Torpor patterns in common hamsters with and without access to food stores

Hibernating species significantly reduce energy expenditure during winter by entering torpor. Nevertheless, the various benefits of hibernation might be counteracted by negative effects of torpor such as immune depression, oxidative stress, or neuronal impairment. Considering these trade-offs, adequ...

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Bibliographic Details
Published in:Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology Biochemical, systemic, and environmental physiology, 2017-07, Vol.187 (5-6), p.881-888
Main Authors: Siutz, Carina, Millesi, Eva
Format: Article
Language:English
Subjects:
Animal Physiology
Animals
Biochemistry
Biomedical and Life Sciences
Biomedicine
Body Temperature
Burrows
Caloric Restriction
Chambers
Cricetinae
Cricetus cricetus
Energy conservation
Energy expenditure
Energy reserves
Energy storage
Feeding Behavior - physiology
Female
Food
Food availability
Food security
Hamsters
Hibernation
Human Physiology
Life Sciences
Metabolic depression
Original Paper
Oxidative stress
Reserves
Temperature
Temperature effects
Torpor
Torpor - physiology
Winter
Zoology
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Summary:Hibernating species significantly reduce energy expenditure during winter by entering torpor. Nevertheless, the various benefits of hibernation might be counteracted by negative effects of torpor such as immune depression, oxidative stress, or neuronal impairment. Considering these trade-offs, adequate energy reserves could allow animals to reduce the time spent in torpor or the extent of metabolic depression. Common hamsters use food stores during hibernation and previously documented high individual variations in body temperature patterns during winter could, therefore, be related to differences in external energy reserves. In this study, we manipulated the availability of food stores under laboratory conditions to investigate potential effects on hibernation patterns. Female hamsters were kept in artificial burrows in climate chambers and subcutaneous temperature was recorded using implanted data loggers. One group had access to large food stores, whereas another group received daily food portions which were removed on the next day if not consumed. Almost all hamsters without access to food stores hibernated, while less than half of the individuals with food stores entered deep torpor. Individuals without food hoards additionally expressed more short torpor bouts and exhibited lower minimum subcutaneous temperatures during torpor than those with food stores. Thus, individuals confronted with lacking food reserves were more likely to hibernate and additionally saved energy by entering short torpor bouts more frequently and remaining at lower subcutaneous temperature both during torpor and euthermic periods. In conclusion, our results demonstrate that food store availability affects torpor expression and also highlight variation in torpor patterns and energy-saving strategies in common hamsters.
ISSN:0174-1578
1432-136X
DOI:10.1007/s00360-017-1093-6