Abstract
BackgroundHybridogenesis can represent the first stage towards hybrid speciation where the hybrid taxon eventually weans off its parental species. In hybridogenetic water frogs, the hybrid Pelophylax kl. esculentus (genomes RL) usually eliminates one genome from its germline and relies on its parental species P. lessonae (genomes LL) or P. ridibundus (genomes RR) to perpetuate in so-called L-E and R-E systems. But not exclusively: some all-hybrid populations (E-E system) bypass the need for their parental species and fulfill their sexual cycle via triploid hybrid frogs. Genetic surveys are essential to understand the great diversity of these hybridogenetic dynamics and their evolution. Here we conducted such study using RAD-sequencing on Pelophylax from southern Switzerland (Ticino), a geographically-isolated region featuring different assemblages of parental P. lessonae and hybrid P. kl. esculentus.ResultsWe found two types of hybridogenetic systems in Ticino: an L-E system in northern populations and a presumably all-hybrid E-E system in the closely-related southern populations, where P. lessonae was not detected. In the latter, we did not find evidence for triploid individuals from the population genomic data, but identified a few P. ridibundus (RR) as offspring from interhybrid crosses (LR × LR).ConclusionsAssuming P. lessonae is truly absent from southern Ticino, the putative maintenance of all-hybrid populations without triploid individuals would require an unusual lability of genome elimination, namely that P. kl. esculentus from both sexes are capable of producing gametes with either L or R genomes. This could be achieved by the co-existence of L- and R- eliminating lineages or by “hybrid amphigamy”, i. e. males and females producing sperm and eggs among which both genomes are represented. These hypotheses imply that polyploidy is not the exclusive evolutionary pathway for hybrids to become reproductively independent, and challenge the classical view that hybridogenetic taxa are necessarily sexual parasites.
Highlights
Hybridogenesis can represent the first stage towards hybrid speciation where the hybrid taxon eventually weans off its parental species
Based on 2521 single nucleotide polymorphism (SNP), Bayesian clustering with STRUCT URE (k = 2) recovered the two main gene pools corresponding to P. lessonae and P. ridibundus (STA)
Genetic diversity was higher for the hybrid P. kl. esculentus (Ho = 0.18–0.21) compared to the parental P. lessonae (Ho = 0.06–0.07) (Table 1, Additional file 1: Figure S1)
Summary
Hybridogenesis can represent the first stage towards hybrid speciation where the hybrid taxon eventually weans off its parental species. Esculentus (genomes RL) usually eliminates one genome from its germline and relies on its parental species P. lessonae (genomes LL) or P. ridibundus (genomes RR) to perpetuate in so-called L-E and R-E systems. Not exclusively: some all-hybrid populations (E-E system) bypass the need for their parental species and fulfill their sexual cycle via triploid hybrid frogs. Esculentus is the hybrid between the pool frog P. lessonae (genomes LL) and the marsh frog P. ridibundus. In the lessonae-esculentus system (L-E), common in Western Europe, LR hybrids exclude their L genome and produce clonal R gametes. Esculentus hybrids predominantly produce L gametes and rely on RR P. ridibundus to reproduce In Eastern Europe, the system is essentially the reverse (ridibundus-esculentus, RE): LR P. kl. esculentus hybrids predominantly produce L gametes and rely on RR P. ridibundus to reproduce
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