REE geochemical characteristics of the No. 302 uranium deposit in northern Guangdong, South China 被引量：9

REE geochemical characteristics of the No. 302 uranium deposit in northern Guangdong, South China

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摘要 The No. 302 uranium deposit, located in Guangdong Province, is a typical granite-type uranium ore deposit. REE geochemical characteristics of the wall rocks, pitchblende, altered rocks, calcite and fluorite from this deposit have been systematically studied in this paper. The result showed that the alkali-metasomatic granites and other altered rocks have the same REE distribution patterns as Indosinian granites. It is indicated that the hydrothermal ore-forming solution had altered the Indosinian granites, and ore-forming materials may directly originate from the Indosinian granites. Calcite and fluorite of different stages are the products derived from the same source but different stages. The evolution and degassing of the mineralizing solution might induce LREE enrichment to varying degree. Mantle fluid and a large volume of mineralizer may be the crucial factors controlling uranium mineralization, and the hydrothermal solution with mineralizer played an important role in U transport and concentration. Meanwhile, the degassing of CO2 might promote U and REE precipitation. The No. 302 uranium deposit, located in Guangdong Province, is a typical granite-type uranium ore deposit REE geochemical characteristics of the wall rocks, pitchblende, altered rocks, calcite and fluorite from this deposit have been systematically studied in this paper. The result showed that the alkali-metasomatic granites and other altered rocks have the same REE distribution patterns as Indosinian granites. It is indicated that the hydrothermal ore-forming solution had altered the Indosinian granites, and ore-forming materials may directly originate from the Indosinian granites. Calcite and fluorite of different stages are the products derived from the same source but different stages. The evolution and degassing of the mineralizing solution might induce LREE enrichment to varying degree. Mantle fluid and a large volume of mineralizer may be the crucial factors controlling uranium mineralization, and the hydrothermal solution with mineralizer played an important role in U transport and concentration. Meanwhile, the degassing of CO2 might promote U and REE precipitation.

作者 ZHANG Guoquan HU Ruizhong BI Xianwu FENG Haisheng SHANG Pengqiang TIAN Jianji

机构地区 State Key Laboratory of Ore Deposit Geochemistry Institute of Geochemistry Chinese Academy of Sciences Guiyang Graduate School of the Chinese Academy of Sciences China National Nuclear Shaoguan Jingyuan Uranium Industry Co.

出处《Chinese Journal Of Geochemistry》 EI CAS 2007年第4期425-433,共9页 中国地球化学学报

基金 This work was funded jointly by the Important Research 0rientation Project under the Knowledge Innovation Program sponsored by the Chinese Academy of Sciences(Grant No.KZCX3-SW-125) the National 0utstanding Young Scientists Science Foundation of China(Grant No.49925309).

关键词铀堆积物花岗岩矿石 No. 302 uranium deposit granite-type uranium deposit REE ore-forming hydrothermal fluid South China.

分类号 P5 [天文地球—地质学]

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