| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
ZHANG Haikun, HU Peng, JIANG Junsheng, CHENG Xiang, WANG Jianxiong, LIU Jiangtao, XIANG Peng. 2021. Distribution, genetic types and current situation of exploration and development of bauxite resources[J]. Geology in China, 48(1): 68-81. doi: 10.12029/gc20210105
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Distribution, genetic types and current situation of exploration and development of bauxite resources
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Abstract
Bauxite is the main source of metal aluminum. In recent years, with the rapid economic and social development and the gradual progress of urbanization, China's aluminum demand is increasing year by year. In order to deepen the understanding of the spatial distribution and geological characteristics of bauxite and grasp the trend of bauxite exploration and development, this paper briefly summarizes the distribution characteristics of bauxite, the main types and the distribution of bauxite in the main resource countries, and emphatically introduces the new progress of bauxite exploration and development in recent years. Based on ore genesis, bauxite is divided into two types, lateritic type and karst type. The former is mainly distributed in western Africa, north South America, India, Southeast Asia, northern and southwestern Australia, while the latter primarily occurs in southern Europe, Caribbean region, western Asia and China. As to the exploration of bauxite, among the main bauxite-rich countries, Guinea, Russia and Australia focus on reserve addition of large mature mines, while Brazil, Ghana and Jamaica on exploration of new prospective areas. As for bauxite development, Australia, Guinea and China are currently the world's leading producers of bauxite, which together accounted for about 70% of the world's total production in 2019. In the first half of 2020, there was a panic drop in prices of major metals due to the COVID-19 epidemic. Despite the recent rebound trend in the prices of major metals, the United States, Brazil, India and other major economies in the world are still in the grip of the epidemic; the United Kingdom, France, Italy and other European Union countries are still facing great pressure to prevent the epidemic, and there is also the possibility of a second wave of the epidemic in the world. In this context, bauxite exploration and development situation is still very variable.
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References
Abedini A, Calagari A A, Rezaei Azizi M. 2018. The tetrad-effect in rare earth elements distribution patterns of titanium-rich bauxites:Evidence from the Kanigorgeh deposit, NW Iran[J]. Journal of Geochemical Exploration, 186:129-142. doi: 10.1016/j.gexplo.2017.12.007 Abedini A, Khosravi M. 2020. Geochemical constraints on the Triassic-Jurassic Amir-Abad karst-type bauxite deposit, NW Iran[J]. Journal of Geochemical Exploration, 211:1-15. Abedini A, Khosravi M, Calagari A A. 2019. Geochemical characteristics of the Arbanos karst-type bauxite deposit, NW Iran:Implications for parental affinity and factors controlling the distribution of elements[J]. Journal of Geochemical Exploration, 200:249-265. doi: 10.1016/j.gexplo.2018.09.004 Ahmadnejad F, Zamanian H, Taghipour B, Zarasvandi A, Buccione R, Ellahi S S. 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[J]. Ore Geology Reviews, 86:755-783. doi: 10.1016/j.oregeorev.2017.04.006 Boni M, Rollinson G, Mondillo N, Balassone G, Santoro L. 2013. Quantitative mineralogical characterization of karst bauxite deposits in the southern Apennines, Italy[J]. Economic Geology, 108:813-833. doi: 10.2113/econgeo.108.4.813 Cheng Gong, Dai Zhixiu, Jiang Sihong, Li Shanglin, Luo Yanjun. 2015. The major bauxite concentration areas and their geological characteristics in India[J]. Light Metal, 3:7-12(in Chinese with English abstract). Deady É, Mouchos E, Goodenough K, Williamson B, Wall F. 2014. Rare earth elements in karst-bauxites: A novel untapped European resource?[C]//1st European Rare Earth Resources Conference, Milos, Greece. Gao Lan, Wang Denghong, Xiong Xiaoyun, Qi Shuaijun, Yi Chengwei, Jia Shaohui. 2015. Minerogenetic characteristics and resource potential analysis of bauxite in China[J]. Geology in China, 42(4):853-863(in Chinese with English abstract). Gao Lan, Wang Denghong, Xiong Xiaoyun, Yi Chengwei. 2014. Summary on Aluminum Ore Deposits Minerogenetic Regulation in China[J]. Acta Geological Sinica, 88(12):2284-2295(in Chinese with English abstract). Giovanni Mongelli, Maria Boni, Giacomo Oggiano, Paola Mameli, Rosa Sinisi, Roberto Buccione, Nicola Mondillo. 2017. Critical metals distribution in Tethyan karst bauxite:The cretaceous Italian ores[J]. Ore Geology Reviews, 86:526-536. doi: 10.1016/j.oregeorev.2017.03.017 Hatipoglu M. 2011. Al (Fe, Ti, Si)-mobility and secondary mineralization implications:A case study of the karst unconformity diasporite-type bauxite horizons in Milas (Mugla), Turkey[J]. Journal of African Earth Sciences, 60:175-195. doi: 10.1016/j.jafrearsci.2011.02.009 Henry K E, Coley M D, Greenaway A M. 2018. The dissolution of phosphorus from Jamaican bauxites under low temperature Bayer conditions[J]. Hydrometallurgy, 179:132-140. doi: 10.1016/j.hydromet.2018.05.015 Karadag M M, Kupeli S, Aryk F, Ayhan A, Zedef V, Doyen A. 2009. Rare earth element (REE) geochemistry and genetic implications of the Mortas-bauxite deposit (Seydis-ehir/Konya-Southern Turkey)[J]. Geochemistry, 69:143-159. doi: 10.1016/j.chemer.2008.04.005 Khosravi M, Abedini A, Alipour S. 2012. Geochemistry of rare earth elements of Darzi-Vali bauxite deposit, east of Bukan, West-Azarbaidjan Province, NW of Iran[J]. Applied Geochemistry, 11:1-15. Khosravi M, Abedini A, Alipour S, Mongelli G. 2017. The Darzi-Vali bauxite deposit, West-Azarbaidjan Province, Iran:Critical metals distribution and parental affinities[J]. Journal of African Earth Sciences, 129:960-972. doi: 10.1016/j.jafrearsci.2017.02.024 Komolossy G. 2010. Review on global bauxites: Resources, origin and types[C]//The 18th International Academic Conference on Bauxite, Alumina and Aluminum Industry, Zhengzhou. Laskou M, Economou-Eliopoulos M. 2007. The role of microorganisms on the mineralogical and geochemical characteristics of the Parnassos-Ghiona bauxite deposits, Greece[J]. Journal of Geochemical Exploration, 93:67-77. doi: 10.1016/j.gexplo.2006.08.014 Li Na, Gao Hong, He Xuezhou, Wang Yanggang. 2018. Mineral resources potential and exploration prospect in the Republic of Cameroon[J]. China Mining Magazine, 27(8):51-79(in Chinese with English abstract). Meyer F M. 2004. Availability of Bauxite Reserves[J]. Natural Resources Research, 13(3):161-172. doi: 10.1023/B:NARR.0000046918.50121.2e Meyer F M, Happel U, Hausberg J, Wiechowski A. 2002. The geometry and anatomy of the Los Pijiguaos bauxite deposit, Venezuela[J]. Ore Geology Reviews, 20(1/2):27-54. Mongelli G, Buccione R, Sinisi R. 2015. Genesis of autochthonous and allochthonous Apulian karst bauxites (Southern Italy):Climate constraints[J]. Sedimentary Geology, 325:168-176. doi: 10.1016/j.sedgeo.2015.06.005 Monsels D A, Van Bergen M J. 2017. Bauxite formation on Proterozoic bedrock of Suriname[J]. Journal of Geochemical Exploration, 180:71-90. doi: 10.1016/j.gexplo.2017.06.011 Monsels D A, Van Bergen M J. 2019. Bauxite formation on Tertiary sediments in the coastal plain of Suriname[J]. Journal of South American Earth Sciences, 89:275-298. doi: 10.1016/j.jsames.2018.10.010 Oliveira F, Varajão A, Varajão C, Boulangé B, Gomes N. 2011. Bauxitisation of anorthosites from Central Brazil[J]. Geoderma, 167-168:319-327. doi: 10.1016/j.geoderma.2011.09.006 Qin Shukai, Ge Zhichao, Shen Huanhua, Bai Jinchun. 2012. Preliminary study on the geological features and Ore-forming regularity of laterite type bauxite in Awaso, Ghana[J]. Acta Geologica Sichuan, 32:247-250(in Chinese). Ratallack G J. 2010. Lateritization and Bauxitization Events[J]. Economic Geology, 105:655-667. doi: 10.2113/gsecongeo.105.3.655 Sidibe M, Yalcin M G. 2019. Petrography, mineralogy, geochemistry and genesis of the Balaya bauxite deposits in Kindia region, Maritime Guinea, West Africa[J]. Journal of African Earth Sciences, 149:348-366. doi: 10.1016/j.jafrearsci.2018.08.017 Sun Li, Xiao Keyan, Lou Debo. 2018. Mineral prospectivity of bauxite resources in China[J]. Earth Science Frontiers, 25(3):82-94(in Chinese with English abstract). Sun Li, Zhang Shuai, Zhang Shihong, Liu Jiannan, Xiao Keyan. 2020. Geologic characteristics and potential of bauxite in China[J]. Ore Geology Reviews, 120:1-9. U.S. Geological Survey. 2017. Mineral Commodity Summaries[R]. Yang Shujuan, Wang Qingfei, Deng Jun, Wang Yizhe, Kang Wei, Liu Xuefei, Li Zhongming. 2019. Genesis of karst bauxite-bearing sequences in Baofeng, Henan (China), and the distribution of critical metals[J]. Ore Geology Reviews, 115:1-14. Yao Zhongyou, Chen Xifeng, Chen Yuming, Li Hanwu, Zhao Yuhao, Shen Mangting. 2017. Geological features and resources potential of bauxite in Latin America[J]. Geological Bulletin of China, 36(12):2107-2115(in Chinese with English abstract). Young N J, Coley M D, Greenaway A M. 2019. Mineralogical investigations of Jamaican hematite-rich and goethite-rich bauxites using XRD and solid state 27Al and 31P MAS NMR spectroscopy[J]. Journal of Geochemical Exploration, 200:54-76. doi: 10.1016/j.gexplo.2019.01.010 Zhan Huaming, Zhang Baohua, Chi Qikun, Jiang Shengguo, Zhan Jian. 2012. Discussion on the geological features and genesis of Nyinahin bauxite deposit of Ghana[J]. Mineral Deposits, 31:1205-1206. Zhang Chengxue, Wang Guoku, Zhang Zexia, Zhang Huang. 2015. Study on the metallogenetic process of lateritic bauxite in Guinea Rep[J]. Geology of Chemical Minerals, 37(1):11-19(in Chinese with English abstract). Zheng Hui, Ge Zhichao, Qin Shukai, Huang Kui, Bai Jinchun, Liang Qingling. 2017. Geochemical characteristics and metallogeny of the Awaso lateritic bauxite deposit, Ghana[J]. Contributions to Geology and Mineral Resources Research, 32(2):334-339(in Chinese with English abstract). Zhu Huaping, Shi Meifeng, Wang Hong, Lin Fangcheng. 2015. Geological characteristics and ore-forming model of lateritic bauxite deposits in Indo-China Peninsula, SE Asia[J]. Acta Mineralogica Sinica, (S1):1096-1097(in Chinese). 成功, 戴之秀, 江思宏, 李尚林, 罗彦军. 2015.印度共和国铝土矿主要矿集区及其地质特征[J].轻金属, 3:7-12. 高兰, 王登红, 熊晓云, 齐帅军, 易承伟, 夹少辉. 2015.中国铝土矿资源特征及潜力分析[J].中国地质, 42(4):853-863. doi: 10.3969/j.issn.1000-3657.2015.04.005 高兰, 王登红, 熊晓云, 易承伟. 2014.中国铝矿成矿规律概要[J].地质学报, 88(12):2284-2295. 李娜, 高爱红, 何学洲, 王杨刚. 2018.喀麦隆共和国矿产资源潜力与矿业开发前景[J].中国矿业, 27(8):51-79. 秦术凯, 葛志超, 申欢华, 白进春. 2012.加纳阿瓦索红土型铝土矿地质特征及成矿规律初探[J].四川地质学报, 32:247-250. doi: 10.3969/j.issn.1006-0995.2012.02.031 孙莉, 肖克炎, 娄德波. 2018.中国铝土矿资源潜力预测评价[J].地学前缘, 25(3):82-94. 姚仲友, 陈喜峰, 陈玉明, 李汉武, 赵宇浩, 沈莽庭. 2017.拉丁美洲铝土矿地质特征及资源潜力[J].地质通报, 36(12):2107-2115. 詹华明, 张宝华, 迟其坤, 江胜国, 詹健. 2012.加纳尼纳欣(Nyinahin)铝土矿矿床地质特征及矿床成因探讨[J].矿床地质, 31:1205-1206. 张成学, 王国库, 张泽夏, 张璜. 2015.几内亚共和国红土型铝土矿床成矿探讨[J].化工矿产地质, 37(1):11-19. doi: 10.3969/j.issn.1006-5296.2015.01.003 郑辉, 葛志超, 秦术凯, 黄奎, 白进春, 梁清玲. 2017.加纳阿瓦索红土型铝土矿床地球化学特征及成矿作用研究[J].地质找矿论丛, 32(4):334-339. 朱华平, 施美凤, 王宏, 林方成. 2015.东南亚中南半岛地区红土型铝土矿地质特征及成矿模式[J].矿物学报, (S1):1096-1097. -
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ZHANG Haikun, HU Peng, JIANG Junsheng, CHENG Xiang, WANG Jianxiong, LIU Jiangtao, XIANG Peng. 2021. Distribution, genetic types and current situation of exploration and development of bauxite resources[J]. Geology in China, 48(1): 68-81. doi: 10.12029/gc20210105
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Figure 1.
Distribution of main bauxite mines in the world (modified from Meyer, 2004)
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Figure 2.
Typical profile of laterite bauxite deposit
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Figure 3.
Distribution of bauxite deposits in Guinea
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Figure 4.
Distribution of e bauxite deposits in Australia
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Figure 5.
Metallogenic model of Karst-type bauxite deposit (after Li et al., 2020)
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Figure 6.
Distribution of bauxite deposits(a) in Greece and typical profile of bauxite-bearing strata (b) (after Abedini et al., 2020)
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Figure 7.
Distribution of bauxite deposits in Jamaica (after Young et al., 2019)
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Figure 8.
Distribution of bauxite deposits in Iran (after Abedini et al., 2020)
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Figure 9.
Global bauxite production
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Figure 10.
Price curve of major metals over time from November 1, 2019 to July 27, 2020 (data from London Metal Exchange)