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  • Balta J. B., Asimow P. D., and Mosenfelder J. L. 2011. Manganese partitioning during hydrous melting of peridotite. Geochimica et Cosmochimica Acta 75:58195833.
  • Barnes S. J. and Roeder P. L. 2001. The range of spinel compositions in terrestrial mafic and ultramafic rocks. Journal of Petrology 42:22792302.
  • Barrat J. A., Jambon A., Bohn M., Gillet P., Sautter V., Göpel C., Lesourd M., and Keller F. 2002. Petrology and chemistry of the picritic shergottite Northwest Africa 1068 (NWA 1068). Geochimica et Cosmochimica Acta 66:35053518.
  • Basu Sarbadhikari A., Day J. M. D., Liu Y., Rumble D., III, and Taylor L. A. 2009. Petrogenesis of olivine-phyric shergottite Larkman Nunatak 06319: Implications for enriched components in Martian basalts. Geochimica et Cosmochimica Acta 73:21902214.
  • Basu Sarbadhikari A., Goodrich C. A., Liu Y., Day J. M. D., and Taylor L. A. 2011. Evidence for heterogeneous enriched shergottite mantle sources in Mars from olivine-hosted melt inclusions in Larkman Nunatak 06319. Geochimica et Cosmochimica Acta 75:68036820.
  • Beattie P. 1994. Systematics and energetics of trace-element partitioning between olivine and silicate melts: Implications for the nature of mineral/melt partitioning. Chemical Geology 117:5771.
  • Boctor N. Z., Wang J., Alexander C. M. O'D., Steele A., and Armstrong J. 2009. Hydrogen isotope signatures and water abundances in nominally anhydrous minerals from the olivine-phyric shergottite LAR 06319 (abstract #5176). Meteoritics & Planetary Science 44.
  • Boyce J. W., Liu Y., Rossman G. R., Guan Y., Eiler J. M., Stolper E. M., and Taylor L. A. 2010. Lunar apatite with terrestrial volatile abundances. Nature 466:466469.
  • Brophy J. G., Whittington C. S., and Park Y.-R. 1999. Sector-zoned augite megacrysts in Aleutian high alumina basalts: Implications for the conditions of basalt crystallization and the generation of calc-alkaline series magmas. Contributions to Mineralogy and Petrology 135:277290.
  • Candela P. A. 1986. The evolution of aqueous vapor from silicate melts: Effect on oxygen fugacity. Geochimica et Cosmochimica Acta 50:12051211.
  • Chakraborty S. 1997. Rates and mechanisms of Fe-Mg interdiffusion in olivine at 980–1300 °C. Journal of Geophysical Research 102:1231712331.
  • Danyushevsky L. V., Sokolov S., and Falloon T. J. 2002. Melt inclusions in olivine phenocrysts: Using diffusive re-equilibration to determine the cooling history of a crystal, with implications for the origin of olivine-phyric volcanic rocks. Journal of Petrology 43:16511671.
  • Edmonds M., Gerlach T. M., and Herd R. A. 2009. Halogen degassing during ascent and eruption of water-poor basaltic magma. Chemical Geology 263:122130.
  • Filiberto J. and Dasgupta R. 2011. Fe2+-Mg partitioning between olivine and basaltic melts: Applications to genesis of olivine-phyric shergottites and conditions of melting in the Martian interior. Earth and Planetary Science Letters 304:527537.
  • Filiberto J. and Treiman A. H. 2009. Martian magmas contained abundant chlorine, but little water. Geology 37:10871090.
  • Filiberto J., Musselwhite D. S., Gross J., Burgess K., Le L., and Treiman A. H. 2010. Experimental petrology, crystallization history, and parental magma characteristics of olivine-phyric shergottite NWA 1068: Implications for the petrogenesis of “enriched” olivine-phyric shergottites. Meteoritics & Planetary Science 45:12581270.
  • 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. 2002. Olivine-phyric Martian basalts: A new type of shergottite. Meteoritics & Planetary Science 37:B31B34.
  • Goodrich C. A. 2003. Petrogenesis of olivine-phyric shergottites Sayh al Uhaymir 005 and Elephant Moraine A79001 lithology A. Geochimica et Cosmochimica Acta 67:37353772.
  • Goodrich C. A., Herd C. D. K., and Taylor L. A. 2003. Spinels and oxygen fugacity in olivine-phyric and lherzolitic shergottites. Meteoritics & Planetary Science 38:17731792.
  • Gross J., Treiman A. H., Filiberto J., and Herd C. D. K. 2011. Primitive olivine-phyric shergottite NWA 5789: Petrography, mineral chemistry, and cooling history imply a magma similar to Yamato-980459. Meteoritics & Planetary Science 46(1):116133.
  • Herd C. D. K., Borg L. E., Jones J. H., and Papike J. J. 2002. Oxygen fugacity and geochemical variations in the Martian basalts: Implications for Martian basalt petrogenesis and the oxidation state of the upper mantle of Mars. Geochimica et Cosmochimica Acta 66:20252036.
  • Hinton R. W. 1990. Ion microprobe trace-element analysis of silicates: Measurements of multi-element glasses. Chemical Geology 83:1125.
  • Hirschmann M. M., Withers A. C., Ardia P., and Foley N. T. 2012. Solubility of molecular hydrogen in silicate melts and consequences for volatile evolution of terrestrial planets. Earth and Planetary Science Letters 345–348:3848.
  • Hovis G. L. and Harlov D. E. 2010. Solution calorimetric investigation of fluor-chlorapatite crystalline solutions. American Mineralogist 95:946952.
  • Ikeda Y. 2004. Petrology of the Yamato 980459 shergottite. Antarctic Meteorite Research 17:3554.
  • Jerram D. A. and Martin V. M. 2008. Understanding crystal populations and their significance through the magma plumbing system. Geological Society of London Special Publication 304:133148.
  • Koeppen W. C. and Hamilton V. E. 2008. Global distribution, composition, and abundance of olivine on the surface of Mars from thermal infrared data. Journal of Geophysical Research 113:E05001.
  • Kress V. and Carmichael I. 1991. The compressibility of silicate liquids containing Fe2O3 and the effect of composition, temperature, oxygen fugacity and pressure on their redox states. Contributions to Mineralogy and Petrology 108:8292.
  • Kurihara T., Mikouchi T., Saruwatari K., Kameda J., and Miyamoto M. 2008. Transmission electron microscopy of olivine in the LAR06319 olivine-phyric shergottite (abstract #5177). Meteoritics & Planetary Science 43:A83.
  • Leshin L. A., Epstein S., and Stolper E. M. 1996. Hydrogen isotope geochemistry of SNC meteorites. Geochimica et Cosmochimica Acta 60:26352650.
  • Lieftink D. J., Nijland T. G., and Maijer C. 1994. The behavior of rare-earth elements in high-temperature Cl-bearing aqueous fluids—Results from the Odegardens-Verk natural laboratory. Canadian Mineralogist 32:149158.
  • Lloyd A., Plank T., Ruprecht P., Hauri E., and Rose W. 2013. Volatile loss from melt inclusions in pyroclasts of differing sizes. Contributions to Mineralogy and Petrology 165(1):129153.
  • Lundberg L. L., Crozaz G., and McSween H. Y., Jr. 1990. Rare earth elements in minerals of the ALHA77005 shergottite and implications for its parent magma and crystallization. Geochimica et Cosmochimica Acta 54:25352547.
  • Mackwell S. J. and Kohlstedt D. L. 1990. Diffusion of hydrogen in olivine: Implications for water in the mantle. Journal of Geophysical Research 95:50795088.
  • Mathez E. A. 1984. Influence of degassing on oxidation states of basaltic magmas. Nature 310:371375.
  • Mathez E. A. and Webster J. D. 2005. Partitioning behavior of chlorine and fluorine in the system apatite-silicate melt-fluid. Geochimica et Cosmochimica Acta 69:12751286.
  • McCanta M., Rutherford M., and Jones J. 2004. An experimental study of rare earth element partitioning between a shergottite melt and pigeonite: Implications for the oxygen fugacity of the Martian interior. Geochimica et Cosmochimica Acta 68:19431952.
  • McCubbin F. M. and Nekvasil H. 2008. Maskelynite-hosted apatite in the Chassigny meteorite: Insights into late-stage magmatic volatile evolution in Martian magmas. American Mineralogist 93:676684.
  • McCubbin F. M., Jolliff B. L., Nekvasil H., Carpenter P. K., Zeigler R. A., Steele A., Elardo S. M., and Lindsley D. H. 2011. Fluorine and chlorine abundances in lunar apatite: Implications for heterogeneous distributions of magmatic volatiles in the lunar interior. Geochimica et Cosmochimica Acta 75(17):50735093.
  • McCubbin F. M., Hauri E. H., Elardo S. M., Vander Kaaden K. E., Wang J., and Shearer C. K. 2012. Hydrous melting of the Martian mantle produced both depleted and enriched shergottites. Geology 40:683686.
  • McSween H. Y., Jr. and Harvey R. P. 1993. Outgassed water on Mars: Constraints from melt inclusions in SNC meteorites. Science 259:18901892.
  • McSween H. Y., Jr. and Jarosewich E. 1983. Petrogenesis of the Elephant Moraine A79001 meteorite: Multiple magma pulses on the shergottite parent body. Geochimica et Cosmochimica Acta 47:15011513.
  • McSween H. Y., Jr., Grove T. L., Lentz R. C. F., Dann J. C., Holzheid A. H., Riciputi L. R., and Ryan J. G. 2001. Geochemical evidence for magmatic water within Mars from pyroxenes in the Shergotty meteorite. Nature 409:487490.
  • Milman-Barris M., Beckett J., Baker M., Hofmann A., Morgan Z., Crowley M., Vielzeuf D., and Stolper E. M. 2008. Zoning of phosphorus in igneous olivine. Contributions to Mineralogy and Petrology 155:739765.
  • Moore J. and Schilling J. 1973. Vesicles, water, and sulfur in Reykjanes Ridge basalts. Contributions to Mineralogy and Petrology 41:105118.
  • Musselwhite D. and Jones J. 2002. Variation in the augite/melt partitioning of Sm, Eu, and Gd with fO2: Implications for the oxidation state of the Martian mantle (abstract #106). Meteoritics & Planetary Science 37:A106.
  • Musselwhite D. S. M., Dalton H. A., Kiefer W. S., and Treiman A. H. 2006. Experimental petrology of the basaltic shergottite Yamato-980459: Implications for the thermal structure of the Martian mantle. Meteoritics & Planetary Science 41:12711290.
  • Palme C. and Beer H. 1993. Abundances of the elements in the solar system. In Landolt-Bornstein, edited by Voight H., Group VI, vol. 3. Berlin: Springer. pp. 196221.
  • Peslier A. H., Hnatyshin D., Herd C. D. K., Walton E. L., Brandon A. D., Lapen T. J., and Shafer J. T. 2010. Crystallization, melt inclusion, and redox history of a Martian meteorite: Olivine-phyric shergottite Larkman Nunatak 06319. Geochimica et Cosmochimica Acta 74:45434576.
  • Portnyagin M., Almeev R., Matveev S., and Holtz F. 2008. Experimental evidence for rapid water exchange between melt inclusions in olivine and host magma. Earth and Planetary Science Letters 272:541552.
  • Righter K., Pando K., and Danielson L. R. 2009. Experimental evidence for sulfur-rich Martian magmas: Implications for volcanism and surficial sulfur sources. Earth and Planetary Science Letters 288:235243.
  • Rutherford M. J. 2008. Magma ascent rates. Reviews in Mineralogy and Geochemistry 69:241271.
  • Seaman C., Sherman S. B., Garcia M. O., Baker M. B., Balta B., and Stolper E. 2004. Volatiles in glasses from the HSDP2 drill core. Geochemistry Geophysics Geosystems 5, doi:10.1029/2003GC000596.
  • Shafer J. T., Brandon A. D., Lapen T. J., Righter M., Peslier A. H., and Beard B. L. 2010. Trace element systematics and 147Sm-143Nd and 176Lu-176Hf ages of Larkman Nunatak 06319: Closed-system fractional crystallization of an enriched shergottite magma. Geochimica et Cosmochimica Acta 74:73077328.
  • Smith P. M. and Asimow P. D. 2005. Adiabat_1ph: A new front end to the MELTS, pMELTS, and pHMELTS models. Geochemistry Geophysics Geosystems 6:Q02004.
  • Smith J. B. and Hervig R. L. 1979. Shergotty meteorite: Mineralogy, petrography, and minor elements. Meteoritics 14:121142.
  • Sparks R. S. J., Baker L., Brown R. J., Field M., Schumacher J., Stripp G., and Walters A. 2006. Dynamical constraints on kimberlite volcanism. Journal of Volcanology and Geothermal Research 155:1848.
  • Stolper E. and McSween H. Y., Jr. 1979. Petrology and origin of the shergottite meteorites. Geochimica et Cosmochimica Acta 43(9):14751498.
  • Stolper E. M., Sherman S., Garcia M., Baker M., and Seaman C. 2004. Glass in the submarine section of the HSDP2 drill core, Hilo, Hawaii. Geochemistry Geophysics Geosystems 5, doi:10.1029/2003GC000553.
  • Taylor L. A. 1971. The Fe-S-O system: Oxidation of pyrrhotites and the formation of anomalous pyrrhotite. Carnegie Institution of Washington Yearbook 70:287289.
  • Taylor L. A., Nazarov M. A., Shearer C. K., McSween H. Y., Jr., Cahill J., Neal C. R., Ivanova M. A., Barsukova L. D., Lentz R. C., Clayton R. N., and Mayeda T. K. 2002. Martian meteorite Dhofar 019: A new shergottite. Meteoritics & Planetary Science 37:11071128.
  • Toplis M. J. 2005. The thermodynamics of iron and magnesium partitioning between olivine and liquid: Criteria for assessing and predicting equilibrium in natural and experimental systems. Contributions to Mineralogy and Petrology 149:2239.
  • Usui T., McSween H. Y., Jr., and Floss C. 2008. Petrogenesis of olivine-phyric shergottite Yamato 980459, revisited. Geochimica et Cosmochimica Acta 72:17111730.
  • Usui T., Alexander C. M. O'D., Wang J., Simon J. I., and Jones J. H. 2012. Origin of water and mantle–crust interactions on Mars inferred from hydrogen isotopes and volatile element abundances of olivine-hosted melt inclusions of primitive shergottites. Earth and Planetary Science Letters 357–358:119129.
  • Vinet N. and Higgins M. D. 2010. Magma solidification processes beneath Kilauea volcano, Hawaii: A quantitative textural and geochemical study of the 1969–1974 Mauna Ulu lavas. Journal of Petrology 51:12971332.
  • Wadhwa M. 2001. Redox state of Mars' upper mantle and crust from Eu anomalies in shergottite pyroxenes. Science 291(5508):15271530.
  • Wadhwa M., McSween H. Y., Jr., and Crozaz G. 1994. Petrogenesis of shergottite meteorites inferred from minor and trace element microdistributions. Geochimica et Cosmochimica Acta 58:42134229.
  • Wadhwa M., Lentz R. C. F., McSween H. Y., Jr., and Crozaz G. 2001. A petrologic and trace element study of Dar al Gani 476 and Dar al Gani 489: Twin meteorites with affinities to basaltic and lherzolitic shergottites. Meteoritics & Planetary Science 36:195208.
  • Wang Z. and Gaetani G. A. 2008. Partitioning of Ni between olivine and siliceous eclogite partial melt: Experimental constraints on the mantle source of Hawaiian basalts. Contributions to Mineralogy and Petrology 156:661678.
  • Wang Z., Hiraga T., and Kohlstedt D. L. 2004. Effect of H+ on Fe-Mg interdiffusion in olivine (Fe, Mg)2 SiO4. Applied Physics Letters 85:209211.
  • Zinner E. and Crozaz G. 1986. A method for the quantitative measurement of rare earth elements by ion microprobe. International Journal of Mass Spectrometry and Ion Processes 69:1738.