Abstract
Hybrid zones that result from secondary contact between diverged populations offer unparalleled insight into the genetic architecture of emerging reproductive barriers and so shed light on the process of speciation. Natural selection and recombination jointly determine their dynamics, leading to a range of outcomes from finely fragmented mixtures of the parental genomes that facilitate introgression to a situation where strong selection against recombinants retains large unrecombined genomic blocks that act as strong barriers to gene flow. In the hybrid zone between the fire-bellied toads Bombina bombina and B. variegata (Anura: Bombinatoridae), two anciently diverged and ecologically distinct taxa meet and produce abundant, fertile hybrids. The dense linkage map presented here enables genomic analysis of the selection-recombination balance that keeps the two gene pools from merging into one. We mapped 4,775 newly developed marker loci from bait-enriched genomic libraries in F2 crosses. The enrichment targets were selected from a draft assembly of the B. variegata genome, after filtering highly repetitive sequences. We developed a novel approach to infer the most likely diplotype per sample and locus from the raw read mapping data, which is robust to over-merging and obviates arbitrary filtering thresholds. Large-scale synteny between Bombina and Xenopus tropicalis supports the resulting linkage map. By assessing the sex of late-stage F2 tadpoles from histological sections, we also identified the sex-determining region in the Bombina genome to 7 cM on LG5, which is homologous to X. tropicalis chromosome 5, and inferred male heterogamety, suggestive of an XY sex determination mechanism. Interestingly, chromosome 5 has been repeatedly recruited as a sex chromosome in anurans with XY sex determination.