The influence of morphological variation on migration performance in a trans-hemispheric migratory songbird

The influence of morphological variation on migration performance in a trans-hemispheric migratory songbird

For long-distance migratory songbirds, morphological traits such as longer wings and a smaller body size are predicted to increase migration efficiency. Due to previous limitations in our ability to track the long-distance journeys of small-bodied birds, the relationship between morphology and start...

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Autores principales: Lam Lawrence, McKinnon Emily A., Ray James D., Pearman Myrna, Hvenegaard Glen T., Mejeur James, Moscar Lauren, Pearson Mackenzie, Applegate Kelly, Mammenga Paul, Tautin John, Fraser Kevin C.
Formato: article
Lenguaje:EN
Publicado: De Gruyter 2015
Materias:
purple martin
migration
speed
performance
stopover
body size
wing length
Biology (General)
QH301-705.5
Acceso en línea:https://doaj.org/article/954d8db6c76a46d79e06987df11f84c5
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Sumario:For long-distance migratory songbirds, morphological traits such as longer wings and a smaller body size are predicted to increase migration efficiency. Due to previous limitations in our ability to track the long-distance journeys of small-bodied birds, the relationship between morphology and start-to-finish migration performance has never been fully tested in free-living songbirds. Using direct-tracking data obtained from light-level geolocators, we examined the effects of morphological factors (wing and body size) on spring and fall migration performance (flight speed, duration of stopovers, total stopovers taken) of a widely distributed, trans-hemispheric migratory songbird, the purple martin (Progne subis) (n = 120). We found that smaller-bodied birds spent fewer days at stopovers along fall migration, but larger-bodied birds spent fewer days at stopover and took fewer stopovers during spring migration. More of the variation in fall migration performance was explained by morphology, as compared to spring migration, possibly indicating a larger influence of environmental conditions on spring performance. Overall, our results partially support long-standing and previously untested predictions regarding the influence of intrinsic factors on migration performance. Future research should examine the influence of environmental variation on migration performance as well as additional morphological traits that may contribute to migration performance.

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