Relationship between Uranium Minerals and Pyrite and Its Genetic Significance in the Mianhuakeng Deposit, Northern Guangdong Province

Granite-related uranium ore is an important uranium resource type in China and worldwide. Whether the uranium geochemical theory “U6+ oxidative migration and U4+ reductive precipitation” is applicable to the granite-related uranium mineralization theory has not been determined. Detailed field and pe...

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Published inMinerals (Basel) Vol. 11; no. 1; p. 73
Main Authors Li, Lirong, Wang, Zhengqi, Xu, Deru
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2021
Subjects
Anniversaries
Calcite
Carbonates
Chemical precipitation
Crystal growth
Crystallization
Crystals
Electron microscopy
Energy spectra
Fault lines
Fluids
Fluorite
Gangue
Granite
granite-type uranium ore
Metallogenesis
Mianhuakeng deposit
Mineral assemblages
Mineralization
Minerals
Ores
Oxidoreductions
precipitation mineralization mechanism
Pyrite
Quartz
Redox reactions
Saturation
Scanning electron microscopy
Spectrum analysis
Uranium
uranium mineral
Uranium ores
Veins (geology)
China
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Summary:Granite-related uranium ore is an important uranium resource type in China and worldwide. Whether the uranium geochemical theory “U6+ oxidative migration and U4+ reductive precipitation” is applicable to the granite-related uranium mineralization theory has not been determined. Detailed field and petrographic work, as well as scanning electron microscopy energy spectrum analysis, are conducted in this study to analyze the relationship between uranium minerals and pyrite from different ore types and evaluate the mechanism for the precipitation and enrichment of uranium in the Mianhuakeng uranium deposit of northern Guangdong. Uranium ore bodies in the Mianhuakeng deposit generally occur as vein-filling or vein-disseminated types. Four different kinds of ores are recognized: fluorite, carbonate, siliceous, and reddening types. Despite differences in the mineral assemblages, veined ores share similar characteristics and show that uranium minerals (1) occur in the central part or periphery of vein-filling ores or in interphase arrangements with syn-ore fluorite, quartz, or calcite veins; (2) occur as veinlets or are disseminated in cataclastic altered granite; (3) are inlaid with gangue minerals, primarily calcite, fluorite, and microcrystalline quartz; and (4) are closely associated with pyrite in aggregates or relatively independent states, forming straight boundaries with syn-ore gangue minerals that have euhedral and intact crystals and show mosaic growth features. All these results indicate that both pyrite and uranium minerals are co-crystallized products of the ore-forming fluid. Combined with previous research suggesting that the reducing fluid was sourced from mantle, this study shows that decreased pressure and temperature, as well as changes in pH and the solubility (saturation) of changes, rather than the redox reaction, caused the uranium precipitation in the Mianhuakeng deposit.
ISSN:2075-163X
2075-163X
DOI:10.3390/min11010073