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Antarctic meteorites and the origin of planetesimals and protoplanets

Published online by Cambridge University Press:  30 January 2013

Akira Yamaguchi*
Affiliation:
National Institute of Polar Research, 10-3 Midori-cho, Tachikawa, Tokyo 190-8518, Japan email: [email protected]
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Abstract

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Almost all meteorites (about 99% by number) are samples from a few hundreds of asteroids that are leftover from planetesimals and protoplanets formed within several million years after the birth of the Solar System. These meteorites record detailed evolutionary history of dust to planets, including condensation, accretion, aqueous alteration, thermal metamorphism, partial and total melting.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2013

References

Barrat, J. A., Yamaguchi, A., Greenwood, R. C., Beniot, M., Cotten, J., Bohn, M., & Franchi, I. A. 1995, Meteor. Planet. Sci., 30, 490Google Scholar
Barrat, J. A., Yamaguchi, A., Zanda, B., Bollinger, C., & Bohn, M. 1993, Geochim. Cosmochim. Acta, 74, 6218Google Scholar
Day, J. M., Ash, R. D., Liu, Y., Bellucci, J. J., Rumble, D. III, McDonough, W., Walker, R., & Taylor, L. A. 2009, Nature, 457, 179Google Scholar
Fujiwara, A.et al. 2006, Science, 312, 1330Google Scholar
Greenwood, R. C., Franchi, I. A., Jambon, A., & Buchanan, P. C. 2006, Nature, 435, 916Google Scholar
Greenwood, R. C., Barrat, J. A., Scott, E. R. D., Janots, E., Franchi, I. A., Hoffman, B., Yamaguchi, A., & Gibson, J. M. 2012, Lunar Planet. Sci., 43, 2771Google Scholar
Harvey, R. 2003, Chem. Erde, 63, 93Google Scholar
Hewins, R. H. & Newsom, H. E. 1998, Meteorite and Early Solar System, ed. by Kerrige, J.F. & Matthews, M.S., 631, 976Google Scholar
Keil, K., Stoffler, D., Love, S. G., & Scott, E. R. D. 1997, Meteor. Planet. Sci., 32, 349CrossRefGoogle Scholar
McSween, H.Y. Jr., & Patchen, A.D., 1989 Meteoritics, 24, 219Google Scholar
Righter, K. & Drake, M. J. 1997, Meteor. Planet. Sci., 32, 929CrossRefGoogle Scholar
Russell, C. T., et al. 2012, Science, 336, 684Google Scholar
Scott, E. R. D., Greenwood, R. C., Franchi, I. A., & Sanders, I. S. 2009, Geochim. Cosmochim. Acta, 73, 5835CrossRefGoogle Scholar
Takeda, H. 1997, Meteor. Planet. Sci., 32, 841CrossRefGoogle Scholar
Wasson, J. T. 2012, Lunar Planet. Sci., 43, 2931Google Scholar
Weisberg, M. K., McCoy, T. J., & Krot, A. N. 2012, Meteorite and Early Solar System II. ed. Lauretta, D.S., & McSween, H.Y. Jr., 43, 2931Google Scholar
Yamaguchi, A., et al. 2002, Science, 296, 334Google Scholar
Yamaguchi, A., Barrat, J. A., Ito, M., & Bohn, M. 2011. 2011, J. Geophys. Res. 116 334, E08009, doi:10.1029/2010JE003753Google Scholar
Yang, J., Goldstein, J. I., & Scott, E. R. D. 2007, Nature, 446, 888Google Scholar
Yoshida, M. 2010, Polar Science, 3, 272Google Scholar