Composition and formation conditions of noble metal ores of the Koykar-Svyatnavolok sill (Republic of Karelia)

Pub Date : 2023-01-01 DOI:10.21638/spbu07.2023.203
S. V. Petrov, Aleksey P. Borozdin, Ivan L. Oleynik, Irina P. Tarasova, I. Kotova, S. Kotov, Yuliya S. Shelukhina, Olga S. Kolusheva
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Abstract

The Viksha iron ore deposit is confined to the Koykarsko-Sviatnavolok sill, where as a part of ore bodies, in addition to the main components - iron and titanium, it contains gold, platinum, and palladium. The purpose of this publication is to determine the type and patterns of noble metal mineralization in gabbro-dolerites of the Koykar-Svyatnavolok sill, to consider the mechanisms of accumulation and localization of precious metals in ore bodies. The repeated occurrence in the section of the intrusion of an association of two rock varieties of contrasting composition (high-iron - titanomagnetite gabbro-dolerites, and high-siliceous - granophyres), as well as the revealed petrographic, petrochemical and geochemical regularities, allow us to consider liquid stratification of magmatic melt as a mechanism for the formation of ore titanomagnetite horizons ( segregation). This liquid immiscibility led to the accumulation of noble metals in the high-iron fluidized liquate in accordance with distribution coefficients of nobel metals between silicate and oxide melts and between melt and fluid. The confinement of noble metal mineralization to sulfide, cobaltite-bornite-chalcopyrite accumulations in ore titanomagnetite horizons has been established, which corresponds to the low-sulfide noble metal type of mineralization. Precious metal mineralization is represented by both native mineral forms (arsenides, sulfoarsenides, antimonides and intermetallides of platinum group metals, gold and silver tellurides, electrum, native gold) and isomorphic impurities in bornite and cobaltite. The relationship between the formation of minerals bearing noble metals and the process of chloritization against the background of the transformation of protolith titanomagnetite is shown. A model for the concentration of precious metals from basaltoid melt in several stages is proposed: enrichment of fluidized high-iron ore liquat with precious metals; their accumulation in the residual fluid and in the sulfide liquid during the crystallization of ore liquat; their partial entry into the hydrothermal solution during fluid cooling and hydrothermal metasomatism of earlier crystals. The localization of noble metals occurred as the residual fluid cooled, due to the destruction of complex chloride and sulfide compounds with noble and non-ferrous metals and the crystallization of sulfide-precious metal paragenesis within the ore horizons.
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卡累利阿共和国Koykar-Svyatnavolok岩的贵金属矿石组成及形成条件
Viksha铁矿床局限于Koykarsko-Sviatnavolok,作为矿体的一部分,除了主要成分-铁和钛外,还含有金,铂和钯。本文的目的是确定科伊卡尔—斯维亚特纳沃洛克岩辉长白云岩中贵金属成矿的类型和模式,探讨贵金属在矿体中的富集和局部化机制。高铁-钛磁铁矿辉长白云岩和高硅质-花岗岩体这两种岩石组合在侵入剖面上的反复出现,以及所揭示的岩石学、石油化学和地球化学规律,使我们认为岩浆熔体的液体分层是矿钛磁铁矿层位形成的机制(偏析)。根据硅酸盐与氧化物熔体之间以及熔体与流体之间的诺贝尔金属分布系数,这种液体不混溶导致了贵金属在高铁流化液中的富集。确立了钛磁铁矿层位中贵金属矿化局限于硫化物、钴-硼-黄铜矿聚集,属于低硫化物类型的贵金属矿化。贵金属矿化表现为原生矿物形式(砷化物、硫砷化物、锑化物和铂族金属的金属间化物、碲化金和碲化银、铜、原生金)和硼铁矿和钴矿中的同形杂质。以原岩型钛磁铁矿转化为背景,揭示了含贵金属矿物的形成与绿泥化过程的关系。提出了玄武岩熔体中贵金属富集的几个阶段模型:流态化高铁矿液富集贵金属;它们在矿液结晶过程中富集于残液和硫化液中;它们在流体冷却和早期晶体热液交代过程中部分进入热液溶液。由于与贵金属和有色金属的络合氯化物和硫化物化合物的破坏以及矿石层内硫化物-贵金属共生的结晶,贵金属的局部化发生在残余流体冷却时。
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