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  • Aléon J. and McKeegan K. D. 2002. Calcium-aluminum-rich inclusions and amoeboid olivine aggregates from the CR carbonaceous chondrites. Meteoritics & Planetary Science 37:17291755.
  • Anders E. and Grevesse N. 1989. Abundances of the elements: Meteoritic and solar. Geochimica et Cosmochimica Acta 53:197214.
  • Darken L. S. and Gurry R. W. 1953. Physical Chemistry of Metals. New York: McGraw Hill. 535p.
  • Ebel D. S. 2006. Condensation of rocky material in astrophysical environments. In Meteorites and the early solar system II, edited by Lauretta D. S. and McSween H. Y. Jr. Tucson, AZ: The University of Arizona press. pp. 253277.
  • Ebel D. S. and Grossman L. 2000. Condensation in dust-enriched systems. Geochimica et Cosmochimica Acta 64:339366.
  • Ebel D. S., Ghiorso M. S., Sack R. O., and Grossman L. 2000. Gibbs energy minimization in gas + liquid + solid systems. Journal of Computational Chemistry 21:247256.
  • Ellingham H. J. T. 1944. Reducibility of oxides and sulfphides in metallurgical processes. Journal of the Society of Chemical Industry 63:125133.
  • GERM Partition Coefficient (Kd) Database. http://earthref.org/KDD/e:25/ (accessed January 30, 2012).
  • Ghiorso M. S. 1990. Thermodynamic properties of hematite–ilmenite–geikielite solid solutions. Contributions to Mineralogy and Petrology 104:645667.
  • 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.
  • Grossman L. 1972. Condensation in the primitive solar nebula. Geochimica et Cosmochimica Acta 36:597619.
  • Grossman L. and Steele I. M. 1976. Amoeboid olivine aggregates in the Allende meteorite. Geochimica et Cosmochimica Acta 40:149155.
  • Hirschmann M. 1991. Thermodynamics of multicomponent olivines and the solution properties of (Ni,Mg,Fe)2SiO4 and (Ca,Mg,Fe)2SiO4 olivines. American Mineralogist 76:12321248.
  • Hirschmann M. M. and Ghiorso M. S. 1994. Activities of nickel, cobalt, and manganese silicates in magmatic liquids and applications to olivine/liquid and to silicate/metal partitioning. Geochimica et Cosmochimica Acta 58:41094126.
  • Ichikawa O. and Ikeda Y. 1995. Petrology of the Yamato-8449 CR chondrite. Proceedings of the NIPR Symposium on Antarctic Meteorites 8:6378.
  • Kennedy A. K., Lofgren G. E., and Wasserburg G. J. 1993. An experimental study of trace element partitioning between olivine, orthopyroxene and melt in chondrules: Equilibrium values and kinetic effects. Earth and Planetary Science Letters 115:177195.
  • Klöck W., Thomas K. L., McKay D. S., and Palme H. 1989. Unusual olivine and pyroxene composition in interplanetary dust and unequilibrated ordinary chondrites. Nature 339:126128.
  • Kornacki A. S. and Fegley B. Jr. 1986. The abundance and relative volatility of refractory trace elements in Allende Ca, Al-rich inclusions: implications for chemical and physical processes in the solar nebula. Earth and Planetary Science Letters 79:217234.
  • Larimer J. W. 1967. Chemical fractionation in meteorites I. Condensation of the elements. Geochimica et Cosmochimica Acta 31:12151238.
  • Larimer J. W. 1973. Chemistry of the solar nebula. Space Science Reviews 15:103119.
  • Li J., O’Neill H. St. C., and Seifert F. 1997. Experimental study on the solubility of Cr2+in olivine, orthopyroxene and spinel solid solutions. Chinese Journal of Geochemistry 16:139147.
  • Lodders K. 2003. Solar system abundances and condensation temperatures of the elements. The Astrophysical Journal 591:12201247.
  • Nakamura T., Noguchi T., Tsuchiyama A., Ushikubo T., Kita N. T., Valley J. W., Zolensky M. E., Kakazu Y., Sakamoto K., Mashio E., Uesugi K., and Nakano T. 2008. Chondrulelike objects in short-period comet 81P/Wild 2. Science 321:16641667.
  • Nakamura-Messenger K., Keller L. P., Clemett S. J., Messenger S., Jones J. H., Palma R. L., Pepin R. O., Klöck W., Zolensky M. E., and Tatsuoka H. 2010. Brownleeite: A new manganese silicide mineral in an interplanetary dust particle. American Mineralogist 95:221228.
  • Palme H. and Fegley B. Jr. 1990. High-temperature condensation of iron-rich olivine in the solar nebula. Earth and Planetary Science Letters 101:180195.
  • Petaev M. I. and Wood J. A. 2005. Meteoritic constraints on temperatures, pressures, cooling rates, chemical compositions, and modes of condensation in the solar nebula. In Chondrites and the protoplanetary disk, edited by Krot A. N., Scott E. R. D. and Reipurth B. San Francisco, CA: Astronomical Society of the Pacific. pp. 373406.
  • Petaev M. I., Wood J. A., Meibom A., Krot A. N., and Keil K. 2003. The ZONMET thermodynamic and kinetic model of metal condensation. Geochimica et Cosmochimica Acta 67:17371751.
  • Richardson F. E. and Jeffes J. H. E. 1948. The thermodynamics of substances of interest in iron and steel making from 0 °C to 2400 °C, I-oxides. Journal of the Iron and Steel Institute 160:261270.
  • Rubin A. E. 1984. Manganiferous orthopyroxene and olivine in the Allende meteorite. American Mineralogist 69:880888.
  • Sack R. O. and Ghiorso M. S. 1989. Importance of considerations of mixing properties in establishing an internally consistent thermodynamic database: Thermochemistry of minerals in the system Mg2SiO4 - Fe2SiO4 - SiO2. Contributions to Mineralogy and Petrology 102:4168.
  • Spandler C. and O’Neill H. St. C. 2010. Diffusion and partition coefficients of minor and trace elements in San Carlos olivine at 1,300C with some geochemical implications. Contributions to Mineralogy and Petrology 159:791818.
  • Steele I. M. 1990. Minor elements in forsterites of Orgueil (C1), Alais (C1) and two interplanetary dust particles compared to C2-C3-UOC forsterites. Meteoritics 25:301307.
  • Sugiura N., Petaev M. I., Kimura M., Miyazaki A., and Hiyagon H. 2009. Nebular history of amoeboid olivine aggregates. Meteoritics & Planetary Science 44:559572.
  • Tufte E. R. 2001. The visual display of quantitative information, 2nd edition. Cheshire CT: Graphics Press. 197 p.
  • Wai C. M. and Wasson J. T. 1977. Nebular condensation of moderately volatile elements and their abundances in ordinary chondrites. Earth and Planetary Science Letters 36:113.
  • Weisberg M. K., Prinz M., Clayton R. N., Mayeda T. K., Grady M. M., Franchi I., and Pillinger C.T. 1995. The CR chondrite clan. Proceedings of the NIPR Symposium on Antarctic Meteorites 8:1132.
  • Weisberg M. K., Connolly H. C. Jr., and Ebel D. S. 2004. Petrology and origin of amoeboid olivine aggregates in CR chondrites. Meteoritics and Planetary Science 39:17411753.
  • Zolensky M., Zega T. J., Yano H., Wirick S., Westphal A. J., Weisberg M. K., Weber I., Warren J. L., Velbel M. A., Tsuchiyama A., Tsou P., Toppani A., Tomioka N., Tomeoka K., Teslich N., Taheri M., Susini J., Stroud R., Stephan T., Stadermann F. J., Snead C. J., Simon S. B., Simionovici A., See T. H., Robert F., Rietmeijer F. J. M., Rao W., Perronnet M. C., Papanastassiou D. A., Okudaira K., Ohsumi K., Ohnishi I., Meibom A., Matrajt G., Marcus M. A., Leroux H., Lemelle L., Le L., Lanzirotti A., Langenhorst F., Krot A. N., Keller L. P., Kearsley A. T., Joswiak D., Jacob D., Ishii H., Harvey R., Hagiya K., Grossman L., Grossman J. N., Graham G. A., Gounelle M., Gillet P., Genge M. J., Flynn G., Ferroir T., Fallon S., Ebel D. S., Dai Z. R., Cordier P., Clark B., Chi M., Butterworth A. L., Brownlee D. E., Bridges J.C., Brennan S., Brearley A., Bradley J. P., Bleuet P., Bland P. A., and Bastien R. 2006. Mineralogy and petrology of comet 81P/Wild 2 nucleus samples. Science 314:17351739.