Experimental food restriction reveals individual differences in corticosterone reaction norms with no oxidative costs

Highly plastic endocrine traits are thought to play a central role in allowing organisms to respond rapidly to environmental change. Yet, not all individuals display the same degree of plasticity in these traits, and the costs of this individual variation in plasticity are unknown. We studied indivi...

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Veröffentlicht in:	PloS one 2014-11, Vol.9 (11), p.e110564-e110564
Hauptverfasser:	Lendvai, Adám Z, Ouyang, Jenny Q, Schoenle, Laura A, Fasanello, Vincent, Haussmann, Mark F, Bonier, Frances, Moore, Ignacio T
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biology Biology and Life Sciences Birds Body mass Caloric Restriction - methods Captivity Corticosterone Corticosterone - blood Corticosterone - metabolism Costs Diet Dietary restrictions Eating Ecology Economic aspects Environmental changes Environmental conditions Evolution & development Female Fitness Food Food availability Food intake Hormones Male Natural populations Norms Nutrient deficiency Oxidative Stress Physiology Plastic properties Plasticity Reactive Oxygen Species - blood Sparrows Steroids (Organic compounds) Stress response
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creator	Lendvai, Adám Z Ouyang, Jenny Q Schoenle, Laura A Fasanello, Vincent Haussmann, Mark F Bonier, Frances Moore, Ignacio T
description	Highly plastic endocrine traits are thought to play a central role in allowing organisms to respond rapidly to environmental change. Yet, not all individuals display the same degree of plasticity in these traits, and the costs of this individual variation in plasticity are unknown. We studied individual differences in corticosterone levels under varying conditions to test whether there are consistent individual differences in (1) baseline corticosterone levels; (2) plasticity in the hormonal response to an ecologically relevant stressor (food restriction); and (3) whether individual differences in plasticity are related to fitness costs, as estimated by oxidative stress levels. We took 25 wild-caught house sparrows into captivity and assigned them to repeated food restricted and control treatments (60% and 110% of their daily food intake), such that each individual experienced both food restricted and control diets twice. We found significant individual variation in baseline corticosterone levels and stress responsiveness, even after controlling for changes in body mass. However, these individual differences in hormonal responsiveness were not related to measures of oxidative stress. These results have implications for how corticosterone levels may evolve in natural populations and raise questions about what we can conclude from phenotypic correlations between hormone levels and fitness measures.
doi_str_mv	10.1371/journal.pone.0110564
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Yet, not all individuals display the same degree of plasticity in these traits, and the costs of this individual variation in plasticity are unknown. We studied individual differences in corticosterone levels under varying conditions to test whether there are consistent individual differences in (1) baseline corticosterone levels; (2) plasticity in the hormonal response to an ecologically relevant stressor (food restriction); and (3) whether individual differences in plasticity are related to fitness costs, as estimated by oxidative stress levels. We took 25 wild-caught house sparrows into captivity and assigned them to repeated food restricted and control treatments (60% and 110% of their daily food intake), such that each individual experienced both food restricted and control diets twice. We found significant individual variation in baseline corticosterone levels and stress responsiveness, even after controlling for changes in body mass. 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Yet, not all individuals display the same degree of plasticity in these traits, and the costs of this individual variation in plasticity are unknown. We studied individual differences in corticosterone levels under varying conditions to test whether there are consistent individual differences in (1) baseline corticosterone levels; (2) plasticity in the hormonal response to an ecologically relevant stressor (food restriction); and (3) whether individual differences in plasticity are related to fitness costs, as estimated by oxidative stress levels. We took 25 wild-caught house sparrows into captivity and assigned them to repeated food restricted and control treatments (60% and 110% of their daily food intake), such that each individual experienced both food restricted and control diets twice. We found significant individual variation in baseline corticosterone levels and stress responsiveness, even after controlling for changes in body mass. 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subjects	Animals Biology Biology and Life Sciences Birds Body mass Caloric Restriction - methods Captivity Corticosterone Corticosterone - blood Corticosterone - metabolism Costs Diet Dietary restrictions Eating Ecology Economic aspects Environmental changes Environmental conditions Evolution & development Female Fitness Food Food availability Food intake Hormones Male Natural populations Norms Nutrient deficiency Oxidative Stress Physiology Plastic properties Plasticity Reactive Oxygen Species - blood Sparrows Steroids (Organic compounds) Stress response
title	Experimental food restriction reveals individual differences in corticosterone reaction norms with no oxidative costs
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