PEGMAT background articles

• Bertrand G., Cassard D., Arvanitidis N., Stanley G., and the EuroGeoSurvey Mineral Resources Expert Group, 2016. Map of critical raw material deposits in Europe. Energy Procedia, v. 97, pp. 44-50

• Broska I. & Kubiš M. 2018. Accessory minerals and evolution of tin-bearing S-type granites in the western segment of the Gemeric Unit (Western Carpathians). Geologica Carpathica, 2018, vol. 69, no. 5, p. 483-497.

• Broska I. & Svojtka M. 2020. Early Carboniferous successive I/S granite magmatism recorded in the Malá Fatra Mountains by La-ICP-MS zircon dating (Western Carpathians). Geologica Carpathica 71, 391-401.

• Čopjaková, R., Škoda, R., Vašinová-Galiová, M., and Novák, M., 2013. Distributions of Y+ REE and Sc in tourmaline and their implications for the melt evolution; examples from NYF pegmatites of the Třebíč Pluton, Moldanubian Zone, Czech Republic. Journal of Geosciences, 58(2), 113-131.

• Deveaud S., Millot R., and Villaros A., 2015. The genesis of LCT-type granitic pegmatites, as illustrated by lithium isotopes in micas; Chemical Geology, Vol. 411, 97-101.

• Deveaud S., Gumiaux C., Gloaguen E., and Branquet Y., 2013. Spatial statistical analysis applied to rare-elements LCT pegmatite fields: an original approach to constrain fault-pegmatites-granites relationships; PEG 2013, the 6th International Symposium on Granitic Pegmatites, Program with abstract, 36.

• Gourcerol B., Gloaguen E., Melleton J., Tuduri J., and Galiegue X. 2019. Re-assessing the European lithium resource potential – A review of hard-rock resources and metallogeny. Ore Geology Reviews, 109, 494-519. https://doi.org/10.1016/j.oregeorev.2019.04.015

• Melleton, J., Gloaguen, E., Frei, D., Novák, M. and Breiter, K. 2012. How are the emplacement of rare-element pegmatites, regional metamorphism and magmatism interrelated in the Moldanubian domain of the Variscan Bohemian massif, Czech Republic? Canadian Mineralogist, 50, 1751-1773.

• Michaud J., Pichavant M., Marcoux E., Gloaguen E., Gumiaux C. 2020. From magmatic to hydrothermal Sn-Li-(Nb-Ta-W) mineralization: The Argemela area (Portugal). Ore Geology Reviews, 116, 103215. https://doi.org/10.1016/j.oregeorev.2019.103215

• Novák, M., 2005. Granitic pegmatites of the Bohemian Massif (Czech Republic); mineralogical, geochemical and regional classification and geological significance. Acta Mus. Moraviae. Sci. Geol., 90, 3–74. (in Czech)

• Novák, M., and Cempírek, J. (eds) 2010. Granitic pegmatites and mineralogical museums in Czech Republic. IMA 2010 Field Trip Guide CZ2. Acta Mineralogica Petrographica Field Guide Series 6, Szeged, pp 1–56.

• Novák, M., Cícha, J., Čopjaková, R., Škoda, R., & Galiová, M. V. (2017). Milarite-group minerals from the NYF pegmatite Velká skála, Písek district, Czech Republic: sole carriers of Be from the magmatic to hydrothermal stage. European Journal of Mineralogy, 29(4), 755-766.

• Peytcheva, I., von Quadt, A., Kostov-Kytin, V., Kadiyski, M., Stavrev, M. 2021. U–Pb dating and composition of columbite from Vishteritsa: Implication for timing of granite magmatism and rare-element granitic pegmatites in the Western Rhodopes, Bulgaria. Geologica Carparthica, 72, 3, 195–212.

• Reiser M.K., Săbău G., Negulescu E., Schuster R., Tropper P., and Fügenschuh B., 2018. Post-Variscan metamorphism in the Apuseni and Rodna Mountains (Romania): evidence from Sm–Nd garnet and U–Th–Pb monazite dating. Swiss J. Geosci. 112/1, 101-120.

• Săbău G., 1995. Consequences of nappe tectonics in the upper part of the Lotru Series (in Romanian). Romanian Journal of Mineral Deposits 76, 55-62.

• Săbău, G., Negulescu, E. (2014a). Inheritance, Variscan tectonometamorphic evolution and Permian to Mesozoic rejuvenations in the metamorphic basement complexes of the Romanian Carpathians revealed by monazite microprobe geochronology. Geophysical Research Abstracts, Vol. 16, EGU2014-4324-2, 2014, https://doi.org/10.13140/2.1.5180.0643

• Săbău, G., Negulescu, E. (2014b). A monazite U-Th-PbT metamorphic ages survey in the South Carpathian basement units: delving into tectonic stacking and differential exhumation. Buletini i Shkencave Gjeologjike, Special Issue 1, Proc. XX Congress of CBGA 2014, 219-222. https://doi.org/10.13140/2.1.1831.8088

• Škoda, R., Plášil, J., Čopjaková, R., Novák, M., Jonsson, E., Galiová, M. V., & Holtstam, D. 2018. Gadolinite-(Nd), a new member of the gadolinite supergroup from Fe-REE deposits of Bastnäs-type, Sweden. Mineralogical magazine, 82(S1), S133-S145.

• Výravský, J., Novák, M., & Škoda, R. 2017. Formation of pretulite (ScPO4) by recrystallization of Sc-rich precursors in Dolní Bory pegmatite: Evidence for different mobility of Sc, Y, REE and Zr in hydrothermal conditions. Chemical Geology, 449, 30-40.

• Vassileva, RD., Peytcheva, I., Grozdev, V., von Quadt, A., Guillong, M., Plotkina, Y., Salnikova, E. 2019. Two types of skarn garnets from West Rhodopes, South Bulgaria: LA-ICP-MS U-Pb dating and tracing evidence. – Proceedings of the 15th SGA Biennial Meeting, 27-30 August 2019, Glasgow, Scotland, Vol. 1, 416-419. ISBN 978-0-85261-962-9

• Zachař, A., Novák, M., & Škoda, R. 2020. Beryllium minerals as monitors of geochemical evolution from magmatic to hydrothermal stage; examples from NYF pegmatites of the Třebíč Pluton, Czech Republic. Journal of Geosciences, 65(3), 153-172.