Fluid regimes, fault-valve behavior and formation of gold-quartz veins — The Morro do Ouro Mine, Ribeira Belt, Brazil
| Autor: | Angela Meira Faleiros, Rosa Maria da Silveira Bello, Ginaldo Ademar da Cruz Campanha, Frederico Meira Faleiros |
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| Rok vydání: | 2014 |
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| Zdroj: | Repositório Institucional da USP (Biblioteca Digital da Produção Intelectual) Universidade de São Paulo (USP) instacron:USP |
| Popis: | Fluid inclusion studies, petrographic analyses and structural analyses for Neoproterozoic auriferous veins from the Morro do Ouro mine, Ribeira Belt, southeastern Brazil, are presented. The deposit is classified as an orogenic gold deposit. The vein-type Au mineralization at the mine is restricted to structurally controlled domains in a low-grade Calymmian (ca. 1500–1450 Ma) metasedimentary sequence that also hosts syngenetic Au mineralization. Two main auriferous quartz vein systems are present: (i) NW-trending subvertical extensional veins and (ii) NE-trending subvertical veins parallel to the axial surface of tight folds. The mineralized veins are adjacent to a major dextral transcurrent fault zone, and their structural relationships indicate that this fault is severely misoriented for frictional reactivation. The NW-trending veins present a fluid inclusion assemblage dominated by CO 2 N 2 CH 4 inclusions, H 2 O CO 2 N 2 CH 4 NaCl CaCl 2 inclusions and H 2 O NaCl CaCl 2 inclusions , both with highly variable salinities (0.5 to 52 wt.% NaCl equivalent), while the NE-trending veins are dominated by H 2 O CO 2 N 2 CH 4 NaCl CaCl 2 and H 2 O NaCl CaCl 2 inclusions also of highly variable salinities (1 to 45 wt.% NaCl equivalent). The entrapment of fluids occurred at temperatures between 225 and 240 °C in the NW-trending veins and at approximately 208 °C in the NE-trending veins, involving processes of fluid immiscibility and mixing between fluids of contrasting compositions. The NW-trending extensional veins were formed predominantly under pressure fluctuating between near-lithostatic and strongly supralithostatic conditions (100–250 MPa) during pre-seismic failure stages. The NE-trending veins precipitated predominantly under subhydrostatic to lithostatic pressure conditions (10–150 MPa), following the discharge of fluids from different reservoirs along the ruptured zone after earthquake rupture stages. The hydrothermal fluids were probably enriched with gold through interactions with the host rocks, and its precipitation is attributed to changes in physicochemical properties due to fluid immiscibility and mixing between fluids of highly contrasting salinities, as a consequence of cyclic fluctuations in the values of fluid pressure and tectonic stresses accompanying episodes of seismogenic fault activity. |
| Databáze: | OpenAIRE |
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