The durations of the intervals of torpor and euthermia during mammalian hibernation were found to be dependent on body mass. These relationships support the concept that the timing of body temperature changes is controlled by some metabolic process. Data were obtained from species spanning nearly three orders of magnitude in size, that were able to hibernate for over six months without food at 5 degrees C. The timing of body temperature changes was determined from the records of copper-constantan thermocouples placed directly underneath each animal. Because all species underwent seasonal changes in their patterns of hibernation, animals were compared in mid-winter when the duration of euthermic intervals was short and relatively constant and when the duration of torpid intervals was at its longest. Large hibernators remained euthermic longer than small hibernators (Fig. 2). This was true among and within species. The duration of euthermic intervals increased with mass at the same rate (mass 0.38) that mass-specific rates of euthermic metabolism decrease, suggesting that hibernators remain at high body temperatures until a fixed amount of metabolism has been completed. These data are consistent with the theory that each interval of euthermia is necessary to restore some metabolic imbalance that developed during the previous bout of torpor. In addition, small species remained torpid for longer intervals than large species (Fig. 3). The absolute differences between different-sized species were large, but, on a proportional basis, they were comparatively slight.(ABSTRACT TRUNCATED AT 250 WORDS)
The length of time that the ground squirrels Spermophilus beldingi and S. lateralis remained at high body temperatures following periodic arousals from hibernation increased as environmental temperature increased over the range of 5-20 degree C. This trend was evident in comparisons among different animals that hibernated at different temperatures and in individuals that hibernated at different temperatures in successive years. At any one temperature, the duration of these euthermic intervals in S. beldingi was correlated with body size. Large adult males remained at high body temperatures longer than adult females, which in turn remained euthermic longer than small juveniles. In addition, these squirrels spent less time at high body temperatures following bouts of torpor that were interrupted prematurely by environmental disturbances. These results are consistent with an amplify the theory that arousals are initiated by, and necessary for the elimination of, some chemical imbalance, which develops while hibernators metabolize at low body temperatures.
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