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Investigating the Porcupine Atlantic margin, offshore Ireland, through integration of new seismic reflection and gravity data.
- Source :
-
Tectonophysics . May2021, Vol. 807, pN.PAG-N.PAG. 1p. - Publication Year :
- 2021
-
Abstract
- While the offshore Irish Atlantic margin and related rift basins have been intensively studied for several decades, the Porcupine Bank, straddling between the well-studied Porcupine and Rockall basins, is a poorly understood region due to lacking sufficient geophysical data coverage. In this study, ten newly acquired long-offset multichannel seismic profiles extending across the western Porcupine Bank margin, combined with potential field data, are used to investigate the crustal architecture, tectonic history, and rift-related magmatism along the margin. Significant margin-parallel and margin-perpendicular structural variations are observed and these are used to map the crustal architecture in terms of rifted margin domains. In the transitional zone between continental and oceanic crust, both peridotite ridges with shallow reflective basement and exhumed serpentinized mantle with deeper and smoother basement are interpreted, similar to the conjugate Iberian and Newfoundland margins, as well as further south at the Goban Spur margin. In addition to inferred variations in extension rate during poly-phased rifting episodes, the reactivation of pre-existing inherited Caledonian and Variscan structural fabrics are proposed to have influenced the variable geometries and distributions of the crustal domains along the Porcupine Atlantic margin. Northwestward increasing volcanism and related reflectivity patterns support the transition from magma-poor rifting in the southeast to magma-rich rifting in the northwest. Rigid plate reconstructions of the Irish Atlantic and the Newfoundland margins, particularly involving the Flemish Cap, back to the Early Campanian period, show asymmetric rifting and final continental breakup migrating toward the Porcupine Bank region. This asymmetry is possibly due to oblique extension between the two margins, and/or oblique deformation on the Porcupine Bank side due to its rotation during the opening of the Porcupine Basin. • Significant margin-parallel and margin-perpendicular variations in crustal architecture along the Porcupine Atlantic margin. • The margin experienced partitioned and localized deformation due to interplay of structural inheritance with Mesozoic rifting. • Northwestward increasing volcanism supports transition from magma-poor to magma-rich rifting along Porcupine Atlantic margin. • Rigid plate restoration between two margins indicates asymmetry of crustal domains and varying extension obliquity. [ABSTRACT FROM AUTHOR]
- Subjects :
- *PORCUPINES
*RIFTS (Geology)
*OCEANIC crust
*CONTINENTAL crust
*GRAVITY
*MESOZOIC Era
Subjects
Details
- Language :
- English
- ISSN :
- 00401951
- Volume :
- 807
- Database :
- Academic Search Index
- Journal :
- Tectonophysics
- Publication Type :
- Academic Journal
- Accession number :
- 149633330
- Full Text :
- https://doi.org/10.1016/j.tecto.2021.228809