AI Article Synopsis
- Climate change is leading to new thermal conditions that can affect species survival, with short-term adjustments like heat hardening helping organisms endure extreme temperatures.
- While heat hardening boosts thermal tolerance, it may come at a cost, reducing optimal temperature preferences and overall performance, making it potentially maladaptive in a warming world.
- In a study of the color polymorphic tree lizard, Urosaurus ornatus, heat hardening increased boldness behaviors, especially in males, which could enhance territoriality but also raise risks of predation.
Article Abstract
Climate change is creating novel thermal environments via rising temperatures and increased frequency of severe weather events. Short-term phenotypic adjustments, i.e., phenotypic plasticity, may facilitate species persistence during adverse environmental conditions. A plastic response that increases thermal tolerance is heat hardening, which buffers organisms from extreme heat and may enhance short term survival. However, heat hardening responses may incur a cost with concomitant decreases in thermal preference and physiological performance. Thus, phenotypic shifts accompanying a hardening response may be maladaptive in warming climates. Understanding how heat hardening influences other traits associated with fitness and survival will clarify its potential as an adaptive response to altered thermal niches. Here, we studied the effects of heat hardening on boldness behavior in the color polymorphic tree lizard, Urosaurus ornatus. Boldness in lizards influences traits such as territory maintenance, mating success, and survivorship and is repeatable in U. ornatus. We found that when lizards underwent a heat hardening response, boldness expression significantly increased. This trend was driven by males. Bolder individuals also exhibited lower field active body temperatures. This behavioral response to heat hardening may increase resource holding potential and territoriality in stressful environments but may also increase predation risk. This study highlights the need to detail associated phenotypic shifts with stress responses to fully understand their adaptive potential in rapidly changing environments.
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| http://dx.doi.org/10.1016/j.jtherbio.2023.103778 | DOI Listing |
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