[BROSKA I., SIMAN P., 1998: The breakdown of monazite in the West-Carpathian Veporic orthogneisses and Tatric granites. Geologica Carpathica 49, 161-167.]Search in Google Scholar
[BROSKA I., PETRÍK I., WILLIAMS C. T., 2000: Coexisting monazite and allanite in peraluminious granitoids of the Tribeč Mountains, Western Carpathians. American Mineralogist 85, 22-32.10.2138/am-2000-0104]Search in Google Scholar
[BROSKA I., KUBIŠ, M., WILLIAMS C. T., KONEČNÝ P. 2002. The composition of rock-forming and accessory minerals from the Gemeric granites (Hnilec area, Gemeric superunit, Western Carpathians). Bulletin of the Czech Geological Survey 7, 147-155.]Search in Google Scholar
[BROSKA I., WILLIAMS C. T., UHER P., KONEČNÝ P., LEICHMANN J., 2004: The geochemistry of phosphorus in different granite suites of the Western Carpathians, Slovakia: the role of apatite and P-bearing feldspar. Chemical geology 205, 1-15.10.1016/j.chemgeo.2003.09.004]Search in Google Scholar
[BROSKA I., WILLIAMS C. T., JANÁK M., NAGY G., 2005: Alteration and breakdown of xenotime-(Y) and monazite-(Ce) in granitic rocks of the Western Carpathians, Slovakia. Lithos 82, 71-83.10.1016/j.lithos.2004.12.007]Search in Google Scholar
[BROSKA I., HARLOV D., TROPPER P., SIMAN P., 2007: Formation of magmatic titanite and titanite-ilmenite phase relations during granite alteration in the Tribeč mountains, Western Carpathians, Slovakia. Lithos 95, 58-71.10.1016/j.lithos.2006.07.012]Search in Google Scholar
[BURT D. M., 1989: Compositional and phase relations among rare earth element minerals. In: Geochemistry and mineralogy of rare earth elements, B. R. Lipin & G. A. McKay (Eds.). Reviews in Mineralogy 21, 298-306.10.1515/9781501509032-013]Search in Google Scholar
[BUDZYŇ B., KONEČNÝ P., MICHALIK M., 2006: Breakdown of primary monazite and formation of secondary monazite in gneiss clasts from Gródek at the Jezioro Roźnowskie lake (Poland). Mineralogia Polonica - Special Papers 28, 33-35.]Search in Google Scholar
[CATLOS E., GILLEY L. D., HARRISON T. M., 2002: Interpretation of monazite ages obtained via in situ analysis. Chemical Geology 188, 193-215.10.1016/S0009-2541(02)00099-2]Search in Google Scholar
[CUNEY M., FRIEDRICH M., 1987: Physicochemical and crystal-chemical control on accessory mineral paragenesis in granitoids: Implications for uranium metallogenesis. Bulletin Minèralogie 110, 235-247.10.3406/bulmi.1987.7983]Search in Google Scholar
[FINGER F., KRENN. E., 2007: Three metamorphic monazite generations in a high-pressure rock from the Bohemian Massif and the potentially important role of apatite in stimulating polyphase monazite growth along a PT loop. Lithos 95, 103-115.10.1016/j.lithos.2006.06.003]Search in Google Scholar
[FRÝDA J., BREITER K., 1995. Alkali feldspars as a main phosphorus reservoir in rare-metal granites: three examples from the Bohemian Massif (Czech Republic). Terra Nova 7, 315-320.10.1111/j.1365-3121.1995.tb00800.x]Search in Google Scholar
[FÖRSTER H. J., 1998a. The chemical composition of REE-Y-Th-U-rich accessory minerals in peraluminous granites of the Erzgebirge-Fichtelgebirge region, Germany. Part I. The monazite-(Ce)-brabantite solid solution series. American Mineralogist 83, 259-272.10.2138/am-1998-3-409]Search in Google Scholar
[FÖRSTER H. J., 1998b. The chemical composition of REE-Y-Th-U-rich accessory minerals in peraluminous granites of the Erzgebirge-Fichtelgebirge region, Germany, Part II. Xenotime. American Mineralogist 83, 1302-1315.10.2138/am-1998-11-1219]Search in Google Scholar
[GROMET L. P., SILVER L. T., 1983: Rare earth element distributions among minerals in a granodiorite and their petrological implications. Geochimimica Cosmochimica Acta 47, 952-938.10.1016/0016-7037(83)90158-8]Search in Google Scholar
[HARLOV D. E., FÖRSTER H. J., 2003: Fluid-induced nucleation of (Y+REE)-phosphate minerals within apatite: Nature and experiments. Part II. Fluorapatite. American Mineralogist 88, 1209-1209.10.2138/am-2003-8-905]Search in Google Scholar
[HARLOV D. E., WIRTH R., FÖRSTER H. J., 2005: An experimental study of dissolution-reprecipitation in fluorapatite: fluid infiltration and formation of monazite. Contributions to Mineralogy and Petrology 150, 268-286.10.1007/s00410-005-0017-8]Search in Google Scholar
[HEINRICH W., ANDREHS G., FRANZ G., 1997: Monazite-xenotime miscibility gap thermometer. 1. An empirical calibration. Journal of Metamorphic Geology 15, 3-16.10.1111/j.1525-1314.1997.t01-1-00052.x]Search in Google Scholar
[HUGHES J. M., RAKOVAN J., 2002: The crystal structure of apatite: Ca5(PO4)3(F, OH, Cl). In: Phosphates. Geochemical, Geobiological, and Materials Importance. Kohn M. J., Rakovan J., Hughes J. M.(Eds.): Reviews of Mineralogy and Geochemistry 48, 1-12.10.2138/rmg.2002.48.1]Search in Google Scholar
[JANOTS E., BRUNET F., GOFFÉ B., POINSSOT C., BYRCHARD M., CEMIC L., 2007: Thermochemistry of monazite-(La) and dissakisite-(La): implications for monazite and allanite stability in metapelites. Contributions to Mineralogy and Petrology 154, 1-14.10.1007/s00410-006-0176-2]Search in Google Scholar
[KRENN E., FINGER F., 2007: Formation of monazite and rhabdophane at the expense of aalanite during Alpine low temperature retrogression of metapelitic basement rocks from Crete, Greece. Microprobe data and geochronological implications. Lithos 95, 130-14710.1016/j.lithos.2006.07.007]Search in Google Scholar
[KUCHA H., 1980: Continuity in the monazite-huttonite series. Mineralogical Magazine 43, 387-393.10.1180/minmag.1980.043.332.12]Search in Google Scholar
[LINTHOUT K., 2007: Tripartite division of the system 2 REEPO4 - CaTh(PO4)2 - 2ThSiO4, discreditation of brabantite, and recognition of cheralite as the name for members dominated by CaTh(PO4)2. Canadian Mineralogist 45, 503-508.10.2113/gscanmin.45.3.503]Search in Google Scholar
[LONDON D., ČERNÝ P., LOOMIS J. L., PAN J. J., 1990. Phosphorus in alkali feldspars of rare-element granitic pegmatites. Canadian Mineralogist 28, 771-786.]Search in Google Scholar
[LONDON D., 1992: Phosphorus in S-type magmas: the P2O5 content of feldspars from peraluminious granites, pegmatites and rhyolites. American Mineralogist 77, 126-145.]Search in Google Scholar
[LONDON D., 1998: Phosphorus-rich peraluminious granites. Acta Universitatis Carolinae - Geologica 42, 64-68.]Search in Google Scholar
[MAJKA J., BUDZYŇ B., 2006: Monazite breakdown in metapelites from Wedel Jarlsberg Land, Svalbard - preliminary report. Mineralogia Polonica 37, 61-68.10.2478/v10002-007-0006-9]Search in Google Scholar
[MICHALIK M., SKUBLICKI L., 1999: Phosphate accessory minerals in High Tatra granitoids. Geologica Carpathica 50, Spec. Issue, 123-125.]Search in Google Scholar
[MICHALIK M., POPCZYK R., KUSIAK M., PASZKOWSKI M., 2000: Xenotime zircon intergrowths in the Western Tatra leucogranites. Mineralogical Society of Poland - Special Papers 17, 249-251.]Search in Google Scholar
[NASH W. P., 1972: Apatite chemistry and phosphorus fugacity in a differentiated igneous intrusion. American Mineralogist 57, 877-886.]Search in Google Scholar
[NI Y., HUGHES J. M., MARIANO A. M., 1995: Crystal chemistry of the monazite and xenotime structures. American Mineralogist 80, 21-26.10.2138/am-1995-1-203]Search in Google Scholar
[PETRÍK I., KONEČNÝ P., KOVÁČIK M., HOLICKÝ I. 2006: Electron microprobe dating of monazite from the Nizke Tatry Mountains orthogneisses (Western Carpathians, Slovakia). Geologica Carpathica 57, 227-242.]Search in Google Scholar
[PLAŠIENKA D., GRECULA P., PUTIŠ, M., HOVORKA D. & KOVÁČ, M., 1997. Evolution and structure of the Western Carpathians: an overview. In: Geological Evolution of the Western Carpathians (eds. P. Grecula, D. Hovorka & M. Putiš), Mineralia Slovaca, Monograph, 1-24.]Search in Google Scholar
[PYLE J. M., SPEAR F. S., RUDNICK R. L. & MCDONOUGH W. F., 2001: Monazite-xenotime and monazite-garnet equilibrium in a prograde pelite sequence. Journal of Petrology 42, 2083-2107.10.1093/petrology/42.11.2083]Search in Google Scholar
[ROSE D., 1980: Brabantite, CaTh[PO4]2, a new mineral of the monazite group. Neues Jahrbuch für Mineralogy, Monatshefte 247-257.]Search in Google Scholar
[ROJKOVIČ I., KONEČNÝ P., NOVOTNÝ L., PUŠKELOVÁ L., STREŠKO V., 1999: Quartz-apatite-REE vein mineralization in early paleozoic rocks of the Gemeric superunit, Slovakia. Geologica Carpathica 50, 215-227.]Search in Google Scholar
[SPEAR F., PYLE J. M., 2002: Apatite, monazite and xenotime in metamorphic rocks. In: Phosphates. Geochemical, Geobiological, and Materials Importance. Kohn M. J., Rakovan J., Hughes J. M.(Eds.): Reviews in Mineralogy and Geochemistry 48, 293-335.10.2138/rmg.2002.48.7]Search in Google Scholar
[UHER P., MALACHOVSKÝ P., DIANIŠKA I., KUBIŠ M., 2001: Rare-element Nb-Ta-W mineralization of the tin-bearing Spiš-Gemer granites, Eastern Slovakia. GeoLines 13, 119-120.]Search in Google Scholar
[WATSON E. B., CAPOBIANCO C. J., 1981: Phosphorus and rare earth elements in felsic magmas. An assesment of the role of apatite. Geochimica Cosmochimica Acta 45, 2349-2358.10.1016/0016-7037(81)90088-0]Search in Google Scholar
[WATSON E. B., HARRISON T. M. 1984: What can accessory minerals tell us about felsic magma evolution? A framework for experimental study. Proceedings 27th International Geological Congres 11, 503-520.]Search in Google Scholar
[BEA F., FERSHTATER G., CORRETGÉ L. G., 1992: The geochemistry of phosphorus in granite and the effect of aluminium. Lithos 29, 43-45.10.1016/0024-4937(92)90033-U]Search in Google Scholar
[BOWIE S. H. U., HORNE J. E. T., 1953: Cheralite, a new mineral of the monazite group.Mineralogical Magazine 30, 93-99.10.1180/minmag.1953.030.221.02]Search in Google Scholar
[BREITER K., FRÝDA J., LEICHMANN J., 2002: Phosphorus and rubidium in alkali feldpars: case studies and possible genetic interpretation. In: Breiter K., 2002 (Ed.): Phosphorus- and fluorine-rich fractionated granites. Bulletin of the Czech Geological Survey 77, 93-104.]Search in Google Scholar
[BREITER K., FRÝDA J., SELTMAN R., THOMAS R., 1997: Mineralogical evidence for two magmatic stages in the evolution of an extremely fractionated P-rich rare-metal granite: the Podlesí stock, Krušné Hory, Czech Republic. Journal of Petrology 38, 1723-1739.10.1093/petroj/38.12.1723]Search in Google Scholar
[ONDREJKA M., UHER P., PRŠEK J., OZDÍN D., 2007: Arsean monazite-(Ce) and xenotime-(Y), REE arsenates and carbonates from the Tisovec-Rejkovo rhyolite, Western Carpathians, Slovakia: Composition and substitution in the (REE, Y)XO4 system (X = P, As, Si, Nb, S). Lithos 95, 116-129.10.1016/j.lithos.2006.07.019]Search in Google Scholar
[PAN Y., 1997: Zircon- and monazite forming metamorphic reactions at Manitouwadge, Ontario. Canadian Mineralogist 35, 105-118.]Search in Google Scholar
[PAN Y., FLEET M. E., 2002: Compositions of the apatite-group minerals: substitution mechanism and controlling factors. In: Phosphates. Geochemical, Geobiological, and Materials Importance. Kohn M. J., Rakovan J., Hughes J. M. (Eds.). Reviews of Mineralogy and Geochemistry 48, 13-50.10.1515/9781501509636-005]Search in Google Scholar