Beaumelle, C.; Barbet, J.; Cuby, A.; Chautan, M.; Etienne, F.; Martel, M.; Du Roure, A.; Chabanne, R.; Lauer, E.; Le Rest, K.

Habitat selection is a key mechanism that enables animals to optimize their fitness in response to varying environmental conditions. Differences in habitat selection between geographical areas may imply behavioral adaptations to local environmental conditions. Understanding the potential of adaptation of species along broad geographical ranges is of primary interest to anticipate potential changes in species behavior or distribution range in the context of climate changes. In this study, we investigated the habitat selection and the daily movement patterns of the Eurasian Woodcock, Scolopax rusticola, a bird species that winters across widely varying climatic zones. We tracked 89 individuals wintering in the Mediterranean regions with GPS-VHF transmitters, where climate and habitats conditions differ significantly from the oceanic regions. To assess how they responded to varying habitat and environmental conditions, we collected data across four geographical regions spanning a gradient of Mediterranean climatic influence -- ranging from northern subareas with denser forest and deeper soil to southern subareas characterized by less productive forests, garrigues, and rocky soil. In wetter regions, woodcocks generally commuted between diurnal resting in forested areas and nocturnal feeding in open habitats, though less frequently than described in studies from other climatic regions. Under drier conditions, they often remained within forest habitats, displaying higher daytime activity and reduced nocturnal movement. Across all subareas, denser forests were selected during the day. The selection for nocturnal forest microhabitats varied by subarea, e.g., denser low vegetation was more strongly selected in southern subareas, while forest habitats highly covered by forest herbs were mostly avoided in northern subareas. Our findings underscore the remarkable behavioral flexibility of woodcocks, highlighting their potential to adapt to global change. However, the occurrence of escape movements under the driest conditions suggest that this change in behavior and habitat selection may be an early warning sign of the effects of climate change on the wintering areas. Overall, our study emphasizes the need to study the ecology of species across diverse environmental conditions to better understand their habitat requirements and adaptive capacity.