Endogenous control of migration and calendar effects in an intratropical migrant, the yellow-green vireo

Abstract

Endogenous circannual rhythms control the time course for moult, migratory fattening and autumn migration in juveniles of several bird species that breed in the temperate zone. Exogenous factors, such as daylength, can also exert a measure of control: photoperiodic cues detected by birds that hatch late in the season induce accelerated juvenile development, assuring that late-hatched young migrate at the same time as early-hatched young. Whether these same mechanisms of control also apply to birds that migrate between breeding and nonbreeding areas entirely within the tropics at latitudes characterized by little seasonal variation in photoperiod is unknown. We conducted a common-garden experiment in Panama (9°N) in which we hand-reared wild-caught nestling yellow-green vireos, Vireo flavoviridis, under a constant photoperiod and monitored them for the expression of juvenile moult, migratory fattening and migratory activity. Even in the absence of a seasonal photoperiodic cue, juveniles moulted, accumulated fat reserves and initiated migratory activity, suggesting endogenous control of these processes. Age at the onset of moult, migratory fattening and migratory activity were each significantly negatively correlated with hatch date, however, so that the expression of these three processes was synchronized among juveniles with respect to the time of the season. We suggest that the slight differences in daylength perceived either by the nestlings themselves in the short time before they were collected (at 6–8 days of age) or by the adult females during egg production influenced rate of nestling development, thus allowing later-hatched young to moult, accumulate fat and migrate at a younger age than early-hatched young. Remarkably, photoperiod differed between the earliest and latest hatch dates in this study by only 33min.