Mineralogical characteristics,formation processes,and prospecting potential of Early-Middle Triassic lithium-rich claystone in the Sichuan Basin,South ChinaOA
Early to middle Triassic sedimentary units within the Sichuan Basin of southwest China contain extensive occurrences of lithium(Li)-rich clay layers(the so-called“Green bean rock”,or GBR)that have significant economic potential as a result of their substantial scale.However,a comprehensive understanding of the genesis and processes involved in the formation of these clay layers remains elusive.This study presents the results of a systematic investigation of three typical Li-rich clay profiles within the basin,using X-ray diffraction(XRD)and scanning electron microscopy(SEM)for mineralogical characterization and analysis.The presence of micron-scale primary high-temperature quartz and iron microspherules suggests that these Li-rich clay deposits have a volcanic origin.XRD analysis indicates that bulk rock samples of GBR are predominantly composed of quartz,clay minerals,and either calcite or gypsum,with the clay mineral assemblage dominated by illite and/or illite/smectite(I/S).Specifically,the GBR of the northeastern Sichuan Basin has a higher level of illitization compared to its southern counterpart,representing differences in sedimentary facies that are also found in other Li environments such as the Li deposits of Nevada.The northeastern GBR contains gypsum and clay minerals,whereas the southern counterpart consists mainly of carbonate lithologies with minor amounts of clay.This indicates that the sedimentological controls on the formation of clay mineral assemblages also influence the formation of clay-type Li deposits and Li enrichment processes.The composition of the clay components is indicative of probable derivation from smectite during diagenesis after originally being generated by the submarine modifications of volcanic materials.The later formation of I/S formation was also most likely the result of the illitization of volcanogenic smectite.The widespread presence of clay-type Li deposits indicates extensive eruptions of volcanic ash during Early to Middle Triassic volcanic events.The Li trapped within the illite and I/S is thought to have been sourced from volcanogenic materials via transportation in a composite fluid comprising meteoric,porewater,and hydrothermal fluids.These economically significant Li-rich clay minerals,found within a marine basin,represent a promising target for lithium exploration as a result of the extractable metal content.This research provides new insights into the processes involved in the formation mechanisms of clay-type lithium deposits and discusses the prospecting potential of volcanic clay-type Li deposits in the Sichuan Basin,contributing to the critical assessment of the Li resources needed for the energy transition and sustainable energy initiatives.
Rui Su;Zhen-dong Wang;Wen-hui Huang;Xian-hua Hou;Simon M.Jowitt;Simon A.T.Redfern;Chun-liang Gao;Yong-jie Lin
School of Energy Resources,China University of Geosciences(Beijing),Beijing 100083,China MNR Key Laboratory of Saline Lake Resources and Environments,Institute of Mineral Resources,Chinese Academy of Geological Sciences,Beijing 100037,ChinaQinghai Provincial Geological Survey Bureau,Technology Innovation Center for Exploration and Exploitation of Strategic Mineral Resources in Plateau Desert Region,Ministry of Natural Resources,Xining 810000,ChinaSchool of Energy Resources,China University of Geosciences(Beijing),Beijing 100083,ChinaMNR Key Laboratory of Saline Lake Resources and Environments,Institute of Mineral Resources,Chinese Academy of Geological Sciences,Beijing 100037,China Technology Innovation Center for Exploration and Exploitation of Strategic Mineral Resources in Plateau Desert Region,China Geological Survey,Ministry of Natural Resources,Xining 810000,ChinaRalph J.Roberts Center for Research in Economic Geology,Nevada Bureau of Mines and Geology,University of Nevada,Reno 89557,USAAsian School of the Environment and School of Materials Science and Engineering,Nanyang Technological University,50 Nanyang 21 Avenue,Singapore 639798,SingaporeKey Laboratory of Comprehensive and Highly Efficient Utilization of Salt Lake Resources,Qinghai Institute of Salt Lakes,Chinese Academy of Sciences,Xining 810008,ChinaMNR Key Laboratory of Saline Lake Resources and Environments,Institute of Mineral Resources,Chinese Academy of Geological Sciences,Beijing 100037,China
天文与地球科学
Clay-type lithium depositVolcanic-type lithium depositLi-rich clayVolcanic originQuartz-calcite-gypsumIllite-smectiteEarly-Middle TriassicSichuan BasinMineral exploration engineering
《China Geology》 2026 (2)
P.257-274,18
supported by the National Natural Science Foundation of China(42102115)the State Public-interest Scientific Institution Basic Research Fund(JKYQN202329)the project of the Innovation Center of the Ministry of Natural Resources(KFKT20230103).
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