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Abstract
The vertebrate stress response helps animals respond to environmental dangers such
as predators or storms. An important component of the stress response is glucocorticoid
(GC) release, resulting from activation of the hypothalamic-pituitary-adrenal axis.
After release, GCs induce a variety of behavioral and physiological changes that presumably
help the animal respond appropriately to the situation. Consequently, GC secretion
is often considered an obligatory response to stressful situations. Evidence now indicates,
however, that free-living species from many taxa can seasonally modulate GC release.
In other words, the magnitudes of both unstressed and stressed GC concentrations change
depending upon the time of year. This review examines the growing evidence that GC
concentrations in free-living reptiles, amphibians, and birds, but not mammals, are
commonly elevated during the breeding season. This evidence is then used to test three
hypotheses with different focuses on GC's energetic or behavioral effects, as well
as on GC's role in preparing the animal for subsequent stressors. These hypotheses
attempt to place annual GC rhythms into a physiological or behavioral context. Integrating
seasonal differences in GC concentrations with either different physiological states
or different life history stages provides clues to a new understanding of how GCs
actually help in survival during stress. Consequently, understanding seasonal modulation
of GC release has far-reaching importance for both the physiology of the stress response
and the short-term survival of individual animals.