Abstract
The Cantabrian fault (CF) is a crustal-scale structure that cuts obliquely the western North Iberian Margin (NIM) for 160 km and continues onshore transecting the Cantabrian Mountains (CM) for another 150 km as the Ventaniella fault (VF). For most of its length inland, the fault system is aseismic, except for a 70 km long segment at its southern end. Within this segment, a gently north-dipping linear arrangement of earthquakes was interpreted as related to the intersection of a slightly oblique fault to VF with the basal thrust of the CM. In addition to earthquake nucleation along parts of its length, the CF–VF also stands out regionally as a major seismotectonic boundary, separating a seismically active area to the West from an essentially aseismic region to the East. Contrasting tectonothermal evolution in the crust on either side during the Mesozoic rifting may underlie the observed differences. On the other hand, the seismicity within the subsea segment is low magnitude, persistent, and understudied. The scarcity of the permanent seismic stations distribution in the area did not allow to establish more than a generalized consensus relating the offshore events to the submarine structure. A recent local seismic network monitored the area providing the highest accuracy information on the offshore events to date. Although the location of foci is partially challenged by the lack of recording stations from northern azimuths at sea, the observed pattern shows indeed a broad linear trend in the submarine domain in relation to the crustal-scale structure. Specifically, this study shows that the distribution of foci offshore display two preferential areas along the CF–VF within its southern crustal block. Considering the basement rock types and the deep architectural disposition of the margin crust, two possible explanations for the origin of the clusters are put forward in this contribution.
Highlights
TECTONIC SETTINGThe opening of the Atlantic Ocean initiated in the late Jurassic to early Cretaceous and had several aborted branches
We focus on the distribution of the offshore seismicity at the western North Iberian Margin (NIM), and that associated to the Cantabrian fault (CF) trace at sea, based on data from different available seismic networks
Based on the seismological study of events recorded on local seismic networks focused on the Ventaniella fault (VF)–CF system complemented with earlier available data, a map of earthquake activity along the western continental platform of the NIM is presented
Summary
The opening of the Atlantic Ocean initiated in the late Jurassic to early Cretaceous and had several aborted branches. The northern coast of the Iberian Peninsula constitutes the southern margin of one of these aborted rifts: the Bay of Biscay. The opening of the Bay of Biscay, progressing from West to East, produced the hyperextension of the northeastern part of the Iberian Peninsula leaving a strong thermal imprint in the crust (e.g., Tugend et al, 2014; Cadenas et al, 2018). The Cantabrian Fault at Sea (Cadenas et al, 2020), can be summarized into (1) an early diffuse widespread Triassic system, (2) a confined Late Jurassic to Barremian left-lateral transtensional one, and (3) a wide Aptian to Cenomanian hyperextended rift system. West of the Ventaniella fault (VF)–Cantabrian fault (CF), in the area targeted in this study, the later systems were less important than to the East, and the variscan basement considerably less affected thermally and tectonically
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