Allostatic load, social status and stress hormones: the costs of social status matter

Cooperation and social support are the major advantages of living in social groups. However, there are also disadvantages arising from social conflict and competition. Social conflicts may increase allostatic load, which is reflected in increased concentrations of glucocorticoids. We applied the emerging concept of allostasis to investigate the relation between social status and glucocorticoid concentrations. Animals in a society experience different levels of allostatic load and these differences may predict relative glucocorticoid concentrations of dominant and subordinate individuals. We reviewed the available data from free-ranging animals and generated, for each sex separately, phylogenetic independent contrasts of allostatic load and relative glucocorticoid concentrations. Our results suggest that the relative allostatic load of social status predicts whether dominants or subordinates express higher or lower concentrations of glucocorticoids. There was a significant correlation between allostatic load of dominance and relative glucocorticoid concentrations in both females and males. When allostatic load was higher in dominants than in subordinates, dominants expressed higher levels of glucocorticoids; when allostatic load was similar in dominants and subordinates, there were only minor differences in glucocorticoid concentrations; and when allostatic load was lower in dominants than in subordinates, subordinates expressed higher levels of glucocorticoids than dominants. To our knowledge, this is the first model that consistently explains rank differences in glucocorticoid concentrations of different species and sexes. The heuristic concept of allostasis thus provides a testable framework for future studies of how social status is reflected in glucocorticoid concentrations.

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