TY - JOUR
T1 - Carotenoid-based plumage pigmentation and concentration as a function of sex and habitat type in the Yellow-breasted Boubou Laniarius atroflavus
AU - Osinubi, S. Temidayo
AU - McGraw, Kevin
AU - Ottosson, Ulf
AU - Brown, Jennifer A.
AU - Briskie, James V.
AU - Chapman, Hazel M.
N1 - Funding Information: Acknowledgements — This study was made possible with funding from the College of Science International Doctoral Research Scholarship and of the College of Engineering Publication Scholarship of the University of Canterbury, the African Bird Club Conservation Fund, the International Foundation for Science Research Grant, the Education New Zealand Postgraduate Study Abroad Award, and the Journal of Experimental Biology Travelling Fellowship. Thanks to the Editor-in-Chief and reviewers for their valued input in the preparation of the manuscript. This is publication no. 131 from the AP Leventis Ornithological Research Institute. Publisher Copyright: © 2018, © 2018 NISC (Pty) Ltd.
PY - 2018/7/3
Y1 - 2018/7/3
N2 - The study of avian integumentary colouration can offer insight into dietary and metabolic processes as well as fitness in focal species. Yet, we know relatively less about the system of feather colouration in African birds in comparison to Europe, North America and the neotropics. In this study, we biochemically characterised and quantified the pigmentary basis for breast plumage colouration in the Yellow-breasted Boubou Laniarius atroflavus, a little-known Afromontane species restricted to the Nigerian–Cameroon Highlands. We also measured differences in carotenoid concentration and feather reflectance between sexes, and between birds inhabiting edge and riparian habitats. Six carotenoid pigments were recovered from the yellow feathers–canary xanthophyll A and B, a cis isomer of each, isoastaxanthin and an unidentified carotenoid. We determined that the yellow colour of the breast feathers is carotenoid-based, with the greater proportion as canary xanthophylls. The presence of the ketocarotenoid, isoastaxanthin, provides the basis for further studies into red, orange and yellow coloured congenerics. Males appeared to have higher feather pigment concentrations than females, and birds resident in the edge habitat appeared to have slightly higher feather pigment concentrations than those in the degraded riparian habitat. There was little indication of differences in feather reflectance between sexes and habitat types. However, low samples size restricted further differentiation. There is also the need for further studies on the dietary and metabolic pathways of feather colouration to better understand how ecological variation may shape pigment uptake, transport, synthesis and deposition in feathers.
AB - The study of avian integumentary colouration can offer insight into dietary and metabolic processes as well as fitness in focal species. Yet, we know relatively less about the system of feather colouration in African birds in comparison to Europe, North America and the neotropics. In this study, we biochemically characterised and quantified the pigmentary basis for breast plumage colouration in the Yellow-breasted Boubou Laniarius atroflavus, a little-known Afromontane species restricted to the Nigerian–Cameroon Highlands. We also measured differences in carotenoid concentration and feather reflectance between sexes, and between birds inhabiting edge and riparian habitats. Six carotenoid pigments were recovered from the yellow feathers–canary xanthophyll A and B, a cis isomer of each, isoastaxanthin and an unidentified carotenoid. We determined that the yellow colour of the breast feathers is carotenoid-based, with the greater proportion as canary xanthophylls. The presence of the ketocarotenoid, isoastaxanthin, provides the basis for further studies into red, orange and yellow coloured congenerics. Males appeared to have higher feather pigment concentrations than females, and birds resident in the edge habitat appeared to have slightly higher feather pigment concentrations than those in the degraded riparian habitat. There was little indication of differences in feather reflectance between sexes and habitat types. However, low samples size restricted further differentiation. There is also the need for further studies on the dietary and metabolic pathways of feather colouration to better understand how ecological variation may shape pigment uptake, transport, synthesis and deposition in feathers.
KW - Malaconotidae
KW - canary xanthophyll
KW - carotenoid content
KW - isoastaxanthin
KW - plumage colouration
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U2 - 10.2989/00306525.2018.1464076
DO - 10.2989/00306525.2018.1464076
M3 - Article
SN - 0030-6525
VL - 89
SP - 259
EP - 264
JO - Ostrich
JF - Ostrich
IS - 3
ER -