Disintegrating over space and time: Paraphyly and species delimitation in the Wehrle's Salamander complex

Accurate species delimitation is critical for biodiversity studies. However, species complexes characterized by introgression, high levels of population structure and subtle phenotypic differentiation can be challenging to delimit. Here, we report on a molecular systematic investigation of the woodland salamanders Plethodon wehrlei and Plethodon punctatus, which traditionally have been placed in the Plethodon wehrlei species group. To quantify patterns of genetic variation, we collected genetic samples from throughout the range of both species, including 22 individuals from nine populations of P. punctatus, and 60 individuals from 26 populations of P. wehrlei. From these samples, we sequenced three mtDNA loci (5596 base pairs) and five nuclear loci (3377 base pairs). We inferred time‐calibrated gene trees and species trees using BEAST 2.4.6, and we delimited putative species using a Bayesian implementation of the general mixed Yule‐coalescent model (bGMYC) and STRUCTURE. Finally, we validated putative species using the multispecies coalescent as implemented in Bayesian Phylogenetics and Phylogeography (BPP). We found substantial phylogeographic diversity in P. wehrlei, including multiple geographically cohesive clades and an inferred mitochondrial common ancestor at 11.5 myr (95% HPD: 9.6–13.6 myr) that separated populations formerly assigned to P. dixi from all other populations. We also found that P. punctatus is deeply nested within P. wehrlei, rendering the latter paraphyletic. After discussing the challenges faced by modern species delimitation methods, we recommend retaining P. punctatus because it is ecologically and phenotypically distinct. We further recommend that P. dixi be recognized as a valid species.