2015
DOI: 10.1002/2015jb012202
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The role of passive margins on the evolution of Subduction‐Transform Edge Propagators (STEPs)

Abstract: A Subduction‐Transform Edge Propagator (STEP) is the locus of continual lithospheric tearing which enables subduction of one part of a tectonic plate, while the juxtaposed part remains at the surface. A key question is the propagation direction of active STEPs, and we suspect passive margins to play a critical role in steering STEPs. We investigate the role of passive margins (width, orientation, and lateral strength contrast) on the STEP propagation direction through mechanical finite element models. For stra… Show more

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Cited by 28 publications
(26 citation statements)
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“…Strain localization and therefore STEP propagation tracks the passive margin in this time slice (and in following). Nijholt and Govers (2015) conclude that this response is typical for passive margins with small (< 10°) variations in their orientation. An important element in the reconstruction at Time 1 is that the orientation of the passive margin at the southern end of the subduction zone changed orientation from roughly E-W north of Sicily, to the ESE along the Taormina line and parallel to the Sisifo fault (Billi et al 2007).…”
Section: Resultsmentioning
confidence: 90%
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“…Strain localization and therefore STEP propagation tracks the passive margin in this time slice (and in following). Nijholt and Govers (2015) conclude that this response is typical for passive margins with small (< 10°) variations in their orientation. An important element in the reconstruction at Time 1 is that the orientation of the passive margin at the southern end of the subduction zone changed orientation from roughly E-W north of Sicily, to the ESE along the Taormina line and parallel to the Sisifo fault (Billi et al 2007).…”
Section: Resultsmentioning
confidence: 90%
“…The fact that the AEF is not activated by STEP propagation means that its tectonics require an explanation in broader, regional context (see section 6.2). The results of the numerical model experiments show to be relatively insensitive to smaller scale details (Nijholt and Govers, 2015).…”
Section: Resultsmentioning
confidence: 91%
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“…Slab edges are necessary ingredients of plate tectonics, and vertical tearing along the lithosphere at the termination of subduction trenches is a geometric consequence that enables the subduction to continue (e.g., Wilson, 1965;Millen and Hamburger, 1998;Govers and Wortel, 2005;Nijholt and Govers, 2015). A Subduction-Transform Edge Propagator (STEP) fault is the locus of continual lithospheric tearing at slab edges, which allows subduction of one part of a tectonic plate, while the juxtaposed part remains at the surface (Govers and Wortel, 2005;Nijholt and Govers, 2015). The evolution of the subduction zone along STEP faults results in sharp changes in the lithospheric and crustal thickness, which trigger lateral and/or near-vertical mantle flow associated with lithospheric tearing (e.g., Mancilla et al, 2015;Menant et al, 2016).…”
Section: Introductionmentioning
confidence: 99%