Tectonic Processes on Europa: Tidal Stresses, Mechanical Response, and Visible Features

Abstract Europa's orbital eccentricity, driven by the resonance with Io and Ganymede, results in “diurnal” tides (3.5-day period) and possibly in nonsynchronous rotation. Both diurnal variation and nonsynchronous rotation can create significant stress fields on Europa's surface, and both effects may produce cracking. Patterns and time sequences of apparent tectonic features on Europa include lineaments that correlate with both sources of stress, if we take into account nonsynchronous rotation, after initial crack formation, by amounts ranging up to several tens of degrees. For example, the crosscutting time sequence of features in the Cadmus and Minos Linea region is consistent with a combined diurnal and nonsynchronous tensile-stress field, as it evolves during tens of degrees of nonsynchronous rotation. Constraints on the rotation rate from comparing Voyager and Galileo images show that significant rotation requires >104yr, but could be fast enough to have allowed significant rotation since the last global resurfacing, even if such resurfacing was as recent as a few million years ago. Once cracking is initiated, diurnal tides work cracks so that they open and close daily. Although the daily effect is small, over 105yr double ridges could plausibly be built along the cracks with sizes and morphologies consistent with observed structures, according to a model in which underlying liquid water fills the open cracks, partially freezes, and is extruded during the daily closing of the cracks. Thus, several lines of observational and theoretical evidence can be integrated if we assume nonsynchronous rotation and the existence of a liquid water layer.

[1]  R. Greeley,et al.  Europa: Initial Galileo Geological Observations , 1998 .

[2]  S. Peale Rotation histories of the natural satellites , 1977 .

[3]  F. Meinesz Shear patterns of the Earth's crust , 1947 .

[4]  D. Stevenson,et al.  Thermal state of an ice shell on Europa , 1989 .

[5]  Norbert Untersteiner,et al.  The Geophysics of Sea Ice , 1986, NATO ASI Series.

[6]  Malcolm Mellor,et al.  Mechanical behavior of sea ice , 1986 .

[7]  B. R. Tufts,et al.  Evidence for a subsurface ocean on Europa , 1998, Nature.

[8]  B. R. Tufts Photogeological analysis of Europan tectonic features , 1993 .

[9]  H. Melosh Tectonic patterns on a tidally distorted planet , 1980 .

[10]  M. Coon,et al.  Model of pressure ridge formation in sea ice , 1972 .

[11]  R. Sullivan,et al.  Evidence for Separation across a Gray Band on Europa , 1996 .

[12]  D. Stevenson,et al.  Polar wander of an ice shell on Europa , 1987 .

[13]  P. Cassen,et al.  Structure and thermal evolution of the Galilean satellites , 1982 .

[14]  P. Schenk,et al.  Fault offsets and lateral crustal movement on Europa - Evidence for a mobile ice shell , 1985 .

[15]  J. Burns,et al.  Galileo's First Images of Jupiter and the Galilean Satellites , 1996, Science.

[16]  M. Coon,et al.  A Sea Ice Analog for the Surface of Europa , 1996 .

[17]  Steven W. Squyres,et al.  Liquid water and active resurfacing on Europa , 1982, Nature.

[18]  Joseph A. Burns,et al.  Evolution of Lineaments on Europa: Clues from Galileo Multispectral Imaging Observations , 1998 .

[19]  J. K. Crowley,et al.  Salts on Europa's surface detected by Galileo's near infrared mapping spectrometer. The NIMS Team. , 1998, Science.

[20]  P. Helfenstein,et al.  Patterns of Fracture and Tidal Stresses Due to Nonsynchronous Rotation: Implications for Fracturing on Europa , 1984 .

[21]  A. McEwen Tidal reorientation and the fracturing of Jupiter's moon Europa , 1986, Nature.

[22]  David Morrison,et al.  Satellites of Jupiter , 1982 .

[23]  M. Ross,et al.  Tidal heating in an internal ocean model of Europa , 1987, Nature.

[24]  P. Cassen,et al.  Melting of Io by Tidal Dissipation , 1979, Science.

[25]  S. Weidenschilling,et al.  How fast do Galilean satellites spin , 1984 .

[26]  H. Jeffreys The Effect of Tidal Friction on Eccentricity and Inclination , 1961 .

[27]  J. Suppe Principles of structural geology , 1984 .

[28]  J. Burns,et al.  Evidence for non-synchronous rotation of Europa , 1998, Nature.

[29]  P. Helfenstein,et al.  Patterns of fracture and tidal stresses on Europa , 1983 .

[30]  Renu Malhotra,et al.  Tidal evolution into the Laplace resonance and the resurfacing of Ganymede , 1997 .

[31]  C. Lomnitz Geodynamics. , 1973, Science.

[32]  Christopher P. McKay,et al.  On the habitability of Europa , 1983 .

[33]  C. Sagan,et al.  Galileo multispectral imaging of Earth. , 1995, Journal of geophysical research.

[34]  L. Soderblom,et al.  The geology of Europa , 1979 .