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  • Aléon J., El Goresy A., and Zinner E.2005. Spatially resolved oxygen isotope differences in the earliest protosolar gas recorded in a meteoritic calcium-aluminum-rich inclusion. Earth and Planetary Science Letters263:114123.
  • Alexander C. M. O’D. and Cuzzi J.2011. Solving the chondrule mystery: Not there yet (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9152.
  • Alexander C. M. O’D., Grossman J. N., Ebel D. S., and Ciesla F. J.2008. The formation conditions of chondrules and chondrites. Science320:16171620.
  • Amelin Y. and Krot A. N.2007. Pb isotopic age of the Allende chondrules. Meteoritics & Planetary Science42:13211337.
  • Amelin Y., Krot A. N., Hutcheon I. D., and Ulyanov A. A.2002. Pb isotopic ages of chondrules and Ca-Al-rich inclusions. Science297:16781683.
  • Arnould M., Goriely S., and Meynet G.2006. The production of short-lived radionuclides by new non-rotating and rotating Wolf-Rayet model stars. Astronomy & Astrophysics453:653659.
  • Bar-Matthews M., Hutcheon I. D., MacPherson G. J., and Grossman L.1982. A corundum-rich inclusion in the Murchison carbonaceous chondrite. Geochimica et Cosmochimica Acta46:3141.
  • Beckett J. R., Thrane K., and Krot A. N. 2008. Why wollastonite is so rare in CAIs (abstract #5208). 71st Annual Meeting of the Meteoritical Society. CD-ROM.
  • Boss A. P.2008. Mixing in the solar nebula: Implications for isotopic heterogeneity and large-scale transport of refractory grains. Earth and Planetary Science Letters268:102109.
  • Boss A. P., Ipatov S. I., Keiser S. A., Myhill E. A., and Vanhala H. A. T.2008. Simultaneous triggered collapse of the presolar dense cloud core and injection of short-lived radioisotopes by a supernova shock wave. The Astrophysical Journal Letters686:L119L122.
  • Bouvier A. and Wadhwa M.2010. The age of the solar system redefined by the oldest Pb-Pb age of a meteoritic inclusion. Nature Geoscience3:637641.
  • Bouvier A., Brennecka G. A., and Wadhwa M. 2011a. Absolute chronology of the first solids in the solar system. In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9054.
  • Bouvier A., Spivak-Birndorf L. J., Brennecka G. A., and Wadhwa M.2011b. New constraints on early solar system chronology from Al-Mg and U-Pb isotope systematics in the unique basaltic achondrite Northwest Africa 2976. Geochimica et Cosmochimica Acta75:53105323.
  • Brigham C. A. 1990. Isotopic heterogeneity in calcium-aluminum-rich meteoritic inclusions. Ph.D. thesis, CalTech, Pasadena, California. 266 p.
  • Chaussidon M., Robert F., and McKeegan K. D.2006. Li and B isotopic variations in an Allende CAI: Evidence for the in situ decay of short-lived 10Be and for the possible presence of the short-lived nuclide 7Be in the early solar system. Geochimica et Cosmochimica Acta70:224245.
  • Ciesla F. J.2009. Two-dimensional transport of solids in viscous protoplanetary disks. Icarus200:655671.
  • Clayton R. N. and Mayeda T. K.1977. Correlated oxygen and magnesium isotope anomalies in Allende inclusions. I. Oxygen. Geophysical Research Letters4:295298.
  • Clayton R. N., Onuma N., Grossman L., and Mayeda T. K.1977. Distribution of the pre-solar component in Allende and other carbonaceous chondrites. Earth and Planetary Science Letters34:209224.
  • Clayton R. N., MacPherson G. J., Hutcheon I. D., Davis A. M., Grossman L., Mayeda T. K., Molini-Velsko C., Allen J. M., and El Goresy A.1984. Two forsterite-bearing FUN inclusions in the Allende meteorite. Geochimica et Cosmochimica Acta48:535548.
  • Connelly J. N., Bizzarro M., Ivanova M., and Krot A. N.2011. Towards a new absolute chronology for the early solar system. In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9056.
  • Connolly H. C., Young E. D., Huss G. R., Nagashima K., McDonough W. F., Ash R. D., Beckett J. R., Tonui E., and McCoy T. J. 2009. Supra-canonical 26Al detected by in situ LA-MC-ICPMS and SIMS techniques: But what does it all mean? (abstract #1993). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Connolly H. C., Young E. D., Huss G. R., Nagashima K., Beckett J. R., and McCoy T. J. 2010. To be or not to be canonical, what’s new? The search for the initial 26Al abundance of the solar system (abstract #1933). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Connolly H. C., Young E. D., Huss G. R., Nagashima K., and Beckett J. R. 2011. Exploring the disturbance of Al-Mg isotopes in the first solar system rocks: Calcium-rich, aluminum-rich inclusions (abstract #9128). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute.
  • Cosarinsky M., Taylor D. J., McKeegan K. D., and Hutcheon I. D. 2005. Mg isotopic study of Wark–Lovering rims in Type A inclusions from CV chondrites: Formation mechanisms and timing (abstract #5284). 68th Annual Meteoritical Society Meeting. CD-ROM.
  • Cosarinsky M., Taylor D. J., Liu M.-C., McKeegan K. D., and Krot A. N. 2007. Distribution of aluminum-26 in refractory inclusions from CV chondrites (abstract). In Workshop on the Chronology of Meteorites and the Early solar system, November 5–7, 2007, Kauai, Hawaii. LPI Contribution No. 1374. Houston, Texas: Lunar and Planetary Institute. pp. 4849.
  • Dauphas N. and Chaussidon M.2011. A perspective from extinct radionuclides on a young stellar object: The Sun and its accretion disk. Annual Review in Earth and Planetary Sciences39:351386.
  • Dauphas N., Remusat L., Chen J. H., Roskosz M., Papanastassiou D. A., Stodolna J., Guan Y., Ma C., and Eiler J. M.2010. Neutron-rich chromium isotope anomalies in supernova nanoparticles. The Astrophysical Journal720:15771591.
  • Davis A. M., MacPherson G. J., Clayton R. N., Mayeda T. K., Sylvester P. J., Grossman L., Hinton R. W., and Laughlin J. R.1991. Melt solidification and late-stage evaporation in the evolution of a FUN inclusion from the Vigarano CV3 chondrite. Geochimica et Cosmochimica Acta55:621637.
  • Davis A. M., McKeegan K. D., and MacPherson G. J.2000. Oxygen-isotopic compositions of individual minerals from the FUN inclusion Vigarano 1623-5 (abstract). Meteoritics & Planetary Science35:A47.
  • Davis A. M., Richter F. M., Mendybaev R. A., Janney P. E., Wadhwa M., and McKeegan K. D. 2005. Isotopic mass fractionation laws and the initial solar system 26Al/27Al ratio (abstract #2334). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Davis A. M., Kita N. T., Ushikubo T., MacPherson G. J., Bullock E. S., and Knight K. B. 2010. Magnesium isotopic evolution of CAIs (abstract #2496). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Doyle P. M., Berry A. J., Schofield P. F., Mosselmans J. F. W., Smith A. D., Scholl A., and Young A. T. 2011. The oxidation state of Ti in synthetic and meteoritic hibonite, with application to early solar nebula processes (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9034.
  • Duprat J. and Tatischeff V.2007. Energetic constraints on in situ production of short-lived radionuclei in the early solar system. The Astrophysical Journal Letters671:L69L72.
  • Dyl K. A., Young E. D., and Krot A. N. 2008. In-situ UV-laser fluorination oxygen isotopic analyses of an Efremovka CAI and matrix: Implications for oxygen isotope exchange in the solar nebula (abstract #2486). 39th Lunar and Planetary Science Conference. CD-ROM.
  • 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, Arizona: The University of Arizona Press. pp. 253277.
  • Ebel D. and Grossman L.2000. Condensation in dust enriched systems. Geochimica et Cosmochimica Acta64:339366.
  • El Goresy A., Zinner E., Caillet C., Virag A., and Weinbruch S. 1991. Allende TE: Evidence for multiple isotopic fractionation events before and after oxidation and alteration (abstract). 22nd Lunar and Planetary Science Conference. p. 345.
  • Ellinger C. I., Young P. A., and Desch S. J.2010. Collateral effects on solar nebula oxygen isotopes due to injection of 26Al by a nearby supernova. The Astrophysical Journal725:14951506.
  • Esat T. M., Lee T., Papanastassiou D. A., and Wasserburg G. J.1978. Search for 26Al effects in the Allende FUN inclusion C1. Geophysical Research Letters5:807810.
  • Esat T. M., Papanastassiou D. A., and Wasserburg G. J. 1980. The initial state of 26Al and 26Mg/24Mg in the early solar system (abstract). 11th Lunar and Planetary Science Conference. p. 262.
  • Fagan T. J., Krot A. N., and Keil K.2000. Calcium, aluminum-rich inclusions in enstatite chondrites (1): Mineralogy and textures. Meteoritics & Planetary Science35:771783.
  • Fagan T. J., McKeegan K. D., Krot A. N., and Keil K.2001. Calcium, aluminum-rich inclusions in enstatite chondrites (2): Oxygen isotopes. Meteoritics & Planetary Science36:223230.
  • Fahey A. J., Goswami J. N., McKeegan K. D., and Zinner E. K.1987a. 16O excesses in Murchison and Murray hibonites: A case against a late supernova injection origin of isotopic anomalies in O, Mg, Ca and Ti. The Astrophysical Journal Letters323:L91L95.
  • Fahey A. J., Goswami J. N., McKeegan K. D., and Zinner E.1987b. Al-26, Pu-244, Ti-50, REE, and trace element abundances in hibonite grains from CM and CV meteorites. Geochimica et Cosmochimica Acta51:329350.
  • Gaidos E., Krot A. N., Williams J. P., and Raymond S. N.2009. 26Al and the formation of the solar system from a molecular cloud contaminated by Wolf-Rayet wind. The Astrophysical Journal696:18541863.
  • Gounelle M. and Meibom A.2007. The oxygen isotopic composition of the Sun as a test of the supernova origin of 26Al and 41Ca. The Astrophysical Journal Letters664:L123L125.
  • Gounelle M. and Meynet G. 2011. Short-lived radionuclides in the early solar system trace sequential star formation (abstract). In Workshop on Formation of the First Solids in the solar system, held November 7–9, 2011 in Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9008.
  • Gounelle M., Shu F. H., Shang H., Glassgold A. E., Rehm K. E., and Lee T.2001. Extinct radioactivities and protosolar cosmic rays: Self-shielding and light elements. The Astrophysical Journal548:10511170.
  • Gounelle M., Shu F. H., Hsien S., Glassgold A. E., Rehm K. E., and Lee T.2006. The irradiation origin of beryllium radioisotopes and other short-lived radionuclides. The Astrophysical Journal640:11631170.
  • Gounelle M., Young E. D., Shahar A., Tonui E., and Kearsley A.2007. Magnesium isotopic constraints on the origin of CBb chondrites. Earth and Planetary Science Letters256:521533.
  • Gounelle M., Krot A. N., Nagashima K., and Kearsley A.2009. Extreme 16O-enrichment in refractory inclusions from the Isheyevo meteorite: Implication for oxygen isotope composition of the Sun. The Astrophysical Journal Letters698:L18L22.
  • Guan Y., McKeegan K. D., and MacPherson G. J.2000a. Oxygen isotopes in calcium-aluminum-rich inclusions from enstatite chondrites: New evidence for a single CAI source in the solar nebula. Earth and Planetary Science Letters181:271277.
  • Guan Y., Huss G. R., MacPherson G. J., and Wasserburg G. J.2000b. Calcium-aluminum-rich inclusions from enstatite chondrites: Indigenous or foreign?Science289:13301333.
  • Hinton R. W. and Bischoff A.1984. Ion microprobe magnesium isotope analysis of plagioclase and hibonite from ordinary chondrites. Nature308:169172.
  • Hinton R. W., Davis A. M., Scatena-Wachel D. E., Grossman L., and Draus R. J.1988. A chemical and isotopic study of hibonite-rich refractory inclusions in primitive meteorites. Geochimica et Cosmochimica Acta52:25732598.
  • Hiyagon H. and Hashimoto A. 2008. Isotopic and rare earth element studies of a FUN-like forsterite-bearing inclusion from Allende (abstract #5128). 71st Annual Meeting of the Meteoritical Society. CD-ROM.
  • Hsu W., Guan Y., and Wang Y.2011. Al-Mg systematics of hibonite-bearing Ca,Al-rich inclusions from Ningqiang. Meteoritics & Planetary Science46:719728.
  • Hueso R. and Guillot T.2005. Evolution of protoplanetary disks: Constraints from DM Tauri and GM Aurigae. Astronomy & Astrophysics442:703725.
  • Huss G. R., MacPherson G. J., Wasserburg G. J., Russell S. S., and Srinivasan G.2001. Aluminum-26 in calcium-aluminum-rich inclusions and chondrules from unequilibrated ordinary chondrites. Meteoritics & Planetary Science36:975997.
  • Hutcheon I. D., Marhas K., Krot A. N., Goswami J. N., and Jones R. H.2009. 26Al in plagioclase-rich chondrules in carbonaceous chondrites: Evidence for an extended duration of chondrule formation. Geochimica et Cosmochimica Acta73:50805100.
  • Ireland T. R.1988. Correlated morphological, chemical, and isotopic characteristics of hibonites from the Murchison carbonaceous chondrite. Geochimica et Cosmochimica Acta52:28272839.
  • Ireland T. R. and Compston W.1987. Large heterogeneous excesses in a hibonite from the Murchison meteorite. Nature327:689692.
  • Ireland T. R., Fahey A. J., and Zinner E.1991. Hibonite-bearing microspherules—A new type of refractory inclusions with large isotopic anomalies. Geochimica et Cosmochimica Acta55:367379.
  • Ireland T. R., Zinner E. K., Fahey A. J., and Esat T. M.1992. Evidence for distillation in the formation of HAL and related hibonite inclusions. Geochimica et Cosmochimica Acta56:25032520.
  • Ishii H. A., Stadermann F. J., Floss C., Joswiak D., Bradley J. P., Teslich N., Brownlee D. E., Matrajt G., MacPherson G., and McKeegan K. D. 2010. Lack of evidence for in situ decay of aluminum-26 in comet 81P/Wild 2 CAI-like refractory particles “Inti” and “Coki” (abstract #2117). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Itoh S., Kojima H., and Yurimoto H.2004. Petrography and oxygen isotopic compositions in refractory inclusions from CO chondrites. Geochimica et Cosmochimica Acta68:183194.
  • Jacobsen B., Yin Q.-Z., Moyniera F., Amelin Y., Krot A. N., Nagashima K., Hutcheon I. D., and Palme H.2008. 26Al-26Mg and 207Pb-206Pb systematics of Allende CAIs: Canonical solar initial 26Al/27Al ratio reinstated. Earth and Planetary Science Letters272:353364.
  • Kimura M., El Goresy A., Palme H., and Zinner E.1993. Ca-Al-rich inclusions in the unique chondrite ALH 85085—Petrology, chemistry, and isotopic compositions. Geochimica et Cosmochimica Acta57:23292359.
  • Kita N. T., Huss G. R., Tachibana S., Amelin Y., Nyquist L. E., and Hutcheon I. D. 2005. Constraints on the origin of chondrules and CAIs from short-lived and long-lived radionuclides. In Chondrules and the protoplanetary disk, edited by Krot A. N., Scott E. R. D., Reipurth B. ASP Conference Series 341. San Francisco: Astronomical Society of the Pacific. pp. 558587.
  • Kita N., Nagahara H., Tachibana S., Tomomura S., Spicuzza M. J., Fournelle J. H., and Valley J. W.2010. High precision SIMS oxygen three isotope study of chondrules in LL3 chondrites: Role of ambient gas during chondrule formation. Geochimica et Cosmochimica Acta74:66106635.
  • Kita N. T., Ushikubo T., Knight K. B., Mendybaev R. A., Davis A. M., Richter F. M., and Fournelle J. H.2012a. Internal 26Al-26Mg isotope systematics of a Type B CAI: Remelting of refractory precursor solids. Geochimica et Cosmochimica Acta86:3751.
  • Kita N. T., Yin Q.-Z., MacPherson G. J., Ushikubo T., Jacobsen B., Nagashima K., Kurahashi E., Krot A. N., and Jacobsen S. B. Forthcoming. 26Al-26Mg isotope systematics of first solids in the early solar system. Meteoritics & Planetary Science. In press 48.
  • Kleine T., Hans U., Irving A. J., and Bourdon B.2012. Chronology of the angrite parent body and implications for core formation in protoplanets. Geochimica et Cosmochimica Acta84:186203.
  • Knight K. B., Kita N. T., Davis A. M., Richter F. M., and Mendybaev R. A. 2009a. Mg and Si isotope fractionation within three type B Ca-Al-rich inclusions (abstract #2360). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Knight K. B., Kita N. T., Mendybaev R. A., Richter F. M., Davis A. M., and Valley J. W.2009b. Silicon isotopic fractionation of CAI-like vacuum evaporation residues. Geochimica et Cosmochimica Acta73:23902401.
  • Krot A. N. and Keil K.2002. Anorthite-rich chondrules in CR and CH carbonaceous chondrites: Genetic link between Ca, Al-rich inclusions and ferromagnesian chondrules. Meteoritics & Planetary Science37:91111.
  • Krot A. N., McKeegan K. D., Russell S. S., Meibom A., Weisberg M. K., Zipfel J., Krot T. V., Fagan T. J., and Keil K.2001. Refractory Ca, Al-rich inclusions and Al-diopside-rich chondrules in the metal-rich chondrites Hammadah al Hamra 237 and QUE 94411. Meteoritics & Planetary Science36:11891217.
  • Krot A. N., McKeegan K. D., Leshin L. A., MacPherson G. J., and Scott E. R. D.2002a. Existence of an 16O-rich gaseous reservoir in the solar nebula. Science295:10511054.
  • Krot A. N., Meibom A., Weisberg M. K., and Keil K.2002b. The CR chondrite clan: Implications for early solar system processes. Meteoritics & Planetary Science37:14511490.
  • Krot A. N., Hutcheon I. D., and Keil K.2002c. Anorthite-rich chondrules in the reduced CV chondrites: Evidence for complex formation history and genetic links between CAIs and ferromagnesian chondrules. Meteoritics & Planetary Science37:155182.
  • Krot A. N., McKeegan K. D., Huss G. R., Liffman K., Sahijpal S., Hutcheon I. D., Srinivasan G., Bischoff A., and Keil K.2005a. Aluminum-magnesium and oxygen isotope study of relict Ca-Al-rich inclusions in chondrules. The Astrophysical Journal629:12271237.
  • Krot A. N., Yurimoto H., Hutcheon I. D., and MacPherson G. J.2005b. Relative chronology of CAI and chondrule formation: Evidence from chondrule-bearing igneous CAIs. Nature434:9981001.
  • Krot A. N., Amelin Y., Cassen P., and Meibom A.2005c. Young chondrules in CB chondrites from a giant impact in the early solar system. Nature436:989992.
  • Krot A. N., Yurimoto H., McKeegan K. D., Leshin L., Chaussidon M., Libourel G., Yoshitake M., Huss G. R., Guan Y., and Zanda B.2006. Oxygen isotopic compositions of chondrules: Implication for understanding oxygen isotope evolution of the solar nebula. Chemie der Erde66:249276.
  • Krot A. N., Yurimoto H., Hutcheon I. D., Libourel G., Chaussidon M., Tissandier L., Petaev M. I., MacPherson G. J., Paque-Heather J., and Wark D.2007. Type C Ca, Al-rich inclusions from Allende: Evidence for multistage formation. Geochimica et Cosmochimica Acta71:43424364.
  • Krot A. N., Nagashima K., Bizzarro M., Huss G. R., Davis A. M., McKeegan K. D., Meyer B. S., and Ulyanov A. A.2008a. Multiple generations of refractory inclusions in the metal-rich carbonaceous chondrites Acfer 182/214 and Isheyevo. The Astrophysical Journal672:713721.
  • Krot A. N., Nagashima K., Hutcheon I. D., Davis A. M., Thrane K., Bizzarro M., Huss G. R., Papanastassiou D. A., and Wasserburg G. J. 2008b. Oxygen isotopic compositions of individual minerals from FUN CAIs (abstract #2162). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Krot A. N., Amelin Y., Bland P., Ciesla F. J., Connelly J., Davis A. M., Huss G. R., Hutcheon I. D., Makide K., Nagashima K., Nyquist L. E., Russell S. S., Scott E. R. D., Thrane K., Yurimoto H., and Yin Q.-Z.2009. Origin and chronology of chondritic components: A review. Geochimica et Cosmochimica Acta73:49634998.
  • Krot A. N., Nagashima K., Ciesla F. J., Bradley M. S., Hutcheon I. D., Davis A. M., Huss G. R., and Scott E. R. D.2010a. Oxygen isotopic composition of the Sun and mean oxygen isotopic composition of the protosolar silicate dust: Evidence from refractory inclusions. The Astrophysical Journal713:11591166.
  • Krot A. N., Nagashima K., Hutcheon I. D., Ishii H. A., Yin Q.-Z., Davis A. M., and Simon S. B. 2010b. Mineralogy, petrography, oxygen and magnesium isotopic compositions and formation age of grossular-bearing assemblages in the Allende CAIs (abstract #1406). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Krot A. N., Nagashima K., and Bizzarro M. 2011. Recycling of CAIs in an 16O-depleted reservoir: Evidence from CAIs in metal-rich carbonaceous chondrites (abstract #1226). 42nd Lunar and Planetary Science Conference. CD-ROM.
  • Krot A. N., Makide K., Nagashima K., Huss G. R., Hellebrand E., and Petaev M. I. 2012a. Heterogeneous distribution of 26Al at the birth of the solar system: Evidence from corundum-bearing refractory inclusions (abstract #2255). 43rd Lunar and Planetary Science Conference. CD-ROM.
  • Krot A. N., Nagashima K., and Petaev M. I.2012b. Isotopically uniform, 16O-depleted calcium, aluminum-rich inclusions in CH and CB carbonaceous chondrites. Geochimica et Cosmochimica Acta83:159178.
  • Larsen K., Trinquier A., Paton C., Schiller M., Wielandt D., Ivanova M., Connelly J., Nordlund A., Krot A. N., and Bizzarro M.2011. Evidence for magnesium-isotope heterogeneity in the solar protoplanetary disk. The Astrophysical Journal Letters735:L37L40.
  • Lee T. and Papanastassiou D. A.1974. Mg isotopic anomalies in the Allende meteorite and correlation with O and Sr effects. Geophysical Research Letters1:225228.
  • Lee T., Papanastassiou D. A., and Wasserburg G. J.1976. Demonstration of Mg-26 excess in Allende and evidence for Al-26. Geophysical Research Letters3:4144.
  • Lee T., Papanastassiou D. A., and Wasserburg G. J.1977. Aluminum-26 in the early solar system—Fossil or fuel. The Astrophysical Journal Letters211:L107L110.
  • Lee T., Russell W. A., and Wasserburg G. J.1979. Calcium isotopic anomalies and the lack of aluminum-26 in an unusual Allende inclusion. The Astrophysical Journal Letters228:L93L98.
  • Lee T., Mayeda T. K., and Clayton R. N.1980. Oxygen isotopic anomalies in Allende inclusion HAL. Geophysical Research Letters7:493496.
  • Lee T., Shu F. H., Shang H., Glassgold A. E., and Rhem K. E.1998. Protostellar cosmic rays and extinct radioactivities in meteorites. The Astrophysical Journal506:898912.
  • Liu M.-C., McKeegan K. D., Goswami J. N., Marhas K. K., Sahijpal S., Ireland T. R., and Davis A. M.2009. Isotopic records in CM hibonites: Implications for timescales of mixing of isotope reservoirs in the solar nebula. Geochimica et Cosmochimica Acta73:50515079.
  • Liu M.-C., Nittler L. R., Alexander C. M. O’D., and Lee T.2010. Lithium-beryllium-boron isotopic compositions in meteoritic hibonite: Implications for origin of 10Be and early solar system irradiation. The Astrophysical Journal Letters719:L99L103.
  • Liu M.-C., Chaussidon M., Göpel C., and Lee T.2012. A heterogeneous solar nebula as sampled by CM hibonite grains. Earth and Planetary Science Letters327:7583.
  • Lodders K.2003. Solar system abundances and condensation temperatures of the elements. The Astrophysical Journal59:12201247.
  • Loss R. D., Lugmair G. W., MacPherson G. J., and Davis A. M.1994. Isotopically distinct reservoirs in the solar nebula: Isotope anomalies in Vigarano meteorite inclusions. The Astrophysical Journal Letters436:L193L196.
  • Lyons J. R. and Young E. D.2005. CO self-shielding as the origin of oxygen isotope anomalies in the early solar nebula. Nature435:317320.
  • MacPherson G. J., Grossman L., Hashimoto A., Bar-Matthews M., and Tanaka T.1984. Petrographic studies of refractory inclusions from the Murchison meteorite. Proceeding of 15th Lunar and Planetary Science Conference. Journal of Geophysical Research89:C299C312.
  • MacPherson G. J., Davis A. M., and Zinner E. K.1995. The distribution of 26Al in the early solar system. Meteoritics30:365386.
  • MacPherson G. J., Huss G. R., and Davis A. M.2003. Extinct 10Be in type A calcium-aluminum-rich inclusions from CV chondrites. Geochimica et Cosmochimica Acta67:31653179.
  • MacPherson G. J., Bullock E. S., Janney P. E., Kita N. T., Ushikubo T., Davis A. M., Wadhwa M., and Krot A. N.2010a. Early solar nebula condensates with canonical, not supracanonical, initial 26Al/27Al ratios. The Astrophysical Journal Letters711:L117L121.
  • MacPherson G. J., Nagashima K., Krot A. N., and Bullock E. S. 2010b. High-precision O-isotope measurements in Vigarano CAIs: Slope 0.94, and common presence of 16O-rich melilite and anorthite (abstract #5267). 73rd Annual Meeting of the Meteoritical Society. CD-ROM.
  • MacPherson G. J., Bullock E. S., Krot A. N., Nagashima K., Kita N. T., and Ushikubo T. 2011. Four CAI conundrums: Challenges for future work (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9103.
  • MacPherson G. J., Kita N. T., Ushikubo T., Bullock E. S., and Davis A. M.2012. Well-resolved variations in the formation ages for Ca-Al-rich inclusions in the early solar system. Earth and Planetary Science Letters331:4354.
  • Makide K., Nagashima K., Krot A. N., Huss G. R., Hutcheon I. D., and Bischoff A.2009a. Oxygen- and magnesium-isotope compositions of calcium-aluminum-rich inclusions from CR2 carbonaceous chondrites. Geochimica et Cosmochimica Acta73:50185051.
  • Makide K., Nagashima K., Krot A. N., and Huss G. R.2009b. Oxygen isotopic compositions of solar corundum grains. The Astrophysical Journal706:142147.
  • Makide K., Nagashima K., Krot A. N., Huss G. R., Ciesla F. J., Hellebrand E., Gaidos E., and Yang L.2011. Heterogeneous distribution of 26Al at the birth of the solar system. The Astrophysical Journal Letters733:L31L34.
  • Makide K., Nagashima K., Krot A. N., Huss G. R., Hutcheon I. D., Hellebrand E., and Petaev M. I. Forthcoming. Heterogeneous distribution of 26Al at the birth of the solar system: Evidence from corundum-bearing refractory inclusions in carbonaceous chondrites. Geochimica et Cosmochimica Acta.
  • Matzel J. E. P., Ishii H. A., Joswiak D., Hutcheon I. D., Bradley J. P., Brownlee D., Weber P. K., Teslich N., Matrajt G., McKeegan K. D., and MacPherson G. J.2010. Constraints on the formation age of cometary material from the NASA Stardust mission. Science328:483486.
  • McKeegan K. D. and Davis A. M. 2003. Early solar system chronology. In Meteorites, comets, and planets, edited by Davis A. M. Treatise on Geochemistry, vol. 1. Oxford: Elsevier. pp. 431460.
  • McKeegan K. D., Leshin L. A., Russell S. S., and MacPherson G. J.1998. Oxygen isotopic abundances in calcium-aluminum-rich inclusions from ordinary chondrites: Implications for nebular heterogeneity. Science280:414418.
  • McKeegan K. D., Chaussidon M., and Robert F.2000. Incorporation of short-lived 10Be in a calcium-aluminum-rich inclusion from the Allende meteorite. Science289:13341337.
  • McKeegan K. D., Davis A. M., Taylor D. J., and MacPherson G. J. 2005. In situ investigation of Mg isotope compositions in a FUN inclusion (abstract #2077). 36th Lunar and Planetary Science Conference. CD-ROM.
  • McKeegan K. D., Aleon J., Alexander C., Bradley J., Brownlee D., Burnard P., Butterworth A., Chaussidon M., Davis A., Floss C., Gilmour J., Guan Y., Hohenberg C., Hoppe P., Hutcheon I., Ito M., Jacobsen S., Leshin L., Lyon I., Marhas K., Marty B., Meibom A., Meshik A., Messenger S., Nakamura K., Nittler L., Palma R., Pellin M., Peppin R., Tsou P., Robert F., Schlutter D., Stadermann F., Stroud R., Westphal A., Young E., Ziegler K., and Zinner E.2006. Isotopic compositions of cometary matter returned by Stardust. Science314:17241728.
  • McKeegan K. D., Kallio A. P. A., Heber V. S., Jarzebinski G., Mao P. H., Coath C. D., Kunihiro T., Wiens R. C., Nordholt J. E., Moses R. W. Jr., Reisenfeld D. B., Jurewicz A. J. G., and Burnett D. S.2011. The oxygen isotopic composition of the Sun inferred from captured solar wind. Science332:15281532.
  • Mendybaev R. A., Richter F. M., and Davis A. M. 2008. FUN in the laboratory: Evaporation of forsterite-rich melts and fractionation of magnesium isotopes (abstract #2345). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Mendybaev R. A., Richter F. M., Georg R. B., and Davis A. M. 2009. Evaporation kinetics of forsterite-rich melts and thermal histories of FUN CAIs (abstract #2461). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Mendybaev R. A., Richter F. M., Spicuzza M. J., Valley J. W., and Davis A. M. 2010. Oxygen isotope fractionation during evaporation of Mg- and Si-rich CMAS-liquids in vacuum (abstract #2725). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Meyer B. S. 2005. Synthesis of short-lived radioactivities in a massive star. In Chondrites and the protoplanetary disk, edited by Krot A. N., Scott E. R. D., and Reipurth B. ASP Conference Series 341. San Francisco: Astronomical Society of the Pacific. pp. 515526.
  • Meyer B. S., The L.-S., and El Eid M. F. 2011. On aluminum-26 in mass loss from massive stars (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9148.
  • Nagashima K., Krot A. N., and Hua X. 2007. Common presence of 16O-rich melilite in calcium-aluminum-rich inclusions from the least metamorphosed CV carbonaceous chondrite Kaba (abstract #2059). 38th Lunar and Planetary Science Conference. CD-ROM.
  • Nagashima K., Krot A. N., Huss G. R., and Yurimoto H.2010. Micron scale oxygen isotope heterogeneity in anorthite of a forsterite-bearing Type B CAI E60 from Efremovka (abstract #2255). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Nittler L. R.2003. Presolar stardust in meteorites: Recent advances and scientific frontiers. Earth and Planetary Science Letters209:259273.
  • Norris T. L., Gancarz A. J., Rokop D. J., and Thomas K. W.1983. Half-life of 26Al. Journal of Geophysical Research88:B331B333.
  • Nyquist L. E., Kleine T., Shih C.-Y., and Reese Y. D.2009. The distribution of short-lived radioisotopes in the early solar system and the chronology of asteroid accretion, differentiation, and secondary mineralization. Geochimica et Cosmochimica Acta73:51155136.
  • Ouellette N., Desch S. J., and Hester J. J.2007. Interaction of supernova ejecta with nearby protoplanetary disks. The Astrophysical Journal662:12681281.
  • Papanastassiou D. A. and Brigham C. A. 1987. FUN isotopic anomalies: Reincarnation in purple refractory inclusions (abstract). 18th Lunar and Planetary Science Conference. p. 756.
  • Papanastassiou D. A. and Brigham C. A. 1988. Correlated, large isotope effects in purple, spinel-rich inclusions (abstract). 19th Lunar and Planetary Science Conference. p. 899.
  • Papanastassiou D. A. and Brigham C. A.1989. The identification of meteorite inclusions with isotope anomalies. The Astrophysical Journal Letters338:L37L40.
  • Petaev M. I. 2009. Revised thermodynamic properties of Ca aluminates: Implications for the condensation sequence (abstract #2407). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Petaev M. I. and Wood J. A.2005. Meteoritic constraints on temperatures, 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. ASP Conference Series. 341. San Francisco: Astronomical Society of the Pacific. pp.
  • Rout S. S., Nagashima K., Bischoff A., Krot A. N., Huss G. R., and Keil K.2009. Oxygen and magnesium isotope compositions of calcium-aluminum-rich inclusions from Rumuruti (R) chondrites. Geochimica et Cosmochimica Acta73:42644287.
  • Russell S. S., Srinivasan G., Huss G. R., Wasserburg G. J., and MacPherson G. J.1996. Evidence for widespread 26Al in the solar nebula and constraints for nebula time scales. Science273:757762.
  • Russell S. S., Huss G. R., Fahey A. J., Greenwood R. C., Hutchison R., and Wasserburg G. J.1998. An isotopic and petrologic study of calcium-aluminum-rich inclusions from CO3 meteorites. Geochimica et Cosmochimica Acta62:689714.
  • Russell S. S., Krot A. N., MacPherson G. J., Huss G. R., Itoh S., Yurimoto H., and Keil K. 2005. Genetic relationship between refractory inclusions and chondrules. In Chondrites and the protoplanetary disk, edited by Krot A. N., Scott E. R. D., and Reipurth B. ASP Conference Series 341. San Francisco: Astronomical Society of the Pacific. pp. 317–353.
  • Sahijpal S. and Goswami J. N.1998. Refractory phases in primitive meteorites devoid of 26Al and 41Ca: Representative samples of first solar system solids?The Astrophysical Journal Letters509:L137L140.
  • Sahijpal S. and Soni P.2006. Stellar nucleosynthetic contribution of extinct short-lived nuclei in the early solar system and the associated isotopic effects. Meteoritics & Planetary Science41:953976.
  • Sahijpal S., Goswami J. N., Davis A. M., Lewis R. S., and Grossman L.1998. A stellar origin for the short-lived nuclides in the early solar system. Nature391:559562.
  • Sahijpal S., McKeegan K. D., Krot A. N., Weber D., and Ulyanov A. A.1999. Oxygen isotopic compositions of calcium-aluminum-rich inclusions from the CH chondrites, Acfer 182 and PAT91546 (abstract). Meteoritics & Planetary Science34(Suppl.):A101.
  • Schiller M., Baker J. A., and Bizzarro M.2010. 26Al-26Mg dating of asteroidal magmatism in the young solar system. Geochimica et Cosmochimica Acta74:48444864.
  • Simon J. I. and Young E. D.2011. Resetting, errorchrons and the meaning of canonical CAI initial 26Al/27Al values. Earth and Planetary Science Letters304:468482.
  • Simon S. B., Davis A. M., Grossman L., and McKeegan K. D.2002. A hibonite-corundum inclusion from Murchison: A first-generation condensate from the solar nebula. Meteoritics & Planetary Science37:535548.
  • Simon S. B., Sutton S. R., and Grossman L.2007. Valence of titanium and vanadium in pyroxene in refractory inclusion interiors and rims. Geochimica et Cosmochimica Acta71:30983118.
  • Simon J. I., Hutcheon I. D., Simon S. B., Matzel J., Ramon E. C., and Depaolo D. J. 2010. A record of solar system scale variation in oxygen isotopes at the microscale: Cosmochemical origins of CAIs and their Wark-Lovering rims (abstract #1540). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Simon S. B., Sutton S. R., and Grossman L.2011. The growing inventory of Ti3+-bearing objects from the solar nebula (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawaii. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9074.
  • Srinivasan G., Huss G. R., and Wasserburg G. J.2000. A petrographic, chemical, and isotopic study of calcium-aluminum-rich inclusions and aluminum-rich chondrules from the Axtell (CV3) chondrite. Meteoritics & Planetary Science35:13331354.
  • Stolper E.1982. Crystallization sequences of Ca-Al-rich inclusions from Allende—An experimental study. Geochimica et Cosmochimica Acta46:21592180.
  • Sugiura N. and Krot A. N.2007. 26Al-26Mg systematics of Ca-Al-rich inclusions, amoeboid olivine aggregates and chondrules in Acfer 094 chondrite. Meteoritics & Planetary Science42:11831197.
  • Sugiura N., Shuzou Y., and Ulyanov A. A.2001. Beryllium-boron and aluminum-magnesium chronology of calcium-aluminum-rich inclusions in CV chondrites. Meteoritics & Planetary Science36:13971408.
  • Tachibana S., Huss G. R., Kita N. T., Shimoda G., and Morishita Y.2006. 60Fe in chondrites: Debris from a nearby supernova in the early solar system?The Astrophysical Journal Letters639:L87L90.
  • Tang H. and Dauphas N. 2011. Origin and homogeneity of 60Fe in the solar system: Evidence from achondrites and unequilibrated ordinary chondrites (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9146.
  • Tatischeff V., Duprat J., and de Séréville N.2010. A runaway Wolf-Rayet star as the origin of 26Al in the early solar system. The Astrophysical Journal Letters14:L26L30.
  • Taylor D. J., Cosarinsky M., Liu M.-C., McKeegan K. D., Krot A. N., and Hutcheon I. D.2005. Survey of initial 26Al in type A and B CAIs: Evidence for an extended formation period for refractory inclusions. Meteoritics & Planetary Science40(Suppl.):A151.
  • Telus M., Huss G. R., Tachibana S., and Goswami J. 2011. The initial abundance of 60Fe in the inner solar system: Evidence from chondrules (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9127.
  • Thrane K., Nagashima K., Krot A. N., and Bizzarro M.2008. Discovery of a new FUN CAI from a CV carbonaceous chondrite: Evidence for multistage thermal processing in the protoplanetary disk. The Astrophysical Journal Letters680:L141L144.
  • Trinquier A., Elliott T., Ulfbeck D., Coath C., Krot A. N., and Bizzarro M.2009. Origin of nucleosynthetic isotope heterogeneity in the solar protoplanetary disk. Science324:374377.
  • Ushikubo T., Hiyagon H., and Sugiura N.2007. A FUN-like hibonite inclusion with a large 26Mg-excess. Earth and Planetary Science Letters254:115126.
  • Ushikubo T., Tenner T. J., Hiyagon H., and Kita N. T. 2011. Lifetime of 16O-rich oxygen isotope reservoir in the solar nebula (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9086.
  • Ushikubo T., Kimura M., Kita N. T., and Valley J. W.2012. Primordial oxygen isotope reservoirs of the solar nebula recorded in chondrules in Acfer 094 carbonaceous chondrite. Geochimica et Cosmochimica Acta90:242264.
  • Vasileiadis A., Nordlund Å., and Bizzarro M. 2011. Enhanced abundance of 26Al and 60Fe in giant molecular clouds (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9101.
  • Villeneuve J., Chaussidon M., and Libourel G.2009. Evidence for 26Al homogeneous distribution in the early solar system from chondrules Mg isotopic composition. Science325:985988.
  • Virag A., Zinner E., Amari S., and Anders E.1991. An ion microprobe study of corundum in the Murchison meteorite—Implications for 26Al and 16O in the early solar system. Geochimica et Cosmochimica Acta55:20452062.
  • Wadhwa M., Tang H., Spivak-Birndorf L., Dauphas N., and Janney P. 2011. Initial abundance of 60Fe in the inner solar system: Evidence from differentiated asteroids (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9132.
  • Wasserburg G. J., Lee T., and Papanastassiou D. A.1977. Correlated O and Mg isotopic anomalies in Allende inclusions. II—Magnesium. Geophysical Research Letters4:299302.
  • Wasserburg G. J., Busso M., Gallino R., and Nollett K. M.2006. Short-lived nuclei in the early solar system: Possible AGB sources. Nuclear Physics A777:569.
  • Wasserburg G. J., Wimpenny J., and Yin Q.-Z. 2011. Mg isotopic heterogeneity, Al-Mg isochrons, and canonical 26Al/27Al in the early solar system (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9038.
  • Weber D., Zinner E., and Bischoff A.1995. Trace element abundances and magnesium, calcium, and titanium isotopic compositions of grossite-containing inclusions from the carbonaceous chondrite Acfer 182. Geochimica et Cosmochimica Acta59:803823.
  • Weidenschilling S. J.1977. The distribution of mass in the planetary system and solar nebula. Astrophysics and Space Science51:153158.
  • Weisberg M. K., Prinz M., Clayton R. N., Mayeda T. K., Grady M. M., and Pillinger C. T.1995. The CR chondrite clan. Proceedings of the NIPR Symposium on Antarctic Meteorites8:1132.
  • Weisberg M. K., Prinz M., Clayton R. N., Mayeda T. K., Sugiura N., Zashu S., and Ebihara M.2001. A new metal-rich chondrite grouplet. Meteoritics & Planetary Science36:401418.
  • Wielandt D., Nagashima K., Krot A. N., Huss G. R., Ivanova M. A., and Bizzarro M.2012. Evidence for multiple sources of 10Be in the early solar system. The Astrophysical Journal Letters748:L25L28.
  • Yang L. and Ciesla F. J. 2010. The effects of disk building on the chemical evolution of the solar nebula (abstract #1461). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Yoneda S. and Grossman L.1995. Condensation of CaO-MgO-Al2O3-SiO2 liquids from cosmic gases. Geochimica et Cosmochimica Acta59:34163444.
  • Young E. D., Galy A., and Nagahara H.2002. Kinetic and equilibrium mass-dependent isotope fractionation laws in nature and their geochemical and cosmochemical significance. Geochimica et Cosmochimica Acta66:10951104.
  • Young E. D., Simon J. I., Galy A., Russell S. S., Tonui E., and Lovera O.2005. Supra-canonical 26Al/27Al and the residence time of CAIs in the solar protoplanetary disk. Science303:223227.
  • Young E. D., Gounelle M., Smith R. L., Morris M. R., and Pontoppidan K. M.2011. Astronomical oxygen isotopic evidence for supernova enrichment of the solar system birth environment by propagating star formation. The Astrophysical Journal752:4356.
  • Yurimoto H. and Kuramoto K.2004. Molecular cloud origin for the oxygen isotope heterogeneity in the solar system. Science305:17631766.
  • Yurimoto H. and Nagashima K. 2011. Evolution of oxygen isotope reservoirs in the early solar system (abstract). In Workshop on Formation of the First Solids in the solar system, November 7–9, 2011, Kauai, Hawai’i. LPI Contribution No. 1639. Houston, Texas: Lunar and Planetary Institute. p. 9134.
  • 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 A. N., Choi B.-G., Aléon J., Kunihiro T., and Brearley A. J. 2008. Oxygen isotopes of 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. 141187.