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Nature and History of the Organic Compounds in Comets: an Astrophysical View

Published online by Cambridge University Press:  12 April 2016

A.H. Delsemme*
Affiliation:
Department of Physics and Astronomy, The University of ToledoToledo, OH 43606, U.S.A.

Abstract

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The chemical similarities between comets, carbonaceous chondrites, and interstellar molecules and grains are reviewed first. The evolution of frosty interstellar grains is then followed during the collapse of a molecular cloud fragment and the subsequent formation of the Solar System. The paradigm clarifies the probable origin of the two populations of comets of different symmetry (the Oort Cloud and the Kuiper Belt) and implies an exogenous origin for all carbon and water on Earth. This origin is explained by the orbital diffusion of planetesimals that is required by the growth of protoplanets.

Type
Section III: Comets, Origins, and Evolution
Copyright
Copyright © Kluwer 1991

References

Adams, F.C., and Shu, F.H. (1985). Astrophys. J., 296, 655669.Google Scholar
Adams, F.C., and Shu, F.H. (1986). Astrophys. J., 308, 836853.CrossRefGoogle Scholar
Anders, E. (1986). In Comet Nucleus Sample Return, Melita, O. (ed.), Paris, ESA SP-249, pp. 3139.Google Scholar
Anders, E., and Grevesse, N. (1989). Geochim. Cosmochim. Acta, 53, 197214.CrossRefGoogle Scholar
Anders, E., and Owen, T. (1977). Science 198, 453465.Google Scholar
Avery, L.W. (1980). In Interstellar Molecules, Andrew, B. (ed.), D. Reidel Publishing Co., Dordrecht, p. 47.Google Scholar
Appenzeller, I., and Jordan, C. (eds.) (1987). Circumstellar Matter, IAU Sympos. 122, D. Reidel Publishing Co., Dordrecht.Google Scholar
Balsiger, H., Altwegg, K., Buhler, F., et al. (1986). Nature 321, 330334.Google Scholar
Barbieri, C., Cremonese, G., and Fulle, M. (1987). In Abstracts, Diversity and Similarity of Comets, ESA, Paris, P. 131.Google Scholar
Baron, Y., deMuizon, M., Papouar, R., and Pegourie, B. (1987). Astron. Astrophys. 186, 271279.Google Scholar
Benz, W., Slattery, W.L., and Cameron, A.G.W. (1987). Icarus 71, 30.Google Scholar
Black, H.J., and Willner, S.P. (1984). Astrophys. J., 279, 673678.Google Scholar
Bobrovnikoff, N.T. (1931). Publ. Lick Observ. 17, 309 Google Scholar
Brownlee, D.E., Wheelock, M.M., Temple, S., Bradley, J.P., and Kissel, J. (1987). J. Lunar Planet. Sci. Conf. 18, 133134.Google Scholar
Cameron, A.G.W. (1975). Icarus 24, 128133.Google Scholar
Cameron, A.G.W. (1978). In The Origin of the Solar System, Dermott, S.F. (ed.), Wiley and Sons, New York, pp. 4974.Google Scholar
Cameron, A.G.W. (1983). Icarus 56, 195 Google Scholar
Cameron, A.G.W. (1985). In Protostars and Planets II Black, D.C. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 10731099.Google Scholar
Cameron, A.G.W. (1988). Ann. Rev. Astron. Astrophys. 26, 441472.Google Scholar
Cameron, A.G.W., and Pine, M.R. (1973). Icarus 18, 377406.Google Scholar
Campbell, D.B., Harmon, J.K., and Shapiro, I.I. (1989). Astrophys. J., 338, 10941105.Google Scholar
Cernicharo, J., Gottlieb, C.A., Guelin, M., Thaddeus, P., and Vrtilek, J.M. (1989). Astrophys. J. Lett., 341, L2528.Google Scholar
Chyba, C.F. (1987). Nature 330, 632635.CrossRefGoogle Scholar
Clayton, D.D. (1980). Astrophys. J., 239, L37L41.Google Scholar
Clayton, R.N., Mayeda, T.K., and Molini-Vesko, C.A. (1988). In Protostars and Planets II, Black, D.C. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 755771.Google Scholar
Clube, S.V.M., and Napier, W.M. (1984). Mon. Not. Roy. Astron. Soc. 208, 575588.Google Scholar
Cochran, A.L. (1987). Astron. J., 93, 231238.Google Scholar
Combi, M.R., and Delsemme, A.H. (1980). Astrophys. J., 237, 641645.Google Scholar
Cowie, L.L., and Songaila, A. (1986). Ann. Rev. Astron. Astrophys. 24, 499536.CrossRefGoogle Scholar
Cronin, J.R., Pizzarello, S., and Cruikshank, D.P. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 819857.Google Scholar
Danks, A.C., Lambert, D.L., Arpigny, C. (1974). Astrophys. J., 194, 745751.Google Scholar
Delsemme, A.H. (1975). Icarus, 24, 95110.Google Scholar
Delsemme, A.H. (1981). In Comets and the Origin of Life, Ponnamperuma, C. (ed.), D. Reidel Publishing Co., Dordrecht, pp. 141159.Google Scholar
Delsemme, A.H. (1982). In Comets, Wilkening, L.L. (ed.), University of Arizona Press, Tucson, pp. 85130.Google Scholar
Delsemme, A.H. (1984). Origins of Life 14, 5160.Google Scholar
Delsemme, A.H. (1985). Publ. Astron. Soc. Pacific, 97, 861870.Google Scholar
Delsemme, A.H. (1987a). In Diversity and Similarity of Comets, Paris, ESA SP-278, pp. 1930.Google Scholar
Delsemme, A.H. (1987b). Astron. Astrophys. 187, 913918.Google Scholar
Delsemme, A.H. (1988). Phil. Trans. R. Soc. London A325, 509523.Google Scholar
Delsemme, A.H. (1989). Sky and Telescope 77, 260264.Google Scholar
Delsemme, A.H., and Miller, D.C. (1970). Planet. Space Sci. 18, 717.Google Scholar
Delsemme, A.H., and Miller, D.C. (1971). Planet. Space Sci. 19, 1229 and 1259.CrossRefGoogle Scholar
Douglas, A.E., and Herzberg, G. (1941). Astrophys. J., 94, 381.Google Scholar
Draganic, I.G., and Draganie, Z.D. (1984). Icarus 60, 464475.Google Scholar
Draine, B.T., and Lee, H.M. (1984). Astrophys. J., 285, 89108.Google Scholar
Duncan, M., Quinn, T., and Tremaine, S. (1988). Astrophys. J., 328, L69L74.Google Scholar
Eberhardt, P., Dolder, U., Schulte, W., et al. (1986). In ESLAB Sympos., ESA, Paris, ESA SP-250, vol. 1, p. 539.Google Scholar
Eberhardt, P., Krankowsky, D., Schulte, W., et al. (1987). Astron. Astrophys. 187, 481484.Google Scholar
Evans, N.J., and Kutner, M.L. (1976). Astrophys. J., 204, L131L134.CrossRefGoogle Scholar
Fernandez, J.A., and Ip, W.H. (1981). Icarus 47, 470479.Google Scholar
Fernandez, J.A., and Ip, W.H. (1983). Icarus 54, 377387.Google Scholar
Finson, M.L., and Probstein, R.F. (1968a). Astrophys. J., 154, 327352.Google Scholar
Finson, M.L., and Probstein, R.F. (1968b). Astrophys. J., 154, 353380.CrossRefGoogle Scholar
Fulle, M. (1987). Astron. Astrophys. 171, 327335.Google Scholar
Fulle, M., Barbieri, C., and Cremonese, G. (1987). In Diversity and Similarity of Comets, ESA, Paris, ESA SP-278, pp. 639644.Google Scholar
Goldsmith, P.F., Snell, R.L., Ericson, N.R., Dickman, R.L., Schloerb, F.P., and Irvine, W.M. (1985). Astrophys. J., 289, 613617.CrossRefGoogle Scholar
Greenberg, J.M. (1974). Astrophys. J., 189, L81L85.Google Scholar
Greenberg, J.M. (1982). In Comets, Wilkening, L.L. (ed.), University of Arizona Press, Tucson, pp. 131163.CrossRefGoogle Scholar
Greenberg, J.M., van de Bult, C.E., and Allamendola, L.J. (1983). J. Phys. Chem. 87, 42434260.Google Scholar
Greenberg, R., Wacker, J.F., Hartmann, W., and Chapman, C.R. (1978). Icarus 35, 126.Google Scholar
Grevesse, N. (1984a). In Frontiers of Astronomy and Astrophysics Pallavicini, R. (ed.), Ital. Astron. Soc, Florence, pp. 7182.Google Scholar
Grevesse, N. (1984b). Physica Scripta T8, 4958.Google Scholar
Grossman, J.N. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 680696.Google Scholar
Grossman, J.N., Rubin, A.E., Nagahara, H., and King, E.A. (1988). In Meteorites and the Early Solar System, Kerridge, J. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 619696.Google Scholar
Harmon, J.K., Campbell, D.B., Hine, A.A., Shapiro, I.I., and Marsden, B.G. (1989).Astrophys. J., 338, 10711093.Google Scholar
Hartmann, L., and Kenyon, S. J. (1985). Astrophys. J., 299, 462478.Google Scholar
Harvey, P.M. (1985). In Protostars and Planets II Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 484492.Google Scholar
Hawkins, I., and Jura, M. (1987). Astrophys. J. 317, 926950.Google Scholar
Hayatsu, R., and Anders, E. (1981). In Cosmo- and Geochemistry, Vol. 99, Topics in Current Chemistry, Springer-Verlag, Berlin, pp. 137.Google Scholar
Herbst, E., and Klemperer, W. (1976). Physics Today 29, 3239.Google Scholar
Hills, J.G. (1986). In Cosmogonical Processes, Arnett, W.D. et al. (eds.), VNU Science Press, Utrecht P. 285.Google Scholar
Hong, S.S., and Greenberg, J.M. (1980). Astron. Astrophys. 88, 194202.Google Scholar
Huebner, W.F. (1987). Science 237, 628629.Google Scholar
Ip, W.H., and Fernandez, J.A. (1988). Icarus 74, 4762.Google Scholar
Irvine, W.M., and Knacke, R.F. (1988). In Origin and Evolution of Planetary Satellite Atmospheres, Atreya, S.K., Pollack, J.B., and Matthews, M.S. (eds.), University of Arizona Press, Tucson, in press.Google Scholar
Irvine, W.M., Schloerb, P., Hjalmarson, A., and Herbst, E. (1985). In Protostars and Planets II, Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 579620.Google Scholar
Jenkins, E.B., Jura, M., and Loewenstein, M. (1983). Astrophys. J. 270, 88104.Google Scholar
Jessberger, E.K., Christoforidis, A., and Kissel, J. (1988). Nature 332, 691695.Google Scholar
Jessberger, E.K., Kissel, J., Fechtig, H., Krueger, F.R. (1986). In Comet Nucleus Sample Return, Melita, O. (ed.), Paris, ESA SP-249, p. 27.Google Scholar
Jones, T.J., Hyland, A.R., and Allen, D.A. (1983). Mon. Not. Roy. Astron. Soc. 205, 187190.Google Scholar
Kerridge, J.F., and Chang, S. (1988). In Protostars and Planets II, Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 738754.Google Scholar
Kissel, J., and Krueger, F.R. (1987). Nature 326, 755760.Google Scholar
Kissel, J., Sagdeev, R.Z., Bertaux, J.-L., et al. (1986). Nature 321, 336337.CrossRefGoogle Scholar
Knacke, R.F., Geballe, T.R., Noll, K.S., and Tokunaga, A.T. (1985). Astrophys. J., 298, L67L69.Google Scholar
Knacke, R.F., McCorkle, S., Puetter, R.C., Erickson, E.F., and Kratschmer, W. (1982). Astrophys. J., 260, 141146.Google Scholar
Korth, A., Marconi, M.L., Mendis, D.A., et al. (1989). Nature 337, 5355.Google Scholar
Kroto, H. (1988). Science, 242, 11391145.Google Scholar
Krueger, F.K., and Kissel, J. (1987). Naturwiss. 74, 312316.Google Scholar
Kuiper, G. (1951, In Astrophysics: A Topical Symposium, Hynek, J.A. (ed.), McGraw Hill, New York, pp. 357424.Google Scholar
Lada, C.J. (1985, Ann. Rev. Astron. Astrophys. 23, 267317.Google Scholar
Lambert, D.L. and Danks, A.C. (1983). Astrophys. J., 268, 428446.Google Scholar
Larimer, J.W., and Anders, E. (1970, Geochim. Cosmochim. Acta 34, 367387.Google Scholar
Larimer, J.W., and Wasson, J.T. (1988). In Meteorites and the Early Solar System, Kerridge, J.S. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 416435.Google Scholar
Leger, A., Gauthier, S., Defourneau, D., and Rouan, D. (1983). Astron. Astrophys. 117, 164169.Google Scholar
Leger, A., and Puget, J.L. (1984). Astron. Astrophys. 137, L5L8.Google Scholar
Levy, E.H. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 697717.Google Scholar
Lewis, J.S. (1972a). Icarus 16, 241252.Google Scholar
Lewis, J.S. (1972b). Earth and Planet. Sci. Letters 15, 286290.Google Scholar
Lewis, J.S. (1974). Science 186, 440443.Google Scholar
Lewis, J.S., Barshay, S.S., and Noyes, B. (1979). Icarus 37, 190206.Google Scholar
Lewis, J.S., and Prinn, R.G. (1980). Astrophys. J., 238, 357364.Google Scholar
Lewis, J.S., Tang, M., Wacher, J.F., Anders, E., and Steel, E. (1987). Nature 326, 160162.Google Scholar
Linke, R.A., and Goldsmith, P.F. (1980). Astrophys. J., 235, 437451.Google Scholar
Lin, D.N.C., and Papaloisou, J. (1985). In Protostars and Planets II, Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 9811072.Google Scholar
Lynden-Bell, D., and Pringle, J.E. (1974). Mon. Not. Royl Astron. Soc. London 168, 603637.Google Scholar
Martin, P.G., and Rogers, C. (1987). Astrophys. J., 322, 374392.Google Scholar
Mason, B. (ed.) (1971). Handbook of Elemental Abundances In Meteorites, Gordon and Breach, New York.Google Scholar
Mathis, J.S., Rumpl, W., and Nordsiek, K.H. (1977). Astrophys. J., 217, 425433.Google Scholar
Matsui, T., and Abe, Y. (1986). Nature 322, 526528.Google Scholar
McDonnell, J.A.M., Alexander, W.M., Burton, W.M., et al. (1986). Nature 321, 338341.Google Scholar
McKellar, A. (1940). Publ. Astron. Soc. Pacific 52, 187 Google Scholar
Mendis, D.A., and Brin, G.D. (1977). Moon 17, 359372.Google Scholar
Mendis, D.A., and brin, G.D. (1978). Moon and Planets 18, 7789.Google Scholar
Mestel, L., and Spitzer, L. (1956). Mon. Not. Royl Astron. Soc. London 116, 505514.Google Scholar
Morfill, G.E. (1988). Icarus 75, 371 Google Scholar
Morfill, G.E., Roser, W., Tscharnuter, W., and Volk, H. (1978). Moon and Planets 11, 21122.Google Scholar
Morfill, G.E., Tscharnuter, W., and Volk, H.J. (1985). In Protostars and Planets, Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 493533.Google Scholar
Morrison, D. (1977, In Comets, Asteroids and Meteorites, Delsemme, A.H. (ed.), University of Toledo, Toledo, pp. 177184.Google Scholar
Mumma, M.J., Weaver, H.A., and Larson, H.P. (1987). Astron. Astrophys. 187, 419424.Google Scholar
Newburn, R.L., and Spinrad, H. (1985). Astron. J., 90, 25912608.Google Scholar
Nicolet, M. (1938). Zs. F. Astrophysik 15, 154.Google Scholar
Niederer, F.R., Eberhardt, P., and Geiss, T. (1985). Meteoritics 20, 716 Google Scholar
Olofsson, H. (1984). Astron. Astrophys. 134, 3644.Google Scholar
Orofino, V., Colangeli, L., Bussoletti, E., and Strefella, F. (1987). Astrophys. Space Sci. 138, 127140.Google Scholar
Pirronello, V. (1988). In Genesis and Propagation of Cosmic Rays, Shapiro, M.M. and Wefel, J.J. (eds.), NATO Adv. Sci. Inst. Ser. C. 22, D. Reidel Publishing Co., Dordrecht, pp. 299313.Google Scholar
Rowan-Robinson, M. (1985). Phys. Scripta 11, 6870.Google Scholar
Safronov, V.S. (1969). In Evolution of Protoplanetary Clouds and Formation of the Earth and the Planets, Moscow: Nauka. Translation 1972 NASA TT F-677, Washington, D.C., pp. 6989.Google Scholar
Safronov, V.S. (1972). In Motion, Evolution and Origin of Comets, Chebotarev et al. (eds.), IAU Symp. 45, D. Reidel Publishing Co., Dordrecht, and Springer-Verlag, N.Y.Google Scholar
Sakata, A., Setsuko, W., Okutsu, Y., Shintani, H., and Nakada, Y. (1983). Nature 301, 493494.Google Scholar
Schramm, D. (1985). In Nucleosynthesis, Arnett, W.D. and Truran, J. W. (eds.), University of Chicago Press, Chicago, P. 106.Google Scholar
Sedlmayr, E. (1987, In Circumstellar Matter, IAU Symp. 122, pp. 543544.Google Scholar
Sekanina, Z., and Miller, F.D. (1973). Science 179, 565567.Google Scholar
Shu, F.H. (1977). Astrophys. J., 266, 555 Google Scholar
Shu, F.H., Adams, F.C., and Lizano, S. (1987). Ann. Rev. Astron. Astrophys. 25, 2382.CrossRefGoogle Scholar
Skinner, C.J., and Whitmore, B. (1988). Mon. Not. Roy. Astron. Soc. London 231, 169174.Google Scholar
Smith, B.A., and Ternie, R.J. (1984). Science 226, 14211424.Google Scholar
Strazzulla, G., Calcagno, L., and Foti, G. (1983). Mon. Not. Roy. Astron. Soc. 204, 5962.Google Scholar
Swart, P, K., Grady, M.M., Pillinger, C.T., Lewis, R.S., and Anders, E. (1983). Science 220, 406 Google Scholar
Swings, P., and Rosenfeld, L. (1937). Astron. J., 86, 483 Google Scholar
Truran, J.W. (1985). In Nucleosynthesis, Arnett, W.D. and Truran, J.W. (eds.), University of Chicago Press, Chicago P. 292.Google Scholar
Urey, H.C., and Craig, H. (1953). Geochim. Cosmochim. Acta. 4, 3682.Google Scholar
Walter, F.M. (1986). Astrophys. J., 306, 573586.Google Scholar
Wannier, P. (1980). Ann. Rev. Astron. Astrophys. 18, 399437.Google Scholar
Watson, D.M. (1984). In Galactic and Extragalactic Infrared Astronomy, Kessler, M.F., and Phillips, J.P. (eds.), D. Reidel Publishing Co., Dordrecht, pp. 195219.Google Scholar
Wdowiak, T.J., Flikinger, G.C., and Cronin, J.R. (1988). Astrophys. J., 328, L75L79.Google Scholar
Weast, R.C., Astle, M.J., and Beyer, W.H. (eds.) (1984). CRC Handbook of Chemistry and Physics, CRC Press, Boca Raton, Florida.Google Scholar
Weidenschilling, S.J. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 348371.Google Scholar
Weissman, P.R. (1985). In Protostars and Planets II, Black, D.C. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 895919.Google Scholar
Welch, W.J., Dreher, J.W., Jackson, J.M., Tereby. S., , and Vogel, S.N. (1987). Science 138, 1550 1555.Google Scholar
Wetherill, G.W. (1980). Ann. Rev. Astron. Astrophys. 18, 77113.Google Scholar
Wetherill, G.W., and Chapman, C.R. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.) University of Arizona Press, Tucson, pp. 3567.Google Scholar
Whipple, F.L. (1977). In Comets, Asteroids and Meteorites, Delsemme, A.H. (ed.), University of Toledo Press, Toledo, pp. 2535.Google Scholar
Willems, F.J., and deJong, T. (1988). Astron. Astrophys. 196, 173184.Google Scholar
Willner, S.P., Gillett, F.C., et al. (1982). Astrophys. J., 243, 174187.Google Scholar
Wood, J.A., and Morfill, G.E. (1988). In Meteorites and the Early Solar System, Kerridge, J.F. and Matthews, M.S. (eds.), University of Arizona Press, Tucson, pp. 329347.Google Scholar
Wyckoff, S., Lindholm, E., Wehinger, P.A., Petersson, B.A., Zucconi, J.M., and Festou, M.C. (1989). Astrophys. J., 339, 448500.Google Scholar
Zinner, E., Ming, T., and Anders, E. (1987). Nature 330, 730732.Google Scholar