| Инд. авторы: | Murzin V.V., Naumov E.A., Azovskova O.B., Varlamov D.A., Rovnushkin M.Y., Pirajno F. |
| Заглавие: | The Vorontsovskoe Au-Hg-As ore deposit (Northern Urals, Russia): Geological setting, ore mineralogy, geochemistry, geochronology and genetic model |
| Библ. ссылка: | Murzin V.V., Naumov E.A., Azovskova O.B., Varlamov D.A., Rovnushkin M.Y., Pirajno F. The Vorontsovskoe Au-Hg-As ore deposit (Northern Urals, Russia): Geological setting, ore mineralogy, geochemistry, geochronology and genetic model // Ore Geology Reviews. - 2017. - Vol.85. - P.271-298. - ISSN 0169-1368. |
| Внешние системы: | DOI: 10.1016/j.oregeorev.2016.10.037; РИНЦ: 31028830; SCOPUS: 2-s2.0-85007352958; WoS: 000401597500014; |
| Реферат: | eng: The large Vorontsovskoe Au-Hg-As deposit in the Urals is located in the exocontact of the Early Devonian Auerbah gabbro-diorite-granodiorite massif, which intrudes volcano-sedimentary rocks. The orebodies are confined to a tectonic contact of calcareous and tuffaceous rocks. They are composed of 6 types of disseminated ores, but the main reserves of gold are associated with the following ore types: gold-pyrite-arsenopyrite in altered tuffaceous rocks, pyrite-realgar ores in limestone breccia with a carbonate-volcanogenic cement, and gold-oxide-clay from regolith with residual gold. Early ore associations have been formed at 450–300 °C, whereas the late ores have been formed at lower temperature of 260–110 °C. We propose a model for the genesis of the Vorontsovskoe deposit based on synchronicity of mineralization with the formation of the Auerbah volcano-plutonic complex. The Ar-Ar age of hydromica from the gold-arsenopyrite association is 391.1 ± 4.9 Ma, which coincides with the age of igneous rocks of the Auerbah complex. The main sources of water and carbon dioxide were composed of the fluid derived from the magma chamber and the metamorphic water equilibrated with carbonate sedimentary rocks. Magmatic fluid dominated during the development of skarns, jasperoids and quartz veins, whereas metamorphic water was dominant during quartz-sericite alteration of volcano-sedimentary rocks and calcareous breccias. The bulk of the sulfur was supplied by a deep magma reservoir, however this source prevailed only during skarn ore formation. The mixing between deep-sourced sulfur and sedimentary or biogenic sulfur was established for other ore types. Gold and other ore components were possibly introduced during the volcanic and intrusive activity and also extracted from host sedimentary rocks. © 2016 Elsevier B.V.
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| Ключевые слова: | ore body; mineralogy; mineralization; mercury (element); gold; geochronology; geochemistry; Devonian; Ores; Tuffaceous rocks; Ore mineralogy; Magmatic fluids; Magma reservoirs; Magma chamber; Lower temperatures; Geological setting; Genetic models; Urals; Volcanic rocks; Sulfur; Sedimentology; Sedimentary rocks; Rocks; Quartz; Pyrites; Ore deposits; Minerals; Metamorphic rocks; Igneous rocks; Gold deposits; Gold; Geochronology; Deposits; Carbon dioxide; Carbon; Volcanoes; Russian Federation; |
| Издано: | 2017 |
| Физ. характеристика: | с.271-298 |