Interaction of accretion mechanisms and deep fluids in continental orogenesis.

[Display omitted] • High resolution seismic imaging of the deep wedge structure.. • Frontal accretion versus underplating in the Apennines. • Influence of crustal hydration on delamination efficiency and belt accretionary style. Mountain-building often involves the subduction of continental margins during the convergence of tectonic plates. Rheological heterogeneities and structural inheritance in the subducting lithosphere are main factors controlling the evolution of the process and deformation partitioning in orogenic wedges. Here, we present tomographic evidence of a main along-strike change in the structure of the Apennines belt, where frontal accretion diminishes laterally, as well as plate bending, and the contribution of underplating to crustal thickening becomes evident. We hypothesize that the diverse mechanisms of mountain formation can be attributed to rheological heterogeneity in the crust and interactions with fluids liberated during the subduction process. The development of shallow decollements versus underplating is favored by differing amounts and styles of deep fluid liberation from the subducting crust. [ABSTRACT FROM AUTHOR]