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Episodic Plate Tectonics on Europa: Evidence for Widespread Patches of Mobile-lid Behavior in the Antijovian Hemisphere
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  • Geoffrey C. Collins,
  • G. Wesley Patterson,
  • Charlene E. Detelich,
  • Prockter Louise,
  • Simon A Kattenhorn,
  • Catherine M Cooper,
  • Alyssa R Rhoden,
  • Benjamin B. Cutler,
  • Samantha R. Oldrid,
  • Reid Perkins,
  • Craig A. Rezza
Geoffrey C. Collins
Wheaton College

Corresponding Author:[email protected]

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G. Wesley Patterson
Applied Physics Laboratory
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Charlene E. Detelich
Johns Hopkins Applied Physics Laboratory
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Prockter Louise
Johns Hopkins University Applied Physics Laboratory
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Simon A Kattenhorn
University of Alaska Anchorage
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Catherine M Cooper
Washington State University
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Alyssa R Rhoden
Southwest Research Institute
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Benjamin B. Cutler
Wheaton College
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Samantha R. Oldrid
Wheaton College
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Reid Perkins
Applied Physics Laboratory
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Craig A. Rezza
Wheaton College
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Abstract

A nearly pole-to-pole survey near 140°E longitude on Europa revealed many areas that exhibit past lateral surface motions, and these areas were examined to determine whether the motions can be described by systems of rigid plates moving across Europa’s surface. Three areas showing plate-like behavior were examined in detail to determine the sequence of events that deformed the surface. All three areas were reconstructed to reveal the original pre-plate motion surfaces by performing multi-stage rotations of plates in spherical coordinates. Several motions observed along single plate boundaries were also noted in previous works, but this work links together isolated observations of lateral offsets into integrated systems of moving plates. Not all of the surveyed surface could be described by systems of rigid plates. There is evidence that the plate motions did not all happen at the same time, and that they are not happening today. We conclude that plate tectonic-like behavior on Europa occurs episodically, in limited regions, with less than 100 km of lateral motion accommodated along any particular boundary before plate motions cease. Europa may represent a world perched on the theoretical boundary between stagnant and mobile lid convective behavior, or it may represent an additional example of the wide variations in possible planetary convective regimes. Differences in observed strike-slip sense and plate rotation directions between the northern and southern hemispheres indicate that tidal forces may influence plate motions.