Hyper-Enrichment of Lithium, Cesium, and Tantalum in the Yichun Rare Metal Deposit: Understandings and Future Perspectives

Xi Diao; Mingqian Wu; Yixue Gao; Zeyu Yang; Zhuo’er Teng; Kunfeng Qiu

doi:10.1007/s12583-025-2042-z

Journal of Earth Science ›› 2025, Vol. 36 ›› Issue (6) :2807 -2811. DOI: 10.1007/s12583-025-2042-z

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Hyper-Enrichment of Lithium, Cesium, and Tantalum in the Yichun Rare Metal Deposit: Understandings and Future Perspectives

Xi Diao ¹^,²^,³
, Mingqian Wu ¹^,²^,³^,^a
, Yixue Gao ¹
, Zeyu Yang ¹
, Zhuo’er Teng ¹
, Kunfeng Qiu ¹

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Xi Diao, Mingqian Wu, Yixue Gao, Zeyu Yang, Zhuo’er Teng, Kunfeng Qiu. Hyper-Enrichment of Lithium, Cesium, and Tantalum in the Yichun Rare Metal Deposit: Understandings and Future Perspectives. Journal of Earth Science, 2025, 36(6): 2807-2811 DOI:10.1007/s12583-025-2042-z

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References

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[1]	Chen B H, Li P, Liu J N. Metallogenic Regularity of Caesium Deposits in China. Geology in China, 2024, 51(6): 1946-1959(in Chinese with English Abstract)

[2]	Hu S X, Sun M Z, Yan Z F, et al. . An Important Metallogenetic Model for W, Sn and Rare Granitophile Element Ore Deposits Related to Metasomatically Altered Granites. Geology of Granites and Their Metallogenetic Relations International Symposium, 1984, Nanjing. Nanjing University519-537(in Chinese)

[3]	Huang X-E, Xu Z H. Metasomatism of Jiangxi Yashan Granite Body and Metallogenic Relationship between it and Rare Metals. Jiangxi Nonferrous Metals, 2005, 19(4): 1-4. DOI: (in Chinese with English Abstract)

[4]	Huang X L, Wang R C, Chen X M, et al. . Vertical Variations in the Mineralogy of the Yichun Topaz Lepidolite Granite, Jiangxi Province, Southern China. The Canadian Mineralogist, 2002, 40(4): 1047-1068.

[5]	Li J, Huang X L, He P L, et al. . In situ Analyses of Micas in the Yashan Granite, South China: Constraints on Magmatic and Hydrothermal Evolutions of W and Ta-Nb Bearing Granites. Ore Geology Reviews, 2015, 65: 793-810.

[6]	Li J, Huang X L, Wei G J, et al. . Lithium Isotope Fractionation during Magmatic Differentiation and Hydrothermal Processes in Rare-Metal Granites. Geochimica et Cosmochimica Acta, 2018, 240: 64-79.

[7]	Lin D S. Tantalum-Rich Granite Type Deposits in South China, 1996, Beijing. Geological Publishing House(in Chinese with English Abstract)

[8]	Lin Y, Pollard P J, Hu S X, et al. . Geologic and Geochemical Characteristics of the Yichun Ta-Nb-Li Deposit, Jiangxi Province, South China. Economic Geology, 1995, 90(3): 577-585.

[9]	London D. Subsolidus Isothermal Fractional Crystallization. American Mineralogist, 2014, 99(2/3): 543-546.

[10]	Maneta V, Baker D R, Minarik W. Evidence for Lithium-Aluminosilicate Supersaturation of Pegmatite-Forming Melts. Contributions to Mineralogy and Petrology, 2015, 170(1): 4.

[11]	Maneta V, Baker D R. Exploring the Effect of Lithium on Pegmatitic Textures: an Experimental Study. American Mineralogist, 2014, 99(7): 1383-1403.

[12]	McNeil A G, Linnen R L, Flemming R L, et al. . An Experimental Approach to Examine Fluid-Melt Interaction and Mineralization in Rare-Metal Pegmatites. American Mineralogist, 2020, 105(7): 1078-1087.

[13]	Pollard P J. The Yichun Ta-Sn-Li Deposit, South China: Evidence for Extreme Chemical Fractionation in F-Li-P-Rich Magma. Economic Geology, 2021, 116(2): 453-469.

[14]	Schwartz M O. Geochemical Criteria for Distinguishing Magmatic and Metasomatic Albite-Enrichment in Granitoids—Examples from the Ta-Li Granite Yichun (China) and the Sn-W Deposit Tikus (Indonesia). Mineralium Deposita, 1992, 27(2): 101-108.

[15]	Sirbescu M C, Schmidt C, Veksler I V, et al. . Experimental Crystallization of Undercooled Felsic Liquids: Generation of Pegmatitic Texture. Journal of Petrology, 2017, 58(3): 539-568.

[16]	Smirnov S Z, Thomas V G, Kamenetsky V S, et al. . Hydrosilicate Liquids in the System Na₂O-SiO₂-H₂O with NaF, NaCl and Ta: Evaluation of Their Role in Ore and Mineral Formation at High T and P. Petrology, 2012, 20(3): 271-285.

[17]	Wang R C, Hu H, Zhang A C, et al. . Pollucite and the cesium-Dominant Analogue of Polylithionite as Expressions of Extreme Cs Enrichment in the Yichun Topaz Lepidolite Granite, Southern China. The Canadian Mineralogist, 2004, 42(3): 883-896.

[18]	Wu M Q, Diao X, Samson I M, et al. . Role of Metasomatism in Formation of the Yichun Rare-Metal Deposit, China. Ore Geology Reviews, 2024, 174: 106297.

[19]	Wu, M. Q., Samson, I. M., Borst, A. M., et al., 2025. Quartz-Petalite Intergrowths in the Yichun Pegmatite: Formation from Late-Stage Li-Rich Melts and Implications for Li Mineralization in Rare-Metal Granites. American Mineralogist. https://doi.org/10.2138/am-2025-9818

[20]	Wu M Q, Samson I M, Zhang D H. Textural Features and Chemical Evolution in Ta-Nb Oxides: Implications for Deuteric Rare-Metal Mineralization in the Yichun Granite-Marginal Pegmatite, Southeastern China. Economic Geology, 2018, 113(4): 937-960.

[21]	Ye X Y, Li B, Tan D B, et al. . Lithium Isotope Analytical Methods and Implications for Rare-Metal Mineralization in Granite-Pegmatite Systems: An Overview. Journal of Earth Science, 2024, 35(6): 1878-1894.

[22]	Yin R, Huang X L, Wang R C, et al. . Rare-Metal Enrichment and Nb-Ta Fractionation during Magmatic-Hydrothermal Processes in Rare-Metal Granites: Evidence from Zoned Micas from the Yashan Pluton, South China. Journal of Petrology, 2022, 63(10): egac093.

[23]	Zhang B, Qi F Y, Gao X Z, et al. . Geological Characteristics, Metallogenic Regularity, and Research Progress of Lithium Deposits in China. China Geology, 2022, 5: 734-767. DOI:

[24]	Zhang D H, Qiu K F, Xu C, et al. . Snowball Quartz in Highly Fractionated Peraluminous Granites: An Indicator of Multiple Magma Degassing. American Mineralogist, 2025, 110(10): 1574-1596.