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Robert K. Colwell

Museum Curator Adjoint in Entomology


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robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA




robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA



Thermal-safety margins and the necessity of thermoregulatory behavior across latitude and elevation


Journal article


J. Sunday, A. Bates, M. Kearney, R. K. Colwell, N. Dulvy, J. Longino, R. Huey
Proceedings of the National Academy of Sciences, 2014

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APA   Click to copy
Sunday, J., Bates, A., Kearney, M., Colwell, R. K., Dulvy, N., Longino, J., & Huey, R. (2014). Thermal-safety margins and the necessity of thermoregulatory behavior across latitude and elevation. Proceedings of the National Academy of Sciences.


Chicago/Turabian   Click to copy
Sunday, J., A. Bates, M. Kearney, R. K. Colwell, N. Dulvy, J. Longino, and R. Huey. “Thermal-Safety Margins and the Necessity of Thermoregulatory Behavior across Latitude and Elevation.” Proceedings of the National Academy of Sciences (2014).


MLA   Click to copy
Sunday, J., et al. “Thermal-Safety Margins and the Necessity of Thermoregulatory Behavior across Latitude and Elevation.” Proceedings of the National Academy of Sciences, 2014.


BibTeX   Click to copy

@article{j2014a,
  title = {Thermal-safety margins and the necessity of thermoregulatory behavior across latitude and elevation},
  year = {2014},
  journal = {Proceedings of the National Academy of Sciences},
  author = {Sunday, J. and Bates, A. and Kearney, M. and Colwell, R. K. and Dulvy, N. and Longino, J. and Huey, R.}
}

Abstract

Significance We find that most terrestrial ectotherms are insufficiently tolerant of high temperatures to survive the warmest potential body temperatures in exposed habitats and must therefore thermoregulate by using shade, burrows, or evaporative cooling. Our results reveal that exposure to extreme heat can occur even at high elevations and latitudes and show why heat-tolerance limits are relatively invariant in comparison with cold limits. To survive climate warming, ectotherms in most areas may need to rely on behaviors—and have access to habitats—that provide a reprieve from extreme operative temperatures. Physiological thermal-tolerance limits of terrestrial ectotherms often exceed local air temperatures, implying a high degree of thermal safety (an excess of warm or cold thermal tolerance). However, air temperatures can be very different from the equilibrium body temperature of an individual ectotherm. Here, we compile thermal-tolerance limits of ectotherms across a wide range of latitudes and elevations and compare these thermal limits both to air and to operative body temperatures (theoretically equilibrated body temperatures) of small ectothermic animals during the warmest and coldest times of the year. We show that extreme operative body temperatures in exposed habitats match or exceed the physiological thermal limits of most ectotherms. Therefore, contrary to previous findings using air temperatures, most ectotherms do not have a physiological thermal-safety margin. They must therefore rely on behavior to avoid overheating during the warmest times, especially in the lowland tropics. Likewise, species living at temperate latitudes and in alpine habitats must retreat to avoid lethal cold exposure. Behavioral plasticity of habitat use and the energetic consequences of thermal retreats are therefore critical aspects of species’ vulnerability to climate warming and extreme events.


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