Barton MD. 1986. Phase equilibria and thermodynamic properties of minerals in the BeO-Al2O3-SiO2-H2O (BASH) system, with petrologic applications. American Mineralogist, 71: 277-300
Barton MD and Young S. 2002. Non-pegmatitic deposits of beryllium: Mineralogy, geology, phase equilibria and origin. In: Grew ES (ed. ). Beryllium Mineralogy, Petrology, and Geochemistry. Reviews in Mineralogy and Geochemistry, 50(1): 591-691
Branquet Y, Laumonier B, Cheilletrz A and Giuiani G. 1999. Emeralds in the eastern Cordillera of Colombia: Two tectonic settings for one mineralization. Geology, 27(7): 597-600 doi: 10.1130/0091-7613(1999)027<0597:EITECO>2.3.CO;2
Burt DM, Sheridan MF, Bikun JV and Christiansen EH. 1982. Topaz rhyolites; distribution, origin, and significance for exploration. Economic Geology, 77(8): 1818-1836 doi: 10.2113/gsecongeo.77.8.1818
Cempírek J and Novák M. 2006. Hydroxylherderite and associated beryllophosphates from Rozna-Borovina pegmatite. Acta Musei Moraviae, Scientiae Geologicae, 91: 79-88
Černý P. 2002. Mineralogy of beryllium in granitic pegmatites. In: Grew ES (ed. ). Beryllium Mineralogy, Petrology, and Geochemistry. Reviews in Mineralogy and Geochemistry, 50(1): 405-444
Černý P, London D and Novák M. 2012. Granitic pegmatites as reflections of their sources. Elements, 8(4): 289-294 doi: 10.2113/gselements.8.4.289
Chao CL. 1964. Liberite Li2BeSiO4, a new lithium-beryllium silicate mineral from the Nanling Ranges, South China. Acta Geologica Sinica, 44(3): 334-342 (in Chinese with English abstract)
Charoy B. 1999. Beryllium speciation in evolved granitic magma: Phosphates versus silicates. European Journal of Mineralogy, 11: 135-148 doi: 10.1127/ejm/11/1/0135
Che XD, Wang RC, Hu H, Zhang WL and Huang XL. 2007. Beryllium mineralization in the Yichun topaz-lepidolite granite, Jiangxi: Associations of beryilium phosphate minerals. Acta Petrologica Sinica, 23(6): 1552-1560 (in Chinese with English abstract)
Chen JY, Fan HH, Wang SY, Zhang C, Zhao JY and Geng RR. 2019. Ore-controlling factors of the Baerzhe super-large deposit in Jarud banner, Inner Mongolia. Journal of Geomechanics, 25(1): 27-35 (in Chinese with English abstract)
Christiansen EH, Stuckless JS, Funkhouser MMJ and Howell KH. 1988. Petrogenesis of rare-metal granites from depleted crustal sources: An example from the Cenozoic of western Utah, U.S.A. In: Taylor RP and Strong DF (eds). Recent Advances in the Geology of Granite-related Mineral Deposits. Canada Institute Mineral Metallurgy, Special Paper, 39: 307-321
Cuney M, Marignac C and Weisbrod A. 1992. The Beauvoir topaz-lepidolite albite granite (Massif Central, France): The disseminated magmatic Sn-Li-Ta-Nb-Be mineralization. Economic Geology, 87(7): 1766-1794 doi: 10.2113/gsecongeo.87.7.1766
Dailey SR, Christiansen EH, Dorais MJ, Kowallis BJ, Fernandez DP and Johnson DM. 2018. Origin of the fluorine- and beryllium-rich rhyolites of the Spor Mountain Formation, Western Utah. American Mineralogist, 103(8): 1228-1252 doi: 10.2138/am-2018-6256
Damdinova LB, Damdinov BB, Rampilov MO and Kanakin SV. 2019. Ore formation conditions of the Aunik F-Be deposit (Western Transbaikalia). Geology of Ore Deposits, 61(1): 14-37 doi: 10.1134/S1075701519010021
Dong QH, You YX, Yang C, Wang NS, Li WK and Zhang L. 2014. Analysis on metallogenic conditions and prospecting prospect of Beryllium-uranium copper deposit in Baiyanghe area, Hebuxer County, Xinjiang. West-China Exploration Engineering, 26(12): 147-150 (in Chinese)
Evensen JM, London D and Wendlandt RF. 1999. Solubility and stability of beryl in granitic melts. American Mineralogist, 84: 733-745 doi: 10.2138/am-1999-5-605
Evensen JM and London D. 2002. Experimental silicate mineral/melt partition coefficients for beryllium and the crustal Be cycle from migmatite to pegmatite. Geochimica et Cosmochimica Acta, 66(12): 2239-2265 doi: 10.1016/S0016-7037(02)00889-X
Evensen JM and London D. 2003. Experimental partitioning of Be, Cs, and other trace elements between cordierite and felsic melt, and the chemical signature of S-type granite. Contributions to Mineralogy and Petrology, 144(6): 739-757 doi: 10.1007/s00410-002-0426-x
Foley NK, Hofstra AH, Lindsey DA, Seal RR Ⅱ, Jaskula B and Piatak NM. 2012. Occurrence model for volcanogenic beryllium deposits. Chapter F of Mineral Deposit Models for Resource Assessment. U.S. Geological Survey Scientific Investigations Report, 2010-5070-F
Foley NK, Jaskula BW, Piatak NM and Schulte RF. 2017. Beryllium. Chapter E of Schulz KJ, DeYoung JH Jr, Seal RR Ⅱ and Bradley DC (eds). Critical Mineral Resources of the United States-Economic and Environmental Geology and Prospects for Future Supply. U. S. Geological Survey Professional Paper, 1802: E1-E32
Freiman SW. 2008. Minerals, Critical Minerals, and the U.S. Economy. Science and Technology Committee, Subcommittee on Investigations and Oversight, also see the House Science, Space, and Technology Committee's Web Site
Galliski Má, Černý P, Márquez-Zavalía MF and Chapman R. 2012. An association of secondary Al-Li-Be-Ca-Sr phosphates in the San Elías pegmatite, San Luis, Argentina. Canadian Mineralogist, 50(4): 933-942 doi: 10.3749/canmin.50.4.933
Grundmann G and Morteani G. 1989. Emerald mineralization during regional metamorphism: The Habachtal (Austria) and Leydsdorp (Transvaal, South Africa) deposits. Economic Geology, 84(7): 1835-1849 doi: 10.2113/gsecongeo.84.7.1835
Hawthorne FC and Huminicki DMC. 2002. The crystal chemistry of beryllium. Beryllium: Mineralogy, Petrology, and Geochemistry, 50: 333-403
Harvey G and Meier WM. 1989. The synthesis of beryllophosphate zeolites. In: Jacobs PA and van Santen RA (eds. ). Zeolites: Facts, Figures, Future. Amsterdam: Elsevier, 411-420
He CT, Qin KZ, Li JX, Zhou QF, Zhao JX and Li GM. 2020. Preliminary study on occurrence status of beryllium and genetic mechanism in Cuonadong tungsten-tin-beryllium deposit, eastern Himalaya. Acta Petrologica Sinica, 36(12): 3593-3606 (in Chinese with English abstract) doi: 10.18654/1000-0569/2020.12.03
Hörmann PK. 1978. Beryllium. In: Wedepohl KH (ed. ). Handbook of Geochemistry Ⅱ/1. Springer-Verlag, Berlin, 4-B-1 to 4-O-1, 1-6
Huang GC, Wang DH and Wu XY. 2012. LA-ICP-MS zircon U-Pb dating of the granite from the Qianmutian Tungsten-Beryllium Mine in Lin'an, Zhejiang Province and its significance in regional exploration. Geotectonica et Metallogenia, 36(3): 392-398 (in Chinese with English abstract)
Huang WY. 2011. The genesis discussion of the beryllium and molybdenum deposit in the Dawan of Xiapu County, Fujian Province. Journal of the Graduates Sun Yat-Sen University (Natural Sciences, Medicine), 32(2): 69-78 (in Chinese with English abstract)
Huang XL, Wang RC, Chen XM, Hu H and Liu CS. 2002. Vertical variations in the mineralogy of the Yichun topaz-lepidolite granite, Jiangxi Province, southern China. The Canadian Mineralogist, 40(4): 1047-1068 doi: 10.2113/gscanmin.40.4.1047
Huang XP. 2016. Geological characteristics and genesis of Fulishi beryllium (molybdenum) deposit in Pinghe, Fujian. Journal of Guilin University of Technology, 36(1): 99-106 (in Chinese with English abstract)
Huang YH, Du SH and Zhou XZ. 1988. Xianghualing Rock Deposit and Minerals. Beijing: Beijing Science and Technology Press (in Chinese)
Jin QH. 2015. Comparative study and prospecting research of geological and geochemical volcano rock beryllium deposits. Ph. D. Dissertation. Beijing: China University of Geosciences (Beijing) (in Chinese with English abstract)
Jonsson E and Langhof J. 1997. Late-stage beryllium silicates from the Sels-Vitberget granitic pegmatite, Kramfors, central Sweden. GFF, 119(3): 249-251 doi: 10.1080/11035899709546483
Lederer GW, Foley NK, Jaskula BW and Ayuso RA. 2016. Beryllium-a critical mineral commodity-resources, production, and supply chain. U.S. Geological Survey, FS 2016-3081
Li BY, Jiang DW, Fu X, Wang L, Gao SQ, Fan ZY, Wang KX and Huge JT. 2018. Geological characteristics and prospecting significance of Weilasituo Li polymetallic deposit, Inner Mongolia. Mineral Exploration, 9(6): 1185-1191 (in Chinese with English abstract)
Li JK, Zou TR, Wang DH and Ding X. 2017. A review of beryllium metallogenic regularity in China. Mineral Deposits, 36(4): 951-978 (in Chinese with English abstract)
Li XF, Wang G, Mao W, Wang CZ, Xiao R and Wang M. 2015. Fluid inclusions, muscovite Ar-Ar age, and fluorite trace elements at the Baiyanghe volcanic Be-U-Mo deposit, Xinjiang, northwest China: Implication for its genesis. Ore Geology Reviews, 64: 387-399 doi: 10.1016/j.oregeorev.2014.07.017
Lin DS. 1985. A preliminary study on genesis of an altered Volcanic type beryl deposit in South China. Mineral Deposits, 4(3): 19-30 (in Chinese with English abstract)
Lin QR. 1985. Metallogenic characteristics of several types of rare metal deposits and suggestions on prospecting direction of rare metals in Zhejiang Province. Geology of Zhejiang, (2): 15-20 (in Chinese)
Lindsey DA. 1977. Epithermal beryllium deposits in water-laid tuff, western Utah. Economic Geology, 72(2): 219-232 doi: 10.2113/gsecongeo.72.2.219
Lindsey DA. 1979. Preliminary report on Tertiary volcanism and uranium mineralization in the Thomas Range and northern Drum Mountains, Juab County, Utah. U.S. Geological Survey Open-File Report, 79-1076
Lindsey DA. 1998. Slides of the fluorspar, beryllium, and uranium deposits at Spor Mountain, Utah: U.S. Geological Survey Open-File Report 98-524, unpaged, accessed January 13, 2014
London D and Evensen JM. 2002. Beryllium in silicic magmas and the origin of beryl-bearing pegmatites. Beryllium: Mineralogy, Petrology, and Geochemistry, 50: 445-486
Longhurst GR, Tsuchiya K, Dorn CH, Folkman SL, Fronk TH, Ishihara M, Kawamura H, Tranter TN, Rohe R, Uchida M and Vidal E. 2011. Managing beryllium in nuclear facility applications. Nuclear Technology, 176(3): 430-441 doi: 10.13182/NT11-A13318
Lu HZ, Chi GX and Wang ZG. 1995. The Genesis of Typical Metal Deposits and their Tectonic Environment. Beijing: Geological Publishing House (in Chinese)
Ludwig KR, Lindsey DA, Zielinski RA and Simmons KR. 1980. U-Pb ages of uraniferous opals and implications for the history of beryllium, fluorine, and uranium mineralization at Spor Mountain, Utah. Earth and Planetary Science Letters, 46(2): 221-232 doi: 10.1016/0012-821X(80)90008-4
Lykhin DA and Yarmolyuk VV. 2014. Magmatism and formation conditions of the Urma helvite-bertrandite deposit, West Transbaikal berillium province. Geology of Ore Deposits, 56(4): 281-301 doi: 10.1134/S1075701514040059
McLemore VT. 2010. Beryllium deposits in New Mexico and adjacent areas. New Mexico Bureau of Geology and Mineral Resources Open-File Report 533
Natural Earth. 2014. Small scale data: Natural Earth map dataset, scale 1: 110, 000, 000, accessed February 12, 2014
Neiva AMR and Neiva JMC. 2005. Beryl from the granitic pegmatite at Namivo, Alto Ligonha, Mozambique. Neues Jahrbuch für Mineralogie-Abhandlungen, 181(2): 173-182 doi: 10.1127/0077-7757/2005/0015
Nysten P and Gustafsson L. 1993. Beryllium phosphates from the Proterozoic granitic pegmatite at Norrö, southern Stockholm archipelago, Sweden. GFF, 115(2): 159-164
Olson DW. 2016. Gemstones[advance release], in Metals and minerals: U.S. Geological Survey Minerals Yearbook, 2013, v. I, p. 29. 129. 25, accessed June 27, 2016, at http://minerals.usgs.gov/minerals/pubs/commodity/gemstones/myb1-2013-gemst.pdf
Qiu KF, Yu HC, Wu MQ, Geng JZ, Ge XK, Gou ZY and Taylor RD. 2019. Discrete Zr and REE mineralization of the Baerzhe rare-metal deposit, China. American Mineralogist, 104(10): 1487-1502 doi: 10.2138/am-2019-6890
Rao C, Wang RC and Hu H. 2011. Paragenetic assemblages of beryllium silicates and phosphates from the Nanping No. 31 granitic pegmatite dyke, Fujian Province, southeastern China. The Canadian Mineralogist, 49(5): 1175-1187 doi: 10.3749/canmin.49.5.1175
Rao C, Hatert F, Dal Bo F, Wang RC, Gu XP and Baijot M. 2016. Mengxianminite, IMA 2015-070. CNMNC Newsletter No. 29, February 2016, page 200. Mineralogical Magazine, 80(1): 199-205
Rao C, Hatert F, Dal Bo F, Wang RC, Gu XP and Baijot M. 2017. Mengxianminite (Ca2Sn2Mg3Al8[(BO3)(BeO4)O6]2) a new borate mineral from Xianghualing skarn, Hunan Province, China, with a highly unusual chemical combination (B+Be+Sn). American Mineralogist, 102(10): 2136-2141 doi: 10.2138/am-2017-5919
Rao C, Wang RC, Wu FY, Che XD, Li XF, Wang Q, Zhang ZQ and Wu RQ. 2022. A preliminary study on the volcanic intrusive complex type beryllium metallogenic belt from the southeast coast of China. Scientia Sinica (Terrae), 52, doi: 10.1360/SSTe-2021-0252(inChinese)
Rubin JN, Price JG and Henry CD. 1988. Mineralogy of beryllium deposits near Sierra Blanca, Texas. In: Torma AE and Gundiler IH (eds. ). Precious and Rare Metal Technologies, Proceedings; Symposium on Precious and Rare Metals, Albuquerque, N. Mex. Amsterdam, Netherlands: Elsevier, 601-614
Rubin JN, Price JG and Henry CD. 1990. Geology of the beryllium-rare earth element deposits near Sierra Blanca, Texas. Society of Economic Geologists Field Trip Guidebook, 1990, Annual Meeting, Dallas, Texas, 10
Shannon RD. 1976. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallographica Section A, 32(5): 751-767 doi: 10.1107/S0567739476001551
Sinkankas J. 1981. Emerald and other beryls: Radnor, Penn., Chilton Book Co., 665. (Republished in 1989 by Geoscience Press, Prescott, Ariz. )
Snead LL and Zinkle SJ. 2005. Use of beryllium and beryllium oxide in space reactors. AIP Conference Proceedings, 746(1): 768-775
Song SH. 1989. China Deposits. Beijing: Geological Publishing House (in Chinese)
Taylor SR and McLennan SM. 1985. Geochemistry of Archean meta-sedimentary rocks from west Greenland. Geochimica et Cosmochimica Acta. 48 (1): 1-13
Taylor SR and McLennan SM. 1995. The geochemical evolution of the continental crust. Reviews of Geophysics, 33(2): 241-265 doi: 10.1029/95RG00262
Taylor TP, Ding M, Ehler DS, Foreman TM, Kaszuba JP and Sauer NN. 2003. Beryllium in the environment: A review. Journal of Environmental Science and Health, Part A, 38(2): 439-469 doi: 10.1081/ESE-120016906
Tian EN, Wang RC, Xie L, Zhang WL, Che XD and Zhang RQ. 2020. Mineralogy and geochemistry of the newly discovered Late Mesozoic granite-pegmatite and associated Sn-Nb-Ta-Be mineralization in the Miao'ershan-Yuechengling composite batholith, northern Guangxi, South China. Journal of Asian Earth Sciences, 190: 104149 doi: 10.1016/j.jseaes.2019.104149
Tomberlin TA. 2004. Beryllium- A unique material in nuclear applications. In: 36th International SAMPE Technical Conference. San Diego, CA
Tu GC. 1989. On the alkali-rich intrusive rocks. Mineral Resources and Geology, (3): 1-4 (in Chinese with English abstract)
U.S. Geological Survey. 1996. Global 30 arc-second elevation (GTOPO30): Reston, Va., U. S Geological Survey dataset (digital elevation model), accessed February 12, 2014
Wang CH, Wang DH, Qin JH, Li JK, Liu SB and Chen ZY. 2021. Discovery of granitic pegmatite type beryllium ore deposit in middle of Nanling metallogenic belt. Mineral Deposits, 40(2): 398-401 (in Chinese with English abstract)
Wang DH, Chen YC, Xu ZG, Li TD and Fu XJ. 2002. A Study on the Metallogenic Series and Ore-Forming Regularity of the Altai Mineralization Province. Beijing: Atomic Energy Press, 1-492 (in Chinese)
Wang RC, Che XD, Zhang WL, Zhang AC and Zhang H. 2009. Geochemical evolution and late re-equilibration of Na-Cs-rich beryl from the Koktokay #3 pegmatite (Altai, NW China). European Journal of Mineralogy, 21(4): 795-806 doi: 10.1127/0935-1221/2009/0021-1936
Wang RC, Xing JY and Peng H. 2014. Enlightenment of United States' beryllium resources strategy. China Mining Magazine, 23(10): 21-24 (in Chinese with English abstract)
Wang RC, Wu FY, Xie L, Liu XC, Wang JM, Yang L, Lai W and Liu C. 2017. A preliminary study of rare-metal mineralization in the Himalayan leucogranite belts, South Tibet. Science China (Earth Sciences), 60(9): 1655-1663 doi: 10.1007/s11430-017-9075-8
Wang XQ, Liu HL and Wang W. 2021. Rare and Dispersed Elements Geochemistry in China. Beijing: Science Press (in Chinese)
Webster JD, Holloway JR and Hervig RL. 1989. Partitioning of lithophile trace elements between H2O and H2O+CO2 fluids and topaz rhyolite melt. Economic Geology, 84(1): 116-134 doi: 10.2113/gsecongeo.84.1.116
Wood SA. 1992. Theoretical prediction of speciation and solubility of beryllium in hydrothermal solution to 300℃ at saturated vapor pressure: Application to bertrandite/phenakite deposits. Ore Geology Reviews, 7(4): 249-278 doi: 10.1016/0169-1368(92)90012-A
Wu MQ, Samson IM, Qiu KF and Zhang DH. 2021. Concentration mechanisms of rare earth element-Nb-Zr-Be mineralization in the Baerzhe deposit, Northeast China: Insights from textural and chemical features of amphibole and rare metal minerals. Economic Geology, 116(3): 651-679 doi: 10.5382/econgeo.4789
Xiao GX, Ma HF and Li WH. 2015. Geochemistry and characteristics of wall rock alteration of Baiyanghe pluton and its mineralization relationship with uranium beryllium mineralization. Acta Mineralogica Sinica, (Suppl. 1): 171 (in Chinese)
Xiao YD, Huang JH, Wang Z, Wang SC, Zhou RB and Li QD. 2011. Spatial distribution characteristics of Baiyanghe Uranium and beryllium deposits in Hebuxer County, Xinjiang. West-China Exploration Engineering, 23(9): 123-126 (in Chinese)
Xie XJ, Ren TX and Sun HZ. 2012. Atlas of Chinese Geochemistry. Beijing: Geological Publishing House (in Chinese)
Xiong QY and Li Y. 1993. A preliminary study of the formation mechanism of the Xiaseling tungsten deposit in Changhua, Zhejiang Province. Bulletin of Institute of Mineral Deposits, Chinese Academy of Geological Sciences, (1): 153-162 (in Chinese)
Yan LJ, Wang SJ, Chen CJ, Yan ZA, She ZM, Deng ZX, Wu QH and Yin W. 2021. Petrochemical characteristics and metallogenic process of the newly discovered Na'e beryllium deposit in the Lianghe area, western Yunnan Province. Geology and Exploration, 57(4): 739-750 (in Chinese with English abstract)
Yan QH, Wang H, Chi GX, Wang Q, Hu H, Zhou KL and Zhang XY. 2022. Recognition of a 600-km-long Late Triassic rare metal (Li-Rb-Be-Nb-Ta) pegmatite belt in the western Kunlun Orogenic belt, western China. Economic Geology, 117(1): 213-236 doi: 10.5382/econgeo.4858
Yang WB, Niu HC, Shan Q, Luo Y, Yu XY and Qiu YZ. 2009. Ore-forming mechanism of the Baerzhe super-large rare and rare earth elements deposit. Acta Petrologica Sinica, 25(11): 2924-2932 (in Chinese with English abstract)
Yang WB, Su WC, Liao SP, Niu HC, Luo Y, Shan Q and Li NB. 2011. Melt and melt-fluid inclusions in the Baerzhe alkaline granite: Information of the magmatic-hydrothermal transition. Acta Petrologica Sinica, 27(5): 1493-1499 (in Chinese with English abstract)
Yang WB, Niu HC, Li NB, Hollings P, Zurevinski S and Xing CM. 2020. Enrichment of REE and HFSE during the magmatic-hydrothermal evolution of the Baerzhe alkaline granite, NE China: Implications for rare metal mineralization. Lithos, 358-359: 105411 doi: 10.1016/j.lithos.2020.105411
Yang WP. 2008. On geological characteristics and genesis of the Dawan beryllium and molybdenum deposit in Xiapu County, Fujian Province. Geology of Fujian, 27(1): 1-7 (in Chinese with English abstract)
Yang ZM, Ding KS, de Fourestier J, Mao Q and Li H. 2012. Ferrotaaffeite-2N'2S, a new mineral species, and the crystal structure of Fe2+-rich magnesiotaaffeite-2N'2S from the Xianghualing tin-polymetallic ore field, Hunan Province, China. The Canadian Mineralogist, 50: 21-29 doi: 10.3749/canmin.50.1.21
Yuan ZX, and Bai G. 1997. Distribution of alkaline intrusive rocks and related metallic ore deposits of China. Geology and Prospecting, 33(1): 42-48 (in Chinese with English abstract)
Yuan ZX and Bai G. 2001. Temporal and spatial distribution of endogenic rare and rare earth mineral deposits of China. Mineral Deposits, 20(4): 347-354 (in Chinese with English abstract)
Zhang CY, Cao XM, Li WC, Tang Z, Yu HJ, Chen CJ, Cheng Y and Li R. 2021. A preliminary study of metallogenic regularity of beryllium deposits in Yunnan Province. Acta Petrologica et Mineralogica, 40 (2): 452-464 (in Chinese with English abstract)
Zhang YW, Liu Y, Zhu XX, Raschke MB and Shen NP. 2021. Genesis of highly fractionated granite and associated W-Sn-Be mineralization in the Xuebaoding area, Sichuan Province, China. Ore Geology Reviews, 135: 104197 doi: 10.1016/j.oregeorev.2021.104197
Zhao YM, Feng CY, Li DX, Liu JN, Wang H and Zhong SH. 2017. Li, Be-bearing ribbon rocks and related metasomatites in Xianghualing tin-polymetallic deposit, Hunan Province. Mineral Deposits, 36(6): 1245-1262 (in Chinese with English abstract)
Zhao Z, Chen ZH, Wang CH and Yang WP. 2012. Molybdenite Re-Os age of the Dawan Mo-Be deposit, East Fujian: A discussion on the tempo-spatial distribution and tectonic setting of the molybdenite deposit in Fujian Province. Geotectonica et Metallogenia, 36(3): 399-405 (in Chinese with English abstract)
Zhu JC, Rao B, Xiong XL, Li FC and Zhang PH. 2002. Comparison and genetic interpretation of Li-F rich, rare-metal bearing granitic rocks. Geochimica, 31(2): 141-152 (in Chinese with English abstract)
车旭东, 王汝成, 胡欢, 张文兰, 黄小龙. 2007. 江西宜春黄玉-锂云母花岗岩中的铍矿化作用: 铍磷酸盐矿物组合. 岩石学报, 23(6): 1552-1560 doi: 10.3969/j.issn.1000-0569.2007.06.029
http://www.ysxb.ac.cn/article/id/aps_200706146
陈金勇, 范洪海, 王生云, 张闯, 赵敬洋, 耿瑞瑞. 2019. 内蒙古扎鲁特旗巴尔哲超大型矿床控矿因素分析. 地质力学学报, 25(1): 27-35
https://www.cnki.com.cn/Article/CJFDTOTAL-DZLX201901012.htm
董全宏, 游延祥, 杨晨, 王楠森, 李文魁, 张磊. 2014. 新疆和布克赛尔县白杨河一带铍铀铜矿成矿条件及找矿远景分析. 西部探矿工程, 26(12): 147-150 doi: 10.3969/j.issn.1004-5716.2014.12.049
何畅通, 秦克章, 李金祥, 周起凤, 赵俊兴, 李光明. 2020. 喜马拉雅东段错那洞钨-锡-铍矿床中铍的赋存状态及成因机制初探. 岩石学报, 36(12): 3593-3606
http://www.ysxb.ac.cn/article/doi/10.18654/1000-0569/2020.12.03
黄国成, 王登红, 吴小勇. 2012. 浙江临安千亩田钨铍矿区花岗岩锆石LA-ICP-MS U-Pb年龄及对区域找矿的意义. 大地构造与成矿学, 36(3): 392-398 doi: 10.3969/j.issn.1001-1552.2012.03.011
黄文娅. 2011. 福建霞浦大湾铍钼矿床成因探讨. 中山大学研究生学刊(自然科学、医学版), 32(2): 69-78
https://www.cnki.com.cn/Article/CJFDTOTAL-FJDZ200801002.htm
黄新鹏. 2016. 福建平和福里石铍(钼)矿地质特征及成因初探. 桂林理工大学学报, 36(1): 99-106 doi: 10.3969/j.issn.1674-9057.2016.01.013
黄蕴慧, 杜绍华, 周秀仲. 1988. 香花岭岩石矿床与矿物. 北京: 北京科学技术出版社
金庆花. 2015. 火山岩型铍矿床地质地球化学特征对比研究与找矿方向. 博士学位论文. 北京: 中国地质大学(北京)
李泊洋, 姜大伟, 付旭, 王磊, 高树起, 樊志勇, 王可祥, 胡格吉乐吐. 2018. 内蒙古维拉斯托矿区锂多金属矿床地质特征及找矿意义. 矿产普查, 9(6): 1185-1191
https://www.cnki.com.cn/Article/CJFDTOTAL-YSJS201806022.htm
李建康, 邹天人, 王登红, 丁欣. 2017. 中国铍矿成矿规律. 矿床地质, 36(4): 951-978
https://www.cnki.com.cn/Article/CJFDTOTAL-KCDZ201704011.htm
林德松. 1985. 华南-蚀变火山岩型绿柱石矿床的成因探讨. 矿床地质, 4(3): 19-30
https://www.cnki.com.cn/Article/CJFDTOTAL-KCDZ198503002.htm
林庆让. 1985. 几种类型稀有金属矿床的成矿特征及对浙江稀有金属找矿方向的建议. 浙江地质, (2): 15-20
https://www.cnki.com.cn/Article/CJFDTOTAL-ZJDZ198502006.htm
卢焕章, 池国祥, 王中刚. 1995. 典型金属矿床的成因及其构造环境. 北京: 地质出版社
饶灿, 王汝成, 吴福元, 车旭东, 李晓峰, 王琪, 张志琦, 吴润秋. 2022. 我国东南沿海火山-侵入杂岩型铍成矿带初步研究. 中国科学(地球科学), 52, doi: 10.1360/SSTe-2021-0252
宋叔和. 1989. 中国矿床. 北京: 地质出版社
涂光炽. 1989. 关于富碱侵入岩. 矿床与地质, (3): 1-4
https://www.cnki.com.cn/Article/CJFDTOTAL-KCYD198903000.htm
王成辉, 王登红, 秦锦华, 李建康, 刘善宝, 陈振宇. 2021. 南岭成矿带中亚带发现花岗伟晶岩型铍矿. 矿床地质, 40(2): 398-401
https://www.cnki.com.cn/Article/CJFDTOTAL-KCDZ202102013.htm
王登红, 陈毓川, 徐志刚, 李天德, 傅旭杰. 2002. 阿尔泰成矿省的成矿系列及成矿规律. 北京: 原子能出版社, 1-492
王仁财, 邢佳韵, 彭浩. 2014. 美国铍资源战略启示. 中国矿业, 23(10): 21-24 doi: 10.3969/j.issn.1004-4051.2014.10.006
王汝成, 吴福元, 谢磊, 刘小驰, 王佳敏, 杨雷, 赖文, 刘晨. 2017. 藏南喜马拉雅淡色花岗岩稀有金属成矿作用初步研究. 中国科学(地球科学), 47(8): 871-880
https://www.cnki.com.cn/Article/CJFDTOTAL-JDXK201708001.htm
王学求, 刘汉粮, 王玮. 2021. 中国稀有分散元素地球化学. 北京: 科学出版社
肖国贤, 马汉峰, 李文辉. 2015. 白杨河岩体地球化学、围岩蚀变特征及与铀铍矿成矿关系. 矿物学报, (增1): 171
https://www.cnki.com.cn/Article/CJFDTOTAL-KWXB2015S1128.htm
肖艳东, 黄建华, 王哲, 王帅成, 周月斌, 李启东. 2011. 新疆和布克赛尔县白杨河铀、铍矿床空间分布特征. 西部探矿工程, 23(9): 123-126 doi: 10.3969/j.issn.1004-5716.2011.09.041
谢学锦, 任天祥, 孙焕振. 2012. 中国地球化学图集. 北京: 地质出版社
熊群尧, 李岩. 1993. 浙江昌化夏色岭钨矿床形成机理的初步分析. 中国地质科学院矿床地质研究所所刊, (1): 153-162
https://cpfd.cnki.com.cn/Article/CPFDTOTAL-ZGDJ199307001016.htm
燕利军, 王胜江, 陈曹军, 严志安, 佘中明, 邓志祥, 吴清华, 殷伟. 2021. 滇西梁河县新发现那俄铍矿岩石地球化学特征及铍成矿事件. 地质与勘探, 57(4): 739-750
https://www.cnki.com.cn/Article/CJFDTOTAL-DZKT202104004.htm
杨武斌, 牛贺才, 单强, 罗勇, 于学元, 裘愉卓. 2009. 巴尔哲超大型稀有稀土矿床成矿机制研究. 岩石学报, 25(11): 2924-2932
http://www.ysxb.ac.cn/article/id/aps_20110521
杨武斌, 苏文超, 廖思平, 牛贺才, 罗勇, 单强, 李宁波. 2011. 巴尔哲碱性花岗岩中的熔体和熔体-流体包裹体: 岩浆-热液过渡的信息. 岩石学报, 27(5): 1493-1499
http://www.ysxb.ac.cn/article/id/aps_20110521
杨武平. 2008. 福建霞浦大湾铍钼矿床地质特征及成因初探. 福建地质, 27(1): 1-7 doi: 10.3969/j.issn.1001-3970.2008.01.001
袁忠信, 白鸽. 1997. 中国碱性侵入岩的空间分布及有关金属矿床. 地质与勘探, 33(1): 42-48
https://www.cnki.com.cn/Article/CJFDTOTAL-DZKT199701013.htm
袁忠信, 白鸽. 2001. 中国内生稀有稀土矿床的时空分布. 矿床地质, 20(4): 347-354 doi: 10.3969/j.issn.0258-7106.2001.04.008
张传昱, 曹晓民, 李文昌, 唐忠, 余海军, 陈曹军, 程涌, 李蓉. 2021. 云南省铍矿床成矿规律初探. 岩石矿物学杂志, 40(2): 452-464 doi: 10.3969/j.issn.1000-6524.2021.02.018
赵春林. 1964. 锂铍石——一个新的富锂、铍矿物. 地质学报, 44(3): 334-342
https://www.cnki.com.cn/Article/CJFDTOTAL-DZXE196403005.htm
赵一鸣, 丰成友, 李大新, 刘建楠, 王辉, 钟世华. 2017. 湖南香花岭锡铍多金属矿区的含Li、Be条纹岩和有关交代岩. 矿床地质, 36(6): 1245-1262
https://www.cnki.com.cn/Article/CJFDTOTAL-KCDZ201706001.htm
赵芝, 陈郑辉, 王成辉, 杨武平. 2012. 闽东大湾钼铍矿的辉钼矿Re-Os同位素年龄——兼论福建省钼矿时空分布及构造背景. 大地构造与成矿学, 36(3): 399-405 doi: 10.3969/j.issn.1001-1552.2012.03.012
朱金初, 饶冰, 熊小林, 李福春, 张佩华. 2002. 富锂氟含稀有矿化花岗质岩石的对比和成因思考. 地球化学, 31(2): 141-152 doi: 10.3321/j.issn:0379-1726.2002.02.005