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Geomorphological analysis of the southwestern margin of Xanadu, Titan: Insights on tectonics
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  • Pietro Matteoni,
  • Giuseppe Mitri,
  • Valerio Poggiali,
  • Marco Mastrogiuseppe
Pietro Matteoni
International Research School of Planetary Sciences, Università d'Annunzio, International Research School of Planetary Sciences, Università d'Annunzio

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Giuseppe Mitri
International Research School of Planetary Sciences, Università d'Annunzio, Italy, International Research School of Planetary Sciences, Università d'Annunzio, Italy
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Valerio Poggiali
Cornell University, Cornell University
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Marco Mastrogiuseppe
Sapienza Università di Roma, Sapienza Università di Roma
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Abstract

Evidence for tectonic activity on Titan is provided by the presence of eroded mountain ranges. Xanadu is an equatorial region of Titan characterized by a complex topography, even though overall it has a lower average elevation compared to its surroundings. We investigated Xanadu’s southwestern margin, a part of the region which is comprised of heavily eroded and rugged terrains to the north and east and of smoother, more uniform terrains to the west and south. The central portions of southwestern Xanadu are characterized by an extensive fluvial network. The presence of such a distinctive feature was the main reason motivating the study of this area, given its potential to provide tectonic indications. Through detailed geomorphological mapping (map scale 1:700,000) on Synthetic Aperture Radar (SAR) data and analysis of both fluvial drainage patterns and Digital Terrain Models (DTMs), we identified several putative tectonic structures in this area: normal faulting to the west and east, thrust faulting to the north, small-scale strike-slip faulting in its central parts.Pull-apart basins are depressions bounded by both dip-slip faults and by (overlapping and/or bending) segments of a major transcurrent fault, i.e., they are basins generated in transtensional tectonic settings. We propose that central southwestern Xanadu is a pull-apart basin, bordered by both normal and thrust faults and formed by transtensional tectonics, which we consider to be the most recent tectonic phase active in this area. This basin is characterized by small-scale strike-slip faulting within it, on which a fluvial network has subsequently imposed.
Dec 2020Published in Journal of Geophysical Research: Planets volume 125 issue 12. 10.1029/2020JE006407