Cryovolcanism on Ceres

O. Ruesch; T. Platz; P. Schenk; L.A. McFadden; J. C. Castillo-Rogez; L. C. Quick; S. Byrne; F. Preusker; D.P. O'Brien; N. Schmedemann; D.A. Williams; Jian-Yang Li; M. T. Bland; H. Hiesinger; T. Kneissl; A. Neesemann; M. Schaefer; J. H. Pasckert; B.E. Schmidt; D.L. Buczkowski; M. V. Sykes; A. Nathues; T. Roatsch; M. Hoffman; C.A. Raymond; C.T. Russell

doi:10.1126/science.aaf4286

Cryovolcanism on Ceres

Science

By: O. Ruesch, T. Platz, P. Schenk, L.A. McFadden, J. C. Castillo-Rogez, L. C. Quick, S. Byrne, F. Preusker, D.P. O'Brien, N. Schmedemann, D.A. Williams, Jian-Yang Li, M. T. Bland, H. Hiesinger, T. Kneissl, A. Neesemann, M. Schaefer, J. H. Pasckert, B.E. Schmidt, D.L. Buczkowski, M. V. Sykes, A. Nathues, T. Roatsch, M. Hoffman, C.A. Raymond, and C.T. Russell

https://doi.org/10.1126/science.aaf4286

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Abstract

Volcanic edifices are abundant on rocky bodies of the inner solar system. In the cold outer solar system, volcanism can occur on solid bodies with a water-ice shell, but derived cryovolcanic constructs have proved elusive. We report the discovery using Dawn Framing Camera images of a landform on dwarf planet Ceres, which we argue represents a viscous cryovolcanic dome. Parent material of the cryomagma is a mixture of secondary minerals, including salts and water ice. Absolute model ages from impact craters reveal that extrusion of the dome has occurred recently. Ceres’ evolution must have been able to sustain recent interior activity and associated surface expressions. We propose salts with low eutectic temperatures and thermal conductivities as key drivers for Ceres’ long-term internal evolution.

Suggested Citation

Ruesch, O., Platz, T., Schenk, P., McFadden, L., Castillo-Rogez, J.C., Quick, L.C., Byrne, S., Preusker, F., O'Brien, D., Schmedemann, N., Williams, D., Li, J., Bland, M.T., Hiesinger, H., Kneissl, T., Neesemann, A., Schaefer, M., Pasckert, J.H., Schmidt, B., Buczkowski, D., Sykes, M.V., Nathues, A., Roatsch, T., Hoffman, M., Raymond, C., and Russell, C., 2016, Cryovolcanism on Ceres: Science, v. 353, no. 6303, https://doi.org/10.1126/science.aaf4286.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Cryovolcanism on Ceres
Series title	Science
DOI	10.1126/science.aaf4286
Volume	353
Issue	6303
Year Published	2016
Language	English
Publisher	American Association for the Advancement of Science
Contributing office(s)	Astrogeology Science Center