Triphylite – sarcopside miscibility gap in the FeO-MnO-Li2O-P2O5-H2O system: experimental investigation and thermometric application to granitic pegmatites
Hatert, Frédéric; Roda-Robles, Encarnacion; Ottolini, Let al.
Hatert, Frédéric ; Université de Liège > Département de géologie > Minéralogie et cristallochimie
Roda-Robles, Encarnacion ; Université de Liège > Département de géologie > Minéralogie et cristallochimie
Ottolini, L
Schmid-Beurmann, Peter ; Université de Liège > Département de géologie > Minéralogie et cristallochimie
Baijot, Maxime ; Université de Liège > Département de géologie > Minéralogie et cristallochimie
Dal Bo, Fabrice ; Université de Liège - ULiège > Doct. sc. (géologie - Bologne)
Language :
English
Title :
Triphylite – sarcopside miscibility gap in the FeO-MnO-Li2O-P2O5-H2O system: experimental investigation and thermometric application to granitic pegmatites
BAIJOT, M., HATERT, F., & PHILIPPO, S. (2012) Mineralogy and geochemistry of phosphates and silicates in the Sapucaia pegmatite, Minas Gerais, Brazil: Genetic implications. Canadian Mineralogist 50, 1531-1554.
BAIJOT, M., HATERT, F., DAL BO, F., & PHILIPPO, S. (2014) Mineralogy and petrography of phosphate mineral associations from the Jocao pegmatite, Minas Gerais, Brazil. Canadian Mineralogist 52, 373-397.
BALDWIN, J.R. & VON KNORRING, O. (1983) Compositional range of Mn-garnet in zoned granitic pegmatites. Canadian Mineralogist 21, 683-688.
BELFGUIRA, N., WALHA, S., BEN SALAH, A., HATERT, F., FRANSOLET, A.-M., & KABADOU, A. (2010) Hydrothermal synthesis and structure of Fe6.36Mn 0.64(PO3(OH))4(PO4)2. Journal of Chemical Crystallography 40, 1125-1128.
BRUNET, F., CHOPIN, C., & SEIFERT, F. (1998) Phase relations in the MgO-P2O5-H2O system and the stability of phosphoellenbergerite: Petrological implications. Contributions to Mineralogy and Petrology 131, 54-70.
BURNHAM, C.W. (1991) LCLSQ version 8.4, least-squares refinement of crystallographic lattice parameters. Department of Earth Planetary Sciences, Harvard University, Cambridge, Massachusetts, 24 pp.
ČERŃY, P. & ERCIT, T.S. (2005) The classification of granitic pegmatites revisited. Canadian Mineralogist 40, 2005- 2026.
ČERŃY, P., MEINTZER, R.E., & ANDERSON, A.J. (1985) Extreme fractionation in rare-element granitic pegmatites: Selected examples of data and mechanisms. Canadian Mineralogist 23, 381-421.
DAL BO, F. & HATERT, F. (2012) Fe(II)2.67Fe(III)4(PO4)5.35(HPO4)0.65and Fe(II)2.23Fe(III)4(PO4)4.45(HPO4)1.55, two new mixed-valence iron phosphates. Acta Crystallographica C68, i83-i85.
FRANSOLET, A.-M. (1975) Etude mińeralogique et ṕetrologique des phosphates de pegmatites granitiques. Ph.D. Thesis, University of Lìege, Lìege, Belgium, 333 pp.
FRANSOLET, A.-M. (1977) Intercroissances et inclusions dans les associations graftonite-sarcopside-triphylite. Bulletin de la Socíete fraņcaise de Mińeralogie et de Cristallographie 100, 198-207.
FRANSOLET, A.-M., KELLER, P., & FONTAN, F. (1986) The phosphate mineral associations of the Tsaobismund pegmatite, Namibia. Contributions to Mineralogy and Petrology 92, 502-517.
HATERT, F. (2012) Iron-manganese phosphates with the olivine- And alluaudite-type structures: crystal chemistry and applications. In Minerals as Advanced Materials II (S. Krivovichev, ed.). Springer-Verlag, Berlin-Heidelberg, Germany (279-292).
HATERT, F., FRANSOLET, A.-M., & MARESCH, W.V. (2006) The stability of primary alluaudites in granitic pegmatites: An experimental investigation of the Na2(Mn2-2xFe 1+2x) (PO4)3system. Contributions to Mineralogy and Petrology 152, 399-419.
HATERT, F., OTTOLINI, L., & SCHMID-BEURMANN, P. (2011) Experimental investigation of the alluaudite triphylite assemblage, and development of the Na-in-triphylite geothermometer: Applications to natural pegmatite phosphates. Contributions to Mineralogy and Petrology 161, 531-546.
HATERT, F., OTTOLINI, L., WOUTERS, J., & FONTAN, F. (2012a) A structural study of the lithiophilite-sicklerite series. Canadian Mineralogist 50, 843-854.
HATERT, F., RODA-ROBLES, E., DE PARSEVAL, P., & WOUTERS, J. (2012b) Zavaĺiaite, (Mn2+, Fe2+, Mg)3(PO4)2, a new member of the sarcopside group from the La Empleada pegmatite, San Luis Province, Argentina. Canadian Mineralogist 50, 1445-1452.
HATERT, F., BAIJOT, M., & DAL BO, F. (2014) The stability of Fe-rich alluaudites in granitic pegmatites: An experimental investigation of the Na-Fe2+-Fe3+(+PO4) system. Canadian Mineralogist 52, 351-371.
KELLER, P. & VON KNORRING, O. (1989) Pegmatites at the Okatjimukuju farm, Karibib, Namibia. Part I: Phosphate mineral associations of the Clementine II pegmatite. European Journal of Mineralogy 1, 567-593.
KRETZ, R. (1983) Symbols for rock-forming minerals. American Mineralogist 68, 277-279.
LONDON, D. (2008) Pegmatites. Canadian Mineralogist Special Publication 10, 347 pp.
LONDON, D., WOLF, M.B., MORGAN, G.B., & GALLEGO GARRIDO, M. (1999) Experimental silicate-phosphate equilibria in peraluminous granitic magmas, with a case study of the Albuquerque batholith at Tres Arroyos, Badajoz, Spain. Journal of Petrology 40, 215-240.
LONDON, D., MORGAN, G.B., & WOLF, M.B. (2001) Amblygonite- montebrasite solid solutions as monitors of fluorine in evolved granitic and pegmatitic melts. American Mineralogist 86, 225-233.
LONDON, D., MORGAN, G.B., PAUL, K.A., & GUTTERY, B.M. (2012) Internal evolution of miarolitic granitic pegmatites at the little three mine, Ramona, California, USA. Canadian Mineralogist 50, 1025-1054.
MOORE, P.B. (1965) The crystal structure of laueite, Mn2+Fe3+2(OH)2(PO4)2(H2O)62H2O American Mineralogist 60, 1884-1892.
MOORE, P.B. (1972) Sarcopside: its atomic arrangement. American Mineralogist 57, 24-35.
O'NEILL, H.S.C. & POWNCEBY, M.I. (1993) Thermodynamic data from redox reactions at high temperatures. I. An experimental and theoretical assessment of the electrochemical method using stabilized zirconia electrolytes, with revised values for the Fe-"FeO", Co-CoO, Ni-NiO, and Cu-Cu2O oxygen buffers, and new data for the W- WO2 buffer. Contributions to Mineralogy and Petrology 114, 296-314.
OTTOLINI, L., BOTTAZZI, P., & VANNUCCI, R. (1993) Quantification of lithium, beryllium and boron in silicates by secondary ion mass spectrometry using conventional energy filtering. Analytic Chemistry 65, 1960-1968.
RIETVELD, H.M. (1967) Line profiles of neutron powderdiffraction peaks for structure refinements. Acta Crystallographica 22, 151-152.
RIETVELD, H.M. (1969) A profile refinement method for nuclear and magnetic structures. Journal of Applied Crystallography 2, 65-71.
RODA-ROBLES, E., PESQUERA, A., FONTAN, F., & KELLER, P. (2004) Phosphate mineral associations in the Cãnada pegmatite (Salamanca, Spain): Paragenetic relationships, chemical compositions, and implications for pegmatite evolution. American Mineralogist 89, 110-125.
RODA-ROBLES, E., NIZAMOFF, J.W., SIMMONS, W.B., FALSTER, A.U., & HATERT, F. (2010) Graftonite-triphylite-sarcopside intergrowths from the Palermo No. 1 pegmatite (New Hampshire, USA): Textures and chemistry. Acta Mineralogica- Petrographica, Abstract series 6, 618.
RODA-ROBLES, E., GALLISKI, M., NIZAMOFF, J.W., SIMMONS, W., KELLER, P., FALSTER, A., & HATERT, F. (2011) Cation partitioning between minerals of the triphylite 6 graftonite 6 sarcopside association in granitic pegmatites. Abstract book from the 5th International symposium on granitic pegmatites, PEG 2011, 161-164.
RODA-ROBLES, E., PESQUERA, A., GIL-CRESPO, P.P., & TORRESRUIZ, J. (2012a) The Puentemocha beryl-phosphate granitic pegmatite, Salamanca, Spain: Internal structure, petrography and mineralogy. Canadian Mineralogist 50, 1573-1587.
RODA-ROBLES, E., GALLISKI, M., ROQUET, M.B., HATERT, F., & DE PARSEVAL, P. (2012b) Phosphate nodules containing two distinct assemblages in the Cema granitic pegmatite, San Luis Province, Argentina: Paragenesis, composition and significance. Canadian Mineralogist 50, 913-931.
RONDEUX, M. (2011) Etude exṕerimentale de la cristallochimie et de la stabilite des phosphates a structure fillowite. Ph.D. thesis, University of Lìege, Lìege, Belgium, 238 pp.
SHANNON, R.D. (1976) Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallographica A32, 751-767.
SMEDS, S.T., UHER, P., ČERŃY, P., WISE, M.A., GUSTAFSSON, L., & PENNER, P. (1998) Graftonite-beusite in Sweden: Primary phases, products of exsolution, and distribution in zones populations of granitic pegmatites. Canadian Mineralogist 36, 377-394.
STEFANIDIS, T. & NORD, A.G. (1982) The crystal structure of iron(II) diphosphate, Fe2P2O7.Zeitschrift fur Kristallographie 159, 255-264.
STEFANIDIS, T. & NORD, A.G. (1984) Structural studies of thortveitite-like dimanganese diphosphate, Mn2P2O7. Acta Crystallographica C40, 1995-1999.
TUTTLE, O.F. (1949) Two pressure vessels for silicate-water studies. Geological Society of America Bulletin 60, 1727- 1729.
WHITNEY, L.D. & EVANS, B.W. (2010) Abbreviations for names of rock-forming minerals. American Mineralogist 95, 185-187.
YOUNG, R.A., LARSON, A.C., & PAIVA-SANTOS, C.O. (1998) User's guide to program DBWS-9807 for Rietveld analysis of X-ray and neutron powder diffraction patterns. School of Physics, Georgia Institute of Technology, Atlanta, Georgia, United States, 56 pp.
