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Timing and Origin of Compressional Tectonism in Mare Tranquillitatis
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  • Thomas Frueh,
  • Harald Hiesinger,
  • Carolyn H. van der Bogert,
  • Jaclyn D. Clark,
  • Thomas R Watters,
  • Nico Schmedemann
Thomas Frueh
Westfälische Wilhelms-Universität Münster

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Harald Hiesinger
Westfälische Wilhelms-Universität Münster
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Carolyn H. van der Bogert
Westfälische Wilhelms-Universität Münster, Westfälische-Wilhelms-Universität Münster
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Jaclyn D. Clark
Arizona State University
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Thomas R Watters
Smithsonian Institution
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Nico Schmedemann
Westfälische Wilhelms-Universität Münster
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Abstract

The lithosphere of the Moon has been deformed by tectonic processes for at least 4 billion years, resulting in a variety of tectonic surface features. Extensional large lunar graben formed during an early phase of net thermal expansion before 3.6 Ga. With the emplacement of mare basalts at ~3.9 – 4.0 Ga, faulting and folding of the mare basalts initiated, and wrinkle ridges formed. Lunar wrinkle ridges exclusively occur within the lunar maria and are thought to be the result of superisostatic loading by dense mare basalts. Since 3.6 Ga, the Moon is in a thermal state of net contraction, which led to the global formation of small lobate thrust faults called lobate scarps. Hence, lunar tectonism recorded changes in the global and regional stress fields and is, therefore, an important archive for the thermal evolution of the Moon. Here, we mapped tectonic features in the non-mascon basin Mare Tranquillitatis and classified these features according to their respective erosional states. This classification aims to give new insights into the timing of lunar tectonism and the associated stress fields. We found a wide time range of tectonic activity, ranging from ancient to recent (3.8 Ga to < 50 Ma). Early wrinkle ridge formation seems to be closely related to subsidence and flexure. For the recent and ongoing growth of wrinkle ridges and lobate scarps, global contraction with a combination of recession stresses, diurnal tidal stresses, as well as with a combination of SPA ejecta loading and true polar wander are likely.
16 Dec 2022Submitted to ESS Open Archive
27 Dec 2022Published in ESS Open Archive