矿作用的成矿流体演化过程,我们对中国世界级江南W带东源斑岩W矿床中不同类型石英的野外观察、岩相观察、矿物学、形态学和原位地球化学数据进行了综合研究。通过岩相观察和阴极发光(CL)成像发现,东源W矿床中的石英可分为矿化蚀变带中的热液石英(Qz1,具有核边结构;Qz2,具有振荡带)和花岗斑岩中的岩浆石英(Qz3,具有继承核)。东源石英样品的LA-ICP-MS结果表明,Al可能是以三价Al3+而不是Si4+进入石英结构中,一价碱金属和二价(Ge2+、Sr2+)阳离子主要是石英中的电荷补偿体,而Ti可能是以含钛矿物微包裹体的形式存在于石英中。对石英的微量元素组成(如Al和Ti含量、Al/Na比)和CL纹理的综合解释表明,高温(400 °C)和均匀的富Al酸性流体有利于东源矿床的W沉淀。此外,石英的微量元素组成(如Ge、Al)和微观纹理有可能区分东源W矿床中的岩浆石英和热液石英。
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来源期刊
Solid Earth Sciences
Solid Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
5.00%
发文量
20
审稿时长
103 days
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