Abstract
Lithium (Li) is a critical metal for global development and modern energy. Emerging sediment hosts, which contain karst-type bauxite deposits, afford a potential source of Li resources. Iran has no history in occurrence of bauxite-hosted Li deposits and no investigations have done. Therefore, that leads to the importance of further research and exploration on these deposits. In this investigation, the samples of Jajarm bauxite were analyzed by combination of X-ray diffraction (XRD), petrographic and scanning electron microscopy–energy-dispersive spectroscopy (SEM–EDS), inductively coupled plasma mass spectrometry (ICP-MS), and X-ray fluorescence (XRF) techniques, with the aims to investigate the distribution and enrichment of the Li. The results show that Li concentrations in Jajarm bauxite deposit range from 91 to 1192 ppm. The maximum Li concentrations occur in shaly bauxite samples. Oolitic bauxite mainly consists of diaspore and chamosite, with small amounts of anatase and boehmite. Shaly bauxite dominantly consists of kaolinite, diaspore with small amounts of mica, quartz, and anatase, and kaolinitic bauxite predominantly consists of kaolinite. Kaolinite, diaspore, anatase, and mica minerals were identified by SEM–EDS analysis. Independent Li minerals were not found in mineralogical analysis. The correlation coefficient of Li with other mineralogical and geochemical parameters shows that kaolinite and mica are the most likely host minerals of Li in the studied bauxites. Therefore, Jajarm bauxite deposit, located in northeastern Iran, serves as a bauxite resource and an independent Li resource, making it valuable for development and utilization.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abedini A, Calagari AA (2013) Rare earth elements geochemistry of Sheikh-marut laterite deposit, NW Mahabad, West-Azarbaidjan Province, Iran. Acta Geologica Sinica Eng Ed 87(1):176–185
Abedini A, Calagari AA (2014) REE geochemical characteristics of titanium-rich bauxites: the Permian Kanigorgeh horizon, NW Iran. Turk J Earth Sci 23(5):513–532
Abedini A, Khosravi M (2021) The occurrence of corundum-rich metabauxite in the Qaradash district, NW Iran. Aspects Min Miner Sci 6:707–708
Abedini A, Mehr MH, Khosravi M, Calagari AA (2019) Geochemical characteristics of the karst-type bauxites: an example from the Kanirash deposit, NW Iran. Arab J Geosci 12:1–16
Abedini A, Khosravi M, Mongelli G (2022) The middle Permian pyrophyllite-rich ferruginous bauxite, northwestern Iran, Irano-Himalayan karst belt: constraints on elemental fractionation and provenance. J Geochem Explor 233:106905
Ahmadnejad F, Zamanian H, Taghipour B, Zarasvandi A, Buccione R, Ellahi SS (2017) Mineralogical and geochemical evolution of the Bidgol bauxite deposit, Zagros Mountain Belt, Iran: implications for ore genesis, rare earth elements fractionation and parental affinity. Ore Geol Rev 86:755–783
Alavi M (1996) Tectonostratigraphic synthesis and structural style of the Alborz Mountain system in northern Iran. J Geodyn 21(1):1–33
Amer AM (2008) The hydrometallurgical extraction of lithium from Egyptian montmorillonite-type clay. Jom 60:55–57
Assereto R (1966) The Jurassic Shemshak formation in central Alburz (Iran)
B’ardossy G (1982) Karst bauxites: bauxite deposits on carbonate rocks. Elsevier Science Publishers, Amsterdam, pp 1–441
Bardossy G, Combes PJ (1995) Karst bauxites: interfingering of deposition and palaeoweathering. Palaeoweathering, palaeosurfaces and related continental deposits. Wiley, Hoboken, pp 189–206
Bibienne T, Magnan JF, Rupp A, Laroche N (2020) From mine to mind and mobiles: society’s increasing dependence on lithium. Elements 16(4):265–270
Bowell RJ, Lagos L, de los Hoyos CR, Declercq J (2020) Classification and characteristics of natural lithium resources. Elements 16(4):259–264
Brunet MF, Korotaev MV, Ershov AV, Nikishin AM (2003) The South Caspian Basin: a review of its evolution from subsidence modelling. Sed Geol 156(1–4):119–148
Chen P, Liu B, Wang T, Zhou L, Wang Y, Sun G, Fu Y (2022) Genesis of the Danping bauxite deposit in northern Guizhou, Southwest China: constraints from in-situ elemental and sulfur isotope analyses in pyrite. Ore Geol Rev 148:105056
Chen J (2019) Super-enrichment and mineralization and effective utilization of critical metals. Sci Tech Rev, 37(1)
Dini A, Lattanzi P, Ruggieri G, Trumpy E (2022) Lithium occurrence in Italy—an overview. Minerals 12(8):945
Du Y, Zhou Q, Jin Z, Ling W, Zhang X, Yu J, Wang X, Yu W, Huang X (2013) Research progress on basic geology and mineralization of bauxite in Wuzhengdao area, northern Guizhou. Geol Sci Technol Inf 32:1–6
Economou-Eliopoulos M, Kanellopoulos C (2023) Abundance and genetic significance of lithium in karst-type bauxite deposits: a comparative review. Minerals 13(7):962
Esmaeily D, Rahimpour-Bonab H, Esna-Ashari A, Kananian A (2010) Petrography and geochemistry of the Jajarm bauxite ore deposit, Northeast Iran: implications for source rock material and Ore Genesis. Turk J Earth Sci 19(2):267–284
Fan JJ, Tang GJ, Wei GJ, Wang H, Xu YG, Wang Q, Wang ZL (2020) Lithium isotope fractionation during fluid exsolution: implications for Li mineralization of the Bailongshan pegmatites in the West Kunlun, NW Tibet. Lithos 352:105236
Fürsich FT, Wilmsen M, Seyed-Emami K, Majidifard MR (2009) Lithostratigraphy of the Upper Triassic-Middle Jurassic Shemshak group of Northern Iran. Geol Soc Lond Spec Publ 312(1):129–160
Ghorbani M (2019) Lithostratigraphy of Iran. Springer, Cham, p 296
Gourcerol B, Gloaguen E, Melleton J, Tuduri J, Galiegue X (2019) Re-assessing the European lithium resource potential–A review of hard-rock resources and metallogeny. Ore Geol Rev 109:494–519
Helvacı C, Mordogan H, Çolak M, Gündogan İ (2004) Presence and distribution of lithium in borate deposits and some recent lake waters of west-central Turkey. Int Geol Rev 46(2):177–190. https://doi.org/10.2747/0020-6814.46.2.177
Interior Releases, U. I. (2018) Final list of 35 minerals deemed critical to US national security and the economy
Jin ZG, Liu L, Huang ZL, Liu CS (2019) Occurrence state, enrichment mechanism and resource potential of rare earth, rare metal and rare-scattered elements in ore-bearing rocks in the Wuchuan-Zheng’an-Daozhen bauxite deposit, Guizhou Province. Acta Geol Sin 93(11):2847–2861
Jiu B, Huang W, Mu N (2022) Mineralogy and elemental geochemistry of Permo-Carboniferous Li-enriched coal in the southern Ordos Basin, China: implications for modes of occurrence, controlling factors and sources of Li in coal. Ore Geol Rev 141:104686
Karayigit AI, Bulut Y, Karayigit G, Querol X, Alastuey A, Vassilev S, Vassileva C (2006) Mass balance of major and trace elements in a coal-fired power plant. Energy Sour Part A 28(14):1311–1320
Kesler SE, Gruber PW, Medina PA, Keoleian GA, Everson MP, Wallington TJ (2012) Global lithium resources: relative importance of pegmatite, brine and other deposits. Ore Geol Rev 48:55–69
Khosravi M, Vérard C, Abedini A (2021) Palaeogeographic and geodynamic control on the Iranian karst-type bauxite deposits. Ore Geol Rev 139:104589
Lapparent JD (1930) Les bauxites de la France méridionale. France, Paris, pp 1–187
Li Z, Din J, Xu J, Liao C, Yin F, Lǚ T, Li J (2013) Discovery of the REE minerals in the Wulong-Nanchuan bauxite deposits, Chongqing, China: insights on conditions of formation and processes. J Geochem Explor 133:88–102
Li PG, Wang DH, Zhao Z (2014) Geology, geochemistry and metallogenic regularity of the dazhuyuan bauxite deposit. Science Press, Beijing, pp 1–218 (in Chinese)
Li H, Fan H, Zhang J, Huang Z, Jiang C, Ye L, Wu L (2023) Distribution and enrichment mechanism of critical metals in the Danping bauxite deposit, northern Guizhou (SW China). Ore Geol Rev 161:105670
Lin Y, Ziping P, Zengtao C (2008) The regularities of distribution of associated elements in Xiaoshanba bauxite deposit. Guizhou Acta Mineralogica Sinica 28(2):105–111
Ling KY, Zhu XQ, Tang HS, Du SJ, Gu J (2018) Geology and geochemistry of the Xiaoshanba bauxite deposit, Central Guizhou Province, SW China: Implications for the behavior of trace and rare earth elements. J Geochem Explor 190:170–186
Ling KY, Tang HS, Zhang ZW, Wen HJ (2020) Host minerals of Li–Ga–V–rare earth elements in Carboniferous karstic bauxites in southwest China. Ore Geol Rev 119:103325
Ling K, Wen H, Zhang Q, Luo C, Gu H, Du S, Yu W (2021) Super-enrichment of lithium and niobium in the upper Permian Heshan formation in Pingguo, Guangxi, China. Sci China Earth Sci 64(5):753–772
Liu Y, Zhou W, Cheng G, Cui T, Long H (2016) Study on characteristics of ore-bearing rock series and metallogenic regularity of bauxite in Guizhou. Acta Mineral Sinica 36:289–294
London D (2008) Pegmatites; the Canadian mineralogist: special publication 10; Mineralogical Association of Canada: Quebec, QC, 347
Long Z, Fu Y, He W, Tang B, Long K, Liu Y, Wang T (2021) Geochemical characteristics and enrichment mechanism of Li in Xinmin bauxite deposit. Miner Depos 40:873–890
Mameli P, Mongelli G, Oggiano G, Dinelli E (2007) Geological, geochemical and mineralogical features of some bauxite deposits from Nurra (Western Sardinia, Italy): insights on conditions of formation and parental affinity. Int J Earth Sci 96:887–902
Mao JW, Yang ZX, Xie GQ, Yuan SD, Zhou ZH (2019) Critical minerals: international trends and thinking. Miner Depos 38(4):689–698
McLennan SM (1993) Weathering and global denudation. J Geol 101(2):295–303
Mongelli G, Mameli P, Sinisi R, Buccione R, Oggiano G (2021) Rees and other critical raw materials in Cretaceous Mediterranean-type bauxite: the case of the Sardinian ore (Italy). Ore Geol Rev 139:104559
Nico C, Monteiro T, Graça MP (2016) Niobium oxides and niobates physical properties: review and prospects. Prog Mater Sci 80:1–37
Robert AM, Letouzey J, Kavoosi MA, Sherkati S, Müller C, Vergés J, Aghababaei A (2014) Structural evolution of the Kopeh Dagh fold-and-thrust belt (NE Iran) and interactions with the South Caspian Sea Basin and Amu Darya Basin. Mar Pet Geol 57:68–87
Salamab Ellahi S, Taghipour B, Zarasvandi A, Bird MI, Somarin AK (2016) Mineralogy, geochemistry and stable isotope studies of the Dopolan Bauxite Deposit, Zagros Mountain Iran. Minerals 6(1):11
Salamati R, Shafeii A, Karimi H, Vaziri SH (2001) The regional geological map of 1:1000000, Robat-Gharahbil
Seyed-Emami K, Fürsich FT, Wilmsen M, Cecca F, Majidifard MR, Schairer G, Shekarifard A (2006) Stratigraphy and ammonite fauna of the upper Shemshak Formation (Toarcian–Aalenian) at Tazareh, eastern Alborz Iran. J Asian Earth Sci 28(4–6):259–275
Shamanian GH, Hattori K (2021) Neoproterozoic evolution of northern Gondwana recorded in detrital zircon grains from the Gheshlagh bauxite deposit, Alborz Mountains, Iran Block. Gondwana Res 93:184–196
Shao J, Yang S (2012) Does chemical index of alteration (CIA) reflect silicate weathering and monsoonal climate in the Changjiang River basin. Chin Sci Bull 57:1178–1187
Shaw RA (2021). Global lithium (Li) mines, deposits and occurrences. Keyworth, Nottingham British Geological Survey
Soheili M, Sahandi MR (1999) The regional geological map of 1:1000000, Sankhast
Sun Y, Zhao C, Li Y, Wang J, Liu S (2012) Li distribution and mode of occurrences in Li-bearing coal seam# 6 from the Guanbanwusu Mine, Inner Mongolia, Northern China. Energy Explor Exploit 30(1):109–130
Sun Y, Zhao C, Qin S, Xiao L, Li Z, Lin M (2016) Occurrence of some valuable elements in the unique ‘high-aluminum coals’ from the Jungar coalfield, China. Ore Geol Rev 72:659–668
Sun BD, Liu JP, Wang XH, Dao Y, Xu GX, Cui XZ, Song DH (2019) Geochemical characteristics and genetic type of a lithium ore (mineralized) body in the central Yunnan Province China. China Geol 2(3):287–300
Tabelin CB, Dallas J, Casanova S, Pelech T, Bournival G, Saydam S, Canbulat I (2021) Towards a low-carbon society: a review of lithium resource availability, challenges and innovations in mining, extraction and recycling, and future perspectives. Miner Eng 163:106743
Tang B, Fu Y, Yan S, Chen PW, Cao C, Guo C, Yang Y (2022) The source, host minerals, and enrichment mechanism of lithium in the Xinmin bauxite deposit, northern Guizhou, China: constraints from lithium isotopes. Ore Geol Rev 141:104653
Tao C, Min Z (2021) Characteristics of heavy mineral assemblages in bauxite deposits in northern Guizhou and their geological significance. Chin J Nonferrous Met 31:1106–1119
Tardy Y, Kobilsek B, Paquet H (1991) Mineralogical composition and geographical distribution of African and Brazilian periatlantic laterites. The influence of continental drift and tropical paleoclimates during the past 150 million years and implications for India and Australia. J African Earth Sci 12(1–2):283–295
Teichert Z, Bose M, Williams LB (2020) Lithium isotope compositions of US coals and source rocks: potential tracer of hydrocarbons. Chem Geol 549:119694
Wang D, Li P, Qu W, Yin L, Zhao Z, Lei Z, Wen S (2013) Discovery and preliminary study of the high tungsten and lithium contents in the Dazhuyuan bauxite deposit, Guizhou, China. Sci China Earth Sci 56:145–152
Wen HJ, Luo CG, Du SJ, Yu WX, Gu HN, Ling K, Yang JH (2020) Carbonate-hosted clay-type lithium deposit and its prospecting significance. Chin Sci Bull 65(1):53–59
Yang W, Zhang M, Tao C, Yan J (2022) Comprehensive utilization and sustainable development of bauxite in northern guizhou on a background of carbon neutralization. Sustainability 14(21):14301
Zedef V, Doyen A (2009) Rare earth element (REE) geochemistry and genetic implications of the Mortas-bauxite deposit (Seydis-ehir/Konya–Southern Turkey). Chem Erde 69:143–159
Zhang Y, Zhang J (2019) Study on the occurrence state of lithium in low-grade diasporic bauxite from central Guizhou Province, China. JOM 71(12):4594–4599
Zhang JY, Wang Q, Liu XF, Zhou GF, Xu HP, Zhu YG (2022) Provenance and ore-forming process of Permian lithium-rich bauxite in central Yunnan, SW China. Ore Geol Rev 145:104862
Zhu JC, Li RK, Li FC, Xiong XL, Zhou FY, Huang XL (2001) Topaz–albite granites and rare-metal mineralization in the Limu district, Guangxi Province, southeast China. Miner Deposita 36:393–405
Funding
This research did not receive external funding.
Author information
Authors and Affiliations
Contributions
MN wrote the main manuscript text and other information. All authors reviewed the manuscript.
Corresponding author
Ethics declarations
Conflict of interest
Intellectual property rights (e.g., patents, copyrights, and royalties from such rights). The authors declares that have no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Nikdel, M., Ghoraee Tafti, M. & Nikdel, M. Discovery and primary study of the lithium content in the karst-type bauxite deposit, Jajarm, Iran. Carbonates Evaporites 39, 25 (2024). https://doi.org/10.1007/s13146-024-00941-w
Accepted:
Published:
DOI: https://doi.org/10.1007/s13146-024-00941-w