Fluid inclusion LA-ICP-MS constraint on hydrothermal evolution of proximal cassiterite-bearing quartz veins in the giant Gejiu orefield: Implications for controls on metallogenic potential of granite-related skarn system

IF 3.4 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Geochemical Exploration Pub Date : 2024-10-30 DOI:10.1016/j.gexplo.2024.107616
Zhi-Lin Cheng , Pei Ni , Jun-Yi Pan , Liang Han , Wen-Sheng Li , Stefano Albanese , Zhe Chi , Jun-Ying Ding , Jian-Ming Cui
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Abstract

Sn and Cu are proposed to have their mineralization potential predetermined by their contents in initial fluids of granite-related magmatic-hydrothermal systems. However, it remains ambiguous whether the giant Sn-mineralized skarn system is applicable, and whether the Sn-Cu association in some deposits is predominantly determined by their initial metal contents. The Gejiu orefield is one of the most essential Sn-polymetallic districts worldwide, with proven resources of 3.27 million tons of tin, 3.25 million tons of copper, 4.29 million tons of lead and zinc, and >20 other metals with economic significance. Sn-polymetallic mineralization at Gejiu constitutes a composite skarn ore system that includes proximal skarn and related cassiterite-sulfide, greisen, and tourmaline-vein types. The Laochang Sn-polymetallic deposit hosts several largest skarn and cassiterite-sulfide orebodies in the eastern part of Gejiu. Recent exploitation at Laochang discovered Sn-mineralized quartz veins hosted in the concealed granite, providing a valuable opportunity to characterize the proximal magmatic-hydrothermal process of the mineralizing granitic system. Here, fluid inclusion analysis is carried out on these veins to discuss the fluid evolution, cassiterite precipitation mechanism and whether metal content in early proximal magmatic fluids determines the metal association and endowment in the deposit.
Based on the paragenesis of ore and gangue minerals, three hydrothermal stages are distinguished, including quartz-tourmaline stage (Stage I), cassiterite-arsenopyrite-quartz stage (Stage II) and late sulfide stage (Stage III). Fluid evolution controlling vein formation is constrained by microthermometry and LA-ICP-MS analysis of four fluid inclusions generations successively entrapped in quartz and cassiterite. The fluids involved during vein formation show an interplay between single-sourced magmatic fluids and meteoric water. The intermediate-density single phase fluid recorded at stage I quartz is derived from initial fluids directly exsolving from granitic magma. At stage II, fluid immiscibility occurred and the separated brines were entrapped in quartz and early-formed cassiterite. Along with cassiterite precipitation, brines were mixed with low-salinity and cooler meteoric water, leading to entrapment of low-salinity aqueous fluid in outer growth zones of cassiterite at stage II. The constructed fluid evolution history suggests that fluid immiscibility may have facilitated the nucleation of cassiterite crystals at the onset of deposition while mixing of magmatic fluid with meteoric water likely dominate later cassiterite mineralization.
Compared with the fluid dataset of barren and mineralized granitic systems worldwide, pre-ore fluids of the studied quartz veins are enriched in Sn, confirming that high Sn content in the initial magmatic fluid can serve as indicator to distinguish mineralized system. In contrast, although Cu mineralization is economically important in the Laochang deposit, predicted Cu contents in pre-ore proximal magmatic fluids are as low as those obtained from Cu-barren system. This implies introduction of Cu into the hydrothermal system from other sources.
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流体包裹体LA-ICP-MS对巨型地九矿区近端含锡石石英脉热液演化的约束:对控制花岗岩相关矽卡岩系统成矿潜力的启示
有人提出,在与花岗岩有关的岩浆-热液系统中,锡和铜的成矿潜力取决于它们在初始流体中的含量。然而,巨型锡矿化矽卡岩系统是否适用,以及某些矿床中的锡铜关联是否主要由其初始金属含量决定,这些问题仍不明确。地九矿区是世界上最重要的锡多金属区之一,已探明的资源量包括锡 327 万吨、铜 325 万吨、铅锌 429 万吨,以及其他 20 种具有经济意义的金属。地久的锡多金属矿化构成了一个复合矽卡岩矿石系统,包括近矽卡岩和相关的锡石-硫化物、绿泥石和电气石-脉类型。老厂锰多金属矿床是地九东部几个最大的矽卡岩和锡石硫化物矿体的所在地。最近在老场的开采中发现了隐伏在花岗岩中的锡矿化石英脉,这为描述成矿花岗岩系统的近端岩浆-热液过程提供了宝贵的机会。本文对这些矿脉进行了流体包裹体分析,以探讨流体演化、锡石沉淀机制以及早期近岩浆流体中的金属含量是否决定了矿床中的金属关联和赋存。根据矿石和煤矸石矿物的成因,划分出三个热液阶段,包括石英-电气石阶段(第一阶段)、锡石-砷黄铁矿-石英阶段(第二阶段)和晚期硫化物阶段(第三阶段)。通过对石英和锡石中先后夹带的四代流体包裹体进行微测温和 LA-ICP-MS 分析,确定了控制矿脉形成的流体演化过程。岩脉形成过程中涉及的流体显示了单源岩浆流体和陨水之间的相互作用。在第一阶段石英中记录到的中等密度单相流体来自花岗岩岩浆中直接流出的初始流体。在第二阶段,出现了流体不溶现象,分离出的盐水被夹杂在石英和早期形成的锡石中。随着锡石的析出,盐水与低盐度和较冷的陨石水混合,导致在第二阶段锡石外围生长带夹带低盐度水流。所构建的流体演化历史表明,流体的不溶性可能促进了沉积初期锡石晶体的成核,而岩浆流体与陨石水的混合可能主导了后期锡石的矿化。与全球贫瘠和矿化花岗岩系统的流体数据集相比,所研究的石英脉的矿前流体富含硒,这证实了初始岩浆流体中的高硒含量可以作为区分矿化系统的指标。与此相反,尽管铜矿化在老昌矿床中具有重要的经济价值,但预测的矿前近岩浆流体中的铜含量却与铜荒漠系统中的铜含量一样低。这意味着热液系统中的铜是从其他来源引入的。
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来源期刊
Journal of Geochemical Exploration
Journal of Geochemical Exploration 地学-地球化学与地球物理
CiteScore
7.40
自引率
7.70%
发文量
148
审稿时长
8.1 months
期刊介绍: Journal of Geochemical Exploration is mostly dedicated to publication of original studies in exploration and environmental geochemistry and related topics. Contributions considered of prevalent interest for the journal include researches based on the application of innovative methods to: define the genesis and the evolution of mineral deposits including transfer of elements in large-scale mineralized areas. analyze complex systems at the boundaries between bio-geochemistry, metal transport and mineral accumulation. evaluate effects of historical mining activities on the surface environment. trace pollutant sources and define their fate and transport models in the near-surface and surface environments involving solid, fluid and aerial matrices. assess and quantify natural and technogenic radioactivity in the environment. determine geochemical anomalies and set baseline reference values using compositional data analysis, multivariate statistics and geo-spatial analysis. assess the impacts of anthropogenic contamination on ecosystems and human health at local and regional scale to prioritize and classify risks through deterministic and stochastic approaches. Papers dedicated to the presentation of newly developed methods in analytical geochemistry to be applied in the field or in laboratory are also within the topics of interest for the journal.
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