4 November 2015 | Evidence for dissolution-reprecipitation of apatite and preferential LREE mobility in carbonatite-derived late-stage hydrothermal processes | Broom-Fendley, Sam Louis; Styles, MT; Appleton, JD; et al. |
1 April 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 | Santana, IV; Wall, F; Botelho, NF |
8 April 2016 | On the feasibility of imaging carbonatite-hosted rare earth element (REE) deposits using remote sensing | Neave, DA; Black, M; Riley, TR; et al. |
10 June 2017 | Response to ‘Assessing the energy requirements and global warming potential of the production of rare earth elements’ | Pell, R; Wall, F; Yan, X; et al. |
11 December 2017 | Fenites associated with carbonatite complexes: A review | Elliott, HAL; Wall, F; Chakmouradian, AR; et al. |
27 July 2017 | Granitoid zircon forms the nucleus for minerals precipitated by carbonatite-derived metasomatic fluids at Chilwa Island, Malawi | Dowman, E; Wall, F; Jeffries, T; et al. |
9 November 2017 | Deducing the source and composition of rare earth mineralising fluids in carbonatites: insights from isotopic (C, O, 87Sr/86Sr) data from Kangankunde, Malawi | Broom-Fendley, SL; Wall, F; Spiro, B; et al. |
3 August 2016 | Tracing the fluid source of heavy REE mineralisation in carbonatites using a novel method of oxygen-isotope analysis in apatite: The example of Songwe Hill, Malawi | Broom-Fendley, SL; Heaton, T; Wall, F; et al. |
9 June 2014 | Reprint of "Rare earth elements in phoscorites and carbonatites of the Devonian Kola Alkaline Province, Russia: Examples from Kovdor, Khibina, Vuoriyarvi and Turiy Mys complexes" | Zaitsev, AN; Williams, CT; Jeffries, TE; et al. |
20 April 2017 | The rare earth elements: demand, global resources, and challenges for resourcing future generations | Goodenough, KM; Wall, F; Merriman, D |