SEARCH

SEARCH BY CITATION

REFERENCES

  • Aléon J., Engrand C., Leshin L., and McKeegan K. D. 2008. Oxygen isotopic composition of chondritic interplanetary dust particles: A genetic link between carbonaceous chondrites and comets. Geochimica et Cosmochimica Acta 73: 45584575.
  • Alexander C. M. O. D., Fogel M., Yabuta H., and Cody G. D. 2007. The origin and evolution of chondrites recorded in the elemental and isotopic compositions of their macromolecular organic matter. Geochimica et Cosmochimica Acta 71: 43804403.
  • Amelin Y., Krot A. N., Hutcheon I. D., and Ulyanov A. A. 2002. Lead isotopic ages of chondrules and calcium-aluminum-rich inclusions. Science 297: 16781683.
  • Blanchard M. B., Brownlee D. E., Bunch T. E., Hodge P. W., and Kyte F. T. 1980. Meteoroid ablation spheres from deep-sea sediments. Earth and Planetary Science Letters 46: 179190.
  • Bland P. A., Smith T. B., Jull A. J. T., Berry F. J., Bevan A. W. R., Couldt S., and Pillinger C. T. 1996. The flux of meteorites to the Earth over the last 50,000 years. Monthy Notices of the Royal Astronomical Society 283: 551565.
  • Bonal L., Quirico E., Bourot-Denise M., and Montagnac G. 2006. Determination of the petrologic type of CV3 chondrites by Raman spectroscopy of included organic matter. Geochimica et Cosmochimica Acta 70: 18491863.
  • Bottke W. F., Levison H. F., Nesvorny D., Morbidelli A., and Gounelle M. 2008. The collisional evolution of objects captured in the outer asteroid belt during the late heavy bombardment (abstract #8096). 2008 Asteroids, Comets, Meteors Conference.
  • Bradley J. P. 1988. Analysis of chondritic interplanetary dust thin-sections. Geochimica et Cosmochimica Acta 52: 889900.
  • Bradley J. P. 1994. Chemically anomalous preaccretionally irradiated grains in interplanetary dust from comets. Science 265: 925929.
  • Brearley A. J. 1993. Matrix and fine-grained rims in the unequilibrated CO3 chondrite, ALHA77307—Origins and evidence for diverse, primitive nebular dust components. Geochimica et Cosmochimica Acta 57: 15211550.
  • Bregman J. D., Witteborn F. C., Allamandola L. J., Campins H., Wooden D. H., Rank D. M., Cohen M., and Tielens A. G. G. M. 1987. Airborne and ground-based spectrophotometry of comet P/Halley from 5–13 micrometers. Astronomy and Astrophysics 187: 616620.
  • Briggs M. H. and Kitto G. B. 1962. Complex organic microstructures in the Mokoia meteorite. Nature 193: 11261127.
  • Brinton K. L. F., Engrand C., Glavin D. P., Bada J. L., and Maurette M. 1998. A search for extraterrestrial amino acids in carbonaceous Antarctic micrometeorites. Origins of Life and Evolution of the Biosphere 28: 413424.
  • Brownlee D., Tsou P., Aléon J., Alexander C. M. O. D., Araki T., Bajt S., Baratta G. A., Bastien R., Bland P., Bleuet P., Borg J., Bradley J. P., Brearley A., Brenker F., Brennan S., Bridges J. C., Browning N. D., Brucato J. R., Bullock E., Burchell M. J., Busemann H., Butterworth A., Chaussidon M., Cheuvront A., Chi M., Cintala M. J., Clark B. C., Clemett S. J., Cody G., Colangeli L., Cooper G., Cordier P., Daghlian C., Dai Z., D'Hendecourt L., Djouadi Z., Dominguez G., Duxbury T., Dworkin J. P., Ebel D. S., Economou T. E., Fakra S., Fairey S. A. J., Fallon S., Ferrini G., Ferroir T., Fleckenstein H., Floss C., Flynn G., Franchi I. A., Fries M., Gainsforth Z., Gallien J. P., Genge M., Gilles M. K., Gillet P., Gilmour J., Glavin D. P., Gounelle M., Grady M. M., Graham G. A., Grant P. G., Green S. F., Grossemy F., Grossman L., Grossman J. N., Guan Y., Hagiya K., Harvey R., Heck P., Herzog G. F., Hoppe P., Hörz F., Huth J., Hutcheon I. D., Ignatyev K., Ishii H., Ito M., Jacob D., Jacobsen C., Jacobsen S., Jones S., Joswiak D., Jurewicz A., Kearsley A. T., Keller L. P., Khodja H., Kilcoyne A. L. D., Kissel J., Krot A., Langenhorst F., Lanzirotti A., Le L., Leshin L. A., Leitner J., Lemelle L., Leroux H., Liu M.-C., Luening K., and Lyon I. 2006. Comet 81P/Wild 2 under a microscope. Science 314: 17111716.
  • Brownlee D. E. 1985. Cosmic dust: Collection and research. Annual Review Earth and Planetary Science 13: 147173.
  • Brownlee D. E., Bates B. A., and Wheelock M. M. 1984. Extraterrestrial platinum group nuggets in deep-sea sediments. Nature 309: 693695.
  • Brownlee D. E., Tomandl D. A., and Olszewski E. 1977. Interplanetary dust—A new source of extraterrestrial material for laboratory studies. Proceedings, 8th Lunar Science Conference. pp. 149160.
  • Burchell M. J., Fairey S. A. J., Wozniakiewicz P., Brownlee D. E., Hörz F., Kearsley A. T., See T. H., Tsou P., Westphal A., Green S. F., Trigo-Rodríguez J. M., and Dominguez G. 2008. Characteristics of cometary dust tracks in Stardust aerogel and laboratory calibrations. Meteoritics & Planetary Science 43: 2340.
  • Burns J. A., Lamy P. L., and Soter S. 1979. Radiation forces on small particles in the solar system. Icarus 40: 148.
  • Chyba C. F. 1987. The cometary contribution to the oceans of primitive Earth. Nature 330: 632635.
  • Chyba C. F., Thomas P. J., Brookshaw L., and Sagan C. 1990. Cometary delivery of organic molecules to the early Earth. Science 249: 366373.
  • Clayton R. N. 1993. Oxygen isotopes in meteorites. Annual Review Earth and Planetary Science 21: 115149.
  • Clayton R. N., Mayeda T. M., and Brownlee D. E. 1986. Oxygen isotopes in deep-sea spherules. Earth and Planetary Science Letters 79: 235240.
  • Clemett S. J., Chillier X. D. F., Gillette S., Zare R. N., Maurette M., Engrand C., and Kurat G. 1998. Observation of indigeneous polycyclic aromatic hydrocarbons in ‘giant’ carbonaceous Antarctic micrometeorites. Origins of Life and Evolution of the Biosphere 28: 425448.
  • Cody G. D., Ade H., Alexander C. M. O., Araki T., Butterworth A., Fleckenstein H., Flynn G., Gilles M. K., Jacobsen C., Kilcoyne A. L. D., Messenger K., Sandford S. A., Tyliszczak T., Westphal A. J., Wirick S., and Yabuta H. 2008. Quantitative organic and light-element analysis of comet 81P/Wild 2 particles using C-, N-, and O- μ-XANES. Meteoritics & Planetary Science 43: 353365.
  • Connelly J. N., Amelin Y., Krot A. N., and Bizzarro M. 2008. Chronology of the solar system's oldest solids. The Astrophysical Journal 675: L121L124.
  • Cronin J. R. and Moore C. B. 1971. Amino acid analyses of the Murchison, Murray, and Allende carbonaceous chondrites. Science 172: 13271329.
  • Cronin J. R. and Pizzarello S. 1983. Amino acids in meteorites. Advances in Space Research 3: 518.
  • Dobricǎ E., Engrand C., Leroux H., Rouzaud J.-N., and Duprat J. 2009a. Transmission electron microscopy of ultracarbonaceous Antarctic micrometeorites of possible cometary origin (abstract #1534). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Dobricǎ E., Engrand C., Quirico E., Montagnac G., and Duprat J. 2008. New clues on composition and structure of carbonaceous matter in Antarctic micrometeorites. Meteoritics & Planetary Science 43: A38A38.
  • Dobricǎ E., Engrand C., Quirico E., Montagnac G., and Duprat J. 2009b. Immature carbonaceous matter in CONCORDIA Antarctic micrometeorites (abstract #1688). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Dohnanyi J. 1976. Sources of interplanetary dust: Asteroids. In Interplanetary dust and zodiacal light. Berlin/Heidelberg: Springer. pp. 187205.
  • Duprat J., Dobricǎ E., Engrand C., Aléon J., Gounelle M., Leroux H., Marrocchi Y., Meibom A., Mostefaoui S., Quirico E., Rouzaud J.-N., Slodzian G., and Robert F. 2009. Extreme deuterium enrichment in organic matter from cometary Antarctic micrometeorites (abstract #1724). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Duprat J., Engrand C., Maurette M., Gounelle M., Hammer C., and Kurat G. 2003. The CONCORDIA-collection: Pristine contemporary micrometeorites from central Antarctica surface snow (abstract #1727). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Duprat J., Engrand C., Maurette M., Kurat G., Gounelle M., and Hammer C. 2007. Micrometeorites from central Antarctic snow: The CONCORDIA collection. Advances in Space Research 39: 605611.
  • Engrand C., Deloule E., Robert F., Maurette M., and Kurat G. 1999a. Extraterrestrial water in micrometeorites and cosmic spherules from Antarctica: An ion microprobe study. Meteoritics & Planetary Science 34: 773787.
  • Engrand C., Duprat J., Maurette M., and Gounelle M. 2007. Fe-Nisulfides in Concordia Antarctic micrometeorites (abstract #1668). 38th Lunar and Planetary Science Conference. CD-ROM.
  • Engrand C., Duprat J., Maurette M., Kurat G., and Gounelle M. 2006. Comparison of anhydrous minerals of Concordia and Cap-Prudhomme Antarctic micrometeorites. Predictions for Wild-2 cometary particles. Meteoritics & Planetary Science 41: A51.
  • Engrand C. and Maurette M. 1998. Carbonaceous micrometeorites from Antarctica. Meteoritics & Planetary Science 33: 565580.
  • Engrand C., McKeegan K. D., and Leshin L. A. 1999b. Oxygen isotopic compositions of individual minerals in Antarctic micrometeorites: Further links to carbonaceous chondrites. Geochimica et Cosmochimica Acta 63: 26232636.
  • Engrand C., McKeegan K. D., Leshin L. A., Herzog G. F., Schnabel C., Nyquist L. E., and Brownlee D. E. 2005. Isotopic compositions of oxygen, iron, chromium, and nickel in cosmic spherules: Toward a better comprehension of atmospheric entry heating effects. Geochimica et Cosmochimica Acta 69: 53655385.
  • Flynn G. J., Bleuet P., Borg J., Bradley J. P., Brenker F. E., Brennan S., Bridges J., Brownlee D. E., Bullock E. S., Burghammer M., Clark B. C., Dai Z. R., Daghlian C. P., Djouadi Z., Fakra S., Ferroir T., Floss C., Franchi I. A., Gainsforth Z., Gallien J.-P., Gillet P., Grant P. G., Graham G. A., Green S. F., Grossemy F., Heck P. R., Herzog G. F., Hoppe P., Hörz F., Huth J., Ignatyev K., Ishii H. A., Janssens K., Joswiak D., Kearsley A. T., Khodja H., Lanzirotti A., Leitner J., Lemelle L., Leroux H., Luening K., MacPherson G. J., Marhas K. K., Marcus M. A., Matrajt G., Nakamura T., Nakamura-Messenger K., Nakano T., Newville M., Papanastassiou D. A., Pianetta P., Rao W., Riekel C., Rietmeijer F. J. M., Rost D., Schwandt C. S., See T. H., Sheffield-Parker J., Simionovici A., Sitnitsky I., Snead C. J., Stadermann F. J., Stephan T., Stroud R. M., Susini J., Suzuki Y., Sutton S. R., Taylor S., Teslich N., Troadec D., Tsou P., Tsuchiyama A., Uesugi K., Vekemans B., Vicenzi E. P., Vincze L., Westphal A. J., Wozniakiewicz P., Zinner E., and Zolensky M. E. 2006. Elemental compositions of comet 81P/Wild 2 samples collected by Stardust. Science 314: 17311735.
  • Flynn G. J., Leroux H., Tomeoka K., Tomioka N., Ohnishi I., Mikouchi T., Wirick S., Keller L. P., Jacobsen C., and Sandford S. A. 2008. Carbonate in comets: A comparison of comets 1P/Halley, 9P/Temple 1, and 81P/Wild 2 (abstract #1979). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Fomenkova M. N. 1999. On the Organic Refractory Component of Cometary Dust. Space Science Reviews 90: 109114.
  • Fomenkova M. N., Kerridge J. F., Marti K., and McFadden L. A. 1992. Compositional trends in rock-forming elements of comet halley dust. Science 258: 266269.
  • Gallien J. P., Khodja H., Herzog G. F., Taylor S., Koepsell E., Daghlian C. P., Flynn G. J., Sitnitsky I., Lanzirotti A., Sutton S. R., and Keller L. P. 2008. Characterization of carbon- and nitrogen-rich particle fragments captured from comet 81P/Wild 2. Meteoritics & Planetary Science 43: 335351.
  • Genge M. J. 2008. Koronis asteroid dust within Antarctic ice. Geology 36: 687690.
  • Genge M. J., Engrand C., Gounelle M., and Taylor S. 2008. The classification of micrometeorites. Meteoritics & Planetary Science 43: 497515.
  • Genge M. J., Gileski A., and Grady M. M. 2005. Chondrules in Antarctic micrometeorites. Meteoritics & Planetary Science 40: 225238.
  • Genge M. J., Grady M. M., and Hutchison R. 1997. The textures and compositions of fine-grained Antarctic micrometeorites; implications for comparisons with meteorites. Geochimica et Cosmochimica Acta 61: 51495162.
  • Gilmour I. 2005. Structural and isotopic analysis of organic matter in carbonaceous chondrites. In Meteorites, comets and planets, edited by DavisA. Treatise on Geochemistry, vol. 1. Oxford: Elsevier-Pergamon. p. 269.
  • Glavin D. P., Dworkin J. P., and Sandford S. A. 2008. Detection of cometary amines in samples returned by Stardust. Meteoritics & Planetary Science 43: 399413.
  • Gounelle M., Engrand C., Alard O., Bland P. A., Zolensky M. E., Russell S. S. and Duprat J. 2005a. Hydrogen isotopic composition of water from fossil micrometeorites in howardites. Geochimica et Cosmochimica Acta 69: 34313443.
  • Gounelle M., Engrand C., Maurette M., Kurat G., McKeegan K. D., and Brandstätter F. 2005b. Small Antarctic micrometeorites (25–50 μm): A mineralogical and in situ oxygen isotopic study. Meteoritics & Planetary Science 40: 917932.
  • Gounelle M., Morbidelli A., Bland P. A., Spurny P., Young E. D., and Sephton M. 2008. Meteorites from the outer solar system? In The solar system beyond Neptune, edited by M. A.Barucci, H.Boehnhardt, D. P.Cruikshank, and A.Morbidelli Tucson: The University of Arizona Press. pp. 525541.
  • Gounelle M., Zolensky M. E., Liou J.-C., Bland P. A., and Alard O. 2003. Mineralogy of carbonaceous chondritic microclasts in howardites: identification of C2 fossil micrometeorites. Geochimica et Cosmochimica Acta 67: 507527.
  • Grady M. M., Verchovsky A. B., Franchi I. A., Wright I. P., and Pillinger C. T. 2002. Light element geochemistry of the Tagish Lake CI2 chondrite: Comparison with CI1 and CM2 chondrites. Meteoritics & Planetary Science 37: 713735.
  • Greshake A. 1997. The primitive matrix components of the unique carbonaceous chondrite ACFER 094: A TEM study. Geochimica et Cosmochimica Acta 61: 437452.
  • Greshake A., Hoppe P., and Bischoff A. 1996. Mineralogy, chemistry, and oxygen isotopes of refractory inclusions from stratospheric interplanetary dust particles and micrometeorites. Meteoritics & Planetary Science 31: 739748.
  • Grossman L. 1972. Condensation in the primitive solar nebula. Geochimica et Cosmochimica Acta 36: 597619.
  • Harvey R. P. and Maurette M. 1991. The origin and significance of cosmic dust from the Walcott Neve, Antarctica. Proceedings, 21st Lunar and Planetary Science Conference. pp. 569578.
  • Herzog G. F., Xue S., Hall G. S., Nyquist L. E., Shih C. Y., Wiesmann H., and Brownlee D. E. 1999. Isotopic and elemental composition of iron, nickel, and chromium in type I deep-sea spherules: Implications for origin and composition of the parent micrometeoroids. Geochimica et Cosmochimica Acta 63: 14431457.
  • Hoppe P., Kurat G., Walter J., and Maurette M. 1995. Trace elements and oxygen isotopes in a CAI-bearing micrometeorite from Antarctica. 26th Lunar and Planetary Science Conference. pp. 623624.
  • Hörz F., Bastien R., Borg J., Bradley J. P., Bridges J. C., Brownlee D. E., Burchell M. J., Chi M., Cintala M. J., Dai Z. R., Djouadi Z., Dominguez G., Economou T. E., Fairey S. A. J., Floss C., Franchi I. A., Graham G. A., Green S. F., Heck P., Hoppe P., Huth J., Ishii H., Kearsley A. T., Kissel J., Leitner J., Leroux H., Marhas K., Messenger K., Schwandt C. S., See T. H., Snead C., Stadermann F. J., Stephan T., Stroud R., Teslich N., Trigo-Rodríguez J. M., Tuzzolino A. J., Troadec D., Tsou P., Warren J., Westphal A., Wozniakiewicz P., Wright I., and Zinner E. 2006. Impact features on Stardust: Implications for comet 81P/Wild 2 dust. Science 314: 17161719.
  • Ishii H. A., Bradley J. P., Dai Z. R., Chi M., Kearsley A. T., Burchell M. J., Browning N. D., and Molster F. 2008a. Comparison of comet 81P/Wild 2 dust with interplanetary dust from comets. Science 319: 447.
  • Ishii H. A., Brennan S., Bradley J. P., Luening K., Ignatyev K., and Pianetta P. 2008b. Recovering the elemental composition of comet Wild 2 dust in five Stardust impact tracks and terminal particles in aerogel. Meteoritics & Planetary Science 43: 215231.
  • Jacob D., Stodolna J., Leroux H., Langenhorst F., and Houdellier F. 2009. Pyroxene microstructures in comet 81P/wild 2 terminal dust particles. Meteoritics & Planetary Science 44. This issue.
  • Jessberger E. K. 1999. Rocky cometary particulates: Their elemental, isotopic and mineralogical ingredients. Space Science Reviews 90: 9197.
  • Kearsley A. T., Borg J., Graham G. A., Burchell M. J., Cole M. J., Leroux H., Bridges J. C., Hörz F., Wozniakiewicz P. J., Bland P. A., Bradley J. P., Dai Z. R., Teslich N., See T., Hoppe P., Heck P. R., Huth J., Stadermann F. J., Floss C., Marhas K., Stephan T., and Leitner J. 2008. Dust from comet Wild 2: Interpreting particle size, shape, structure, and composition from impact features on the Stardust aluminum foils. Meteoritics & Planetary Science 43: 4173.
  • Keller L. P. and Messenger S. 2005. The nature and origin of interplanetary dust: High-temperature components. In Chondrites and the Protoplanetary Disk. ASP Conference Series.657 p.
  • Klöck W., Thomas K. L., McKay D. S., and Palme H. 1989. Unusual olivine and pyroxene composition in interplanetary dust and unequilibrated ordinary chondrite. Nature 339: 126128.
  • Kurat G., Hoppe P., and Engrand C. 1996. A chondrule micrometeorite from Antarctica with vapor fractionated trace element abundances (abstract). Meteoritics & Planetary Science 31: A75.
  • Kurat G., Koeberl C., Presper T., Brandstätter F., and Maurette M. 1994. Petrology and geochemistry of Antarctic micrometeorites. Geochimica et Cosmochimica Acta 58: 38793904.
  • Lanzirotti A., Sutton S. R., Flynn G. J., Newville A., and Rao W. 2008. Chemical composition and heterogeneity of Wild 2 cometary particles determined by synchrotron X-ray fluorescence. Meteoritics & Planetary Science 43: 187213.
  • Lauretta D. S. and Fegley B., Jr. 1994. Troilite formation kinetics and growth mechanism in the solar nebula. Meteoritics 29: 490.
  • Leitner J., Stephan T., Kearsley A. T., Hörz F., Flynn G. J., and Sandford S. A. 2008. TOF-SIMS analysis of crater residues from Wild 2 cometary particles on Stardust aluminum foil. Meteoritics & Planetary Science 43: 161185.
  • Leroux H., Jacob D., Stodolna J., Nakamura-Messenger K., and Zolensky M. E. 2008a. Igneous Ca-rich pyroxene in comet 81P/Wild 2. American Mineralogist 93: 19331936.
  • Leroux H., Rietmeijer F. J. M., Velbel M. A., Brearley A. J., Jacob D., Langenhorst F., Bridges J. C., Zega T. J., Stroud R. M., Cordier P., Harvey R. P., Lee M., Gounelle M., and Zolensky M. E. 2008b. A TEM study of thermally modified comet 81P/Wild 2 dust particles by interactions with the aerogel matrix during the Stardust capture process. Meteoritics & Planetary Science 43: 97120.
  • Leroux H., Roskosz M., and Jacob D. 2009. Oxidation state of iron and extensive redistribution of sulfur in thermally modified Stardust particles. Geochimica et Cosmochimica Acta 73: 767777.
  • Leroux H., Stroud R. M., Dai Z. R., Graham G. A., Troadec D., Bradley J. P., Teslich N., Borg J., Kearsley A. T., and Hoerz F. 2008c. Transmission electron microscopy of cometary residues from micron-sized craters in the Stardust Al foils. Meteoritics & Planetary Science 43: 143160.
  • Lindsley D. H. 1983. Pyroxene thermometry. American Mineralogist 68: 477493.
  • Lisse C. M., VanCleve J., Adams A. C., A'Hearn M. F., Fernandez Y. R., Farnham T. L., Armus L., Grillmair C. J., Ingalls J., Belton M. J. S., Groussin O., McFadden L. A., Meech K. J., Schultz P. H., Clark B. C., Feaga L. M., and Sunshine J. M. 2006. Spitzer spectral observations of the Deep Impact ejecta. Science 313: 635640.
  • Lodders K. 2003. Solar system abundances and condensation temperatures of the elements. The Astrophysical Journal 591: 12201247.
  • Lord H. C., III 1965. Molecular equilibria and condensation in a solar nebula and cool stellar atmospheres. Icarus 4: 279.
  • Lorin J. C., Michel-Lévy Christophe M., Slodzian G., Dennebouy R. and Bourot-Denise M. 1989. Isotopic and minor elements signature of coarse-grained micrometeorites from Greenland blue ice lakes. Meteoritics 24: 295.
  • Love S. G. and Brownlee D. E. 1993. A direct measurement of the terrestrial mass accretion rate of cosmic dust. Science 262: 550553.
  • MacPherson G. J. 2005. Calcium-aluminum-rich inclusions in chondritic meteorites. In Meteorites, comets and planets, edited by DavisA. Treatise on Geochemistry, vol. 1. Oxford: Elsevier-Pergamon. pp. 201246.
  • Martins Z., Alexander C. M. O., Orzechowska G. E., Fogel M. L., and Ehrenfreund P. 2007. Indigenous amino acids in primitive CR meteorites. Meteoritics & Planetary Science 42: 21252136.
  • Matrajt G., Ito M., Wirick S., Messenger S., Brownlee D. E., Joswiak D., Flynn G., Sandford S., Snead C., and Westphal A. 2008. Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study. Meteoritics & Planetary Science 43: 315334.
  • Matrajt G., Pizzarello S., Taylor S., and Brownlee D. 2004. Concentration and variability of the AIB amino acid in polar micrometeorites: Implications for the exogenous delivery of amino acids to the primitive Earth. Meteoritics & Planetary Science 39: 18491858.
  • Matrajt G., Taylor S., Flynn G., Brownlee D. E., and Joswiak D. 2003. A nuclear microprobe study of the distribution and concentration of carbon and nitrogen in Murchison and Tagish Lake meteorites, Antarctic micrometeorites, and IDPs: implications for astrobiology. Meteoritics & Planetary Science 38: 15851600.
  • Maurette M. 1996. Carbonaceous micrometeorites and the origin of life. Origins of Life and Evolution of Biospheres 28: 385412.
  • Maurette M. 2006a. Cometary micrometeorites in planetology, exobiology, and early climatology. In Comets and the origin and evolution of life. pp. 69111.
  • Maurette M. 2006b. Micrometeorites and the mysteries of our origins. Berlin: Springer.330 p.
  • Maurette M., Beccard B., Bonny P., Brack A., Christophe M., and Veyssière P. 1990. C-rich micrometeorites on the early earth and icy planetary bodies. In Formation of stars and planets, and the evolution of the solar system. pp. 167172.
  • Maurette M., Duprat J., Engrand C., Gounelle M., Kurat G., Matrajt G., and Toppani A. 2000. Accretion of neon, organics, CO2, nitrogen and water from large interplanetary dust particles on the early Earth. Planetary and Space Science 48: 11171137.
  • Maurette M., Engrand C., Brack A., Kurat G., Leach S., and Perreau M. 1995. Carbonaceous phases in Antarctic micrometeorites and their mineralogical environment. Their contribution to the possible role of micrometeorites as “chondritic chemical reactors” in atmospheres, waters and/or ices. 26th Lunar and Planetary Science Conference. pp. 913914.
  • Maurette M., Hammer C., Brownlee D. E., Reeh N., and Thomsen H. H. 1986. Placers of cosmic dust in the blue ice lakes of Greenland. Science 233: 869872.
  • Maurette M., Jéhano C., Robin E., and Hammer C. 1987. Characteristics and mass distribution of extraterrestrial dust from the Greenland ice cap. Nature 328: 699702.
  • Maurette M., Olinger C., Christophe M., Kurat G., Pourchet M., Brandstätter F., and Bourot-Denise M. 1991. A collection of diverse micrometeorites recovered from 100 tons of Antarctic blue ice. Nature 351: 4447.
  • McKeegan K. D., Aléon J., Bradley J., Brownlee D., Busemann H., Butterworth A., Chaussidon M., Fallon S., Floss C., Gilmour J., Gounelle M., Graham G., Guan Y., Heck P. R., Hoppe P., Hutcheon I. D., Huth J., Ishii H., Ito M., Jacobsen S. B., Kearsley A., Leshin L. A., Liu M.-C., Lyon I., Marhas K., Marty B., Matrajt G., Meibom A., Messenger S., Mostefaoui S., Mukhopadhyay S., Nakamura-Messenger K., Nittler L., Palma R., Pepin R. O., Papanastassiou D. A., Robert F., Schlutter D., Snead C. J., Stadermann F. J., Stroud R., Tsou P., Westphal A., Young E. D., Ziegler K., Zimmermann L., and Zinner E. 2006. Isotopic compositions of cometary matter returned by Stardust. Science 314: 17241728.
  • Meibom A. and Clark B. E. 1999. Invited review: Evidence for the insignificance of ordinary chondritic material in the asteroid belt. Meteoritics & Planetary Science 34: 724.
  • Messenger S., Ito M., Joswiak D. J., Keller L. P., Stroud R. M., Nakamura-Messenger K., Matrajt G., and Brownlee D. E. 2008a. Oxygen isotopic compositions of Wild 2 silicates (abstract #5308). Meteoritics & Planetary Science 43: A97.
  • Messenger S., Nakamura-Messenger K., and Keller L. P. 2008b. 15N-rich organic globules in a cluster IDP and the Bells CM2 chondrite (abstract #2391). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Mikouchi T., Tachikawa O., Hagiya K., Ohsumi K., Suzuki Y., Uesugi K., Takeuchi A., and Zolensky M. E. 2007. Mineralogy and crystallography of comet 81P/Wild 2 particles (abstract #1946). 38th Lunar and Planetary Science Conference. CD-ROM.
  • Nakamura-Messenger K., Keller L. P., Clemett S. J., and Messenger S. 2009. NM-Scale Anatomy of an entire Stardust carrot track (abstract #1989). In 40th Lunar and Planetary Science Conference. CD-ROM.
  • Nakamura-Messenger K., Messenger S., Keller L. P., Clemett S. J., and Zolensky M. E. 2006. Organic globules in the Tagish Lake meteorite: Remnants of the protosolar disk. Science 314: 14391442.
  • Nakamura T., Imae N., Nakai I., Noguchi T., Yano H., Terada K., Murakami T., Fukuoka T., Nogami K.-I., Ohashi H., Nozaki W., Hashimoto M., Kondo N., Matsuzaki H., Ichikawa O., and Ohmori R. 1999. Antarctic micrometeorites collected at the Dome Fuji Station. Antarctic Meteorite Research 12: 183198.
  • Nakamura T., Noguchi T., Ozono Y., Osawa T., and Nagao K. 2005. Mineralogy of ultracarbonaceous large micrometeorites (abstract #5046). Meteoritics & Planetary Science 40: A110.
  • 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. 2008a. Chondrule-like objects in short-period comet 81P/Wild 2. Science 321: 16641667.
  • Nakamura T., Noguchi T., Yada T., Nakamuta Y., and Takaoka N. 2001. Bulk mineralogy of individual micrometeorites determined by X-ray diffraction analysis and transmission microscopy. Geochimica et Cosmochimica Acta 65: 43854397.
  • Nakamura T., Tsuchiyama A., Akaki T., Uesugi K., Nakano T., Takeuchi A., Suzuki Y., and Noguchi T. 2008b. Bulk mineralogy and three-dimensional structures of individual Stardust particles deduced from synchrotron X-ray diffraction and microtomography analysis. Meteoritics & Planetary Science 43: 247259.
  • Noguchi T., Nakamura T., and Nozaki W. 2002. Mineralogy of phyllosilicate-rich micrometeorites and comparison with Tagish Lake and Sayama meteorites. Earth and Planetary Science Letters 202: 229246.
  • Noguchi T., Nakamura T., Okudaira K., Yano H., Sugita S., and Burchell M. J. 2007. Thermal alteration of hydrated minerals during hypervelocity capture to silica aerogel at the flyby speed of Stardust. Meteoritics & Planetary Science 42: 357372.
  • Pizzarello S. and Cronin J. R. 2000. Non-racemic amino acids in the Murray and Murchison meteorites. Geochimica et Cosmochimica Acta 64: 329338.
  • Pizzarello S., Huang Y., Becker L., Poreda R. J., Nieman R. A., Cooper G., and Williams M. 2001. The organic content of the Tagish Lake meteorite. Science 293: 22362239.
  • Pizzarello S., Krishnamurthy R. V., Epstein S., and Cronin J. R. 1991. Isotopic analysis of amino acids from the Murchison meteorite. Geochimica et Cosmochimica Acta 55: 905910.
  • Quirico E., Borg J., Raynal P.-I., Montagnac G., and D'Hendecourt L. 2005a. A micro-Raman survey of 10 IDPs and 6 carbonaceous chondrites. Planetary and Space Science 53: 14431448.
  • Quirico E., Rouzaud J.-N., Bonal L., and Montagnac G. 2005b. Maturation grade of coals as revealed by Raman spectroscopy: Progress and problems. Spectrochimica Acta Part A 61: 23682377.
  • Robert F. 2003. The D/H ratio in chondrites. Space Science Reviews 106: 87101.
  • Rochette P., Folco L., Suavet C., Van Ginneken M., Gattacceca J., Perchiazzi N., Braucher R., and Harvey R. 2008. Micrometeorites from the Transantarctic Mountains. Proceedings of the National Academy of Sciences 105: 18,20618,211.
  • Roskosz M., Leroux H., and Watson H. C. 2008. Thermal history, partial preservation and sampling bias recorded by Stardust cometary grains during their capture. Earth and Planetary Science Letters 273: 195202.
  • Rotundi A., Baratta G. A., Borg J., Brucato J. R., Busemann H., Colangeli L., D'Hendecourt L., Djouadi Z., Ferrini G., Franchi I. A., Fries M., Grossemy F., Keller L. P., Mennella V., Nakamura K., Nittler L. R., Palumbo M. E., Sandford S. A., Steele A., and Wopenka B. 2008. Combined micro-Raman, micro-infrared, and field emission scanning electron microscope analyses of comet 81P/Wild 2 particles collected by Stardust. Meteoritics & Planetary Science 43: 367397.
  • Rouzaud J. N., Skrzypczak A., Bonal L., Derenne S., Quirico E., and Robert F. 2005. The high resolution transmission electron microscopy: A powerful tool for studying the organization of terrestrial and extra-terrestrial carbons (#1322). 36th Lunar and Planetary Science Conference. CD-ROM.
  • Sandford S. A., Aléon J., Alexander C. M. O. D., Araki T., Bajt S., Baratta G. A., Borg J., Bradley J. P., Brownlee D. E., Brucato J. R., Burchell M. J., Busemann H., Butterworth A., Clemett S. J., Cody G., Colangeli L., Cooper G., D'Hendecourt L., Djouadi Z., Dworkin J. P., Ferrini G., Fleckenstein H., Flynn G. J., Franchi I. A., Fries M., Gilles M. K., Glavin D. P., Gounelle M., Grossemy F., Jacobsen C., Keller L. P., Kilcoyne A. L. D., Leitner J., Matrajt G., Meibom A., Mennella V., Mostefaoui S., Nittler L. R., Palumbo M. E., Papanastassiou D. A., Robert F., Rotundi A., Snead C. J., Spencer M. K., Stadermann F. J., Steele A., Stephan T., Tsou P., Tyliszczak T., Westphal A. J., Wirick S., Wopenka B., Yabuta H., Zare R. N., and Zolensky M. E. 2006. Organics captured from comet 81P/Wild 2 by the Stardust spacecraft. Science 314: 17201724.
  • Simon S. B., Joswiak D. J., Ishii H. A., Bradley J. P., Chi M., Grossman L., Aléon J., Brownlee D. E., Fallon S., Hutcheon I. D., Matrajt G., and McKeegan K. D. 2008. A refractory inclusion returned by Stardust from comet 81P/Wild 2. Meteoritics & Planetary Science 43: 18611877.
  • Stephan T., Flynn G. J., Sandford S. A., and Zolensky M. E. 2008a. TOF-SIMS analysis of cometary particles extracted from Stardust aerogel. Meteoritics & Planetary Science 43: 285298.
  • Stephan T., Rost D., Vicenzi E. P., Bullock E. S., Macpherson G. J., Westphal A. J., Snead C. J., Flynn G. J., Sandford S. A., and Zolensky M. E. 2008b. TOF-SIMS analysis of cometary matter in Stardust aerogel tracks. Meteoritics & Planetary Science 43: 233246.
  • Suavet C., Alexandre A., Franchi I. A., Gattacceca J., Sonzogni C., Folco L., Greenwood R. C., and Rochette P. 2009. Oxygen isotope ratios of large cosmic spherules: Carbonaceous and ordinary chondrite parent bodies (abstract #1776). 40th Lunar and Planetary Science Conference. CD-ROM.
  • Taylor S., Alexander C. M. O. D., Delaney J., Ma P., Herzog G. F., and Engrand C. 2005. Isotopic fractionation of iron, potassium, and oxygen in stony cosmic spherules: Implications for heating histories and sources. Geochimica et Cosmochimica Acta 69: 26472662.
  • Taylor S. and Brownlee D. E. 1991. Cosmic spherules in the geologic record. Meteoritics 26: 203211.
  • Taylor S. and Lever J. H. 2001. Seeking unbiased collections of modern and ancient micrometeorites. In Accretion of extraterrestrial matter throughout Earth's history, edited by Peucker-EhrenbrinkB. and SchmitzB. New York: Kluwer Academic/Plenum Publishers. pp. 205219.
  • Taylor S., Lever J. H., and Harvey R. P. 1998. Accretion rate of cosmic spherules measured at the South Pole. Nature 392: 899903.
  • Taylor S., Lever J. H., and Harvey R. P. 2000. Numbers, types and compositions of an unbiased collection of cosmic spherules. Meteoritics & Planetary Science 35: 651666.
  • Terada K., Yada T., Kojima H., Noguchi T., Nakamura T., Murakami T., Yano H., Nozaki W., Nakamuta Y., Matsumoto N., Kamata J., Mori T., Nakai I., Sasaki M., Itabashi M., Setoyanagi T., Nagao K., Osawa T., Hiyagon H., Mizutani S., Fukuoka T., Nogami K.-I., Ohmori R., and Ohashi H. 2001. General characterization of Antarctic micrometeorites collected by the 39th Japanese Antarctic Research Expedition: Consortium studies of JARE AMMs (III). Antarctic Meteorite Research 14: 89.
  • Thomas K. L., Blanford G. E., Keller L. P., Klöck W., and McKay D. 1993. Carbon abundance and silicate mineralogy of anhydrous interplanetary dust particles. Geochimica et Cosmochimica Acta 57: 15511566.
  • Tomeoka K., Tomioka N., and Ohnishi I. 2008. Silicate minerals and Si-O glass in comet Wild 2 samples: Transmission electron microscopy. Meteoritics & Planetary Science 43: 273284.
  • Toppani A., Libourel G., Engrand C., and Maurette M. 2001. Experimental simulation of atmospheric entry of micrometeorites. Meteoritics & Planetary Science 36: 13771396.
  • Toppani A., Robert F., Libourel G., de Donato P., Barres O., D'Hendecourt L., and Ghanbaja J. 2005. A ‘dry’ condensation origin for circumstellar carbonates. Nature 437: 11211124.
  • Tsou P., Brownlee D. E., Hörz F., Newburn R. L., Sandford S. A., Sekanina Z., and Zolensky M. E. 2004. STARDUST sample collection at Wild 2 and its preliminary examination (abstract #1898). 35th Lunar and Planetary Science Conference. CD-ROM.
  • Van Ginneken M., Folco L., and Rochette P. 2008. Micrometeorites in the 400–1100 μm size range from the Transantarctic Mountains (abstract #5084). Meteoritics & Planetary Science 43: A161.
  • Vokrouhlický D. and Farinella P. 2000. Efficient delivery of meteorites to the Earth from a wide range of asteroid parent bodies. Nature 407: 606608.
  • Walter J., Brandstätter F., Kurat G., Koeberl C., and Maurette M. 1995a. Cosmic spherules, micrometeorites and chondrules (abstract). 26th Lunar and Planetary Science Conference. pp. 14571458.
  • Walter J., Kurat G., Brandstätter F., Koeberl C., and Maurette M. 1995b. The abundance of ordinary chondrite debris among Antarctic micrometeorites. Meteoritics 30: 592593.
  • Weisberg M. K. and Connolly H. C. 2008. On the relationship between chondrites, comets, and asteroids, a petrologic perspective (abstract #1981). 39th Lunar and Planetary Science Conference. CD-ROM.
  • Wirick S., Leroux H., Tomeoka K., Zolensky M., Flynn G. J., Tyliszczak T., Butterworth A., Tomioka N., Ohnishi I., Nakamura-Messenger K., Sandford S., Keller L., and Jacobsen C. 2007. Carbonates found in Stardust aerogel tracks (abstract #1534). 38th Lunar and Planetary Science Conference. CD-ROM.
  • Wooden D. H. 2008. Cometary refractory grains: Interstellar and nebular sources. Space Science Reviews 138: 75108.
  • Yada T. and Kojima H. 2000. The collection of micrometeorites in the Yamato meteorite ice field of Antarctica in 1998. Antarctic Meteorite Research 13: 918.
  • Yada T., Nakamura T., Noguchi T., Matsumoto N., Kusakabe M., Hiyagon H., Ushikubo T., Sugiura N., Kojima H., and Takaoka N. 2005. Oxygen isotopic and chemical compositions of cosmic spherules collected from the Antarctic ice sheet: Implications for their precursor materials. Geochimica et Cosmochimica Acta 69: 57895804.
  • Zolensky M., Nakamura-Messenger K., Rietmeijer F., Leroux H., Mikouchi T., Ohsumi K., Simon S., Grossman L., Stephan T., Weisberg M., Velbel M., Zega T., Stroud R., Tomeoka K., Ohnishi I., Tomioka N., Nakamura T., Matrajt G., Joswiak D., Brownlee D., Langenhorst F., Krot A., Kearsley A., Ishii H., Graham G., Da Z. R., Ch M., Bradley J., Hagiya K., Gounelle M., Keller L., and Bridges J. 2008. Comparing Wild 2 particles to chondrites and IDPs. Meteoritics & Planetary Science 43: 261272.
  • Zolensky M. E., 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., Nakamura-Messenger K., Nakamura T., Mostefaoui S., Mikouchi T., 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.