The Rare Earth Elements: Demand, Global Resources, and Challenges for Resourcing Future Generations

Ali, S. (2014). Social and environmental impact of the rare earth industries. Resources, 3(1), 123.

Al-Thyabat, S., & Zhang, P. (2015). In-line extraction of REE from Dihydrate (DH) and HemiDihydrate (HDH) wet processes. Hydrometallurgy, 153, 30–37.

Bao, Z., & Zhao, Z. (2008). Geochemistry of mineralization with exchangeable REY in the weathering crusts of granitic rocks in South China. Ore Geology Reviews, 33(3–4), 519–535.

Berger, A., Janots, E., Gnos, E., Frei, R., & Bernier, F. (2014). Rare earth element mineralogy and geochemistry in a laterite profile from Madagascar. Applied Geochemistry, 41, 218–228.

Binnemans, K., & Jones, P. T. (2015). Rare earths and the balance problem. Journal of Sustainable Metallurgy, 1(1), 29–38.

Binnemans, K., Jones, P. T., Blanpain, B., Van Gerven, T., & Pontikes, Y. (2015). Towards zero-waste valorisation of rare-earth-containing industrial process residues: A critical review. Journal of Cleaner Production, 99, 17–38.

Binnemans, K., Jones, P. T., Blanpain, B., Van Gerven, T., Yang, Y., Walton, A., et al. (2013). Recycling of rare earths: A critical review. Journal of Cleaner Production, 51, 1–22.

Boni, M., Rollinson, G., Mondillo, N., Balassone, G., & Santoro, L. (2013). Quantitative mineralogical characterization of karst bauxite deposits in the Southern Apennines, Italy. Economic Geology, 108(4), 813–833.

Borra, C. R., Pontikes, Y., Binnemans, K., & Van Gerven, T. (2015). Leaching of rare earths from bauxite residue (red mud). Minerals Engineering, 76, 20–27.

Borst, A. M., Friis, H., Andersen, T., Nielsen, T. F. D., Waight, T. E., & Smit, M. A. (2016). Zirconosilicates in the kakortokites of the Ilimaussaq complex, South Greenland: Implications for fluid evolution and HFSE–REE mineralisation in agpaitic systems. Mineralogical Magazine. doi: 10.1180/minmag.2016.080.046 .

Broom-Fendley, S., Brady, A. E., Wall, F., Gunn, G., & Dawes, W. (2017). REE minerals at the Songwe Hill carbonatite, Malawi: HREE-enrichment in late-stage apatite. Ore Geology Reviews, 81(Part 1), 23–41.

Castor, S. B. (2008). The Mountain Pass rare-earth carbonatite and associated ultrapotassic rocks, California. The Canadian Mineralogist, 46(4), 779–806.

Chakhmouradian, A. R., & Wall, F. (2012). Rare earth elements: minerals, mines, magnets (and more). Elements, 8, 333–340.

Chakhmouradian, A. R., & Zaitsev, A. N. (2012). Rare earth mineralization in igneous rocks: Sources and processes. Elements, 8, 347–353.

Davris, P., Balomenos, E., Panias, D., & Paspaliaris, I. (2016a). Selective leaching of rare earth elements from bauxite residue (red mud), using a functionalized hydrophobic ionic liquid. Hydrometallurgy, 164, 125–135.

Davris, P., Stopic, S., Balomenos, E., Panias, D., Paspaliaris, I., & Friedrich, B. (2016b). Leaching of rare earth elements from eudialyte concentrate by suppressing silica gel formation. Minerals Engineering. doi: 10.1016/j.mineng.2016.12.011 .

Deady, É. A., Mouchos, E., Goodenough, K., Williamson, B. J., & Wall, F. (2016). A review of the potential for rare-earth element resources from European red muds: Examples from Seydişehir, Turkey and Parnassus-Giona, Greece. Mineralogical Magazine, 80(1), 43–61.

Dostal, J. (2016). Rare metal deposits associated with alkaline/peralkaline igneous rocks. In P. Verplanck & M. Hitzman (Eds.), Rare earth and critical elements in ore deposits (Vol. Reviews in Economic Geology 18, pp. 33–54). Littleton, Colorado: Society of Economic Geologists.

Du, X., & Graedel, T. E. (2013). Uncovering the end uses of the rare earth elements. Science of the Total Environment, 461–462, 781–784.

EC. (2014). Report on critical raw materials for the EU. http://ec.europa.eu/DocsRoom/documents/10010/attachments/1/translations .

Goodenough, K. M., Schilling, J., Jonsson, E., Kalvig, P., Charles, N., Tuduri, J., et al. (2016). Europe’s rare earth element resource potential: An overview of REE metallogenetic provinces and their geodynamic setting. Ore Geology Reviews, 72(Part 1), 838–856.

Goodenough, K. M., & Wall, F. (2016). Critical Metal Mineralogy: Preface to the special issue of Mineralogical Magazine. Mineralogical Magazine, 80(1), 1–4.

Gupta, C. K., & Krishnamurthy, N. (2005). Extractive metallurgy of rare earths. Boca Raton: CRC Press.

GWEC. (2015). Global wind report: Annual market update. http://www.gwec.net/publications/global-wind-report-2/global-wind-report-2015-annual-market-update/ .

Hao, Z. (2016). Developments in dysprosium and terbium free rare earth magnets. Paper presented at the 12th international rare earths conference, Hong Kong,

Harmer, R., & Nex, P. (2016). Rare earth deposits of Africa. Episodes, 39(2), 381–406.

Hedrick, J. B., Sinha, S. P., & Kosynkin, V. D. (1997). Loparite, a rare-earth ore (Ce, Na, Sr, Ca)(Ti, Nb, Ta, Fe + 3)O3. Journal of Alloys and Compounds, 250(1–2), 467–470.

Holtstam, D., Andersson, U. B., Broman, C., & Mansfeld, J. (2014). Origin of REE mineralization in the bastnäs-type Fe-REE-(Cu–Mo–Bi–Au) deposits, Bergslagen, Sweden. Mineralium Deposita, 49, 933–966.

IFoR. (2016). World robotics 2016 industrial robots. https://ifr.org/worldrobotics .

Jaireth, S., Hoatson, D. M., & Miezitis, Y. (2014). Geological setting and resources of the major rare-earth-element deposits in Australia. Ore Geology Reviews, 62, 72–128.

Jordens, A., Cheng, Y. P., & Waters, K. E. (2013). A review of the beneficiation of rare earth element bearing minerals. Minerals Engineering, 41, 97–114.

Jordens, A., Sheridan, R. S., Rowson, N. A., & Waters, K. E. (2014). Processing a rare earth mineral deposit using gravity and magnetic separation. Minerals Engineering, 62, 9–18.

Jowitt, S. M., Medlin, C. C., & Cas, R. A. F. (2017). The rare earth element (REE) mineralisation potential of highly fractionated rhyolites: A potential low-grade, bulk tonnage source of critical metals. Ore Geology Reviews, 86, 548–562.

Kogarko, L. N., Williams, C. T., & Woolley, A. R. (2002). Chemical evolution and petrogenetic implications of loparite in the layered, agpaitic Lovozero complex, Kola Peninsula, Russia. Mineralogy and Petrology, 74(1), 1–24.

Kravchenko, S., & Pokrovsky, B. (1995). The Tomtor alkaline ultrabasic massif and related REE–Nb deposits, northern Siberia. Economic Geology, 90(3), 676–689.

Krishnamurthy, N., & Gupta, C. K. (2015). Extractive metallurgy of rare earths (2nd ed.). Boca Raton: CRC Press.

Kumari, A., Panda, R., Jha, M. K., Kumar, J. R., & Lee, J. Y. (2015). Process development to recover rare earth metals from monazite mineral: A review. Minerals Engineering, 79, 102–115.

Kuzmin, V. I., Pashkov, G. L., Lomaev, V. G., Voskresenskaya, E. N., & Kuzmina, V. N. (2012). Combined approaches for comprehensive processing of rare earth metal ores. Hydrometallurgy, 129–130, 1–6.

Kynicky, J., Smith, M. P., & Xu, C. (2012). Diversity of rare earth deposits: The key example of China. Elements, 8(5), 361–367.

Lazareva, E. V., Zhmodik, S. M., Dobretsov, N. L., Tolstov, A. V., Shcherbov, B. L., Karmanov, N. S., et al. (2015). Main minerals of abnormally high-grade ores of the Tomtor deposit (Arctic Siberia). Russian Geology and Geophysics, 56(6), 844–873.

Li, M., Duan, C., Wang, H., Liu, Z., Wang, M., & Hu, Y. (2016). Lanthanum histidine with pentaerythritol and zinc stearate as thermal stabilizers for poly(vinyl chloride). Journal of Applied Polymer Science. doi: 10.1002/app.42878 .

Li, M., Jiang, Z., Liu, Z., Hu, Y., Wang, M., & Wang, H. (2013). Effect of lanthanum cyanurate as novel organic thermal stabilizers for polyvinyl chloride. Polymer Engineering & Science, 53(8), 1706–1711.

Lottermoser, B. G. (1990). Rare-earth element mineralisation within the Mt. Weld carbonatite laterite, Western Australia. Lithos, 24(2), 151–167.

Machacek, E., & Fold, N. (2014). Alternative value chains for rare earths: The Anglo-deposit developers. Resources Policy, 42, 53–64.

Machacek, E., & Kalvig, P. (2016). Assessing advanced rare earth element-bearing deposits for industrial demand in the EU. Resources Policy, 49, 186–203.

Mariano, A. N., & Mariano, A. (2012). Rare earth mining and exploration in North America. Elements, 8(5), 369–376.

Marks, M. A. W., Hettmann, K., Schilling, J., Frost, B. R., & Markl, G. (2011). The mineralogical diversity of alkaline igneous rocks: Critical factors for the transition from miaskitic to agpaitic phase assemblages. Journal of Petrology, 52(3), 439–455.

Massari, S., & Ruberti, M. (2013). Rare earth elements as critical raw materials: Focus on international markets and future strategies. Resources Policy, 38(1), 36–43.

McDonough, W. F., & Sun, S.-S. (1995). The composition of the earth. Chemical Geology, 120, 223–253.

Moldoveanu, G. A., & Papangelakis, V. G. (2012). Recovery of rare earth elements adsorbed on clay minerals: I. Desorption mechanism. Hydrometallurgy, 117–118, 71–78.

Moldoveanu, G. A., & Papangelakis, V. G. (2016). An overview of rare-earth recovery by ion-exchange leaching from ion-adsorption clays of various origins. Mineralogical Magazine, 80(1), 63–76.

Mudd, G. M., & Jowitt, S. M. (2016). Rare earth elements from heavy mineral sands: Assessing the potential of a forgotten resource. Applied Earth Science, 125(3), 107–113.

Nassar, N. T., Du, X., & Graedel, T. E. (2015). Criticality of the rare earth elements. Journal of Industrial Ecology, 19(6), 1044–1054.

Nuttall, M. (2013). Zero-tolerance, uranium and Greenland’s mining future. The Polar Journal, 3(2), 368–383.

Ogata, T., Narita, H., Tanaka, M., Hoshino, M., Kon, Y., & Watanabe, Y. (2016). Selective recovery of heavy rare earth elements from apatite with an adsorbent bearing immobilized tridentate amido ligands. Separation and Purification Technology, 159, 157–160.

Pagano, G., Guida, M., Tommasi, F., & Oral, R. (2015). Health effects and toxicity mechanisms of rare earth elements—Knowledge gaps and research prospects. Ecotoxicology and Environmental Safety, 115, 40–48.

Riba, J.-R., López-Torres, C., Romeral, L., & Garcia, A. (2016). Rare-earth-free propulsion motors for electric vehicles: A technology review. Renewable and Sustainable Energy Reviews, 57, 367–379.

Roskill. (2016a). Lithium: Global industry, markets and outlook (13th ed.). London, UK: Roskill.

Roskill. (2016b). Rare earths: Global industry, markets and outlook (16th ed.). London, UK: Roskill.

Salvi, S., & Williams-Jones, A. E. (1996). The role of hydrothermal processes in concentrating high-field strength elements in the Strange Lake peralkaline complex, northeastern Canada. Geochimica et Cosmochimica Acta, 60(11), 1917–1932.

Salvi, S., & Williams-Jones, A. E. (2006). Alteration, HFSE mineralisation and hydrocarbon formation in peralkaline igneous systems: Insights from the Strange Lake Pluton, Canada. Lithos, 91(1–4), 19–34.

Sanematsu, K., & Watanabe, Y. (2016). Characteristics and genesis of ion adsorption-type rare earth element deposits. In P. Verplanck & M. Hitzman (Eds.), Rare earth and critical elements in ore deposits (Vol. Reviews in Economic Geology 18, pp. 55–79). Littleton, Colorado: Society of Economic Geologists.

Santana, I. V., Wall, F., & Botelho, N. F. (2015). Occurrence and behavior of monazite-(Ce) and xenotime-(Y) in detrital and saprolitic environments related to the Serra Dourada granite, Goiás/Tocantins State, Brazil: Potential for REE deposits. Journal of Geochemical Exploration, 155, 1–13.

Sengupta, D., & Van Gosen, B. S. (2016). Placer-type rare earth element deposits. In P. Verplanck & M. Hitzman (Eds.), Rare earth and critical elements in ore deposits (Vol. Reviews in Economic Geology 18, pp. 81–100). Littleton, Colorado: Society of Economic Geologists.

Seredin, V. V. (2010). A new method for primary evaluation of the outlook for rare earth element ores. Geology of Ore Deposits, 52(5), 428–433.

Sheard, E. R., Williams-Jones, A. E., Heiligmann, M., Pederson, C., & Trueman, D. L. (2012). Controls on the concentration of zirconium, niobium, and the rare earth elements in the Thor Lake rare metal deposit, Northwest Territories, Canada. Economic Geology, 107, 81–104.

Sjöqvist, A. S. L., Cornell, D. H., Andersen, T., Erambert, M., Ek, M., & Leijd, M. (2013). Three compositional varieties of rare-earth element ore: Eudialyte-group minerals from the Norra Kärr Alkaline Complex, Southern Sweden. Minerals, 3, 94–120.

Smith, M. P., Campbell, L. S., & Kynicky, J. (2015). A review of the genesis of the world class Bayan Obo Fe–REE–Nb deposits, Inner Mongolia, China: Multistage processes and outstanding questions. Ore Geology Reviews, 64, 459–476.

Smith, M. P., Moore, K., Kavecsánszki, D., Finch, A. A., Kynicky, J., & Wall, F. (2016). From mantle to critical zone: A review of large and giant sized deposits of the rare earth elements. Geoscience Frontiers, 7(3), 315–334.

Smith Stegen, K. (2015). Heavy rare earths, permanent magnets, and renewable energies: An imminent crisis. Energy Policy, 79, 1–8.

Sørensen, H. (1992). Agpaitic nepheline syenites: A potential source of rare elements. Applied Geochemistry, 7(5), 417–427.

Sørensen, H., Bailey, J. C., & Rose-Hansen, J. (2011). The emplacement and crystallization of the U-Th–REE rich agpaitic and hyperagpaitic lujavrites at Kvanefjeld, Ilímaussaq alkaline complex, South Greenland. Bulletin of the Geological Society of Denmark, 59, 69–92.

Spandler, C., & Morris, C. (2016). Geology and genesis of the Toongi rare metal (Zr, Hf, Nb, Ta, Y and REE) deposit, NSW, Australia, and implications for rare metal mineralization in peralkaline igneous rocks. Contributions to Mineralogy and Petrology, 171(12), 104.

Stark, T., Silin, I., & Wotruba, H. (2016). Mineral processing of eudialyte ore from Norra Kärr. Journal of Sustainable Metallurgy, 3, 1–7.

Timofeev, A., & Williams-Jones, A. E. (2015). The origin of niobium and tantalum mineralization in the nechalacho REE deposit, NWT, Canada. Economic Geology, 110(7), 1719–1735.

Verplanck, P. L., & Hitzman, M. (2016). Rare earth and critical elements in ore deposits (Vol. Reviews in Economic Geology 18). Littleton, Colorado: Society of Economic Geologists.

Verplanck, P. L., Mariano, A. N., & Mariano, A. (2016). Rare earth element ore geology of carbonatites. In P. Verplanck & M. Hitzman (Eds.), Rare earth and critical elements in ore deposits (Vol. Reviews in Economic Geology 18, pp. 5–32). Littleton, Colorado: Society of Economic Geologists.

Voßenkaul, D., Birich, A., Müller, N., Stoltz, N., & Friedrich, B. (2016). Hydrometallurgical processing of eudialyte bearing concentrates to recover rare earth elements via low-temperature dry digestion to prevent the silica gel formation. Journal of Sustainable Metallurgy, 3, 1–11.

Wall, F. (2014). Rare earth elements. In A. G. Gunn (Ed.), Critical metals handbook (pp. 312–339). London: Wiley.

Wall, F., & Mariano, A. N. (1996). Rare earth minerals in carbonatites: A discussion centred on the Kangankunde Carbonatite, Malawi. In A. P. Jones, F. Wall, & C. T. Williams (Eds.), Rare earth minerals: Chemistry, origin and ore deposits (pp. 193–226). London: Chapman and Hall.

Wall, F., Williams, C., Woolley, A., & Nasraoui, M. (1996). Pyrochlore from weathered carbonatite at Lueshe, Zaire. Mineralogical Magazine, 60(5), 731–750.

Wang, Q., Deng, J., Liu, X., Zhang, Q., Sun, S., Jiang, C., et al. (2010). Discovery of the REE minerals and its geological significance in the Quyang bauxite deposit, West Guangxi, China. Journal of Asian Earth Sciences, 39(6), 701–712.

Xie, F., Zhang, T. A., Dreisinger, D., & Doyle, F. (2014). A critical review on solvent extraction of rare earths from aqueous solutions. Minerals Engineering, 56, 10–28.

Xu, C., Kynický, J., Smith, M. P., Kopriva, A., Brtnický, M., Urubek, T., et al. (2017). Origin of heavy rare earth mineralization in South China. Nature Communications, 8, 14598.

Yang, X. J., Lin, A., Li, X.-L., Wu, Y., Zhou, W., & Chen, Z. (2013). China’s ion-adsorption rare earth resources, mining consequences and preservation. Environmental Development, 8, 131–136.