Abstract
Telomeres are nucleotide sequences located at the ends of chromosomes that promote genome stability. Changes in telomere length (dynamics) are related to fitness or life expectancy, and telomere dynamics during the development phase are likely to be affected by growth and stress factors. Here, we examined telomere dynamics of black-tailed gull chicks (Larus crassirostris) in nests with and without siblings. We found that the initial telomere lengths of singletons at hatching were longer than those of siblings, indicating that singletons are higher-quality chicks than siblings in terms of telomere length. Other factors likely affecting individual quality (i.e., sex, laying date, laying order of eggs, and clutch size) were not related to telomere lengths. Within broods, initial telomere lengths were longer in older chicks than in younger chicks, suggesting that maternal effects, which vary with laying sequence, influence the initial lengths. Additionally, telomeres of chicks with a sibling showed more attrition between hatching and fledging than those of singleton chicks, suggesting that being raised with siblings can cause a sustained competitive environment that leads to telomere loss. High growth rates were associated with a low degree of telomere shortening observed in older siblings, perhaps because slower growth reflects higher food stress and/or higher aerobic metabolism from increased begging effort. Our results show that developmental telomere attrition was an inevitable consequence in two-chick nests in the pre- and post-hatching microenvironments due to the combination of social stress within the nest and maternal effects. The results of our study shed light on telomere dynamics in early life, which may represent an important physiological undercurrent of life-history traits.
Highlights
Telomeres are nucleotide sequences located at the ends of chromosomes; they promote genome stability and shorten with each cycle of cell division in the absence of restoration [1]
We investigated how growth and competition are related to telomere dynamics during the nestling period of a long-lived seabird, the black-tailed gull, by comparing telomere lengths among chicks with different growth rates and brood sizes
We examined the following hypotheses: (1) whether telomere lengths are different at hatching and at fledging between singleton chicks and chicks with a sibling; (2) whether chicks with a higher growth rate show more telomere shortening or lengthening; and (3) whether sibling rivalry promotes telomere shortening in two-chick nests during the first month of life
Summary
Telomeres are nucleotide sequences located at the ends of chromosomes; they promote genome stability and shorten with each cycle of cell division in the absence of restoration [1]. Telomeres are shortened by oxidative damage due to physiological and psychological stresses [2,3] and can be lengthened via the enzyme telomerase [4]. Telomere length appears to change most drastically during periods of growth and/or before sexual maturation. Competition and Telomere Change and analysis, decision to publish, or preparation of the manuscript
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