相山铀矿田黄铁矿微量元素、硫同位素特征及其地质意义
Received:July 02, 2018  Revised:April 15, 2019  点此下载全文
引用本文:LIU Bin,CHEN WeiFeng,GAO Shuang,FANG QiChun,MAO YuFeng,TANG XiangSheng,YAN YongJie,WEI Xin,ZHAO KuiDong,LING HongFei.2019.Sulfur isotope and trace element geochemical characteristics of pyrite in Xiangshan uranium orefield and its geological significance[J].Mineral Deposits,38(6):1321~1335
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Author NameAffiliationE-mail
LIU Bin State Key Laboratory for Mineral Deposits Research, Nanjing University, Nanjing 210023, Jiangsu, China  
CHEN WeiFeng State Key Laboratory for Mineral Deposits Research, Nanjing University, Nanjing 210023, Jiangsu, China chenwf@nju.edu.cn 
GAO Shuang State Key Laboratory for Mineral Deposits Research, Nanjing University, Nanjing 210023, Jiangsu, China  
FANG QiChun No. 270 Research Institute, CNNC, Nanchang 330200, Jiangxi, China  
MAO YuFeng No. 270 Research Institute, CNNC, Nanchang 330200, Jiangxi, China  
TANG XiangSheng No. 270 Research Institute, CNNC, Nanchang 330200, Jiangxi, China  
YAN YongJie No. 270 Research Institute, CNNC, Nanchang 330200, Jiangxi, China  
WEI Xin No. 270 Research Institute, CNNC, Nanchang 330200, Jiangxi, China  
ZHAO KuiDong State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Wuhan 430074, Hubei, China  
LING HongFei State Key Laboratory for Mineral Deposits Research, Nanjing University, Nanjing 210023, Jiangsu, China  
基金项目:本文得到国家重点研发计划项目(编号:2017YFC0602600)子课题(编号:2017YFC0602601)和核工业地质局科研项目的联合资助
中文摘要:相山铀矿田位于江西省境内的相山火山盆地中,是中国目前最大的火山岩型铀矿田。文章利用电子探针(EPMA)和激光剥蚀多接收电感耦合等离子质谱仪(LA-MC-ICP-MS)技术对矿田内几个典型铀矿床(居隆庵、河元背和沙洲矿床)中矿前期热液蚀变阶段形成的黄铁矿分别进行了微量元素及S同位素组成特征研究。研究结果表明,矿田内铀矿床中黄铁矿的Co/Ni比值主要介于2.00~6.00,支持其为热液成因。黄铁矿的δ34S值总体变化于+0.1‰~+16.2‰,但西部与北部铀矿床之间黄铁矿δ34S值存在显著差异:西部铀矿床(居隆庵、河元背)中黄铁矿δ34S值为+0.1‰~+8.4‰,介于矿田内新元古代基底变质沉积岩δ34S值(+7.9‰~+9.4‰)与壳源岩浆δ34S值(-5.0‰~+5.0‰)之间,暗示S可能来自基底变质沉积岩硫与围岩(流纹英安岩和碎斑熔岩)中硫化物的硫的混合;北部沙洲铀矿床中黄铁矿的δ34S值为+7.5‰~+16.2‰,与蒸发硫酸盐δ34S值相接近,表明硫的来源可能主要与矿田西北侧红盆内硫酸盐的热化学还原(TSR)相关,围岩(花岗斑岩)中的Fe2+在还原过程中发挥了重要作用。同时,热化学还原产生的H2S与围岩中的Fe2+进一步结合形成黄铁矿。铀成矿期含铀热液中的六价U(Ⅵ)与铀成矿前期形成的上述黄铁矿发生氧化还原反应,导致铀沉淀成矿。
中文关键词:地质学  矿前期黄铁矿  LA-MC-ICP-MS  S同位素  铀沉淀  相山铀矿田
 
Sulfur isotope and trace element geochemical characteristics of pyrite in Xiangshan uranium orefield and its geological significance
Abstract:The Xiangshan orefield in Jiangxi Province is the largest volcanic rock-hosted uranium orefield in China. This paper reports trace element content and sulfur isotope compositions of pyrites formed during pre-ore period by hydrothermal fluid in a few representative uranium deposits (Julong'an, Heyuanbei and Shazhou) analyzed by electron microprobe analysis (EPMA) and laser abrasion-inductively coupled plasma spectra (LA-MC-ICP-MS). Co/Ni ratios of pyrites are between 2.00 and 6.00, suggesting hydrothermal origin of these pyrites. δ34S values of pyrites in the Xiangshan orefield vary in a large range, from+0.1‰ to +16.2‰, with significant differences between western and northern uranium deposits. The δ34S values of pyrites in western uranium deposits (Julong'an, Heyuanbei) (+0.1‰~+8.4‰) vary between δ34S values of pyrites in the Neoproterozoic basement metamorphic sedimentary rocks (+7.9‰~+9.4‰) and those of crustal magmatic rocks (-5.0‰~+5.0‰). These data suggest that the sulfur that formed pyrite in these deposits originated from the basement rocks and magmatic wall rocks (cataclastic lava and rhyodacite). δ34S values of pyrites in the northern uranium deposit (Shazhou) (+7.5‰~+16.2‰) indicate that the sulfur of pyrites in this deposit likely originated from sulfate in the red strata. Thermochemical reduction of hydrothermal sulfate by Fe2+ in the surrounding rock (granite porphyry) produced H2S which in turn reacted with remaining Fe2+ to form pyrite. U(VI) in the later uranium-containing hydrothermal fluid reacted with Fe2+ or pyrite in the altered rocks by previous hydrothermal fluids, facilitating uranium precipitation. In conclusion, sulfur of pyrites in the Xiangshan uranium orefield was multi-sourced, and pyrites formed in previous hydrothermal activities served as the major reductant during the uranium reduction and precipitation in the ore-forming hydrothermal fluid.
keywords:geochemistry  pre-ore pyrite  LA-MC-ICP-MS  S isotope  uranium precipitation  Xiangshan uranium orefield
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