| Инд. авторы: | Murzin V.V., Palyanova G.A., Varlamov D.A., Shanina S.N. |
| Заглавие: | Gold-Bearing Rodingites of the Agardag Ultramafic Massif (South Tuva, Russia) and Problems of Their Genesis |
| Библ. ссылка: | Murzin V.V., Palyanova G.A., Varlamov D.A., Shanina S.N. Gold-Bearing Rodingites of the Agardag Ultramafic Massif (South Tuva, Russia) and Problems of Their Genesis // Geology of Ore Deposits. - 2020. - Vol.62. - Iss. 3. - P.204-224. - ISSN 1075-7015. - EISSN 1555-6476. |
| Идентиф-ры: | DOI: 10.1134/S107570152002004X; WoS: 000552690100002; |
| Реферат: | eng: The limited literature data on gold-bearing albite-pyroxene rodingites are summarized for the Agardag ultramafic massif in southern Tuva. These data are supplemented by new mineralogical, geochemical, thermobarogeochemical, and isotopic-geochemical results in order to reveal the physicochemical mineral formation conditions and sources of ore matter and fluids on gold deposition in rodingites. Rodingites and associated schistose nephritoids are near-fault metasomatites and are confined to a latitudinal tectonic zone in antigorite serpentinites. They formed in two stages. Stage I minerals (pyroxene, albite, etc.) are rodingites and stage II minerals (Na-bearing actinolite, albite, etc.) are nephritoids and veinlets that intersect rodingites. Disseminated sulfides of the Cu-S series (chalcocite, digenite, etc.) and Au minerals (tetraauricupride and electrum) were deposited during both stages. The temperature regime (500-250 degrees C) and low amount of CO2 in fluid (X-CO2 = 0.017-0.025) correspond to the formation conditions of typical bimetasomatic rodingites. The degree of oxidation of gas components in fluids CO2/(CO2 + Sigma reduced gases) increases from rodingites (0.189) to nephritoids (0.299) and antigorite serpentinites (0.738). The O isotopic composition of silicates and calculated O isotopic composition of the fluid during antigorite serpentinization (5.8 to 7.6% delta O-18(fl) and -66 to -69 parts per thousand delta D-fl) correspond to juvenile and magmatic water in contrast to metamorphic water during nephritization and rodingitization (6 to 9.9 parts per thousand delta 18O(fl) and -39 to -46 parts per thousand delta D-fl) with involvement of heavy oxygen that was subjected to the sedimentary cycle. It is suggested that the magmatic ore-bearing fluid (7.3-7.6 wt % NaCl-equiv) separated from gabbroic melts. The oxidized fluid was modified to a reduced fluid during interaction with ultramafic rocks. The mafic and ultramafic rocks were the source of Na, REE, Au, Ag, Cu, and Ni. Deformations with the formation of veins and filling of veinlets are favorable for a high local gold concentration.
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| Ключевые слова: | ALLOY; ORIGIN; MINERALIZATION; ROCKS; MINERALS; SOLID-SOLUTIONS; HYDROGEN ISOTOPE; CHEMICAL-COMPOSITION; AU-CU-AG; thermobarogeochemistry; isotopic geochemistry; stable isotopes; electrum; tetra-auricupride; antigorite; rodingites; nephritoids; serpentinites; Agardag ultramafic massif; MODEL; |
| Издано: | 2020 |
| Физ. хар-ка: | с.204-224 |