Early-Life Corticosterone Body Condition Influence Social Status and Survival in a Food-Caching Passerine

雀形目 羽毛 少年 生物 生物扩散 羽翼 皮质酮 生态学 人口 动物 生理状态 人口学 孵化 内分泌学 社会学 激素
作者
Nikole E. Freeman,D. Ryan Norris,Alex O. Sutton,Dan Strickland,Kurt Kyser,Amy E. M. Newman
出处
期刊:Integrative and Comparative Biology [Oxford University Press]
卷期号:61 (1): 9-19 被引量:6
标识
DOI:10.1093/icb/icab038
摘要

Synopsis Individuals undergo profound changes throughout their early life as they grow and transition between life-history stages. As a result, the conditions that individuals experience during development can have both immediate and lasting effects on their physiology, behavior, and, ultimately, fitness. In a population of Canada jays in Algonquin Provincial Park, Ontario, Canada, we characterized the diet composition and physiological profile of young jays at three key time points during development (nestling, pre-fledge, and pre-dispersal) by quantifying stable-carbon (δ13C) and -nitrogen (δ15N) isotopes and corticosterone concentrations in feathers. We then investigated the downstream effects of early-life diet composition, feather corticosterone, and environmental conditions on a juvenile’s social status, body condition, and probability of being observed in the fall following hatch. Across the three time points, the diet of Canada jay young was composed primarily of vertebrate tissue and human food with the proportion of these food items increasing as the jays neared dispersal. Feather corticosterone concentrations also shifted across the three time points, decreasing from nestling to pre-dispersal. Dominant juveniles had elevated corticosterone concentrations in their feathers grown pre-dispersal compared with subordinates. High body condition as nestlings was associated with high body condition as juveniles and an increased probability of being observed in the fall. Together, our results demonstrate that nestling physiology and body condition influence the social status and body condition once individuals are independent, with potential long-term consequences on survival and fitness.

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