AI Article Synopsis
- This study investigates how lizard chemical signals change over time when exposed to different environmental conditions, specifically focusing on Podarcis erhardii lizards introduced to predator-free islets.
- After four years, the introduced lizard populations showed increased densities and heightened levels of intraspecific fighting, indicating significant ecological adaptation.
- Analysis revealed that the chemical signals of the experimental populations became more complex and featured specific compounds linked to territorial behavior and mate selection, highlighting the adaptability of chemical communication in response to new ecological contexts.
Article Abstract
Studies of animal communication have documented myriad rapid, context-dependent changes in visual and acoustic signal design. In contrast, relatively little is known about the capacity of vertebrate chemical signals to rapidly respond, either plastically or deterministically, to changes in context. Four years following an experimental introduction of lizards to replicate experimental islets, we aimed to determine if chemical signal design of the experimental populations differed from that of the source population. In 2014, we translocated Podarcis erhardii lizards from a large, predator-rich island to each of five replicate predator-free islets. Mean population densities increased fivefold over the following 4 years and bite scars suggest significantly more intraspecific fighting among these experimental populations. In 2018, we analysed the chemical signal design of males in each of the experimental populations and compared it to the chemical signals of the source population. We found that males consistently presented a significantly more complex chemical signal compared to the source population. Moreover, their chemical signals were marked by high proportions of octadecanoic acid, oleic acid and α-tocopherol, the three compounds that are known to be associated with lizard territoriality and mate choice. Our island introduction experiment thus suggests that the chemical signal design of animals can shift rapidly and predictably in novel ecological contexts.
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| http://dx.doi.org/10.1111/1365-2656.13205 | DOI Listing |
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