Interpopulation variability of endocrine and metabolic response to cold stress in northern red-backed vole (Myodes rutilus)

Abstract

In natural environment, stresses, when animals happen to be exposed to them, influence the functional activity of adrenal cortex. It can be expected that in animals, living under unfavorable conditions, basal concentration of glucocorticoid hormones would be increased while adrenocortical response to acute stress would be weakened. Since the main function of stress-reaction is resources mobilization meant to compensate an environmental impact, its weakening should lead to reduction of reserve metabolic capacities. To test this hypothesis, we compared energy metabolism, body temperature, and corticosterone concentration in blood plasma measured in northern red-back voles (Myodes rutilus) before and after acute cooling in helium-oxygen mixture. Voles belonged to two populations that deffered in relative abundance. It is found out that voles from a population of low relative abundance inhabiting the recreational forest of Novosibirsk Scientific Center, despite their being more stress-prone and having weakened stress-reaction, have higher maximum metabolic rate than voles from the mountain taiga polulation with high relative abundance. The results obtained suggest that living under unfavorable conditions leads to physiological adaptations which enhance resistance to acute stress, yet increase the risk of chronic stresses that have negative effect on fitness.