Back to Search Start Over

3D development of detachment faulting during continental breakup

Authors :
Lymer, Gaël
Cresswell, Derren J.F.
Reston, Tim J.
Bull, Jonathan M.
Sawyer, Dale S.
Morgan, Julia K.
Stevenson, Carl
Causer, Annabel
Minshull, Tim A.
Shillington, Donna J.
Lymer, Gaël
Cresswell, Derren J.F.
Reston, Tim J.
Bull, Jonathan M.
Sawyer, Dale S.
Morgan, Julia K.
Stevenson, Carl
Causer, Annabel
Minshull, Tim A.
Shillington, Donna J.
Publication Year :
2019

Abstract

The developing asymmetry of rifting and continental breakup to form rifted margins has been much debated, as has the formation, mechanics and role of extensional detachments. Bespoke 3D seismic reflection data across the Galicia margin, west of Spain, image in unprecedented detail an asymmetric detachment (the S reflector). Mapping S in 3D reveals its surface is corrugated, proving that the overlying crustal blocks slipped on S surface during the rifting. Crucially, the 3D data show that the corrugations on S perfectly match the corrugations observed on the present-day block-bounding faults, demonstrating that S is a composite surface, comprising the juxtaposed rotated roots of block-bounding faults as in a rolling hinge system with each new fault propagation moving rifting oceanward; changes in the orientation of the corrugations record the same oceanward migration. However, in contrast to previous rolling hinge models, the slip of the crustal blocks on S occurred at angles as low as ∼20°, requiring that S was unusually weak, consistent with the hydration of the underlying mantle by seawater ingress following the embrittlement of the entire crust. As the crust only becomes entirely brittle once thinned to ∼10 km, the asymmetric S detachment and the hyper-extension of the continental crust only developed late in the rifting process, which is consistent with the observed development of asymmetry between conjugate magma poor margin pairs. The 3D volume allows analysis of the heaves and along strike architecture of the normal faults, whose planes laterally die or spatially link together, implying overlaps in faults activity during hyper-extension. Our results thus reveal for the first time the 3D mechanics and timing of detachment faulting growth, the relationship between the detachment and the network of block-bounding faults above it and the key processes controlling the asymmetrical development of conjugate rifted margins. Highlights • The 3D seismic data provide un

Details

Database :
OAIster
Notes :
text, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1299457963
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1016.j.epsl.2019.03.018