%0 Journal article %A Carolli, Mauro %A Gelmini, Francesca %A Pellegrini, Stefano %A Deriu, Micaela %A Zolezzi, Guido %T Prioritizing reaches for restoration in a regulated Alpine river: Locally driven versus hydro‐morphologically based actions %R 10.23689/fidgeo-4008 %J River Research and Applications %V 37 %N 1 %I John Wiley & Sons%C Ltd. %X We discuss the prioritization of river reaches to be selected for restoration measures under the constraints of financial resource limitation. We propose and apply a simple approach based on the quantification of major hydro‐morphological alterations and the critical comparison with locally proposed restoration actions. The available hydro‐morphological and ecological data for the approach do not go beyond the requirements posed by the implementation of the EU Water Framework and Floods Directives. We describe an example that refers to a heavily regulated Alpine river (Sarca River, NE Italy). The results indicate hydropower facilities as a key source of hydrological alteration, with sediment retention and grade control structures on lateral tributaries playing an additional relevant role in reducing sediment supply. The frequency and duration of sediment‐transporting floods have dramatically decreased, and the bed sediment composition has been markedly altered and become highly compacted. Habitat improvement has been achieved after the implementation of minimum environmental flows. The comparison between the results of the hydro‐morphological indicators and the locally proposed restoration actions highlights that reaches with lower degree of hydro‐morphological alterations do not coincide with the areas chosen for the locally planned actions, which often miss considerations of the relevant spatial scales. In a context of limited available financial resources and data compared to other flagship river restoration projects in the European Alps, the present work suggests viable options for the choice of target restoration reaches. %U http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/8348 %~ FID GEO-LEO e-docs