Abstract
Body temperature of endotherms shows substantial within- and between-individual variation, but the sources of this variation are not fully understood in wild animals. Variation in body temperature can indicate how individuals cope with their environment via metabolic or stress-induced effects, both of which may relate to depletion of energy reserves. Body condition can reflect heat production through changes to metabolic rate made to protect energy reserves. Additionally, changes in metabolic processes may be mediated by stress-related glucocorticoid secretion, which is associated with altered blood-flow patterns that affect regional body temperatures. Accordingly, both body condition and glucocorticoid secretion should relate to body temperature. We used thermal imaging, a novel non-invasive method of temperature measurement, to investigate relationships between body condition, glucocorticoid secretion and body surface temperature in wild blue tits (Cyanistes caeruleus). Individuals with lower body condition had lower eye-region surface temperature in both non-breeding and breeding seasons. Eye-region surface temperature was also negatively correlated with baseline circulating glucocorticoid levels in non-breeding birds. Our results demonstrate that body surface temperature can integrate multiple aspects of physiological state. Consequently, remotely-measured body surface temperature could be used to assess such aspects of physiological state non-invasively in free-living animals at multiple life history stages.
Highlights
Endotherms maintain a high and relatively constant body temperature
We examined the relationship between body surface temperature, measured using thermal imaging from the eye region (Teye), and physiological state in free-living blue tits (Cyanistes caeruleus)
Reduced metabolic rate in individuals with depleted energy reserves, and/or stress-related vasoconstriction may have brought about the observed between-individual variation in Teye
Summary
Endotherms maintain a high and relatively constant body temperature. There is, substantial withinand between-individual variation in body temperature among endotherms[1]. SAM system activity causes rapid release of catecholamines from the adrenal medulla, resulting in a ‘fight or flight’ response During this response, core body temperature increases[8], a phenomenon known as stress-induced hyperthermia[9]. Variation in body temperature is predicted to reflect changes in glucocorticoid levels, SAM system activity, energy reserves and metabolic rate. One component of the SAM system response contributing to increased core body temperature during stress-induced hyperthermia is sympathetically-mediated cutaneous vasoconstriction[22]. Arteriovenous anastomoses at the body periphery act as ‘shunts’, permitting passage of blood between arteries and veins on precapillary blood vessels[23] This redirection of blood away from the body surface (presumably to prepare for ‘fight-or-flight’ by diverting blood to regions with the greatest metabolic need, and/or to minimise potential blood loss from injury to vulnerable areas22), lowers body surface temperature[24]. Remotely measured body surface temperature may provide useful information regarding a number of aspects of the physiological state of free-living animals
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
