References
- GABOREAU S., VIEILLARD P., 2004: Prediction of Gibbs free energies of formation of minerals of the alunite supergroup. Geochimica et Cosmochimica Acta 68(16), 3307-3316.
- GÄMSJAGER H., MARHOLD H., KONIGSBERGER E., TSAI Y. J., KOLMER H., 1995: Solid-Solute Phase-Equilibria in Aqueous-Solutions .9. Thermodynamic Analysis of Solubility Measurements - La(OH)m(CO3)qrH2O. Zeitschrift Fur Naturforschung Section a Journal of Physical Sciences 50(1), 59-64.
- GAUCHER E. C., BLANC P., MATRAY J. M., MICHAU N., 2004: Modeling diffusion of an alkaline plume in a clay barrier. Applied Geochemistry 19(10), 1505-1515.
- USHAKOV S. V., HELEAN K. B., NAVROTSKY A., BOATNER L. A., 2001: Thermochemistry of rare-earth orthophosphates. Journal of Materials Research 16(9), 2623-2633.
- USHAKOV S. V., NAVROTSKY A., FARMER J. M., BOATNER L. A., 2004: Thermochemistry of the alkali rare-earth double phosphates, A3RE(PO4)2. Journal of Materials Research 19(7), 2165-2175.
- WEBER W. J., 1981: Radiation-damage in a rare-earth apatite structure. American Ceramic Society Bulletin 60(9), 934-934.
- ARDEN K., HALDEN N., 1999: Crystallisation and alteration history of britholite in-rare-earth-element-enriched pegmatitic segregations associed with the Eden lake complex. The Canadian Mineralogist 37, 1239-1253.
- ARDHAOUI K., COULET M. V., BEN CHERIFA A., CARPENA J., ROGEZ J., JEMAL M., 2006a: Standard enthalpy of formation of neodymium fluorbritholites. Thermochimica Acta 444(2), 190-194.
- ARDHAOUI K., ROGEZ J., BEN CHERIFA A., JEMAL M., SATRE P., 2006b: Standard enthalpy of formation of lanthanum oxybritholites. Journal of Thermal Analysis and Calorimetry 86(2), 553-559.
- BANFIELD J. F., EGGLETON R. A., 1989: Apatite replacement and rare-earth mobilization, fractionation, and fixation during weathering. Clays and Clay Minerals 37(2), 113-127.
- BERMAN R. G., BROWN T. H., 1985: A Thermodynamic model for multicomponent melts, with application to the system CaO-Al2O3-SiO2 - reply. Geochimica et Cosmochimica Acta 49(2), 613-614.
- BERTOLDI C., BENISEK A., CEMIC L., DACHS E., 2001: The heat capacity of two natural chlorite group minerals derived from differential scanning calorimetry. Physics and Chemistry of Minerals 28(5), 332-336.
- BOATNER L. A., SALES B. C., 1988: Monazite, Amsterdam.
- BOCK B., HUROWITZ J. A., McLENNAN S. M., HANSON G. N., 2004: Scale and timing of rare earth element redistribution in the Taconian foreland of New England. Sedimentology 51(4), 885-897.
- BOSENICK A., GEIGER C. A., CEMIC L., 1996: Heat capacity measurements of synthetic pyrope-grossular garnets between 320 and 1000 K by differential scanning calorimetry. Geochimica et Cosmochimica Acta 60(17), 3215-3227.
- CARPENA J., LACOUT J. L., 1997: Des apatites naturelles aux apatites synthétiques- Utilisation des apatites comme matrice de conditionnement de déchets nucléaires séparés. Actualite Chimique 2, 3-9.
- CETINER Z. S., WOOD S. A., GAMMONS C. H., 2005: The aqueous geochemistry of the rare earth elements. Part XIV. The solubility of rare earth element phosphates from 23 to 150 degrees C. Chemical Geology 217(1-2), 147-169.
- CHAIRAT C., OELKERS E. H., SCHOTT J., LARTIGUE J. E., 2006: An experimental study of the dissolution rates of Nd-britholite, an apatite-structured actinide-bearing waste storage host analogue. Journal of Nuclear Materials 354(1-3), 14-27.
- DIAKONOV II, TAGIROV B. R., RAGNARSDOTTIR K. V., 1998: Standard thermodynamic properties and heat capacity equations for rare earth element hydroxides. I. La(OH)3(s) and Nd(OH)3(s). Comparison of thermochemical and solubility data. Radiochimica Acta 81(2), 107-116.
- DITMARS D. A., DOUGLAS T. B., 1971: Measurement of relative enthalpy of pure alpha-Al2O3 (Nbs heat capacity and enthalpy standard reference material no 720) From 273 to 1173 K. Journal of Research of the National Bureau of Standards Section a-Physics and Chemistry A 75(5), 401-420.
- EWING R. C., WANG L. M., 2002: Phosphates as nuclear waste forms. In: Phosphates: Geochemical, Geobiological, and Materials Importance Reviews in Mineralogy & Geochemistry, pp. 673-699.
- FINGER F., BROSKA I., ROBERTS M. P., SCHERMAIER A., 1998: Replacement of primary monazite by apatite-allanite-peidote coronas in an amphibolite facies granite gneiss from the eastern alps. American Mineralogist 83, 248-58.
- GABOREAU S., BEAUFORT D., VIEILLARD P., PATRIER P., BRUNETON P., 2005: Aluminum phosphatesulfate minerals associated with proterozoic unconformity-type uranium deposits in the east alligator river uranium field, northern territories, Australia. Canadian Mineralogist 43, 813-827.
- GOFFÉ B., JANOTS E., BRUNET F., POINSSOT C., 2002: Breakdown of thorium phosphate-diphosphate (TPD), Th4(PO4)4P2O7, at 320 degrees C, 50 MPa in Ca-bearing systems, or why TPD does not occur in nature. Comptes Rendus Geoscience 334(14), 1047-1052.
- HARLOV D. E., ANDERSSON U. B., FORSTER H. J., NYSTROM J. O., DULSKI P., BROMAN C., 2002: Apatitemonazite relations in the kiirunavaara magnetite-apatite ore, northern sweden. Chemical Geology 191, 47-72.
- HARLOV D. E., MARSCHALL H. R., HANEL M., 2007: Fluorapatite-monazite relationships in granulite-facis metapelites, Schwarzwald, southwest Germany. Mineralogical magazine, 71(2), 223-234.
- HOLLAND T. J. B., 1989: Dependence of Entropy On Volume For Silicate and Oxide Minerals - a Review and a Predictive Model. American Mineralogist 74(1-2), 5-13.
- ITO J., 1968: Silicate Apatites and oxyapatites. American Mineralogist 53(5-6), 890-907.
- JANOTS E., BRUNET F., GOFFÉ B., POINSSOT C., BURCHARD 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), 1-14.
- JANOTS E., NEGRO F., BRUNET F., GOFFÉ B., ENGI M., BOUYBAOUENE M. L., 2006: Evolution of the REE mineralogy in HP-LT metapelites of the Sebtide complex, Rif, Morocco: Monazite stability and geochronology. Lithos 87(3-4), 214-234.
- KAHL W. A., MARESCH W. V., 2001: Enthalpies of formation of tremolite and talc by high-temperature solution calorimetry - a consistent picture. American Mineralogist 86(11-12), 1345-1357.
- LEV S. M., McLENNAN S. M., MEYERS W. J., HANSON G. N., 1998: A petrographic approach for evaluating trace-element mobility in a black shale. Journal of Sedimentary Research 68(5), 970-980.
- MAIER C. G., KELLEY K. K., 1932: An equation for the representation of high temperature heat content data. American Chemical Society Journal 54, 3243-3246.
- NAVROTSKY A., 1997: Progress and new directions in high temperature calorimetry revisited. Physics and Chemistry of Minerals 24(3), 222-241.
- NAVROTSKY A., RAPP R. P., SMELIK E., BURNLEY P., CIRCONE S., CHAI L., BOSE K., 1994: The behavior of H2O and CO2 in high-temperature lead borate solution calorimetry of volatile-bearing phases. American Mineralogist 79(11-12), 1099-1109.
- NGUYEN A. M., KONIGSBERGER E., MARHOLD H., GAMSJAGER H., 1993: Solid-solute phase-equilibria in aqueous-solutions. 8. The standard gibbs energy of La2(Co3)3·8H2O. Monatshefte fur Chemie 124(10), 1011-1018.
- NOE D. C., HUGHES J. M., MARIANO A. N., DREXLER J. W., KATO A., 1993: The crystal structure of monoclinic britholite-(Ce) and britholite-(Y). Zeitschrift fur Kristallographie 206, 233-246.
- OBERTI R., OTTOLINI L., DELLA VENTURA G., PARODI G. C., 2001: On the symmetry and crystal chemistry of britholite: New structural and microanalytical data. American Mineralogist 86(9), 1066-1075.
- POITRASSON F., OELKERS E., SCHOTT J., MONTEL J. M., 2004: Experimental determination of synthetic NdPO4 monazite end-member solubility in water from 21 degrees C to 300 degrees C: Implications for rare earth element mobility in crustal fluids. Geochimica et Cosmochimica Acta 68(10), 2207-2221.
- POPA K., KONINGS R. J. M., GEISLER T., 2007: High-temperature calorimetry of (La(1-x)Ln(x))PO4 solid solutions. Journal of Chemical Thermodynamics 39(2), 236-239.
- POPA K., SEDMIDUBSKY D., BENES O., THIRIET C., KONINGS R. J. M., 2006: The high-temperature heat capacity of LnPO4 (Ln = La, Ce, Gd) by drop calorimetry. Journal of Chemical Thermodynamics 38(7), 825-829.
- RAI D., FELMY A. R., YUI M., 2003: Thermodynamic model for the solubility of NdPO4(c) in the aqueous Na+-H+-H2PO4--HPO42--OH--Cl--H2O system. Journal of Radioanalytical and Nuclear Chemistry 256(1), 37-43.
- RASMUSSEN B., 1996: Early-diagenetic REE-phosphate minerals (florencite, gorceixite, crandallite, and xenotime) in marine sandstones: A major sink for oceanic phosphorus. American Journal of Science 296(6), 601-632.
- RISBUD A. S., HELEAN K. B., WILDING M. C., LU P., NAVROTSKY A., 2001: Enthalpies of formation of lanthanide oxyapatite phases. Journal of Materials Research 16(10), 2780-2783.
- ROBIE R. A., HEMINGWAY B. S., 1995: Thermodynamic properties of minerals and related substances at 298.15 K and 1 bar (105 Pascals) pressure and at higher temperatures. Government Printing Office, Washington, 461p.
- ROBIE R. A., HEMINGWAY B. S., FISHER J. R., 1979: Thermodynamic properties of minerals and related substances at 298.15 K and 1 Bar (105 Pascals) pressure and at higher temperatures. U. S. Government Printing Office, Washington, 454 p.
- SPEAR F. S., PYLE J. M., 2002: Apatite, monazite, and xenotime in metamorphic rocks. In: Phosphates: Geochemical, Geobiological, and Materials Importance Reviews in Mineralogy & Geochemistry, pp. 293-335.
- TAUNTON A. E., WELCH S. A., BANFIELD J. F., 2000: Microbial controls on phosphate and lanthanide distributions during granite weathering and soil formation. Chemical Geology 169, 371-82.
- THIRIET C., KONINGS R. J. M., JAVORSKY P., MAGNANI N., WASTIN F., 2005: The low temperature heat capacity of LaPO4 and GdPO4, the thermodynamic functions of the monazite-type LnPO4 series. Journal of Chemical Thermodynamics 37(2), 131.