What are extreme environmental conditions and how do organisms cope with them?

What are extreme environmental conditions and how do organisms cope with them?

Severe environmental conditions affect organisms in two major ways. The environment may be predictably severe such as in deserts, polar and alpine regions, or individuals may be exposed to temporarily extreme conditions through weather, presence of predators, lack of food, social status etc. Existen...

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Bibliographic Details
Published in:Current zoology Vol. 57; no. 3; pp. 363 - 374
Main Authors: Wingfield, John C., Kelley, J. Patrick, Angelier, Frédéric
Format: Journal Article
Language:English
Published: Oxford University Press 01-06-2011
Subjects:
Behavior
Corticosteroid-binding proteins
Environmental Sciences
Extreme environment
Glucocorticoids
Habitat configuration
Stress response
Habitat configuration
Corticosteroid-binding proteins
Behavior
Glucocorticoids
Stress response
Extreme environment
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Summary:Severe environmental conditions affect organisms in two major ways. The environment may be predictably severe such as in deserts, polar and alpine regions, or individuals may be exposed to temporarily extreme conditions through weather, presence of predators, lack of food, social status etc. Existence in an extreme environment may be possible, but then to breed or molt in addition can present major bottlenecks that have resulted in the evolution of hormone-behavior adaptations to cope with unpredictable events. Examples of hormone-behavior adaptations in extreme conditions include attenuated testosterone secretion because territoriality and excess courtship may be too costly when there is one opportunity to reproduce. The individual may even become insensitive to testosterone when target areas of the brain regulating reproductive behavior no longer respond to the hormone. A second example is reduced sensitivity to glucocorticoids following acute stress during the breeding season or molt that allows successful reproduction and/or a vital renewal of the integument to endure extreme conditions during the rest of the year. Reduced sensitivity could involve: (a) modulated response of the hypothalamo-pituitary-adrenal axis, (b) reduced sensitivity to high glucocorticoid levels, or (c) a combination of (a) and (b). Moreover, corticosteroid binding proteins (CBP) buffer responses to stress by reducing the movement of glucocorticoids into target cells. Finally, intracellular enzymes (11β-hydroxysteroid dehydrogenase and variants) can deactivate glucocorticoids entering cells thus reducing interaction with receptors. These mechanisms have important implications for climate change and increasing extremes of weather.
ISSN:1674-5507
2396-9814
DOI:10.1093/czoolo/57.3.363