Abstract
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.
Highlights
Hibernation is a highly efficient way to save energy during periods of low ambient temperatures and food shortage due to metabolic depression and reduced body temperature (Tb) during multiday torpor bouts (Geiser 2004; Heldmaier et al 2004; Heldmaier and Ruf 1992; Ruf and Geiser 2015; Ruf and Heldmaier 1992)
That in common hamsters, external energy reserves are essential in adjusting torpor expression and large amounts of food stores can allow individuals to avoid using torpor
Effects of energy reserves on hibernation performance might be more pronounced in food-storing compared to fat-storing hibernators due to their greater energy-storing capacity (Humphries et al 2003b), and several studies demonstrated that when food was abundant, torpor expression was reduced both in daily heterotherms and hibernators
Summary
Hibernation is a highly efficient way to save energy during periods of low ambient temperatures and food shortage due to metabolic depression and reduced body temperature (Tb) during multiday torpor bouts (Geiser 2004; Heldmaier et al 2004; Heldmaier and Ruf 1992; Ruf and Geiser 2015; Ruf and Heldmaier 1992). Among food-storing hibernators individuals responded to food supplementation and high food availability with reduced duration and/or depth of torpor expression (French 2000; Humphries et al 2003a; LandryCuerrier et al 2008; Munro et al 2005) These results indicate that hibernators can reduce potential costs of torpor by hibernating for shorter periods and/or less intensely when sufficient energy reserves are available
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