Patterns of differential introgression in a salamander hybrid zone: inferences from genetic data and ecological niche modelling

Authors

  • M. W. H. CHATFIELD,

    1. Department of Ecology and Evolutionary Biology and Museum of Zoology, University of Michigan, Ann Arbor, MI 48109-1079 USA
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    • Present address: Department of Ecology and Evolutionary Biology, Tulane University, New Orleans, LA 70118 USA.

  • K. H. KOZAK,

    1. Bell Museum of Natural History and Department of Fisheries, Wildlife and Conservation Biology, University of Minnesota, St Paul, MN 55108 USA
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  • B. M. FITZPATRICK,

    1. Department of Ecology and Evolutionary Biology, University of Tennessee, Knoxville, TN 37996-1610 USA
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  • P. K. TUCKER

    1. Department of Ecology and Evolutionary Biology and Museum of Zoology, University of Michigan, Ann Arbor, MI 48109-1079 USA
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Matthew W. H. Chatfield, Fax: (504) 862 8706, E-mail: mattchat@tulane.edu

Abstract

Hybrid zones have yielded considerable insight into many evolutionary processes, including speciation and the maintenance of species boundaries. Presented here are analyses from a hybrid zone that occurs among three salamanders –Plethodon jordani, Plethodon metcalfi and Plethodon teyahalee– from the southern Appalachian Mountains. Using a novel statistical approach for analysis of non-clinal, multispecies hybrid zones, we examined spatial patterns of variation at four markers: single-nucleotide polymorphisms (SNPs) located in the mtDNA ND2 gene and the nuclear DNA ILF3 gene, and the morphological markers of red cheek pigmentation and white flecks. Concordance of the ILF3 marker and both morphological markers across four transects is observed. In three of the four transects, however, the pattern of mtDNA is discordant from all other markers, with a higher representation of P. metcalfi mtDNA in the northern and lower elevation localities than is expected given the ILF3 marker and morphology. To explore whether climate plays a role in the position of the hybrid zone, we created ecological niche models for P. jordani and P. metcalfi. Modelling results suggest that hybrid zone position is not determined by steep gradients in climatic suitability for either species. Instead, the hybrid zone lies in a climatically homogenous region that is broadly suitable for both P. jordani and P. metcalfi. We discuss various selective (natural selection associated with climate) and behavioural processes (sex-biased dispersal, asymmetric reproductive isolation) that might explain the discordance in the extent to which mtDNA and nuclear DNA and colour-pattern traits have moved across this hybrid zone.

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