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  • Aléon J., Krot A. N., McKeegan K. D., MacPherson G. J., and Ulyanov A. A.2005. Fine-grained, spinel-rich inclusions from the reduced CV chondrite Efremovka: II. Oxygen isotopic compositions. Meteoritics & Planetary Science40:10431058.
  • Aléon J., El Goresy A., and Zinner E.2007. Oxygen isotopic heterogeneities in the earliest protosolar gas recorded in a meteoritic calcium-aluminum-rich inclusion. Earth and Planetary Science Letters263:114127.
  • Beckett J. R. and Stolper E.1994. The stability of hibonite, melilite and other aluminous phases in silicate melts: Implications for the origin of hibonite-bearing inclusions from carbonaceous chondrites. Meteoritics29:4165.
  • Ciesla F. J.2007. Outward transport of high-temperature materials around the midplane of the solar nebula. Science318:613615.
  • Ciesla F. J.2009. Two-dimensional transport of solids in viscous protoplanetary disks. Icarus200:655671.
  • Clayton R. N.1993. Oxygen isotopes in meteorites. Annual Review of Earth and Planetary Science21:115149.
  • Clayton R. N., Grossman L., and Mayeda T. K.1973. A component of primitive nuclear composition in carbonaceous meteorites. Science182:485488.
  • Clayton R. N., Onuma N., Grossman L., and Mayeda T. K.1977. Distribution of the presolar component in Allende and other carbonaceous chondrites. Earth and Planetary Science Letters34:209224.
  • Fagan T. J., Krot A. N., Keil K., and Yurimoto H.2004a. Oxygen isotopic evolution of amoeboid olivine aggregates in the reduced CV3 chondrites Efremovka, Vigarano, and Leoville. Geochimica et Cosmochimica Acta68:25912611.
  • Fagan T. J., Krot A. N., Keil K., and Yurimoto H.2004b. Oxygen isotopic alteration in Ca-Al-rich inclusions from Efremovka: Nebular or parent body setting?Meteoritics & Planetary Science39:12571272.
  • Grossman L.1975. Petrography and mineral chemistry of Ca-rich inclusions in the Allende meteorite. Geochimica et Cosmochimica Acta39:433454.
  • Grossman L.1980. Refractory inclusions in the Allende meteorite. Annual Review of Earth and Planetary Sciences8:559608.
  • Grossman L., Ebel D. S., and Simon S. B.2002. Formation of refractory inclusion by evaporation of condensate precursors. Geochimica et Cosmochimica Acta66:145161.
  • Harazono K. and Yurimoto H.2003. Oxygen isotopic variations in a fluffy type A CAI from the Vigarano meteorite (abstract #1540). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Ito M., Nagasawa H., and Yurimoto H.2004. Oxygen isotopic SIMS analysis in Allende CAI: Details of very early thermal history of the solar system. Geochimica et Cosmochimica Acta68:29052923.
  • Itoh S. and Yurimoto H.2003. Contemporaneous formation of chondrules and refractory inclusions in the early solar system. Nature423:728731.
  • Katayama J., Itoh S., and Yurimoto H.2012. Oxygen isotopic zoning of reversely zoned melilite crystals in a fluffy type A Ca-Al-rich inclusion from the Vigarano meteorite. Meteoritics & Planetary Science48. This issue.
  • Kim G. L., Yurimoto H., and Sueno S.2002. Oxygen isotopic composition of a compound Ca-Al-rich inclusion from Allende meteorite: Implications for origin of palisade bodies and O-isotopic environment in the CAI forming region. Journal of Mineralogical and Petrological Science97:161167.
  • Kobayashi S., Imai H., and Yurimoto H.2003. New extreme 16O-rich reservoir in the early solar system. Geochemical Journal37:663669.
  • MacPherson G. J. and Grossman L.1984. Fluffy type A Ca-, Al-rich inclusions in the Allende meteorite. Geochimica et Cosmochimica Acta48:2946.
  • Onuma K and Moridaira H.1991. The system diopside-akermanite-gehlenite at 1 atm. Journal of Mineralogy, Petrology and Economic Geology86:554559.
  • Sakamoto N., Seto Y., Itoh S., Kuramoto K., Fujino K., Nagashima K., Krot A. N., and Yurimoto H.2007. Remnants of the early solar system water enriched in heavy oxygen isotopes. Science317:231233.
  • Simon S. B., Davis A. M., and Grossman L.1999. Origin of compact type A refractory inclusions from CV3 carbonaceous chondrites. Geochimica et Cosmochimica Acta63:12331248.
  • Simon J. I., Hutcheon I. D., Simon S. B., Matzel J. E. P., Ramon E. C., Weber P. K., Grossman L., and DePaolo D. J.2011. Oxygen isotope variations at the margin of a CAI records circulation within the solar nebula. Science331:11751178.
  • Stolper E.1982. Crystallization sequence of Ca-Al-rich inclusions from Allende: An experimental study. Geochimica et Cosmochimica Acta46:21592180.
  • Wakaki S., Itoh S., Tanaka T., and Yurimoto H.2012. Petrology, trace element abundances and oxygen isotopic compositions of a compound CAI-chondrule object from Allende. Geochimica et Cosmochimica Acta, doi:10.1016/j.gca.2012.10.039.
  • Wark D. A. and Lovering J. F.1977. Marker events in the early solar system: Evidence from rims on Ca-Al-rich inclusions in carbonaceous chondrites. Proceedings, 8th Lunar Science Conference. pp. 95112.
  • Wood J. A. and Hashimoto A.1993. Mineral equilibrium in fractionated nebular systems. Geochimica et Cosmochimica Acta57:23772388.
  • Yoneda S. and Grossman L.1995. Condensation of CaO-MgO-Al2O3-SiO2 liquids from cosmic gases. Geochimica et Cosmochimica Acta59:34133444.
  • Yoshitake M., Koide Y., and Yurimoto H.2005. Correlations between oxygen-isotopic composition and petrologic setting in a coarse-grained Ca, Al-rich inclusion. Geochimica et Cosmochimica Acta69:26632674.
  • Yurimoto H. and Kuramoto K.2004. Molecular cloud origin for the oxygen isotope heterogeneity in the solar system. Science305:17631766.
  • Yurimoto H., Nagasawa H., Mori Y., and Matsubara O.1994. Micro-distribution of oxygen isotopes in a refractory inclusion from the Allende meteorite. Earth and Planetary Science Letters128:4753.
  • Yurimoto H., Ito M., and Nagasawa H.1998. Oxygen isotope exchange between refractory inclusion in Allende and solar nebula gas. Science282:18741877.
  • Yurimoto H., Krot N. K., Choi B., Aléon J., Kunihiro T., and Brearley A. J.2008. Oxygen isotopes in chondritic components. In Oxygen in the solar system, edited by MacPherson G. J. Reviews in Mineralogy and Geochemistry, vol. 68. Washington, D.C.: Mineralogical Society of America. pp. 141186.