Paleoredox conditions, hydrothermal history, and target vectoring in the MacMillan Pass base-metal district, Yukon, Canada: 1 – Lithogeochemistry of proximal and distal shales

The Canadian Mineralogist Pub Date : 2021-09-01 DOI:10.3749/canmin.2000075

C. Leighton, M. Leybourne, D. Layton-Matthews, J. Peter, M. Gadd, A. Voinot

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Abstract

The MacMillan Pass District in Yukon, Canada, hosts the Tom and Jason clastic sediment-hosted Zn-Pb-Ag-(Ba) deposits. Bulk geochemical paleoredox proxies (Eu/Eu*, Ce/Ce*, Mo, Re/Mo, and Ni/Co) indicate anoxic–dysoxic water column and sulfidic porewater conditions persisted during the Late Devonian deposition of the Lower Earn Group host rocks. Positive Eu/Eu* anomalies (up to 3.31) in sulfide mineralization at the Tom deposit are consistent with relatively high temperature (probably >250 °C), reducing, acidic hydrothermal fluids that infiltrated laterally through unconsolidated sediments proximal to the hydrothermal upflow zone and/or exhaled at the seafloor as moderate- to high-density brines. Molybdenum and U enrichment factors (relative to upper continental crust) and Mo/organic C values are consistent with a moderately restricted basin; Mo/C values fall between those of the Black Sea (highly restricted) and the Framvaren Inlet (moderately restricted). A Ba-rich shale was identified in rocks that are distal and time-equivalent units to the Pb-Zn mineralization; based on the bulk chemical compositions and on previous S and Sr isotope studies, we interpret the baryte in this unit to be largely hydrothermal in origin and perhaps remobilized and reprecipitated during hydrothermal base-metal mineralization.

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加拿大育空MacMillan Pass贱金属区古氧化还原条件、热液史及目标向量:1 -近端和远端页岩岩石地球化学特征

加拿大育空地区的麦克米伦山口(MacMillan Pass)地区拥有汤姆(Tom)和杰森(Jason)碎屑沉积型锌铅银(Ba)矿床。大量地球化学古氧化还原指标(Eu/Eu*、Ce/Ce*、Mo、Re/Mo和Ni/Co)表明，晚泥盆世下奥尼群寄主岩沉积过程中存在缺氧-缺氧水柱和硫化物孔隙水条件。Tom矿床硫化物矿化的Eu/Eu*正异常(高达3.31)与相对较高的温度(可能为bb0 - 250°C)相一致，酸性热液通过热液上升带附近的松散沉积物横向渗透和/或在海底以中等至高密度盐水的形式呼出。钼、铀富集因子(相对于上陆壳)和Mo/有机C值与中度局限盆地相一致;Mo/C值介于黑海(高度限制)和Framvaren入口(中度限制)之间。在铅锌矿化的远端和时间等效单元中发现了富ba页岩;根据样品化学组成和前人的S、Sr同位素研究，我们认为该单元重晶石主要为热液成因，可能在热液基础金属成矿过程中被再活化、再沉淀。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Canadian Mineralogist

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