2015
DOI: 10.1002/2015tc003850
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Tectonomagmatic evolution of the final stages of rifting along the deep conjugate Australian-Antarctic magma-poor rifted margins: Constraints from seismic observations

Abstract: The processes related to hyperextension, exhumed mantle domains, lithospheric breakup, and formation of first unequivocal oceanic crust at magma-poor rifted margins are yet poorly understood. In this paper, we try to bring new constraints and new ideas about these latest deformation stages by studying the most distal Australian-Antarctic rifted margins. We propose a new interpretation, linking the sedimentary architectures to the nature and type of basement units, including hyperextended crust, exhumed mantle,… Show more

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Cited by 106 publications
(108 citation statements)
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References 79 publications
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“…Australia-Antarctica and West Iberia margins has been explained by slip along a single detachment fault with the passive addition of magma along the fault ; while at the proto-oceanic domain in the most distal part of the margins (the transition from the zone of exhumed continental mantle to unambiguous oceanic crust), short-offset flip-flop detachment faults are proposed to develop at the final stages of rifting (Gillard et al, 2015;Reston & McDermott, 2011). In the zone of exhumed continental mantle, locally reflective features above detachment fault surfaces have been attributed to localized magmatic extrusives where short-offset normal faults (overlying the main detachment fault) can serve as feeder systems for magma (Gillard et al, 2015).…”
Section: Geochemistry Geophysics Geosystemsmentioning
confidence: 99%
“…Australia-Antarctica and West Iberia margins has been explained by slip along a single detachment fault with the passive addition of magma along the fault ; while at the proto-oceanic domain in the most distal part of the margins (the transition from the zone of exhumed continental mantle to unambiguous oceanic crust), short-offset flip-flop detachment faults are proposed to develop at the final stages of rifting (Gillard et al, 2015;Reston & McDermott, 2011). In the zone of exhumed continental mantle, locally reflective features above detachment fault surfaces have been attributed to localized magmatic extrusives where short-offset normal faults (overlying the main detachment fault) can serve as feeder systems for magma (Gillard et al, 2015).…”
Section: Geochemistry Geophysics Geosystemsmentioning
confidence: 99%
“…For example, what is the extent of continental crust offshore? Can we see mantle exhumation as a result of hyperextension that is common in magma-poor extensional margins (Doré & Lundin, 2015;Gillard et al, 2015;Huismans & Beaumont, 2005;Manatschal, 2004;Nemčok, 2016;Péron-Pinvidic & Manatschal, 2010)? Also, during breakup, how the normal fault controlled margins are kinematically linked with the transform margin segments during breakup?…”
Section: Introductionmentioning
confidence: 99%
“…However, the fabric of the oceanic crust in the abyssal plain is typically quite distinct from the block-faulted fabric of the continental domain (e.g., Taylor et al, 1999;Franke et al, 2011;Peron-Pinvidic et al, 2013). By analogy with the well-studied magma-poor margins of Iberia (e.g., Whitmarsh et al, 2001;Manatschal, 2004;Peron-Pinvidic et al, 2013), East India (Haupert et al, 2016), the South China Sea (e.g., Cullen et al, 2010;Franke et al, 2014;Ding et al, 2016), and southern Australia (Gillard et al, 2015), we suggest that the basement blocks are of continental origin. The basement blocks decrease in size toward the east, and we interpret these as continental crustal ribbons formed during the break-up of the Yermak Plateau and the Lomonosov Ridge.…”
Section: Structural Interpretationmentioning
confidence: 70%