Pyrite geochemical fingerprinting on skarn ore-forming processes: A case study from the Huangshaping W–Sn–Cu–Pb–Zn deposit in the Nanling Range, South China

IF 3.4 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Geochemical Exploration Pub Date : 2024-04-06 DOI:10.1016/j.gexplo.2024.107474
Lianjie Zhao , Yongjun Shao , Yu Zhang , Liangyu Liu , Shitao Zhang , Hongtao Zhao , Hongbin Li
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Abstract

Pyrite geochemistry has been extensively used to reveal ore-forming processes in diverse ore deposits, but its application in skarn systems is not well understood. The Huangshaping deposit in the Nanling Range (South China) uniquely develops W–Sn–Pb–Zn and Cu–Pb–Zn skarn mineralization systems, and both two systems have formed multi-types of pyrite, which provides a good window to reveal the mineralization histories of different skarn systems using pyrite trace element geochemistry. In the Cu–Pb–Zn system, texturally homogeneous Py1 mainly occurs in calcite veins within the host rock, whereas texturally homogeneous Py2 in the calcite-sulfide stage mainly occurs in skarn orebodies. Py3 in the siderite-sulfide stage replaces Py2 and commonly develops abundant pores or fractures, resembling the “bird's eye” texture. In the W–Sn–Pb–Zn system, Py4 in calcite veins can be divided into the oscillatory-zoned Py4a and irregular Py4b under BSE, and Py4b commonly replaces Py4a as veins or overgrowth. Texturally homogeneous Py5 in the calcite-sulfide stage occurs in skarn orebodies and is replaced by Py6 with a “bird's eye” texture in the siderite-sulfide stage.

In the Cu–Pb–Zn system, Py1 may have formed by fluid cooling during its ascent along the hydraulic fractures indicated by its enrichment of Co, Ni, As, Sb, and Tl, whereas Py2 is likely formed under higher temperature and pH conditions caused by intense fluid-rock interactions evidenced by its depletion of Co, Ni, As, Sb, and Tl as well as its enrichment of Zn and Ag. In the W–Sn–Pb–Zn system, Py4b has higher contents of Co, Ni, As, Sb, and Tl than Py4a and similar contents of Ag, Zn, and Mo with Py4a, suggesting that decreasing temperature may have controlled the formation of Py4b. Py5 is featured by the depletion of As, Sb, Tl, and Mo as well as the enrichment of Zn and Ag, indicating that Py5 is likely formed under higher temperature and pH conditions resulting from the intense fluid-rock interactions. Marcasite replaces pyrrhotite and then is replaced by pyrite may be an important precipitation mechanism for pyrite with a “bird's eye” texture (Py3 and Py6) in both two skarn systems at Huangshaping. This study demonstrates that fluid-rock interaction is an important mechanism for sulfide precipitation at Huangshaping, which shows that pyrite geochemistry has good potential to reveal mineralization histories in skarn systems.

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矽卡岩成矿过程中的黄铁矿地球化学指纹:中国南方南岭黄沙坪钨锡铜铅锌矿床案例研究
黄铁矿地球化学已被广泛用于揭示各种矿床的成矿过程,但其在矽卡岩系统中的应用还不甚明了。南岭(华南)黄沙坪矿床独特地发育了W-Sn-Pb-Zn和Cu-Pb-Zn矽卡岩成矿体系,两个体系都形成了多类型的黄铁矿,这为利用黄铁矿痕量元素地球化学揭示不同矽卡岩体系的成矿历史提供了一个良好的窗口。在铜-铅-锌系统中,质地均一的Py1主要出现在母岩中的方解石脉中,而在方解石-硫化物阶段,质地均一的Py2主要出现在矽卡岩矿体中。菱铁矿-硫化物阶段的Py3取代了Py2,通常会形成丰富的孔隙或裂隙,类似于 "鸟眼 "纹理。在钨-锑-铅-锌系统中,方解石矿脉中的 Py4 在 BSE 下可分为振荡带状的 Py4a 和不规则的 Py4b,Py4b 通常取代 Py4a 成为矿脉或过度生长。在矽卡岩矿体中,方解石-硫化物阶段出现了质地均匀的 Py5,在菱铁矿-硫化物阶段则被具有 "鸟眼 "质地的 Py6 所取代。在铜-铅-锌系统中,Py1 可能是在流体沿水力裂隙上升过程中冷却形成的,这从其富含 Co、Ni、As、Sb 和 Tl 可以看出;而 Py2 可能是在较高温度和 pH 值条件下形成的,这是由强烈的流体-岩石相互作用引起的,这从其 Co、Ni、As、Sb 和 Tl 的贫化以及 Zn 和 Ag 的富集可以看出。在 W-Sn-Pb-Zn 体系中,Py4b 的 Co、Ni、As、Sb 和 Tl 含量高于 Py4a,而 Ag、Zn 和 Mo 的含量与 Py4a 相似,这表明温度的降低可能控制了 Py4b 的形成。Py5的特点是As、Sb、Tl和Mo的含量减少,而Zn和Ag的含量增加,这表明Py5可能是在流体-岩石强烈相互作用所产生的较高温度和pH值条件下形成的。在黄沙坪的两个矽卡岩系统中,麦饭石取代黄铁矿后再被黄铁矿取代可能是具有 "鸟眼 "纹理的黄铁矿(Py3 和 Py6)的重要沉淀机制。这项研究表明,流体-岩石相互作用是黄沙坪硫化物沉淀的重要机制,这说明黄铁矿地球化学在揭示矽卡岩系统成矿历史方面具有良好的潜力。
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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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