Abstract

The process controlling the formation of orogenic lode and disseminated gold ores is the basis for understanding the complexity of the orogenic gold system. The mesozonal Yanzigou gold deposit, located in the Danba ore district of the northwestern Yangtze Craton, is hosted by Devonian carbonaceous slate with coexisting fault-hosted lode and strata-bound disseminated gold ores. Three types of pyrite (PyI-q, PyII-q and Pyd) were formed during two stages of hydrothermal evolution. PyII-q in quartz-polymetallic veins and the rims of Pyd in disseminated ores have the highest Au and As contents, contrasting to distal sedimentary pyrite that have low Au and As contents. This implies that the Devonian host sequences are incapable of providing ore elements to the ore fluid. Pyd and associated quartz have intermediate isotopic values (δ34S = -1.7∼+0.8 ‰; δ18OH2O = 10.6 ∼ 12.7 ‰) between the quartz-vein ores (δ34S = 8.5 ∼ 10.7 ‰; δ18OH2O = 9.0 ∼ 10.1 ‰) and wall-rocks (δ34S ≈ −5‰; δ18OH2O ≈ 12 ‰), implicating a critical role of fluid-rock reaction in the formation of the disseminated gold ores and preservation of original ore fluid characteristics in the lode gold ores. The 40Ar/39Ar dating of hydrothermal muscovite from auriferous quartz veins at Yanzigou yields a total fusion age of 118.4 ± 0.4 Ma, later than ∼ 185 Ma for the nearby hypozonal Danba gold deposit. However, both deposits have common geological, geochemical, and isotopic signatures, suggesting a multi-stage orogenic gold mineralization on the Mesozoic dome margins associated with episodic reactivation of metasomatized mantle lithosphere during the continued crustal uplift.

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