AI Article Synopsis
- Ectothermic species, like brown anole lizards, are sensitive to temperature changes and can adapt through evolution, but their genetic traits related to thermal performance are not well-studied.
- In this research, researchers compared lizards from two different temperature environments in a lab to observe differences in their thermal performance curves.
- They found that while there were differences indicating some evolution due to natural selection, most thermal traits had low heritability, suggesting that rapid evolutionary changes in response to current climate shifts are unlikely.
Article Abstract
Ectothermic species are particularly sensitive to changes in temperature and may adapt to changes in thermal environments through evolutionary shifts in thermal physiology or thermoregulatory behaviour. Nevertheless, the heritability of thermal traits, which sets a limit on evolutionary potential, remains largely unexplored. In this study, we captured brown anole lizards () from two populations that occur in contrasting thermal environments. We raised offspring from these populations in a laboratory common garden and compared the shape of their thermal performance curves to test for genetic divergence in thermal physiology. Thermal performance curves differed between populations in a common garden in ways partially consistent with divergent patterns of natural selection experienced by the source populations, implying that they had evolved in response to selection. Next, we estimated the heritability of thermal performance curves and of several traits related to thermoregulatory behaviour. We did not detect significant heritability in most components of the thermal performance curve or in several aspects of thermoregulatory behaviour, suggesting that contemporary selection is unlikely to result in rapid evolution. Our results indicate that the response to selection may be slow in the brown anole and that evolutionary change is unlikely to keep pace with current rates of environmental change.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5966615 | PMC |
| http://dx.doi.org/10.1098/rspb.2018.0697 | DOI Listing |
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