The Tamunier gold deposit in the Northern Ural: Physicochemical formative conditions, ore and fluid sources, genesis

Q4 Earth and Planetary Sciences Litosfera Pub Date : 2019-03-17 DOI:10.24930/1681-9004-2019-19-1-139-147
D. A. Zamiatina, V. V. Murzin
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引用次数: 1

Abstract

Research subject.This research study was aimed at investigating metasomatic minerals and ores in the Tamunier Deposit, which is located in the Northern Urals, at the Eastern side of the Tagil megazone within the Auerbach volcano-plutonic belt.Materials and methods.Well core samples were investigated using a complex of research methods, including optical and electron microscopy, X-ray spectral microanalysis, mineral geothermometry, thermobarogeochemistry (microthermometry, gas chromatography, determination of the salt composition of fluid inclusions in minerals) and isotope geochemistry (isotopes C, O, S, Sr, Pb).Results.A genetic model describing the formation of the Tamunier deposit was developed using the data obtained on its geological structure, mineral composition of metasomatites and ores, fluid formation mode, sources of ore matter and ore-bearing fluid. In the proposed model, the magmatogenic sodium chloride fluid carrying ore components and S is separated from the Auerbach complex at the depth of intrusion. Penetrating to the surface, this fluid interacts with the rocks of volcanic-sedimentary strata, thereby extracting a number of components, including CO2, S and Sr.Conclusion.Despite the presence of sulphide mineralization of hydrothermal-sedimentary genesis in the volcanogenic-sedimentary rock mass, the data obtained has allowed us to refer the gold-sulphide ores under study to magmatogenic-hydrothermal formations. The estimated P-T conditions (t= 100–370ºС andP= 0.4–0.6 kbar) and the shallow depth of the Tamunier field have shown its correspondence to the sub-epithermal level in the model of the porphyry-epithermal ore-magmatic system.
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乌拉尔北部Tamunier金矿:物化成矿条件、矿石及流体来源、成因
研究课题。本研究旨在研究位于乌拉尔北部的Tamunier矿床的交代矿物和矿石,该矿床位于Auerbach火山-深成带内的Tagil地层带东侧。材料和方法。采用光学和电子显微镜、x射线光谱显微分析、矿物地热测量、热压地球化学(显微测温、气相色谱、矿物流体包裹体盐组成测定)和同位素地球化学(同位素C、O、S、Sr、Pb)等综合研究方法对岩心样品进行了研究。利用其地质构造、交代岩和矿石矿物组成、流体形成模式、矿石物质来源和含矿流体等资料,建立了描述Tamunier矿床形成的成因模型。在该模型中,携带矿石组分和S的岩浆源氯化钠流体在侵入深部从Auerbach杂岩中分离出来。该流体渗透到地表后,与火山-沉积地层的岩石相互作用,从而提取出CO2、S和sr等组分。结论:尽管火山-沉积岩体中存在热液-沉积成因的硫化物成矿作用,但所获得的数据使我们能够将所研究的含金矿石归为岩浆-热液成因。估计的P-T条件(t= 100-370ºС, p = 0.4-0.6 kbar)和Tamunier油田的浅深度与斑岩-浅热液矿-岩浆体系模型中的亚浅热液层对应。
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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来源期刊
Litosfera
Litosfera Earth and Planetary Sciences-Geophysics
CiteScore
0.70
自引率
0.00%
发文量
39
审稿时长
12 weeks
期刊最新文献
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