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  • Baratoux D., Toplis M. J., Monnereau M., and Gasnault O. 2011. Thermal history of Mars inferred from orbital orbital geochemistry of volcanic provinces. Nature 472:338423.
  • Bleiner D., Macri M., Gasser P., Sautter V., and Maras A. 2006. FIB, TEM and LA-ICPMS investigations on melt inclusions in Martian meteorites—Analytical capabilities and geochemical insights. Talanta 68:16231631.
  • Danyushevsky L. V. 2001. The effect of small amounts of H2O crystallisation of mid-ocean ridge and back arc basin magmas. Journal of Volcanology and Geothermal Research 110:265280.
  • Danyushevsky L. V., Della-Pasqua F. N., and Sobolev S. 2000. Re-equilibration of melt inclusions trapped by magnesian olivine phenocrysts from subduction-related magmas: Petrological implications. Contributions to Mineralogy and Petrology 138:6883.
  • Danyushevsky L. V., McNeill A. W., and Sobolev A. V. 2002. Experimental and petrological studies of melt inclusions in phenocrysts from mantle-derived magmas: An overview of techniques, advantages and complications. Chemical Geology 183:524.
  • Day J. M. D., Taylor L. A., Floss C., and McSween H. Y. 2006. Petrology and chemistry of MIL 03346 and its significnce in understanding the petrogenesis of nakhlites on Mars. Meteoritics & Planetary Science 41:581606.
  • Dimanov A. and Sautter V. 2000. Average interdiffusion of (Fe, Mn)-Mg in natural diopside. European Journal of Mineralogy 12:749760.
  • Eugster O., Busemann H., Lorenzetti S., and Terribilini D. 2002. Ejection ages from 81Kr-83Kr dating and pre-atmospheric sizes of Martian meteorites. Meteoritics & Planetary Science 37:13451360.
  • Faure F. and Schiano P. 2005. Experimental investigation of equilibration conditions durting forsterite growth and melt inclusion formation. Earth and Planetary Science Letters 236:882898.
  • Filiberto J., Treiman A. H., and Le L. 2008. Crystallization experiments on a Gusev Adirondack basalt composition. Meteoritics & Planetary Science 43:11371146.
  • Frezzotti M. 2001. Silicate-melt inclusions in magmatic rocks: Applications to petrology. Lithos 55:273299.
  • Gaetani G. A. and Watson E. B. 2000. Open system behavior of olivine-hosted melt inclusions. Earth and Planetary Science Letters 183:2741.
  • Ghiorso M. S. and Sack R. O. 1995. 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. Contributions to Mineralogy and Petrology 119:197212.
  • Goodrich C. A., Treiman A. H., Filiberto J., and Jercinovic M. J. 2010. The nakhla parent magma: Old problems, new approaches (abstract #1387). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Hammer J. E. 2009. Application of textural geospeedometer to the late-stage magmatic history of MIL 03346. Meteoritics & Planetary Science 44:141154.
  • Harvey R. P. and McSween H. Y. 1992a. Petrogenesis of the nakhlite meteorites: Evidence from cumulate mineral zoning. Geochimica et Cosmochimica Acta 56:16551663.
  • Harvey R. P. and McSween H. Y. 1992b. The parent magma of the nakhlite meteorites: Clues from melt inclusions. Earth and Planetary Science Letters 111:467482.
  • Imae N. and Ikeda Y. 2007. Petrology of the Miller Range 03346 nakhlite in comparison with the Yamato-000593 nakhlite. Meteoritics & Planetary Science 42:171184.
  • Imae N. and Ikeda Y. 2008. Crystallization experiments of intercumulus melts for nakhlites under QFM ±2 at 1 bar. Meteoritics & Planetary Science 43:12991319.
  • Imae N., Ikkeda Y., and Kojima H. 2005. Petrology of the Yamato nakhlites. Meteoritics & Planetary Science 40:15811598.
  • Jambon A., Barrat J. A., Sautter V., Boudouma O., Greenwood R., Franchi I., Moreira M., and Badia D. 2010. Northwest Africa 5790. Top sequence of the Nakhlite pile (abstract #1696). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Kaneda K., McKay G., and Lee L. 1998. Synthetic and natural Nakhla pyroxenes: A close match at least (abstract #1620). 29th Lunar and Planetary Science Conference. CD-ROM.
  • Lentz F. R. C., Taylor G. J., and Treiman A. H. 1999. Formation of a Martian pyroxenite: A comparative study of the nakhlite meteorites and Theo’s Flow. Meteoritics & Planetary Science 34:919932.
  • Lentz R. C. F., McCoy J. J., and Taylor G. J. 2005. Multiple nakhlite lava flows? 68th Annual Meteoritical Society Meeting. 5298 p.
  • Longhi J. 1991. Comparative liquidus equilibria of hypersthene-normative basalts at low pressure. American Mineralogist 76:785800.
  • Longhi J. and Pan V. 1989. The parent magma of the SNC meteorites. Proceedings, 19th Lunar and Planetary Science Conference. pp. 451464.
  • McSween Jr. H. Y. 2002. The rocks of Mars, from far and near. Meteoritics & Planetary Science 37:725.
  • McSween Jr. H. Y., Wyatt M. B., Gellert R., Bell III J. F., Morris R. V., Herkenhoff K. E., Crumpler L. S., Milam K. A., Stockstill K. R., Tornabene L. L., Arvidson R. E., Bartlett P., Blaney D., Cabrol N. A., Christensen P. R., Clark B. C., Crisp J. A., Des Marais D. J., Economou T., Farmer J. D., Farrand W., Ghosh A., Golombek M., Gorevan S., Greeley R., Hamilton V. E., Johnson J. R., Joliff B. L., Klingelhofer G., Knudson A. T., McLennan S., Ming D., Moersch J. E., Rieder R., Ruff S. W., Schroder C., de Souza Jr. P. A., Squyres S. W., Wanke H., Wang A., Yen A., and Zipfel J. 2006. Characterization and petrologic interpretation of olivine-rich basalts at Gusev Crater, Mars. Journal of Geophysical Research 11:117.
  • McSween Jr. H. Y., Taylor G. J., and Wyatt M. B. 2009. Elemental composition of the Martian crust. Science 324:736739.
  • Mikouchi T. and Miyamoto M. 2002. Comparative cooling rates of nakhlites as inferred from iron-magnesium and calcium zoning of olivines (abstract #1343). 38th Lunar and Planetary Science Conference. CD-ROM.
  • Mikouchi T., Koizumi E., Monkawa A., Ueda Y., and Miyamoto M. 2003. Mineralogical comparison of Y000593 with other nakhlites: Implications for relative burial depths of nakhlites (abstract #1883). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Mikouchi T., Koizumi E., Ueda Y., Miyamoto M., and McKay G. 2005a. On the relationship between mineralogical characteristics and relative burial depths of nakhlites (abstract). 29th Symposium on Antarctic Meteorites. pp. 4142.
  • Monders A. G., Medard E., and Grove J. L. 2007. Phase equilibrium investigations of the Adirondack class basalts from the Gusev plains, Gusev crater, Mars. Meteoritics & Planetary Science 42:131148.
  • Mustard J. F., Poulet F., Head J. W., Mangold N., Bibring J.-P., Pelkey S. M., Fassett C. I., Langevin Y., and Neukum G. 2007. Mineralogy of the Nili Fossae region with OMEGA/Mars Express data: 1. Ancient impact melt in the Isidis Basin and implications for the transition from the Noachian to Hesperian. Journal of Geophysical Research 112:E08S03, doi: 10.1029/2006JE002834.
  • Nyquist L. E., Bogard D. D., Shih C-Y., Greshake A., Stoffler D., and Eugster O. 2001. Ages and geologic histories of Martian meteorites. Chronology and Evolution of Mars 96:105164.
  • Sautter V., Barrat J. A. Jambon A., Lorand J. P., Gillet Ph., Javoy M., Joron J. L., and Lesourd M. 2002. A new Martian meteorite from Morocco: The nakhlite Northwest Africa 817. Earth and Planetary Science Letters 195:223238.
  • Sautter V., Jambon A., and Boudouma O. 2006. Cl-amphibole in the nakhlite MIL 03346: Evidence for sediment contamination in a Martian meteorite. Earth and Planetary Science Letters 252:4555.
  • Schiano P. 2003. Primitive mantle magmas recorded as silicate melt inclusions in igneous minerals. Earth Science Reviews 63:121144.
  • Shirai N. and Ebihara M. 2008. Chemical characteristics of Nakhlites: Implications to the geological setting for Nakhlites (abstract #1643). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Sobolev A. V., Clocchiatti R., and Dhamelincourt P. 1983. Les variations de la temperature et de la pression partielle d’eau pendant la cristallisation de l’olivine dans les oceanites du Piton de la Fournaise (Reunion eruption de 1966). Comptes Rendus de l’Academie des Sciences de Paris 296:275280.
  • Sorby H. C. 1858. On the microscopic structure of crystals, indicating the origin of minerals and rocks. The Quarterly journal of the Geological Society of London 14:453500.
  • Stockstill K. R., McSween H. Y., and Bodnar R. J. 2005. Melt inclusions in augite of the Nakhla Martian meteorite: Evidence for basaltic parental melt. Meteoritics & Planetary Science 40:377396.
  • Thompson C. K., Slater V. P., Stockstill K. R., Anand M., Nettles J., Milam K., Cahill J., and Taylor L. A. 2003. An evaluation of the igneous crystallization programs-MELTS, MAGPOX, and COMAGMAT part I: Does one size fit all? (abstract #1881). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Toplis M. J. and Carroll M. R. 1995. An experimental study of the influence of oxygen fugacity on Fe-Ti oxide stability, phase relations and mineral melt equilibria in ferro basaltic systems. Journal of Petrology 36:11371170.
  • Treiman A. H. 1986. The parental magma of the Nakhla achondrite: Ultrabasic volcanism on the shergottite parent body. Geochimica et Cosmochimica Acta 50:10611070.
  • Treiman A. H. 1990. Complex petrogenesis of the Nakhla (SNC) meteorite: Evidence from petrography and mineral chemistry. Proceedings, 20th Lunar and Planetary Science Conference. pp. 273280.
  • Treiman A. H. 1993. The parent magma of the Nakhla (SNC) meteorite, inferred from magmatic inclusions. Geochimica et Cosmochimica Acta 57:47534767.
  • Treiman A. H. 2005. The nakhlites Martian meteorites: Augite-rich igneous rock from Mars. Chemie der Erde 65:203270.
  • Treiman A. H. and Goodrich C. 2001. A parent magma for the Nakhla Martian meteorite: Reconciliation of estimates from 1-Bar experiments, magmatic inclusions in olivine, and magmatic inclusions in augite (abstract #1107). 32nd Lunar and Planetary Science Conference. CD-ROM.
  • Varela M. E., Kurat G., and Clocchiatti R. 2001. Glass-bearing inclusions in Nakhla (SNC meteorite) augite: Heterogeneously trapped phases. Mineralogy and Petrology 71:155172.