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Located in the central-eastern Mediterranean, the Albanides are a subduction orogen formed by the accretion of slices of continental lithosphere scraped offthe upper plate during the eastward subduction ofAdria. This subduction has promoted NE-SW shortening that started in the Late Cretaceous and continues to the present. Despite advancements in geophysical studies,aimed at understanding and illuminating the deep structures, the dynamics of crustal accretion within the subduction zone remain challenging.Weinvestigate the recent crustal thickening of the Albanides and explore the relationship between deep-seated structures and surface deformation by employing low-temperature thermochronology and 3D thermokinematic modeling of a seismically constrained crustal section. Our results reveal a latest Miocene-Pliocene rejuvenation of the orogenic system marked by pulses of 3-4 km of exhumation,likelydriven by a deep-seated thrust system. These findings provide important insights into the timing and kinematics of orogenic building processes, highlightingthe interactionbetween deep underplating and surface geology in the Albanides, and contributingto our understanding of Mediterranean platekinematics.
Rossetti et al. (Wed,) studied this question.