T. Scott Smeltz Jeffrey Welker Matthew Rogers Craig R. Ely Nathan Wolf 2020 <p>Determining the processes that shape the relative timing of energetically-costly events in the annual cycle of migrating birds is important to our understanding of avian phenology and ecology. We paired satellite tracking and hydrogen stable isotope analysis (δ²H) to examine the relative timing of two such events – migration and feather molting – in tundra swans from four breeding areas in Alaska, USA. Our results show a trend of increasing intra-individual variability in breast feather δ²H values with increasing migration distance, suggesting the overlap of breast feather molting and migration. However, when individual samples were pooled by breeding area, the δ²H values of breast and head feathers showed no trend with migration distance, presumably resulting from high levels of inter-individual variability in δ²H values within each breeding area. We explore potential reasons for this variability, propose potential mechanisms influencing feather δ²H values of tundra swans, and recommend further research into methods for exploring the temporal configuration of events in the annual cycle of migrating birds.</p> application/pdf 10.1515/ami-2020-0102 en De Gruyter Exploring overlap of feather molting and migration in Tundra Swans using δ2H analysis article