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Stronger evidence for genetic ancestry than environmental conditions in shaping the evolution of a complex signaling trait during biological invasion
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  • Jessica Pita-Aquino,
  • Dan Bock,
  • Simon Baeckens,
  • Jonathan B. Losos,
  • Jason Kolbe
Jessica Pita-Aquino
The University of Utah School of Medicine
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Dan Bock
University of British Columbia
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Simon Baeckens
Ghent University
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Jonathan B. Losos
Washington University (WUSTL)
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Jason Kolbe
University of Rhode Island College of Arts and Sciences

Corresponding Author:jjkolbe@uri.edu

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Abstract

Introductions of invasive species to new environments often result in rapid rates of trait evolution. While in some cases these evolutionary transitions are adaptive and driven by natural selection, they can also result from patterns of genetic and phenotypic variation associated with the invasion history. Here, we examined the brown anole (Anolis sagrei), a widespread invasive lizard for which genetic data have helped trace the sources of non-native populations. We focused on the dewlap, a complex signaling trait known to be subject to multiple selective pressures. We measured dewlap reflectance, pattern, and size in 30 non-native populations across the southeastern United States. As well, we quantified environmental variables known to influence dewlap signal effectiveness, such as canopy openness. Further, we used genome-wide data to estimate genetic ancestry, perform association mapping, and test for signatures of selection. We found that among-population variation in dewlap characteristics was best explained by genetic ancestry. This result was supported by genome-wide association mapping, which identified several ancestry-specific loci associated with dewlap traits. Despite the strong imprint of this aspect of the invasion history on dewlap variation, we also detected significant relationships between dewlap traits and local environmental conditions. However, we found limited evidence that dewlap-associated genetic variants have been subject to selection. Our study emphasizes the importance of genetic ancestry and admixture in shaping phenotypes during biological invasion, while leaving the role of selection unresolved, likely due to the polygenic genetic architecture of dewlaps and selection acting on many genes of small effect.
07 Aug 2023Submitted to Molecular Ecology
09 Aug 2023Submission Checks Completed
09 Aug 2023Assigned to Editor
09 Aug 2023Review(s) Completed, Editorial Evaluation Pending
13 Aug 2023Reviewer(s) Assigned
17 Aug 2023Editorial Decision: Accept