加拿大阿萨巴斯卡盆地中西部多金属铀矿床中铀矿化与镍钴砷矿化之间的关系--矿物学、地球化学和流体包裹体研究的制约因素

IF 4.4 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Daniel Ferguson, Guoxiang Chi, Charles Normand, Julien Mercadier, Yumeng Wang, Kelsey McKee, Magdalena Anderson, John Robbins
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引用次数: 0

摘要

新生代阿萨巴斯卡盆地中的非地层相关铀(URU)矿床是世界上最重要的铀资源之一。这类铀矿床可分为单金属(铀)和多金属(铀-镍-钴-砷)亚型。人们普遍认为,铀-镍-钴-砷矿床是由含铀和/或镍-钴-砷的氧化性基底盐水与还原性基底流体或岩性反应形成的,但多金属矿床是由铀-镍-钴-砷共同富集形成的,还是由单独的镍-钴-砷成矿事件叠加铀富集形成的,则存在争议。本研究通过对中西部铀-镍-钴-砷矿床进行矿物学、地球化学和流体包裹体调查,解决了这一问题。岩相学研究表明,矿石沉淀序列从铀矿石开始,然后是镍钴砷化物和硫砷化物,最后是铜铅铁硫化物,这一序列呈偶发性重复。这一观察结果表明,该矿床不是由两个独立的铀和镍-钴-砷成矿事件形成的,而是由多个铀-镍-钴-砷成矿事件形成的。最原始铀矿石 U1 的化学年龄和 Si-Ca-Fe 含量之间的线性相关关系表明,最大原生矿化时间约为 1600 Ma,这与阿萨巴斯卡盆地推断的原生铀矿化年龄一致。对同矿化岩浆石英中的流体包裹体进行的微测温和激光烧蚀电感耦合等离子体质谱(LA-ICP-MS)分析表明,成矿流体的成分以 H2O-NaCl-CaCl2-KCl-MgCl2 系统为特征,与单金属和多金属铀矿床的成分相当。流体包裹体中铀和镍+钴之间的关系及其与其他铀矿石矿床的比较,支持了铀和镍-钴在统一成矿过程中共同富集的模式。矿石中角砾岩结构的发育和流体包裹体所显示的剧烈流体压力波动表明,该矿床是由与基底断层反复再活化有关的多次流体流动形成的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Relationship between U and Ni-Co-As mineralization in the Midwest polymetallic U deposit, Athabasca Basin (Canada) – constraints from mineralogical, geochemical, and fluid inclusion studies

Relationship between U and Ni-Co-As mineralization in the Midwest polymetallic U deposit, Athabasca Basin (Canada) – constraints from mineralogical, geochemical, and fluid inclusion studies

The unconformity-related uranium (URU) deposits in the Proterozoic Athabasca Basin are one of the most important U resources in the world. This type of U deposit can be divided into monometallic (U) and polymetallic (U-Ni-Co-As) subtypes. While it is generally agreed that the URU deposits formed from reaction between oxidizing, basinal brines carrying U and/or Ni-Co-As with reducing basement fluids or lithologies, it is debatable whether the polymetallic deposits formed from co-enrichment of U-Ni-Co-As or enrichment of U superimposed by a separate Ni-Co-As mineralization event. This study addresses this problem through mineralogical, geochemical and fluid inclusion investigation of the Midwest U-Ni-Co-As deposit. Petrographic studies indicate that the sequence of ore precipitation started with uraninite, followed by Ni-Co arsenides and sulfoarsenides and then Cu-Pb-Fe sulfides, and this sequence was repeated episodically. This observation suggests that the deposit did not form from two separate U and Ni-Co-As mineralization events, but rather multiple episodes of U-Ni-Co-As mineralization. Linear correlations between chemical ages and Si-Ca-Fe contents of the most pristine uraninite U1 suggest a maximum primary mineralization of ca. 1600 Ma, which is consistent with the inferred primary U mineralization age in the Athabasca Basin. Microthermometric and laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) analyses of fluid inclusions in syn-mineralization drusy quartz indicate that the composition of the ore-forming fluids is characterized by the H2O-NaCl-CaCl2-KCl-MgCl2 system and comparable to those from both monometallic and polymetallic URU deposits. The relationship between U and Ni + Co in the fluid inclusions and its comparison with other URU deposits support a model in which U and Ni-Co were co-enriched in a unified mineralization process. The development of breccia structures in the ores and the dramatic fluid pressure fluctuation revealed by fluid inclusions suggest that the deposit formed from multiple episodes of fluid flow related to repeated reactivation of basement-rooted faults.

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来源期刊
Mineralium Deposita
Mineralium Deposita 地学-地球化学与地球物理
CiteScore
11.00
自引率
6.20%
发文量
61
审稿时长
6 months
期刊介绍: The journal Mineralium Deposita introduces new observations, principles, and interpretations from the field of economic geology, including nonmetallic mineral deposits, experimental and applied geochemistry, with emphasis on mineral deposits. It offers short and comprehensive articles, review papers, brief original papers, scientific discussions and news, as well as reports on meetings of importance to mineral research. The emphasis is on high-quality content and form for all articles and on international coverage of subject matter.
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