TY - JOUR
T1 - Laying-sequence variation in yolk carotenoids and egg characteristics in the red-winged blackbird Agelaius phoeniceus
AU - Newbrey, Jennifer L.
AU - Paszkowski, Cynthia A.
AU - McGraw, Kevin
AU - Ogle, Susanna
N1 - Publisher Copyright:
© 2014 The Authors.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - In many bird species with asynchronous hatching, smaller, later-hatched nestlings are out-competed for food by their larger, earlier-hatched siblings and therefore suffer increased mortality via starvation. It is thought that female birds can either maintain or reduce the survival disadvantage of later-hatched nestlings by differentially allocating maternal resources across the eggs of a clutch. Carotenoid pigments are an example of resources that female birds allocate differentially when producing a clutch, but laying sequence patterns for these pigments remain poorly studied in North American songbirds. We examined intraclutch variation in yolk carotenoids and egg metrics in 27 full clutches of red-winged blackbird Agelaius phoeniceus eggs collected from eight wetlands in central Alberta, Canada. We predicted that carotenoids would decrease across the laying sequence, as in this species, later-hatched, marginal nestlings suffer greater mortality than earlier-hatched, core nestlings. We found nine carotenoid pigments in red-winged blackbird egg yolks, including two that have never been described from avian yolks: α-doradexanthin and adonirubin. As predicted, concentrations and amounts of most carotenoids decreased across the laying sequence, suggesting that female red-winged blackbirds depleted their carotenoid resources as they laid more eggs. However, egg mass and yolk mass both increased across the laying sequence, suggesting that female red-winged blackbirds may use other maternal resources to compensate for the size and survival disadvantage experienced by later-hatched, marginal nestlings.
AB - In many bird species with asynchronous hatching, smaller, later-hatched nestlings are out-competed for food by their larger, earlier-hatched siblings and therefore suffer increased mortality via starvation. It is thought that female birds can either maintain or reduce the survival disadvantage of later-hatched nestlings by differentially allocating maternal resources across the eggs of a clutch. Carotenoid pigments are an example of resources that female birds allocate differentially when producing a clutch, but laying sequence patterns for these pigments remain poorly studied in North American songbirds. We examined intraclutch variation in yolk carotenoids and egg metrics in 27 full clutches of red-winged blackbird Agelaius phoeniceus eggs collected from eight wetlands in central Alberta, Canada. We predicted that carotenoids would decrease across the laying sequence, as in this species, later-hatched, marginal nestlings suffer greater mortality than earlier-hatched, core nestlings. We found nine carotenoid pigments in red-winged blackbird egg yolks, including two that have never been described from avian yolks: α-doradexanthin and adonirubin. As predicted, concentrations and amounts of most carotenoids decreased across the laying sequence, suggesting that female red-winged blackbirds depleted their carotenoid resources as they laid more eggs. However, egg mass and yolk mass both increased across the laying sequence, suggesting that female red-winged blackbirds may use other maternal resources to compensate for the size and survival disadvantage experienced by later-hatched, marginal nestlings.
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U2 - 10.1111/jav.00332
DO - 10.1111/jav.00332
M3 - Article
AN - SCOPUS:84923084677
SN - 0908-8857
VL - 46
SP - 46
EP - 54
JO - Journal of Avian Biology
JF - Journal of Avian Biology
IS - 1
ER -