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  • Title: Lack of supercooling evolution related to winter severity in a lizard.
    Author: Michels-Boyce M, Zani PA.
    Journal: J Therm Biol; 2015 Oct; 53():72-9. PubMed ID: 26590458.
    Abstract:
    As organisms move into higher latitudes, they may evolve physiological mechanisms to survive in harsher climates. One such mechanism is supercooling, the capacity to survive at subzero temperatures without freezing. While interspecific comparisons reveal greater thermal tolerances at higher latitudes in insects and vertebrates, evidence for intraspecific evolution in supercooling related to latitude is only evident in insects. We measured the supercooling points of lizards from 12 populations reared from hatch in common laboratory conditions to test for evolved differences in supercooling related to winter. Results indicate that winter harshness (depth or length) cannot explain supercooling points regardless of how data are analyzed, which suggests that populations have not evolved greater supercooling capacity. While our results are consistent with the idea that thermal physiology is evolutionarily conserved in vertebrates, we cannot reject several alternatives including the possibility that lizards are able to behaviorally avoid the extreme temperatures that would select for thermal evolution.
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