An analysis of multivariate uranium metallogenic information and metallogenic prognosis in Linxi-Ulanhot area
En ZHANG1,2, Ming DUAN3, Hui-Xiong LU1,2, Bo FENG1, Qiu-Yi CAO1,2, Yan-Chao YANG1
1. Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002,China 2. Faculty of Earth Sciences, East China Institute of Technology, Nanchang 330170,China 3. Tianjin Center of China Geological Survey, Tianjin 330017,China
Located in the south-central part of Da Hinggan Mountains uranium metallogenic province, Linxi-Ulanhot area is characterized by strong tectonic magmatic activity and favorable geological conditions for uranium mineralization. Limited by such factors as vegetation development and thick cover, it is difficult for the single exploration method to meet the demand of the current deep prospecting. Based on the analysis of ore-forming conditions and ore-controlling factors, the authors constructed a comprehensive volcanic-type uranium ore comprehensive prospecting model by integrating such pieces of multivariate information as airborne radioactivity, aeromagnetic survey, geochemistry and remote sensing. Using spatial analysis function of the geographic information system (GIS), the authors extracted the multivariate prospecting information, carried out quantitative prognosis for uranium ore by evidence weighting method, and selected 16 evidence layers closely related to mineralization. Among them, the Upper Jurassic Manketouebo Formation is the main ore-bearing strata, the Late Jurassic-Early Cretaceous subvolcanic rocks are closely related to ore formation, the ore-controlling effect of NE-NNE trending fracture is significant, and uranium mineralization is mostly developed in the fault-dense zone and the intersection zone. Such anomalies as airborne radioactive anomalies (U high field, F high value halo, U/K high value halo, Hu low value halo), geochemical anomalies (Mo, Ag, Pb, W, Sn) and remote sensing alterations (Iron alteration, hydroxy alteration) play important roles in the indication of volcanic uranium mineralization. According to the posterior probability determined by the evidence weight method, 18 prospective areas were delineated, covering most uranium deposits (ore spots) in the area, indicating that the prediction results are reliable. In seven of them, uranium deposits (ore spots) were found for the first time. All these places have excellent metallogenic geological conditions, rich prospecting clues and good prospecting prospects, and the results obtained by the authors have certain guiding significance for further prospecting.
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En ZHANG, Ming DUAN, Hui-Xiong LU, Bo FENG, Qiu-Yi CAO, Yan-Chao YANG. An analysis of multivariate uranium metallogenic information and metallogenic prognosis in Linxi-Ulanhot area. Geophysical and Geochemical Exploration, 2019, 43(5): 948-957.
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