Parasite host-switching from the invasive American red-eared slider, Trachemys scripta elegans, to the native Mediterranean pond turtle, Mauremys leprosa, in natural environments
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Date
2015Author
Meyer, Leon
Du Preez, Louis
Verneau, Olivier
Bonneau, Elodie
Héritier, Laurent
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The red-eared slider turtle, Trachemys scripta elegans, is among the most over-exploited animals and is still exported annually from the
USA all over the world. Once introduced into its new environment, feral populations may arise and pose threats to local biodiversity and
ecosystem functioning. In France, it is in fact considered as a risk for the Mediterranean pond turtle, Mauremys leprosa, and the European
pond turtle, Emys orbicularis, as they may compete for resources and habitat. Freshwater turtles are also host to a variety of parasites
including protozoans and helminths. When introduced turtles escape, parasites may spread to native species. The objective of this study was
to document the extent of platyhelminth invasions from T. s. elegans to natural M. leprosa populations in northern Spain and southern
France and to evaluate the risks that parasite host-switching may pose on indigenous freshwater turtle species. From DNA barcoding analysis
based on the sequencing of the Cytochrome c Oxidase I gene, the Bayesian tree and p-distance comparisons of closely related haplotypes
revealed a greater polystome richness within M. leprosa than expected, suggesting that host switching may take place in natural
environments. Because these parasites most typically infest American turtles like Chrysemys picta marginata and Graptemys
pseudogeographica in their natural home range and because parasites were also found within T. s. elegans feral populations, it is suggested
that the red-eared slider would serve as a carrier for a variety of not strictly host-specific polystomes that are transmitted to M. leprosa
throughout the south of France. The global trade in freshwater turtles thus provides opportunity for parasites to be transported to new
destinations which could impact the physiology, behavior and survival of native turtle species
URI
http://hdl.handle.net/10394/18819https://doi.org/10.3391/ai.2015.10.1.08
http://www.aquaticinvasions.net/2015/AI_2015_Meyer_etal.pdf