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Complex genetic patterns and distribution limits mediated by native congeners of the worldwide invasive red-eared slider turtle.

Sayra EspindolaElla Vázquez-DomínguezMiguel NakamuraLuis Osorio-OlveraEnrique Martínez-MeyerEdward A MyersIsaac OvercastBrendan N ReidFrank T Burbrink
Published in: Molecular ecology (2022)
Non-native (invasive) species offer a unique opportunity to study the geographical distribution and range limits of species, wherein the evolutionary change driven by interspecific interactions between native and non-native closely related species is a key component. The red-eared slider turtle, Trachemys scripta elegans (TSE), has been introduced and successfully established worldwide. It can coexist with its native congeners T. cataspila, T. venusta and T. taylori in Mexico. We performed comprehensive fieldwork, executed a battery of genetic analyses and applied a novel species distribution modelling approach to evaluate their historical lineage relationships and contemporary population genetic patterns. Our findings support the historical common ancestry between native TSE and non-native (TSE alien ), while also highlighting the genetic differentiation of the exotic lineage. Genetic patterns are associated with their range size/endemism gradient; the microendemic T. taylori showed significant reduced genetic diversity and high differentiation, whereas TSE alien showed the highest diversity and signals of population size expansion. Counter to our expectations, lower naturally occurring distribution overlap and little admixture patterns were found between TSE and its congeners, exhibiting reduced gene flow and clear genetic separation across neighbouring species despite having zones of contact. We demonstrate that these native Trachemys species have distinct climatic niche suitability, probably preventing establishment of and displacement by the TSE alien . Moreover, we found major niche overlap between TSE alien and native species worldwide, supporting our prediction that sites with closer ecological optima to the invasive species have higher establishment risk than those that are closer to the niche-centre of the native species.
Keyphrases
  • genetic diversity
  • genome wide
  • copy number
  • risk assessment
  • climate change
  • human health
  • cell fate