世界上最大的碳酸盐岩型锌铅矿床的构造和成因:从新疆喀喇昆仑山脉火烧云矿床的矿石特征、Zn-Pb-C-O 同位素和微量元素约束中获得的新见解

IF 8.5 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Qiang Ke , Tao Hong , M. Santosh , Hao Li , Guoliang Zhang , Hang Li , Jianling Wan , Tingbin Fan , Lianhui Dong , Jing Ma , Xing-Wang Xu
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引用次数: 0

摘要

位于中国西北喀喇昆仑地区的火烧云矿床是世界上最大的锌铅碳酸盐矿床。在此,我们根据多代理调查研究了该矿床的成因。该矿床含有锌铅碳酸盐矿物和硫化物矿物,其中铁闪锌矿(Smt)、铈矿(Cer)和硫化物分别占铅锌资源总量的85%、10%和5%。总结了涉及 Smt、Cer 和硫化物矿石的三个成矿阶段。Smt 矿化的特点是脉状、块状和层状 Smt 形成水平沉积层矿石和垂直给矿脉,类似于 SEDEX 型矿床。硫化物和铈矿脉显示出典型的热液特征,并叠加在块状 Smt 矿石上。Smt矿石显示出较高的锂、铍、铬、钇、钡、钕、镱和锆含量,而Cer矿脉则具有极高的锶含量(高达3814-9174 ppm)和较低的锆含量(低于0.01 ppm)。与 Smt 和 Cer 矿石相比,方铅矿和闪锌矿的 Cd 含量更高。Smt 矿石的空间位置不同,形成于喷口处的 Smt 矿石的 δ66Zn 值为 +0.15‰ 至 +0.21‰,形成于喷口附近的块状 Smt 矿石的 δ66Zn 值为 +0.13‰,形成于喷口之外的块状 Smt 矿石的 δ66Zn 值为 0.05‰,所有值均接近于 0。Smt矿石的C-O同位素与蚀变和未蚀变主石灰岩相似,表明石灰岩是碳和氧的潜在来源。脉状 Smt 石英具有岩浆特征,δ18OVSMOW 为 +1.14‰ 至 +2.23‰,铅(115-401 ppm)和锌(390-997 ppm)浓度较高;而与硫化物伴生的石英则具有陨流体特征,δ18OVSMOW 最低(-14‰ 至 -10.7‰),铅(11.6-49.0 ppm)和锌(18.1-72.8 ppm)浓度较低。根据 Smt 和共生石英之间的氧同位素分馏计算出的平衡温度表明,石英的来源是双重的,其中石英来源于水流,而 Smt 的来源可能涉及 CO2 或 HCO3-。最大的矿体(III-1)保留了 1600 万吨的锌储量,是在大约 195 Ma 的地壳与地幔相互作用过程中形成的。最大的矿体(III-1)保留了 1600 万吨的锌储量。流体对流、花岗岩浆驱动的锌富集、火山活动以及泻湖环境中酸雨引起的岩溶蚀变促进了矿石富集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Anatomy and genesis of the world’s largest carbonate-hosted Zn-Pb deposit: New insights from ore characteristics, Zn-Pb-C-O isotopes, and trace element constraints of the Huoshaoyun deposit, Karakorum Range, Xinjiang

Anatomy and genesis of the world’s largest carbonate-hosted Zn-Pb deposit: New insights from ore characteristics, Zn-Pb-C-O isotopes, and trace element constraints of the Huoshaoyun deposit, Karakorum Range, Xinjiang

The Huoshaoyun deposit in the Karakorum area of NW China is the world’s largest zinc-lead carbonate ore deposit. Here we investigate the genesis of the mineralization based on multiproxy investigations. The deposit contains zinc-lead carbonate and sulfide minerals, with smithsonite (Smt), cerussite (Cer), and sulfides accounting for 85%, 10%, and 5% of the total lead and zinc resources, respectively. Three ore-forming stages, involving Smt, Cer, and sulfides ores were summarized. The Smt mineralization is characterized by veined, massive, and stratified Smt forming horizontal sedimentary layered ore and vertical feeder veins similar to the SEDEX-type deposits. The sulfide and Cer veins display typical hydrothermal characteristics and are superimposed on the massive Smt ores. The Smt ores show high Li, Be, Cr, Y, Ba, Nd, Yb, and Zr contents, whereas the Cer veins have extremely high Sr contents (up to 3814–9174 ppm) and low Zr contents (less than 0.01 ppm). Galena and sphalerite show higher Cd concentrations compared to Smt and Cer ores.

The Smt ores differ with different spatial locations, with Smt ores formed at the vent have δ66Zn values of +0.15‰ to +0.21‰, the massive Smt formed close to the vent show a value of +0.13‰, and those formed away from the vent show a value of 0.05‰, all values being close to 0. The sulfides have δ66Zn values of −0.09‰ to +0.04‰. The C-O isotopes of Smt ores are similar to both altered and unaltered host limestone, suggesting that the limestone was a potential source for carbon and oxygen. Quartz with veined Smt shows magmatic signatures with δ18OVSMOW of +1.14‰ to +2.23‰, high Pb (115–401 ppm) and Zn concentrations (390–997 ppm), whereas quartz associated with sulfide has meteoric fluid signature with the lowest δ18OVSMOW (−14‰ to −10.7‰), low Pb (11.6–49.0 ppm) and Zn (18.1–72.8 ppm) concentrations. The temperature of equilibration computed based on oxygen isotope fractionation between Smt and coeval quartz indicate a dual source with that of quartz derived from an aqueous fluid, whereas the source for Smt might involve CO2 or HCO3.

We trace multiple metallogenic stages for this deposit including exhalation, hydrothermal deposition, and fault-controlled sulfide vein formation. The largest orebody (III-1) preserves a 16 Mt reserve of Zn and was formed by crust-mantle interaction at ca. 195 Ma in the early development of the Linjitang post-arc rift system. Fluid convection, zinc enrichment driven by granitic magma, volcanic activity, and karst alteration induced by acid rain in a lagoonal environment promoted ore enrichment.

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来源期刊
Geoscience frontiers
Geoscience frontiers Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
17.80
自引率
3.40%
发文量
147
审稿时长
35 days
期刊介绍: Geoscience Frontiers (GSF) is the Journal of China University of Geosciences (Beijing) and Peking University. It publishes peer-reviewed research articles and reviews in interdisciplinary fields of Earth and Planetary Sciences. GSF covers various research areas including petrology and geochemistry, lithospheric architecture and mantle dynamics, global tectonics, economic geology and fuel exploration, geophysics, stratigraphy and paleontology, environmental and engineering geology, astrogeology, and the nexus of resources-energy-emissions-climate under Sustainable Development Goals. The journal aims to bridge innovative, provocative, and challenging concepts and models in these fields, providing insights on correlations and evolution.
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