Volcanism and igneous processes in small icy satellites (original) (raw)

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• Published: 08 July 1982

Nature volume 298, pages 142–144 (1982)Cite this article

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Abstract

The small saturnian satellites exhibit a remarkable diversity of surficial features1–3 including many which appear to be a consequence of internal activity: ‘wispy’ terrain, linear troughs, and terrains displaying large gradations in crater density. I argue here that the most likely cause of endogenic processes in these bodies is the igneous activity associated with a low melting point NH3–H2O magma, a possibility first pointed out by Lewis4. Radiogenic heating probably suffices to provide the necessary melting in Tethys, Dione, Rhea and lapetus whereas tidal heating is needed for Enceladus and possibly Mimas. Migration of large fluid-filled cracks is likely (as in Weertman's theory for water-filled crevasses in glaciers5), leading to surface flooding. If clathrates are present, as first suggested by Miller6, then pyroclast-forming explosive events can occur at a near-surface intrusive contact between magma and one or more of the methane, nitrogen and argon clathrates.

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References

1. Smith, B. et al. Science 212, 163–191 (1981).
   Article ADS CAS Google Scholar
2. Smith, B. et al. Science 215, 504–537 (1982).
   Article ADS CAS Google Scholar
3. Plescia, J. B. & Boyce, J. M. Nature 295, 285–290 (1982).
   Article ADS Google Scholar
4. Lewis, J. S. Icarus 15, 175–185 (1971).
   Article ADS Google Scholar
5. Weertman, J. J. geophys. Res. 76, 1171–1183 (1971).
   Article ADS Google Scholar
6. Miller, S. L. Proc. natn. Acad. Sci. U.S.A. 47, 1798–1808 (1961).
   Article ADS CAS Google Scholar
7. Prinn, R. G. & Fegley, B. Astrophys. J. (in the press).
8. Lunine, J. I. & Stevenson, D. J. Icarus (submitted).
9. Consolmagno, G. J. & Lewis, J. S. Icarus 34, 280–293 (1978).
   Article ADS CAS Google Scholar
10. Smoluchowski, R. Science 201, 809–811 (1978).
    Article ADS CAS Google Scholar
11. Van Kasteren, P. H. G. Bull. Inst. int. Froid. Annexe 4, 81–87 (1973).
    Google Scholar
12. Stoll, R. D. & Bryan, G. M. J. geophys. Res. 84, 1629–1634 (1979).
    Article ADS CAS Google Scholar
13. Hobbs, P. V. Ice Physics, Ch. 5 (Clarendon, Oxford, 1974).
    Google Scholar
14. Hildenbrand, D. L. & Giauque, W. F. J. Am. chem. Soc. 75, 2811–2818 (1953).
    Article Google Scholar
15. Sill, G., Fink, U. & Ferraro, J. R. J. chem. Phys. 74, 997–1000 (1981).
    Article ADS CAS Google Scholar
16. Callaway, J. Phys. Rev. 113, 1046–1051 (1959).
    Article ADS CAS Google Scholar
17. Sass, J. H., Lachenbruch, A. H. & Munroe, R. J. J. geophys. Res. 76, 3391–3401 (1971).
    Article ADS Google Scholar
18. Stacey, F. D. Physics of the Earth 2nd edn, 346 (Wiley, New York, 1977).
    Google Scholar
19. Nakamura, T. & Jones, S. J. in Physics and Chemistry of Ice (eds Whalley, E., Jones, S. J. & Gold, L. W.) 365–369 (University of Toronto Press, 1973).
    Google Scholar
20. Ellsworth, K. & Schubert, G. Bull. Am. astr. Soc. 13, 704 (1981); Icarus (submitted).
    ADS Google Scholar
21. Chan, J. P. & Giauque, W. F. J. phys. Chem. 68, 3053–3057 (1964).
    Article CAS Google Scholar
22. Peale, S., Cassen, P. & Reynolds, R. Icarus 43, 65–72 (1980).
    Article ADS Google Scholar
23. Yoder, C. F. EOS 62, 939 (1981).
    Google Scholar
24. Rupert, F. J. Am. chem. Soc. 31, 866–868 (1909).
    Article CAS Google Scholar
25. Walker, D., Stolper, E. M. & Hays, J. F. J. geophys. Res. 83, 6005–6013 (1978).
    Article ADS Google Scholar
26. Muller, O. H. & Muller, M. R. Proc. 11th Lunar planet. Sci. Conf. 1979–1985 (1980).
27. Weertman, J. J. geophys. Res. 76, 8544–8553 (1971).
    Article ADS Google Scholar
28. Stevenson, D. J. Abstr. 13th, Lunar planet. Sci. Conf. 768–769 (1982).
29. Davidson, D. W. & Ripmeester, J. A. J. Glaciol. 21, 33–49 (1978).
    Article ADS CAS Google Scholar
30. Clark, R. N. & Owensby, P. D. Icarus 46, 354–360 (1981).
    Article ADS CAS Google Scholar

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Authors and Affiliations

1. Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California, 91125, USA
   D. J. Stevenson

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Stevenson, D. Volcanism and igneous processes in small icy satellites.Nature 298, 142–144 (1982). https://doi.org/10.1038/298142a0

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• Received: 01 March 1982
• Accepted: 10 May 1982
• Issue Date: 08 July 1982
• DOI: https://doi.org/10.1038/298142a0

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