Association of Siderite with Iron Sulfides and Silicates in Rocks of the Mikheevskoe Cu(Mo,Au) Porphyry Deposit (Southern Urals)

Association of Siderite with Iron Sulfides and Silicates in Rocks of the Mikheevskoe Cu(Mo,Au) Porphyry Deposit (Southern Urals)

The mineral association of siderite with Cu–Fe sulfides, cronstedtite, and goethite were first recognized when studying the Mikheevskoe Cu(Mo,Au)–porphyry deposit. This association is confined to fault zones, where it fills a network of mineralized fractures developed on porphyry- and argillizite-ty...

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Bibliographic Details
Published in:Geology of ore deposits Vol. 65; no. 4; pp. 332 - 345
Main Authors: Pribavkin, S. V., Soroka, E. I., Azovskova, O. B., Smoleva, I. V., Leonova, L. V., Gottman, I. A., Sustavov, S. G., Rovnushkin, M. Yu
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-08-2023
Springer Nature B.V
Subjects:
Carbon 13
Carbon dioxide
Cenozoic
Composition
Concretions
Copper
Crusts
Earth and Environmental Science
Earth Sciences
Fault zones
Fluids
Fractures
Geological history
Goethite
Gold
Hydrothermal activity
Iron
Iron sulfides
Isotopes
Mathematical analysis
Mineral composition
Mineral Resources
Minerals
Molybdenum
Ores
Paleozoic
Siderite
Silicates
Stable isotopes
Sulfides
Surface water
siderite
cronstedtite
O and C isotopes
argillizites
porphyry ores
Mikheevskoe deposit
sulfides
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Summary:The mineral association of siderite with Cu–Fe sulfides, cronstedtite, and goethite were first recognized when studying the Mikheevskoe Cu(Mo,Au)–porphyry deposit. This association is confined to fault zones, where it fills a network of mineralized fractures developed on porphyry- and argillizite-type ores. Minerals of this association were also identified in some argillizite samples of this deposit. The formation conditions of this mineral association and its relation to the evolution of the Late Paleozoic porphyry system or other endogenic–exogenic processes manifested during the subsequent geological history of the study area were studied. The integrated research included microprobe analysis and the measurement of O and C stable isotopes in minerals of the studied association in the “Geoanalitik” (Yekaterinburg) and “Geonauka” (Syktyvkar) Centers for Collective Use. The study of mineral compositions and their relationships indicates that the studied mineral association deposited at temperature of about 70°C from neutral or low-acid solutions with varying , HS – , and aSiO 2 (aq) contents. The measurements of δ 13 C (from –5.5 to –18.2‰) and δ 18 O (from 20.4 to 33.4‰) values in siderite made it possible to calculate the composition of a mineral-forming fluid. It was established that such a fluid has the following parameters: δ 18 O H 2 O from –3 to +10‰ and δ 13 C CO 2 from 15 to –28‰. It could correspond to magmatogenic water fluids mixed with C org -bearing surface water. Based on the obtained results, it is suggested that this mineral association is related to argillizites, the development of which occurred at the last stage of endogenic mineral formation at the Mikheevskoe deposit. Nevertheless, it is not excluded that it may be related with other low- T hydrothermal processes at the stage of Meso-Cenozoic tectonomagmatic activation of the Urals. There is no evidence of the relation of the studied mineral association with weathering crusts.
ISSN:1075-7015
1555-6476
DOI:10.1134/S1075701523040049