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Evidence for a developing plate boundary in the western Mediterranean

Laura Gómez de la Peña, César R. Ranero, Eulália Gràcia, Guillermo Booth‐Rea, José Miguel Azañón, Umberta Tinivella, Abdelkarim Yelles‐Chaouche

2022Nature Communications27 citationsDOIOpen Access PDF

Abstract

The current diffuse-strain model of the collision between Africa and Eurasia in the western Mediterranean predicts a broad region with deformation distributed among numerous faults and moderate-magnitude seismicity. However, the model is untested because most deformation occurs underwater, at poorly characterized faults of undetermined slip. Here we assess the diffuse-strain model analysing two active offshore fault systems associated with the most prominent seafloor relief in the region. We use pre-stack depth migrated seismic images to estimate, for the first time, the total Plio-Holocene slip of the right-lateral Yusuf and reverse Alboran Ridge structurally linked fault system. We show that kinematic restoration of deformational structures predicts a slip of 16 ± 4.7 km for the Alboran Ridge Fault and a minimum of 12 km for the Yusuf Fault. Thus, this fault system forms a well-defined narrow plate boundary that has absorbed most of the 24 ± 5 km Plio-Holocene Africa-Eurasia convergence and represents an underappreciated hazard.

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Mediterranean climateDeveloping countryGeographyBiologyEcologyGeological and Geophysical Studies Worldwideearthquake and tectonic studiesArchaeological and Historical Studies
Evidence for a developing plate boundary in the western Mediterranean | Litcius