Stewardson湖铀项目(加拿大阿萨巴斯卡盆地)综合地质和地球化学方法及学术-工业合作的勘探进展

IF 1.1 4区 地球科学 Q3 MINERALOGY
S. Beyer, P. Stewart, L. Lahusen, K. Kyser, L. Bzdel
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引用次数: 0

摘要

Kurt Kyser对理解流体在加拿大和澳大利亚与不整合相关的U矿床的形成以及这些矿床的勘探中所起的作用做出了重大贡献。Kurt的勘探研究是与行业合作的,可以说,Kurt发展的许多行业合作关系中最富有成效的是与初级勘探公司Uravan Minerals的合作。与Uravan合作进行了十年的铀矿床和勘探地球化学研究,包括开发创新的多介质表面采样和分析方法,最终在加拿大元古界阿萨巴斯卡盆地的Stewardson湖铀勘探项目中达到顶峰。在Stewardson湖收集的土壤粘土分离物、松树和云杉树芯和植被,以及冰川搬运的砂岩巨石,记录了207Pb/206Pb的比值低至0.18,表明元古界铀矿床中铀的放射性衰变,以及Stewardson湖地两个名为a区和B区的探路元素(如Ni和Co)升高。A区和B区的四个金刚石钻孔测试了由异常地表介质地球化学组成的目标,这些目标与使用地球物理方法确定的导电寄主岩石一致。A区的两个钻孔并没有解释有利的靶向特征,在那里,只有上升的U、放射成因Pb和探路元素的狭窄间隔或可能伴随阿萨巴斯卡U矿床的结构破坏相交。B区的两个钻孔与基底主砂岩中特征性绿泥石+赤铁矿+伊利石蚀变和U浓度>1ppm(王水)的广阔区域相交。B区的一个钻孔与一个约30米厚的热液蚀变带相交,该热液蚀蚀变带由硅化、绿泥石+高岭石粘土蚀变、烟熏石英、镍-铁硫化物和浸染型铀矿组成,并伴有较高的伽马计数率。B区主砂岩中的裂缝记录了最高的探路者浓度和最具放射性的Pb同位素比率,很可能是蚀变相关成分二次分散到地表的管道。这些结果验证了经过十年的合作应用研究开发的Uravan/QFIR勘探模型,并证实Stewardson湖地区极有可能存在与不整合相关的U矿化。最后,将Stewardson湖地区的粘土蚀变矿物学与阿萨巴斯卡盆地东部的粘土蚀改矿物学进行了对比,并讨论了有益于Uravan Minerals和Kurt女王同位素研究实验室的产学关系的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploration Advancement of the Stewardson Lake Uranium Project (Athabasca Basin, Canada) Using an Integrated Geological and Geochemical Methodology and Academic–Industry Collaboration
Kurt Kyser contributed significantly to understanding the role that fluids play in the formation of unconformity-related U deposits in Canada and Australia and also in the exploration for these deposits. Kurt's exploration research was collaborative with industry, and arguably the most productive of the many industry-collaborative relationships Kurt developed was with Uravan Minerals, a junior exploration company. Ten years of collaborative U-deposit and exploration geochemical research with Uravan, including development of innovative multi-media surface sampling and analytical methods, culminated with the Stewardson Lake uranium exploration project in the Proterozoic Athabasca Basin, Canada. Soil clay separates, pine and spruce tree cores and vegetation, and glacially transported sandstone boulders collected at Stewardson Lake record 207Pb/206Pb ratios as low as 0.18, indicative of radioactive decay of U in a Proterozoic-aged U deposit, and elevated pathfinder elements such as Ni and Co in two areas of the Stewardson Lake property named Areas A and B. Four diamond drill holes in Areas A and B tested targets consisting of anomalous surface-media geochemistry coincident with conductive host rocks determined using geophysical methods. The favorable targeting characteristics were not explained by two of the drill holes in Area A, where only narrow intervals of elevated U, radiogenic Pb, and pathfinder elements or structural disruption that can accompany Athabasca U deposits were intersected. Two drill holes in Area B intersected a broad zone of characteristic chlorite + hematite + illite alteration and U concentrations >1 ppm (aqua regia) in the basal host sandstone. One drill hole in Area B intersected a ∼30-meter-thick hydrothermal alteration zone consisting of silicification, chlorite + kaolinite clay alteration, smoky quartz, Ni-Fe sulfides, and disseminated uraninite accompanied by elevated gamma count rates. Fractures in the host sandstone in Area B record the highest pathfinder concentrations and the most radiogenic Pb isotope ratios and were likely a conduit for secondary dispersion of alteration-related components to the surface. The results validate the Uravan/QFIR exploration model developed over a decade of collaborative applied research and confirm that the Stewardson Lake area is highly prospective to host unconformity-related U mineralization. Lastly, clay alteration mineralogy in the Stewardson Lake area is contrasted with that in the eastern Athabasca Basin, and the value of the industry–academic relationship that benefited both Uravan Minerals and Kurt's Queen's Facility for Isotope Research laboratory is discussed.
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来源期刊
Canadian Mineralogist
Canadian Mineralogist 地学-矿物学
CiteScore
2.20
自引率
22.20%
发文量
45
审稿时长
4-8 weeks
期刊介绍: Since 1962, The Canadian Mineralogist has published papers dealing with all aspects of mineralogy, crystallography, petrology, economic geology, geochemistry, and applied mineralogy.
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