Abstract
AbstractThis contribution investigates the role of a hyperextended rift system in the formation of the Basque–Cantabrian Pyrenees by discussing their present‐day architecture as well as the inherited rift template. Moreover, this work attempts to decipher the onset of reactivation of a hyperextended system and to discuss the related processes during collision. To carry out this study, two regional, crustal‐scale cross‐sections are presented that provide geological and geophysical information and interpretations across the Central and Western Basque–Cantabrian Pyrenees. Moreover, the two sections are restored back to the Cenomanian and Barremian, corresponding to the end of two independent rift stages respectively. The two sections document different structural styles observed along the orogenic belt. The Central section, involving the Iberian and European plates, shows a thin‐skinned structural style, where the Upper Triassic salt acted as a decoupling level between the sedimentary cover and the underlying basement during both extension and reactivation. The Western section, by contrast, crosses only the Iberian plate (i.e., intra‐plate section) and displays a hybrid situation showing both thin‐ and thick‐skinned structural styles that were conditioned by the irregular distribution of Triassic salt. Extensional deformation was localised in the north (i.e., Bay of Biscay) and less important in the south. Despite compressional reactivation, the northern part of the Western section preserves its rift template, which provides key insights to restore the internal part of the Central section. In contrast to the Western section, the Central section shows stacked depocenters, resulting from overprinted Mesozoic rift events that had a first order control on the subsequent reactivation. This study corroborates the importance of rift inheritance during the onset of convergence by reactivating the most distal and weak part of the rift system (i.e., serpentinised mantle) before starting the collision phase. A key learning is that the understanding of the nature and distribution of decoupling levels at a crustal scale is fundamental to reconstruct the structural evolution during the formation and reactivation of a hyperextended rift system.
Highlights
The Pyrenean orogenic system has been used by the Earth Science community for decades as a natural laboratory to study fold and thrust belts and more recently to investigate the reactivation of rift systems
No evidence of contractional structures are observed in the Iberian crust in the central part of the Basque–Cantabrian Pyrenees and just few reactivated normal faults are interpreted in the asymmetric European margin (Figure 11)
The first addressed the present-day structure and architecture of the Basque– Cantabrian Pyrenees and the second studied the role of the rift template on subsequent compressional reactivation and, EAGE
Summary
The Pyrenean orogenic system has been used by the Earth Science community for decades as a natural laboratory to study fold and thrust belts and more recently to investigate the reactivation of rift systems. The area has been intensively explored for hydrocarbon purposes from the 60s to the 90s, leading to the acquisition of a vast amount of commercial seismic reflection profiles and drill hole data This provides a valuable field example to study the evolution of a hyperextended rift system and the role of rift inheritance during the contractional reactivation and incorporation of a passive. We introduce a new section across the western termination of the Basque– Cantabrian Pyrenees in order to analyse the along strike structural variability Such variability will enable to characterise and discuss the multistage Mesozoic rift evolution of the area (see below for the definition of a multistage rift system) and its reactivation and incorporation into the Pyrenean orogen. The Basque–Cantabrian Basin has been explained by using three different models of rift basins (Figure 2a): (a) a strike
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
