Add to ORKGClimate change leads to rapid, differential changes in phenology across trophic levels, often resulting in temporal mismatches between predators and their prey. If a species cannot easily adjust its timing, it can adapt by choosing a new breeding location with a later phenology of its prey. In this study, we experimentally investigated whether long-distance dispersal to northern breeding grounds with a later phenology could be a feasible process to restore the match between timing of breeding and peak food abundance and thus improve reproductive success. Here, we report the successful translocation of pied flycatchers (Ficedula hypoleuca) to natural breeding sites 560 km to the Northeast. We expected translocated birds to have a fitness adv...
Climate-driven changes in the overall abundance or phenology of food resources may be critical facto...
Advanced timing of both seasonal migration and reproduction in birds has been strongly associated wi...
Many organisms use day length as a cue for synchronizing their life cycles with seasonal changes in ...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Environmental conditions under which species reproduce have major consequences on breeding success a...
Analyses of long-term data indicate that human-caused climatic changes are affecting bird phenology ...
Natal dispersal allows individuals to reach suitable breeding sites. The effect of present plant phe...
When climatic conditions change and become outside the range experienced in the past, species may sh...
Analyses of long-term data indicate that human-caused climatic changes are affecting bird phenology ...
Spring temperatures in temperate regions have increased over the past 20 years, and many organisms h...
Climate change is rapidly advancing spring phenology but at different rates in different species. Wh...
Climate change is rapidly advancing spring phenology [1-3] but at different rates in different speci...
Climate-driven changes in the overall abundance or phenology of food resources may be critical facto...
Advanced timing of both seasonal migration and reproduction in birds has been strongly associated wi...
Many organisms use day length as a cue for synchronizing their life cycles with seasonal changes in ...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Climate change leads to rapid, differential changes in phenology across trophic levels, often result...
Environmental conditions under which species reproduce have major consequences on breeding success a...
Analyses of long-term data indicate that human-caused climatic changes are affecting bird phenology ...
Natal dispersal allows individuals to reach suitable breeding sites. The effect of present plant phe...
When climatic conditions change and become outside the range experienced in the past, species may sh...
Analyses of long-term data indicate that human-caused climatic changes are affecting bird phenology ...
Spring temperatures in temperate regions have increased over the past 20 years, and many organisms h...
Climate change is rapidly advancing spring phenology but at different rates in different species. Wh...
Climate change is rapidly advancing spring phenology [1-3] but at different rates in different speci...
Climate-driven changes in the overall abundance or phenology of food resources may be critical facto...
Advanced timing of both seasonal migration and reproduction in birds has been strongly associated wi...
Many organisms use day length as a cue for synchronizing their life cycles with seasonal changes in ...