Data from: Comparative landscape genetics reveals the evolution of viviparity reduces genetic connectivity in fire salamanders
Lourenço, André et al. (2019), Data from: Comparative landscape genetics reveals the evolution of viviparity reduces genetic connectivity in fire salamanders, Dryad, Dataset, https://doi.org/10.5061/dryad.k4880m2
Evolutionary changes in reproductive mode may affect co-evolving traits, such as dispersal, though this subject remains largely underexplored. The shift from aquatic oviparous or larviparous reproduction to terrestrial viviparous reproduction in some amphibians entails skipping the aquatic larval stage and, thus, greater independence from water. Accordingly, amphibians exhibiting terrestrial viviparous reproduction may potentially disperse across a wider variety of sub-optimal habitats and increase population connectivity in fragmented landscapes compared to aquatic-breeding species. We investigated this hypothesis in the fire salamander (Salamandra salamandra), which exhibits both aquatic- (larviparity) and terrestrial-breeding (viviparity) strategies. We genotyped 426 larviparous and 360 viviparous adult salamanders for 13 microsatellite loci and sequenced a mitochondrial marker for 133 larviparous and 119 viviparous individuals to compare population connectivity and landscape resistance to gene flow within a landscape genetics framework. Contrary to our predictions, viviparous populations exhibited greater differentiation and reduced genetic connectivity compared to larviparous ones. Landscape genetic analyses indicate viviparity may be partially responsible for this pattern, as water courses comprised a significant barrier only in viviparous salamanders, likely due to their fully terrestrial life cycle. Agricultural areas and, to a lesser extent, topography also decreased genetic connectivity in both larviparous and viviparous populations. This study is one of very few to explicitly demonstrate the evolution of a derived reproductive mode affects patterns of genetic connectivity. Our findings open avenues for future research to better understand the eco-evolutionary implications underlying the emergence of terrestrial reproduction in amphibians.