Magellanic penguin telomeres do not shorten with age with increased reproductive effort, investment, and basal corticosterone

All species should invest in systems that enhance longevity; however, a fundamental adult life‐history trade‐off exists between the metabolic resources allocated to maintenance and those allocated to reproduction. Long‐lived species will invest more in reproduction than in somatic maintenance as the...

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Bibliographic Details
Published in:Ecology and evolution 2017-08, Vol.7 (15), p.5682-5691
Main Authors: Cerchiara, Jack A., Risques, Rosa Ana, Prunkard, Donna, Smith, Jeffrey R., Kane, Olivia J., Boersma, P. Dee
Format: Article
Language:English
Subjects:
Adults
Age
aging
Animal reproduction
Breeding
Breeding seasons
Breeding success
Chicks
Chromosomes
comparative physiology
Correlation analysis
Corticosterone
Eggs
Females
Investment
Juveniles
Life history
Life span
life‐history evolution
Longevity
Maintenance
Original Research
Predictions
Reproduction
Reproduction (biology)
Reproductive effort
Species
Telomerase
Telomeres
Tradeoffs
Yeast
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Summary:All species should invest in systems that enhance longevity; however, a fundamental adult life‐history trade‐off exists between the metabolic resources allocated to maintenance and those allocated to reproduction. Long‐lived species will invest more in reproduction than in somatic maintenance as they age. We investigated this trade‐off by analyzing correlations among telomere length, reproductive effort and output, and basal corticosterone in Magellanic penguins (Spheniscus magellanicus). Telomeres shorten with age in most species studied to date, and may affect adult survival. High basal corticosterone is indicative of stressful conditions. Corticosterone, and stress, has been linked to telomere shortening in other species. Magellanic penguins are a particularly good model organism for this question as they are an unusually long‐lived species, exceeding their mass‐adjusted predicted lifespan by 26%. Contrary to our hypothesis, we found adults aged 5 years to over 24 years of age had similar telomere lengths. Telomeres of adults did not shorten over a 3‐year period, regardless of the age of the individual. Neither telomere length, nor the rate at which the telomeres changed over these 3 years, correlated with breeding frequency or investment. Older females also produced larger volume clutches until approximately 15 years old and larger eggs produced heavier fledglings. Furthermore, reproductive success (chicks fledged/eggs laid) is maintained as females aged. Basal corticosterone, however, was not correlated with telomere length in adults and suggests that low basal corticosterone may play a role in the telomere maintenance we observed. Basal corticosterone also declined during the breeding season and was positively correlated with the age of adult penguins. This higher basal corticosterone in older individuals, and consistent reproductive success, supports the prediction that Magellanic penguins invest more in reproduction as they age. Our results demonstrate that telomere maintenance may be a component of longevity even with increased reproductive effort, investment, and basal corticosterone. Long‐lived species should invest more in reproduction than in somatic maintenance as they age. We investigated this trade‐off by analyzing correlations among telomere length, reproductive effort and output, and basal corticosterone in Magellanic penguins. We found that these penguins, which exceed their maximum predicted lifespan by 26%, had telomeres that do not sh
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.3128