REE enrichment characteristics in the lower part of Upper Permian Longtan Formation in Xingwen area of Southern Sichuan Province
HE Yangpiao1,2, LIANG Bin1,2, HAO Xuefeng2, TANG Yi2, FU Xiaofang2, PENG Yu2
1. School of Environment and Resources, Southwest University of Science and Technology, Sichuan Mianyang 621000, China; 2. Sichuan Institute of Geological Survey, Sichuan Chengdu 610081, China
Abstract:Upper Permian Longtan Formation clay rocks, which are related to the weathering of Permian Emei basalt, are widely distributed in the middle zone and outer zone of Emei Large Igneous Province of Southern Sichuan, and they have geological background and metallogenic conditions for the formation of rare earth and other critical metal mineral resources. A systematic geological survey has been carried out in the lower part of Upper Permian kaolinitic clayston Longtan Formation in Changning anticline, and REE content in clay rocks was analyzed. The results show that the types of clay rocks (ore) include kaolinite clay rocks, pyrite bearing kaolinite clay rocks and carbonaceous kaolinite clay rocks. The content of ω(TRE2O3) in clay rock samples ranges from 0.031% to 0.409% (with average of 0.098%), and the mineralization coefficient is 0.61~8.19, with the mineralization rate up to 85%, indicating good prospecting potential. The REE content and mineralization coefficient are the highest in pyrite bearing kaolinite clay rocks, which are the main lithologic assemblages for REE enrichment. The samples are LREE enrichment type, with moderate negative Eu anomalies and weak positive Ce anomalies. The stratigraphic contact and rare earth elements characteristics indicate that the source materials are mainly from Emei basalts, and a small amount of medium-acid rocks in Emei Large Igneous Province. The enrichment process of rare earth elements includes the initial enrichment formed by Emei basalt weathering, and further migration, adsorption and precipitation of rare earth elements under the oxidation-reduction environment of sea and land interaction, and then the enrichment and mineralization. The discovery of the enrichment of rare earth elements in the clay rocks of the lower part of Longtan Formation in Xingan area has guiding significance for the strategic prospecting.
[1] Hower J C,Granite E J,Mayfield D B,et al.Notes on contributions to the science of rare earth element enrichment in coal and coal combustion byproducts[J].Minerals,2016,6(2):32. [2] 赵芝,王登红,王成辉,等.离子吸附型稀土找矿及研究新进展[J].地质学报,2019,93(6):1454-1465. Zhao Z,Wang D H,Wang C H,et al.Progress in prospecting and research of ion-adsorption type REE deposits[J].Acta Geologica Sinica,2019,93(6):1454-1465. [3] 文博杰,陈毓川,王高尚,等.2035年中国能源与矿产资源需求展望[J].中国工程科学,2019,21(1):68-73. Wen B J,Chen Y C,Wang G S,et al.China's demand for energy and mineral resources by 2035[J].Strategic Study of CAE,2019,21(1):68-73. [4] 季根源,张洪平,李秋玲,等.中国稀土矿产资源现状及其可持续发展对策[J].中国矿业,2018,27(8):9-16. Ji G Y,Zhang H P,Li Q L,et al.Current status of rare earth resources in China and strategies for its sustainable development[J].China Mining Magazine,2018,27(8):9-16. [5] 代涛,高天明,文博杰.元素视角下的中国稀土供需格局及平衡利用策略[J].中国科学院院刊,2022,37(11):1586-1594. Dai T,Gao T M,Wen B J.China's rare earth supply and demand pattern and balanced utilization strategy from perspective of elements[J].Bulletin of Chinese Academy of Sciences,2022,37(11):1586-1594. [6] 范宏瑞,牛贺才,李晓春,等.中国内生稀土矿床类型、成矿规律与资源展望[J].科学通报,2020,65(33):3778-3793. Fan H R,Niu H C,Li X C,et al.The types,ore genesis and resource perspective of endogenic REE deposits in China[J].Chinese Science Bulletin,2020,65(33):3778-3793. [7] 周美夫,李欣禧,王振朝,等.风化壳型稀土和钪矿床成矿过程的研究进展和展望[J].科学通报,2020,65(33):3809-3824. Zhou M F,Li M Y H,Wang Z C,et al.The genesis of regolith-hosted rare earth element and scandium deposits:Current understanding and outlook to future prospecting[J].Chinese Science Bulletin,2020,65(33):3809-3824. [8] 陆蕾,王登红,王成辉,等.云南离子吸附型稀土矿成矿规律[J].地质学报,2020,94(1):179-191. Lu L,Wang D H,Wang C H,et al.The metallogenic regularity of ion-adsorption type REE deposit in Yunnan Province[J].Acta Geologica Sinica,2020,94(1):179-191. [9] 毛景文,袁顺达,谢桂青,等.21世纪以来中国关键金属矿产找矿勘查与研究新进展[J].矿床地质,2019,38(5):935-969. Mao J W,Yuan S D,Xie G Q,et al.New advances on metalloge-nic studies and exploration on critical minerals of China in 21st century[J].Mineral Deposits,2019,38(5):935-969. [10] 王学求,周建,张必敏,等.云南红河州超大规模离子吸附型稀土矿的发现及其意义[J].地球学报,2022,43(4):509-519. Wang X Q,Zhou J,Zhang B M,et al.Finding and implication of an undiscovered giant deposit of ion-adsorption rare earth elements in Honghe,South Yunnan,China[J].Acta Geoscientica Sinica,2022,43(4):509-519. [11] 刘殿蕊. 云南宣威地区峨眉山玄武岩风化壳中发现铌、稀土矿[J].中国地质,2020,47(2):540-541. Liu D X.Nb and REE deposits found in the weathering crusts of Emeishan basalt,Xuanwei area,Yunnan Province[J].Geology in China,2020,47(2):540-541. [12] 衮民汕,蔡国盛,曾道国,等.贵州西部二叠系峨眉山玄武岩顶部古风化壳钪-铌-稀土矿化富集层的发现与意义[J].矿物学报,2021,41(4-5):531-547. Gun M S,Cai G S,Zeng D G,et al.Discovery and significance of the Sc-Nb-REE-enriched zone in the paleocrust of weathering atop the Permian Emeishan basalt in the western Guizhou,China[J].Acta Mineralogica Sinica,2021,41(4-5):531-547. [13] Zhou L J,Zhang Z W,Li Y J,et al.Geological and geochemical characteristics in the paleo-weathering crust sedimentary type REE deposits,western Guizhou,China[J].Journal of Asian Earth Sciences,2013,73:184-198. [14] Zhang Z W,Zheng G D,Takahashi Y,et al.Extreme enrichment of rare earth elements in hard clay rocks and its potential as a resource[J].Ore Geology Reviews,2016,72:191-212. [15] Zhao L X,Dai S F,Graham I T,et al.Cryptic sediment-hosted critical element mineralization from eastern Yunnan Province,southwestern China:Mineralogy,geochemistry,relationship to Emeishan alkaline magmatism and possible origin[J].Ore Geology Reviews,2017,80:116-140. [16] 薛洪富,曾道国,向明坤,等.黔西北峨眉山玄武岩顶部Fe-Al岩系特征及其三稀元素富集特点[J].中国地质调查,2021,8(5):25-34. Xue H F,Zeng D G,Xiang M K,et al.Characteristics of Fe-Al rock series on the top of Emeishan basalt in northwestern Guizhou Pro-vince and enrichment characteristics of its three rare elements[J].Geological Survey of China,2021,8(5):25-34. [17] 郝雪峰,彭宇,唐屹,等.川南兴文地区上二叠统龙潭组下部发现Li、Ga、Nb、REE等关键金属富集层[J].地质论评,2023,69(1):415-417. Hao X F,Peng Y,Tang Y,et al.Critical metal enrichment layers of Li,Ga,Nb,REE found in the lower part of Upper Permian Longtan Formation in Xingwen area,southern Sichuan[J].Geological Review,2023,69(1):415-417. [18] 中华人民共和国卫生部,中国国家标准化管理委员会.GB/T 5009.12—2003 食品中铅的测定[S].北京:中国标准出版社,2004. Ministry of Health P.R.China,Standardization Administration of the People's Republic of China.GB/T 5009.12—2003 Determination of lead in foods[S].Beijing:Standards Press of China,2004. [19] Boynton W V.Cosmochemistry of the rare earth elements:Meteorite studies[M]//Developments in Geochemistry.Volume 2:Rare Earth Element Geochemistry.Oxford:Elsevier,1984:63-114. [20] Zhong H,Campbell I H,Zhu W G,et al.Timing and source constraints on the relationship between mafic and felsic intrusions in the Emeishan large igneous province[J].Geochimica et Cosmochimica Acta,2011,75(5):1374-1395. [21] 杨瑞东,鲍淼,廖琍,等.贵州西部中、上二叠统界线附近风化壳类型及成矿作用[J].矿物学报,2007,21(1):41-48. Yang R D,Bao S,Liao L,et al.Ancient weathering crust and its mineralization near the middle-upper Permian boundary in western Guizhou province,China[J].Acta Mineralogica Sinica,2007,21(1):41-48. [22] 陈国勇,范玉梅,孟昌忠,等.贵州威宁—赫章二叠系乐平统含铁、铝岩系沉积环境及成矿元素富集特征分析[J].地质与勘探,2017,53(2):237-246. Chen G Y,Fan Y M,Meng C Z,et al.Sedimentary environments and mineral element concentration features of iron-aluminum-bearing rock series in the Leping Series of Permian of the Weining-Hezhang Area,Guizhou[J].Geology and Exploration,2017,53(2):237-246. [23] 张海. 贵州西部峨眉山玄武岩古风化-沉积型稀土多金属矿成矿机制研究[R].贵阳:中国科学院地球化学研究所博士后研究报告,2018. Zhang H.Study on Metallogenic Mechanism of Paleo-weathering and Depositional Rare Earth Polymetallic Deposit in Emei Mountain,West Guizhou Province[R].Guiyang:Postdoctoral Research Report of Institute of Geochemistry,Chinese Academy of Sciences,2018. [24] 刘英俊,曹励明,李兆麟,等.元素地球化学[M].北京:科学出版社,1984:1-553. Liu Y J,Cao L M,Li Z L,et al.Elemental Geochemistry[M].Beijing:Science Press,1984:1-553. [25] Bau M,Möller P.Rare earth element fractionation in metamorphogenic hydrothermal calcite,magnesite and siderite[J].Mineralogy and Petrology,1992,45(3):231-246. [26] Li H B,Zhang Z C,Ernst R,et al.Giant radiating mafic dyke swarm of the Emeishan Large Igneous Province:Identifying the mantle plume centre[J].Terra Nova,2015,27(4):247-257. [27] Allègre C J,Minster J F.Quantitative models of trace element behavior in magmatic processes[J].Earth and Planetary Science Letters,1978,38(1):1-25. [28] 贵州省地质矿产局.>贵州省区域地质志[M].北京:地质出版社,1987. Guizhou Bureau of Geology and Mineral Resource.Regional Geo-logy of Guizhou Province[M].Beijing:Geological Publishing House,1987. [29] 侯海峰,杜庆安,林建绥,等.贵州水城—纳雍地区峨眉山玄武岩风化壳离子吸附型稀土矿床地质特征及资源潜力[J].地质与勘探,2019,55(S1):351-356. Hou H F,Du Q A,Lin J S,et al.Geological characteristics and resource potential of ion adsorption rare earth deposits in weathering crust of Emeishan basalt in the Shuicheng-Nayong area,Gui-zhou[J].Geology and Exploration,2019,55(S1):351-356. [30] 邓守和. 川南晚二叠世初期沉积黄铁矿成因分析[J].四川地质学报,1986(1):8-20,89. Deng S H.Genetic analysis of the early Late Permian sedimentary pyrite in southern Sichuan[J].Acta Geologica Sinica of Sichuan,1986(1):8-20,89. [31] 吴澄宇,卢海龙,徐磊明,等.南岭热带-亚热带风化壳中稀土元素赋存形式的初步研究[J].矿床地质,1993,12(4):297-307. Wu C Y,Lu H L,Xu L M,et al.A preliminary study on modes of occurrence of rare earth elements in the tropical-subtropical weathering crust of Nanling region[J].Mineral Deposits,1993,12(4):297-307. [32] 洪汉烈. 黏土矿物古气候意义研究的现状与展望[J].地质科技情报,2010,29(1):1-8. Hong H L.A review on paleoclimate interpretation of clay miner-als[J].Geological Science and Technology Information,2010,29(1):1-8. [33] 张七道,肖长源,李致伟,等.黔西北普宜地区富关键金属元素硫铁矿地质、地球化学和S同位素特征及其对成因的约束[J].地质科技通报,2022,41(4):149-164. Zhang Q D,Xiao C Y,Li Z W,et al.Geological,geochemical and sulfur isotopic characteristics of critical metal-enriched pyritic ore in the Puyi area,northwest Guizhou Province:Constraints on the genesis of the deposit[J].Bulletin of Geological Science and Technology,2022,41(4):149-164. [34] Braun J J,Pagel M,Muller J P,et al.Cerium anomalies in lateritic profiles[J].Geochimica et Cosmochimica Acta,1990,54(3):781-795. [35] 赵晨君,康志宏,侯阳红,等.下扬子二叠系泥页岩稀土元素地球化学特征及地质意义[J].地球科学,2020,45(11):4118-4127. Zhao C J,Kang Z H,Hou Y H,et al.Geochemical characteristics of rare earth elements and their geological significance of Permian shales in Lower Yangtze Area[J].Earth Science,2020,45(11):4118-4127.