Solid Earth (Aug 2023)

Selective inversion of rift basins in lithospheric-scale analogue experiments

  • A. Samsu,
  • A. Samsu,
  • W. Gorczyk,
  • T. C. Schmid,
  • P. G. Betts,
  • A. R. Cruden,
  • E. Morton,
  • F. Amirpoorsaeed

DOI
https://doi.org/10.5194/se-14-909-2023
Journal volume & issue
Vol. 14
pp. 909 – 936

Abstract

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Basin inversion is commonly attributed to the reverse reactivation of basin-bounding normal faults. This association implies that basin uplift and inversion-related structures are mainly controlled by the frictional behaviour of pre-existing faults and associated damage zones. In this study, we use lithospheric-scale analogue experiments of orthogonal extension followed by shortening to explore how the flow behaviour of ductile layers underneath rift basins promote or suppress basin inversion. Our experiments show that the rheology of the ductile lower crust and lithospheric mantle, modulated by the imposed bulk strain rate, determine (1) basin distribution in a wide rift setting and (2) strain accommodation by fault reactivation and basin uplift during subsequent shortening. When the ductile layers deform uniformly during extension (i.e. stretching) and shortening (i.e. thickening), all of the basins are inverted. When deformation in the ductile layers is localised during extension (i.e. necking) and shortening (i.e. folding), only some basins – which are evenly spaced apart – are inverted. We interpret the latter as selective basin inversion, which may be related to the superposition of crustal-scale and lithospheric-scale boudinage during the previous basin-forming extensional phase and/or folding of the ductile layers during shortening.