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References

  • Beeman, M., W. B. Durham, and S. H. Kirby (1988), Friction of ice, J. Geophys. Res., 93, 76257633.
  • Beddingfield, C. B., D. M. Burr, and W. M. Dunne (2013), Evidence for contraction within the leading hemisphere section of the south polar terrain boundary, Enceladus, Lunar and Planetary Science Conference, 44, 1254, Woodlands, TX.
  • Bierhaus, E. B., K. Zahnle, and C. R. Chapman (2009), Europa's crater distributions and surface ages, in Europa, edited by R. T. Pappalardo, W. B. McKinnon, and K. K. Khurana, pp. 161180, Univ. Ariz. Press, Tucson.
  • Bland, M. T., and A. P. Showman (2007), The formation of Ganymede's grooved terrain: Numerical modeling of extensional necking instabilities, Icarus, 189, 439456.
  • Bland, M. T., and W. B. McKinnon (2012), Forming Europa's folds: Strain requirements for the production of large-amplitude deformation, Icarus, 221, 694709.
  • Bland, M. T., W. B. McKinnon, and A. P. Showman (2010), The effects of strain localization on the formation of Ganymede's grooved terrain, Icarus, 210, 396410.
  • Collins, G. C. (2006), Global expansion of Ganymede derived from strain measurements in grooved terrain, Lunar and Planetary Science Conference, 37, 2077, Woodlands, TX.
  • Dombard, A. J., and W. B. McKinnon (2001), Formation of grooved terrain on Ganymede: Extensional instability mediated by cold, superplastic creep, Icarus, 154, 321326.
  • Dombard, A. J., and W. B. McKinnon (2006), Folding of Europa's icy lithosphere: An analysis of viscous-plastic buckling and subsequent topographic relaxation, J. Struct. Geol., 28, 22592269.
  • Durham, W. B., and L. A. Stern (2001), Rheological properties of water ice: Applications to satellites of the outer planets, Annu. Rev. Earth Planet. Sci., 29, 295330.
  • Gammon, P. H., H. Klefte, and M. J. Clouter (1983), Elastic constants of ice samples by Brillouin spectroscopy, J. Phys. Chem., 87, 40254029.
  • Geissler, P. E., et al. (1998), Evolution of lineaments on Europa: Clues from Galileo multispectral imaging observations, Icarus, 135, 107126.
  • Gerbault, M., S. Henrys, and F. Davey (2003), Numerical models of lithospheric deformation forming the Southern Alps of New Zealand, J. Geophys. Res., 108, 2341, doi:10.1029/2001JB001716.
  • Herrick, D. L., and D. J. Stevenson (1990), Extensional and compressional instabilities in icy satellite lithospheres, Icarus, 85, 191204.
  • Hudleston, P. J., and S. H. Treagus (2010), Information from folds: A review, J. Struct. Geol., 32, 20422071.
  • Kattenhorn, S. A., and T. Hurford (2009), Tectonics of Europa, in Europa, edited by R. T. Pappalardo, W. B. McKinnon, and K. K. Khurana, pp. 199236, Univ. Ariz. Press, Tucson.
  • Melosh, H. J., and A. Raefsky (1980), The dynamical origin of subduction zone topography, Geophys. J. R. Astr. Soc., 60, 333354.
  • Moore, J. M., G. Black, B. Buratti, C. P. Phillips, J. Spencer, and R. Sullivan (2009), Surface properties, regolith, and landscape degradation, in Europa, edited by R. T. Pappalardo, W. B. McKinnon, and K. K. Khurana, pp. 329352, Univ. Ariz. Press, Tucson.
  • Nimmo, F. (2004a), Dynamics of rifting and modes of extension on icy satellites, J. Geophys. Res., 109, E01003, doi:10.1029/2003JE002168.
  • Nimmo, F. (2004b), Stresses generated in cooling viscoelastic ice shells: Application to Europa, J. Geophys. Res., 109, E12001, doi:10.1029/2004JE002347.
  • Petrenko, V. F., and R. W. Whitworth (1999), Physics of Ice, 43 p., Oxford Univ. Press, New York.
  • Prockter, L. M., and R. T. Pappalardo (2000), Folds on Europa: Implications for crustal cycling and accommodation of extension, Science, 289, 941944.
  • Prockter, L. M., and G. W. Patterson (2009), Morphology and evolution of Europa's ridges and bands, in Europa, edited by R. T. Pappalardo, W. B. McKinnon, and K. K. Khurana, pp. 237258, Univ. Ariz. Press, Tucson.
  • Schenk, P. (2010), Atlas of the Galilean Satellites, pp. 364367, Cambridge Univ. Press, Cambridge, New York.
  • Schmalholz, A. M. (2006), Scaled amplification equation: A key to the folding history of buckled viscous single-layers, Tectonophysics, 419, 4153.
  • Schulson, E. M., and P. Duval (2009), Creep and Fracture of Ice, pp. 241243, Cambridge Univ. Press, Cambridge, New York.
  • Showman, A. P., D. J. Stevenson, and R. Malhotra (1997), Coupled orbital and thermal evolution of Ganymede, Icarus, 129, 367383.
  • Stempel, M. M., A. C. Barr, and R. T. Pappalardo (2005), Model constraints on the opening rates of bands on Europa, Icarus, 177, 297304.
  • Squyres, S. W. (1980), Volume changes in Ganymede and Callisto and the origin of the grooved terrain, Geophys. Res. Lett., 7, 593596.