Feather growth and quality across passerines is explained by breeding rather than moulting latitude

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Authors

HORÁK Kryštof BOBEK Lukáš KOTASOVÁ ADÁMKOVÁ Marie KAUZÁL Ondřej KAUZÁLOVÁ Tereza POUADJEU MANIALEU Judith BENOÎT NGUELEFACK Télesphore DJOMO NANA Eric ANDREAS JONSSON Knud MUNCLINGER Pavel HOŘÁK David SEDLÁČEK Ondřej TOMÁŠEK Oldřich ALBRECHT Tomáš

Year of publication 2022
Type Article in Periodical
Magazine / Source Proceedings of the Royal Society B-Biological Sciences
MU Faculty or unit

Faculty of Science

Citation
Web https://royalsocietypublishing.org/doi/abs/10.1098/rspb.2021.2404
Doi http://dx.doi.org/10.1098/rspb.2021.2404
Keywords comparative analysis; fault bars; life-history; long-distance migration; pace-of-life syndromes; ptilochronology
Description Tropical bird species are characterized by a comparatively slow pace of life, being predictably different from their temperate zone counterparts in their investments in growth, survival and reproduction. In birds, the development of functional plumage is often considered energetically demanding investment, with consequences on individual fitness and survival. However, current knowledge of interspecific variation in feather growth patterns is mostly based on species of the northern temperate zone. We evaluated patterns in tail feather growth rates (FGR) and feather quality (stress-induced fault bar occurrence; FBO), using 1518 individuals of 167 species and 39 passerine families inhabiting Afrotropical and northern temperate zones. We detected a clear difference in feather traits between species breeding in the temperate and tropical zones, with the latter having significantly slower FGR and three times higher FBO. Moreover, trans-Saharan latitudinal migrants resembled temperate zone residents in that they exhibited a comparatively fast FGR and low FBO, despite sharing moulting environments with tropical species. Our results reveal convergent latitudinal shifts in feather growth investments (latitudinal syndrome) across unrelated passerine families and underscore the importance of breeding latitude in determining cross-species variation in key avian life-history traits.
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