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  • Adam, J., and T. H. Green, The effects of pressure and temperature on the partitioning of Ti, Sr and REE between amphibole, clinopyroxene and basanitic melts, Chem. Geol., 117, 219233, 1994.
  • Aharonov, E., M. Spiegelman, and P. B. Kelemen, Three-dimensional flow and reaction in porous media: Implications for the Earth's mantle and sedimentary basins, J. Geophys. Res., 102, 14,82114,833, 1997.
  • Baker, M., and E. M. Stolper, Determining the composition of high-pressure mantle melts using diamond agregates, Geochim. Cosmochim. Acta, 58, 28112827, 1994.
  • Beattie, P., The generation of uranium series disequilibria by partial melting of spinel peridotite: Constraints from partitioning studies, Earth Planet. Sci. Lett., 117, 379391, 1993a.
  • Beattie, P., Uranium-thorium disequilibria and partitioning on melting of garnet peridotite, Nature, 363, 6365, 1993b.
  • Beattie, P. D., M. J. Drake, J. H. Jones, W. P. Leeman, J. Longhi, G. A. McKay, R. H. Nielsen, H. Palme, D. M. Shaw, E. Takahashi, and E. B. Watson, A terminology for trace element partitioning, Geochim. Cosmochim. Acta, 57, 16051606, 1993.
  • Blundy, J., and B. Wood, Prediction of crystal-melt partition coefficients from elastic moduli, Nature, 372, 452454, 1994.
  • Blundy, J. D., B. J. Wood, and A. Davies, Thermodynamics of rare earth partitioning between clinopyroxene and melt in the system CaO-MgO-Al2O3-SiO2, Geochim. Cosmochim. Acta, 60, 359364, 1996.
  • Blundy, J. D., J. A. C. Robinson, and B. J. Wood, Heavy REE are compatible in clinopyroxene on the spinel lherzolite solidus, Earth Planet. Sci. Lett., 160, 493504, 1998.
  • Bohlen, S. R., and A. L. Boettcher, The quartz = coesite transformation: a precise determination and the effects of other components, J. Geophys. Res., 87, 70737078, 1982.
  • Bottinga, Y., On the isothermal compressibility of silicate liquids at high pressure, Earth Planet. Sci. Lett., 74, 350360, 1985.
  • Bowen, N. L., The Evolution of the Igneous Rocks, 334 pp., Princeton Univ. Press, Princeton, N. J., 1928.
  • Chauvel, C., and J. Blichert-Toft, A hafnium isotope and traceelement perspective on melting of the depleted mantle, Earth Planet. Sci. Lett., 190, 137151, 2001.
  • Dowty, E., Crystal chemistry and structure of titanian and zirconian garnet, I, Review of spectral studies, Am. Mineral., 56, 29833009, 1971.
  • Falloon, T. J., D. H. Green, C. J. Hatton, and K. L. Harris, Anhydrous partial melting of a fertile and depleted peridotite from 2 to 30 kb and application to basalt petrogenesis, J. Petrol., 29, 12571282, 1988.
  • Fram, M. S., and J. Longhi, Phase equilibria of dikes associated with Proterozoic anorthosite complexes, Am. Mineral., 77, 606616, 1992.
  • Fraser, D. G., Thermodynamics in Geology, 410 pp., D. Reidel, Norwell, Mass., 1977.
  • Gaetani, G. A., and T. L. Grove, Partitioning of rare earth elements between clinopyroxene and silicate melt: Crystal-chemical controls, Geochim. Cosmochim. Acta, 59, 19511962, 1995.
  • Gallahan, W. E., and R. L. Nielsen, The partitioning of Sc, Y, and the rare earth elements between high-Ca pyroxene and neutral mafic to intermediate lavas at 1 atmosphere, Geochim. Cosmochim. Acta, 56, 23872404, 1992.
  • Ghiorso, M. S., and I. S. E. Carmichael, A regular solution model for met-aluminous silicate liquids: Applications to geothermometry, immiscibility, and the source regions of basic magmas, Contrib. Mineral. Petrol., 71, 323342, 1980.
  • Ghiorso, M. S., and R. O. Sack, Chemical mass transfer in magmatic processes, IV, A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid-solid equilibria in magmatic systems at elevated temperatures and pressures, Contrib. Mineral. Petrol., 119, 197212, 1995.
  • Green, T. H., and N. J. Pearson, Rare earth element partitioning between clinopyroxene and silicate liquid at moderate to high pressure, Contrib. Mineral. Petrol., 91, 2436, 1985.
  • Gudfinnsson, G. H., and D. C. Presnall, Melting relations of model lherzolite in the system CaO-MgO-Al2O3-SiO2 at 2.4–3.4 GPa and the generation of komatiites, J. Geophys. Res., 101, 27,70127,709, 1996.
  • Hack, P. J., R. L. Nielsen, and A. D. Johnston, Experimentally determined rare-earth element and Y partitioning behavior between clinopyroxene and basaltic liquids at pressures up to 20 kbar, Chem. Geol., 117, 89105, 1994.
  • Hart, S. R., and T. Dunn, Experimental cpx/melt partitioning of 23 trace elements, Contrib. Mineral. Petrol., 113, 118, 1992.
  • Hart, S. R., and A. Zindler, In search for bulk-earth composition, Chem. Geol., 57, 247267, 1986.
  • Hauri, E., T. P. Wagner, and T. L. Grove, Experimental and natural partitioning of Th, U, Pb and other trace elements between garnet, clinopyroxene and basaltic melts, Chem. Geol., 117, 149166, 1994.
  • Hirose, K., and I. Kushiro, Partial melting of dry peridotites at high pressures: Determination of compositions of melts segregated from peridotite using aggregates of diamond, Earth Planet. Sci. Lett., 114, 477489, 1993.
  • Hirschmann, M. M., M. B. Baker, and E. M. Stolper, The effect of alkalis on the silica content of mantle derived melts, Geochim. Cosmochim. Acta, 62, 883902, 1998.
  • Hirschmann, M. M., P. D. Asimow, M. S. Ghiorso, and E. M. Stolper, Calculation of peridotite partial melting from thermodynamic models of minerals and melts III, Controls on isobaric melt production and the effect of water on melt production, J. Petrol., 40, 831851, 1999.
  • Hofmann, A. W., Chemical differentiation of the Earth: the relationship between mantle, continental crust, and oceanic crust, Earth Planet. Sci. Lett., 90, 297314, 1988.
  • Huggins, F. E., D. Virgo, and H. G. Huckenholz, Titanium-containing silicate garnets, II, The crystal chemistry of melanites and schorlomites, Am. Mineral., 62, 646665, 1977.
  • Johnson, K. T. M., and R. J. Kinzler, Partitioning of REE, Ti, Zr, Hf and Nb between clinopyroxene and basaltic liquid: An ion microprobe study, Eos Trans. AGU, 70, 1388, 1989.
  • Johnson, K. T. M., H. J. B. Dick, and N. Shimizu, Melting in the oceanic upper mantle: An ion microprobe study of diopsides in abyssal peridotites, J. Geophys. Res., 95, 26612678, 1990.
  • Kelemen, P., N. Shimizu, and V. J. M. Salters, Extraction of MORB from the mantle by focussed flow of melt in dunite channels, Nature, 375, 747753, 1995.
  • Kelemen, P. B., G. Hirth, N. Shimizu, M. Spiegelman, and H. J. B. Dick, A review of melt migration processes in the adiabatically upwelling mantle beneath oceanic spreading ridges, Philos. Trans. R. Soc. London Ser. A, 355, 283318, 1997.
  • Kinzler, R. J., Melting of mantle peridotite at pressures approaching the spinel to garnet transition, J. Geophys. Res., 102, 865874, 1997.
  • Kinzler, R. J., and T. L. Grove, Primary magmas of mid-ocean ridge basalts, 1, Experiments and methods, J. Geophys. Res., 97, 68856906, 1992.
  • Klemme, S., and H. S. O'Neill, The near-solidus transition from garnet lherzolite to spinel lherzolite, Contrib. Mineral. Petrol., 138, 237248, 2000.
  • Kushiro, I., and H. S. Yoder, Anorthite-Fosterite and Anorthite-Enstatite reactions and their bearing on the basalt-eclogite, J. Petrol., 7, 337362, 1966.
  • Langmuir, C. H., E. M. Klein, and T. Plank, Petrological Systematics of mid-ocean ridge basalts: Constraints on melt generation beneath ocean ridges, in Mantle Flow and Melt Generation at Mid-Ocean Ridges, Geophys. Monogr. Ser., vol. 70, edited by J. Blackman, D. K. Phipps Morgan, and J. M. Sinton, AGU, Washington, D.C., 1992.
  • LaTourrette, T. Z., A. K. Kennedy, and G. J. Wasserburg, Thorium-uranium fractionation by garnet: Evidence for a deep source and rapid rise of oceanic basalts, Science, 261, 739742, 1993.
  • Longhi, J., Origin of green glass magmas by polybaric fractional fusion, Proc. Lunar Planet. Sci., 22, 343353, 1992.
  • Longhi, J., Liquidus equilibria of some primary lunar and terrestrial melts in the garnet stability field, Geochim. Cosmochim. Acta, 59, 2375–2386, 4563, 1995.
  • Longhi, J., Some phase eqilibria systematics of lherzolite melting, 1, Geochem. Geophys. Geosyst., 3(3), 10.1029/2001GC000204, 2002. (Available at http://www.g-cubed.org).
  • Longhi, J., and M. B. Baker, The spinel/garnet transition in CMAS, Eos Trans AGU, 80(17), Spring Meet. Suppl., S379, 1999.
  • Longhi, J., and C.M. Bertka, A critical endpoint to pigeonite-augite liquidus equilibria, in Lunar Planet. Sci., 26th, 857858, 1995.
  • Mathez, E. A., Sulfur solubility and magmaic sulfides in marine basalt glass, J. Geophys. Res., 81, 42694275, 1976.
  • McKay, G., J. Wagstaff, and S.-R. Yang, Clinopyroxene REE distribution coefficients for shergottites: The REE content of the Shergotty melt, Geochim. Cosmochim. Acta, 50, 927937, 1986.
  • McKay, G. A., Partitioning of rare earth elements between major silicate minerals and basaltic melt, in Geochemistry and Mineralogy of Rare Earth Elements, edited by B. R. L. G. A. McKay, pp. 4577, Mineral. Soc. of Am., Washington, D.C., 1989.
  • Milton, C., B. L. Ingram, and L. V. Blade, Kimzeyite, a zirconium garnet from Magnet cove, Arkansas Am. Mineral., 46, 533538, 1961.
  • Nicholls, I. A., and K. L. Harris, Experimental rare earth element partition coefficients for garnet, clinopyroxene and amphibole coexisting with andesitic and basaltic liquids, Geochim. Cosmochim. Acta, 44, 287308, 1980.
  • Nielsen, R. L., A model for the simulation of combined major and trace element liquid lines of descent, Geochim. Cosmochim. Acta, 52, 2738, 1988.
  • Nielsen, R. L., W. E. Gallahan, and F. Newberger, Experimentally determined mineral-melt partition coefficients for Sc, Y and REE for olivine, orthopyroxene, pigeonite, magnetite and ilmenite, Contrib. Mineral. Petrol., 110, 488499, 1992.
  • O'Hara, M. J., S. W. Richardson, and G. Wilson, Garnet-peridotite stability and occurrence in crust and mantle, Contrib. Mineral. Petrol., 32, 4868, 1971.
  • Robinson, J. A. C., B. J. Wood, and J. D. Blundy, The beginning of melting of fertile and depleted peridotite at 1.5 GPa, Earth Planet. Sci. Lett., 155, 97111, 1998.
  • Sack, R. O., I. S. E. Carmichael, M. Rivers, and M. S. Ghiorso, Ferric-ferrous equilibria in natural silicate liquids at 1 bar, Contrib. Mineral. Petrol., 75, 369376, 1980.
  • Salters, V. J. M., The generation of mid-ocean ridge basalts from the Hf and Nd isotope perspective, Earth Planet. Sci. Lett., 141, 109123, 1996.
  • Salters, V. J. M., and S. R. Hart, The Hf-paradox, and the role of garnet in the MORB source, Nature, 342, 420422, 1989.
  • Salters, V. J. M., and J. E. Longhi, Trace element partitioning during the initial stages of melting beneath ocean ridges, Earth Planet. Sci. Lett., 166, 1530, 1999.
  • Shannon, R. D., Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides, Acta Crystallogr., 32A, 751767, 1976.
  • Spiegelman, M., UserCalc: A Web-based uranium series calculator for magma migration problems, Geochem. Geophys. Geosyst., 1, Paper number 1999GC000030, August 11, 2000. (Available at http://www.g-cubed.org
  • Spiegelman, M., and T. Elliott, Consequences of melt transport for uranium series disequilibrium in young lavas, Earth Planet. Sci. Lett, 118, 120, 1993.
  • Spiegelman, M., and J. R. Reynolds, Combined dynamic and geochemical evidence for convergent melt flow beneath the East Pacific Rise, Nature, 402, 282285, 1999.
  • Team, T. M. S., Imaging the deep seismic structure beneath a mid-ocean ridge: The MELT experiment, Science, 280, 12151218, 1998.
  • Turner, S., J. Blundy, B. Wood, and M. Hole, Large 230Th-excesses in basalts produced by partial melting of spinel lherzolite, Chem. Geol., 162, 127136, 2000.
  • Van Westrenen, W., J. Blundy, and B. Wood, Crystal-chemical controls on trace element partitioning between garnet and anhydrous silicate melt, Am. Mineral., 84, 838847, 1999.
  • Walter, M. J., and G. Gudfinnson, Clinopyroxene composition and element partitioning at the solidus of spinel lherzolite, Eos Trans AGU, 80(46), Fall Meet. Suppl., F1112, 1999.
  • Walter, M., A. Kubo, T. Shinmei, H. Yamada, T. Katsura, A. Yoneda, E. Ito, and K. Funakoshi, Determination of the Spinel to Garnet Lherzolite Transition in CMAS by in-situ X-Ray Diffraction, Eos Trans. AGU, 81(48), Fall Meet. Suppl., F1297, 2000.
  • Watson, E. B., Partitioning of manganese between forsterite and silicate liquid, Geochim. Cosmochim. Acta, 41, 13631374, 1977.
  • Wood, B. J., and J. D. Blundy, A predictive model for rare earth element partitioning between clinopyroxene and anhydrous silicate melt, Contrib. Mineral. Petrol., 129, 166181, 1997.
  • Wood, B. J., J. D. Blundy, and J. A. C. Robinson, The role of clinopyroxene in generating U-series disequilibrium during mantle melting, Geochim. Cosmochim. Acta, 63, 16131620, 1999.