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Uranium Deposits of Erlian Basin (China): Role of Carbonaceous Debris Organic Matter and Hydrocarbon Fluids on Uranium Mineralization

Linfei Qiu, Xide Li, Wusheng Liu, Baoqun Hu, Gao Long, He Zhongbo

2021Minerals16 citationsDOIOpen Access PDF

Abstract

The relationship of sedimentary organic matter, oil-gas and sandstone-type uranium (U) deposits is the key problem of U-mineralization. Whether migrate hydrocarbons participate in U-mineralization is still a controversy. Typical U deposits of the Erlian Basin in northeast China have been investigated through detailed petrography, mineralogical, micro spectroscopic, organic geochemical and C-isotope studies. Petrographic observations, Microscopic Laser Raman Spectroscopic, Infrared Spectroscopic and Scanning Electron Microscope analyses indicated there are three types of organic matter (including carbonaceous debris and migrated hydrocarbons). A significant amount of uranium was associated with pyrites, clay minerals and carbonaceous debris organic matter, either coexisted with hydrocarbon fluids. There are at least two stages mineralization events, stage I is related to sedimentary organic matter (syngenetic pre-enrichment stage), and stage II is related to mobile hydrocarbon fluids (main mineralization stage). Therefore, our results support that migrated hydrocarbons were involved as a reducing agent for the main uranium mineralization after synsedimentary mineralization.

Topics & Concepts

Mineralization (soil science)UraniumOrganic matterGeologyGeochemistrySedimentary organic matterPetrographySedimentary rockEnvironmental chemistryMineralogyChemistrySoil scienceSoil waterMaterials scienceOrganic chemistryMetallurgyRadioactive element chemistry and processingGeochemistry and Geologic MappingGeological and Geochemical Analysis
Uranium Deposits of Erlian Basin (China): Role of Carbonaceous Debris Organic Matter and Hydrocarbon Fluids on Uranium Mineralization | Litcius