Comet dust as a source of amino acids at the Cretaceous/Tertiary boundary (original) (raw)

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• Published: 08 November 1990

Nature volume 348, pages 157–160 (1990)Cite this article

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Abstract

LARGE amounts of apparently extraterrestrial amino acids have been detected recently in rocks at the Cretaceous/Tertiary (K/T) boundary at Stevns Klint, Denmark1. The amino acids were found a few tens of centimetres above and below the boundary layer, but were absent in the boundary clay itself. If one supposes that these compounds were carried to the Earth by the giant meteorite thought to have impacted at the end of the Cretaceous2,3, some puzzling questions are raised: why weren't the amino acids incinerated in the impact, and why are they not present in the boundary clay itself? Here we suggest that the amino acids were actually deposited with the dust from a giant comet trapped in the inner Solar System, a fragment of which comprised the K/T impactor. Amino acids or their precursors in the comet dust would have been swept up by the Earth both before and after the impact, but any conveyed by the impactor itself would have been destroyed. The observed amino acid layers would thus have been deposited without an impact.

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References

1. Zhao, M. & Bada, J. Nature 339, 463–465 (1989).
   Article ADS CAS Google Scholar
2. Cronin, J. R. Nature 339, 423–424 (1989).
   Article ADS CAS Google Scholar
3. Anders, E. Nature 342, 255–257 (1989).
   Article ADS CAS Google Scholar
4. Cronin, J. R. & Pizzarello, S. Adv. Space Res. 3, 5–18 (1983).
   Article CAS Google Scholar
5. Anders, E. & Grevasse, N. Geochim. cosmochim. Acta 53, 197–214 (1989).
   Article ADS CAS Google Scholar
6. Kastner, M., Asaro, F., Michel, H. V., Alvarez, W. & Alvarez, L. Science 226, 137–143 (1984).
   Article ADS CAS Google Scholar
7. Jessberger, E. K., Kissel, J. & Rahe, J. in Origin and Evolution of Planetary and Satellite Atmospheres (eds Atreya, S., Pollack, J. B. & Matthews, M. S.) 167–191 (University of Arizona Press, 1989).
   Google Scholar
8. Vickery, A. & Melosh, H. J. in Global Catastrophes (eds Sharpson, V. & Ward, P.) (in the press).
9. Wolbach, W. S., Lewis, R. S. & Anders, E. Science 230, 167–170 (1985).
   Article ADS CAS Google Scholar
10. Zahnle, K. & Grinspoon, D. Bull. Am. astr. Soc. 21, 923 (1989).
    ADS Google Scholar
11. Oberbeck, V., Mckay, C. P., Scattergood, T., Carle, G. C. & Valentin, J. R. Orig. Life 19, 39–55 (1988).
    Article Google Scholar
12. Preisinger, A. et al. Nature 322, 794–799 (1986).
    Article ADS CAS Google Scholar
13. Bromley, R. G. in Cretaceous-Tertiary Boundary Events (eds Birkelund, T. & Bromley R. G.) 16–32 (Univeristy of Copenhagen, 1979).
    Google Scholar
14. Hughes, D. W. Astr. Astrophys. 187, 879–888 (1987).
    ADS Google Scholar
15. Burns, J. A., Lamy, P. L. & Soter, S. Icarus 40, 1–48 (1979).
    Article ADS Google Scholar
16. Gilmour, I. & Anders, E. Geochim. cosmochim. Acta 53, 503–511 (1989)
    Article ADS CAS Google Scholar
17. Olssen-Steel, D. Icarus 75, 64–96 (1988).
    Article ADS Google Scholar
18. Whipple, F. Astrophys. J. 113, 464–473 (1951).
    Article ADS CAS Google Scholar
19. Whipple, F. Mem. Soc. R. Liége, Ser. 6 LX, 101–111 (1976).
    Google Scholar
20. Sekanina, Z. Icarus 58, 81–100 (1984).
    Article ADS Google Scholar
21. Clube, S. V. M. & Napier, W. M. in The Galaxy and the Solar System (eds Bahcall, J. & Matthews, M. S.) 260–285 (University of Arizona Press, 1986).
    Google Scholar
22. Ŝtohl, J. Astr. Astrophys. 187, 933–934 (1987).
    ADS Google Scholar
23. Donnison, J. R. Astr. Astrophys. 167, 359–363 (1986).
    ADS Google Scholar
24. Olsson-Steel, D. Mon. Not. R. astr. Soc. 121, 501–524 (1987).
    Article ADS Google Scholar
25. Hut, P. et al. Nature 329, 118–126 (1987).
    Article ADS Google Scholar
26. Hills, J. G. in The Galaxy and the Solar System (eds Bahcall, J. & Matthews, M. S.) 397–408 (University of Arizona Press, 1986).
    Google Scholar
27. Heisler, J. A., Tremaine, S. & Alcock, C. Icarus 70, 269–288 (1987).
    Article ADS Google Scholar
28. Surlyk, F. in Cretaceous-Tertiary Boundary Events (eds Birkelund, T. & Bromley, R. G.) 164–170 (University of Copenhagen, 1979).
    Google Scholar

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Authors and Affiliations

1. NASA Ames Research Center, MS 245-3, Moffett Field, California, 94035, USA
   Kevin Zahnle & David Grinspoon

Authors

1. Kevin Zahnle
2. David Grinspoon

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Zahnle, K., Grinspoon, D. Comet dust as a source of amino acids at the Cretaceous/Tertiary boundary.Nature 348, 157–160 (1990). https://doi.org/10.1038/348157a0

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• Received: 16 January 1990
• Accepted: 24 September 1990
• Issue date: 08 November 1990
• DOI: https://doi.org/10.1038/348157a0