The relationship of moult timing, duration and sequence to the aerial lifestyle of the Little Swift (Apus affinis)

Abstract: Feather moult is an important and energy‐demanding avian life‐history trait that is necessary to maintain the function of the plumage by replacing abraded feathers with new ones. However, during moult, aerodynamic capacity is temporarily impaired by the reduction and shape change of the flight surface. Therefore, among aerial birds, adaptations may evolve to reduce this impairment. Here, we studied the timing, duration and sequence of the annual complete moult of adult Little Swifts Apus affinis in northern Is… Show more

“…The relationship between morphology and performance is an important force driving evolution [16]. This relationship between flight and remex [12,13] or rectrix moult strategy [17,18] indicates that moult strategy can be used to understand flight performance in extinct pennaraptorans. Understanding moult in non-avian feathered dinosaurs may therefore improve our understanding of ecology, the biomechanical factors that shape wing morphology, and the evolution of other life-history traits in those extinct species [19].…”

Earliest evidence of avian primary feather moult

“…The relationship between morphology and performance is an important force driving evolution [16]. This relationship between flight and remex [12,13] or rectrix moult strategy [17,18] indicates that moult strategy can be used to understand flight performance in extinct pennaraptorans. Understanding moult in non-avian feathered dinosaurs may therefore improve our understanding of ecology, the biomechanical factors that shape wing morphology, and the evolution of other life-history traits in those extinct species [19].…”

Earliest evidence of avian primary feather moult