Constraints of reducing media on uranium mineralization in the uranium-bearing rock systems of the southern Songliao Basin
Qingshuang Wang, Hu Peng, Chao Liu, Zhongyue Zhang, Yongheng Zhou, Xiaodan Guo, Nan Ju, FU Qiu-Lin, Yan Hao
Abstract
• The abundance of reducing agents is crucial to the variability of uranium mineralization in the Songliao Basin. • Studying the spatial distribution patterns of reducing media can effectively identify favorable areas for mineralization. • Both internal and external reducing media jointly constrain the uranium metallogenesis in the Songliao Basin. The southern Songliao Basin harbors uranium-bearing rock series characterized by two distinct sedimentary environments: humid and arid, each displaying marked variations in the abundance of reducing agents and the spatial distribution of uranium mineralization. This comprehensive study meticulously delves into the petrology, mineralogy, and petrogeochemistry of the Lower Cretaceous Fuxin Formation (humid environment) and the Upper Cretaceous Quantou and Yaojia Formations (arid environment). Within these uranium-rich rock series, uranium minerals predominantly reside within coarse clastic rocks, particularly occupying interstitial spaces between clastic particles and their edges, with minor occurrences within mineral interiors or adsorbed on surfaces. Notably, the Fuxin Formation stands out for its stronger association of uranium minerals with carbonaceous detritus and pyrite. The unusually abundant internal reducing agents, like carbonaceous detritus and pyrite, within the Fuxin Formation’s uranium-bearing rocks, impede the development of interlayer oxidation zones, resulting in uranium mineralization concentrated near basin margins. Conversely, the Quantou and Yaojia Formations exhibit a relative paucity of internal reducing agents, while external sources like coal seams and hydrocarbon reservoirs accumulate centrally within the basin. This configuration promotes the extensive spread of interlayer oxidation zones and uranium mineralization deep into the basin’s interior. In essence, the abundance and spatial distribution of reducing agents determine the extent and pattern of interlayer oxidation zones and uranium mineralization. Both internal and external reducing agents intricately interact to orchestrate the uranium mineralization processes.