Abstract

BackgroundHybridization provides a unique perspective into the ecological, genetic and behavioral context of speciation. Hybridization is common in birds, but has not yet been reported among bird species with a simultaneously polyandrous mating system; a mating system where a single female defends a harem of males who provide nearly all parental care. Unlike simple polyandry, polyandrous mating is extremely rare in birds, with only 1% of bird species employing this mating system. Although it is classically held that females are “choosy” in avian hybrid systems, nearly-exclusive male parental care raises the possibility that female selection against heterospecific matings might be reduced compared to birds with other mating systems.ResultsWe describe a narrow hybrid zone in southwestern Panama between two polyandrous freshwater waders: Northern Jacana, Jacana spinosa and Wattled Jacana, J. jacana. We document coincident cline centers for three phenotypic traits, mtDNA, and one of two autosomal introns. Cline widths for these six markers varied from seven to 142 km, with mtDNA being the narrowest, and five of the six markers having widths less than 100 km. Cline tails were asymmetrical, with greater introgression of J. jacana traits extending westward into the range of J. spinosa. Likewise, within the hybrid zone, the average hybrid index of phenotypic hybrids was significantly biased towards J. spinosa. Species distribution models indicate that the hybrid zone is located at the edge of a roughly 100 km wide overlap where habitat is predicted to be suitable for both species, with more westerly areas suitable only for spinosa and eastward habitats suitable only for J. jacana.ConclusionThe two species of New World jacanas maintain a narrow, and persistent hybrid zone in western Panama. The hybrid zone may be maintained by the behavioral dominance of J. spinosa counterbalanced by unsuitable habitat for J. spinosa east of the contact zone. Although the two parental species are relatively young, mitochondrial cline width was extremely narrow. This result suggests strong selection against maternally-inherited markers, which may indicate either mitonuclear incompatibilities and/or female choice against heterospecific matings typical of avian hybrid systems, despite jacana sex role reversal.Electronic supplementary materialThe online version of this article (doi:10.1186/s12862-014-0227-7) contains supplementary material, which is available to authorized users.

Highlights

  • Hybridization provides a unique perspective into the ecological, genetic and behavioral context of speciation

  • We demonstrated that jacanas maintain a narrow, and persistent hybrid zone in southwestern Panama that is coincident for three phenotypic traits, mitochondrial DNA (mtDNA), and one of two autosomal markers

  • We found evidence of asymmetry in the hybridization dynamics: among specimens classified as phenotypically “hybrid”, phenotypic hybrid index scores were significantly biased towards J. spinosa, and two of the three hybrid clines had asymmetric shapes

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Summary

Introduction

Hybridization provides a unique perspective into the ecological, genetic and behavioral context of speciation. Price [3] found avian hybrid zones could be clustered into two categories Those where the parental species were relatively young, as measured by the degree of mitochondrial DNA (mtDNA) divergence, typically had wide hybrid zones, whereas the hybrid zone of relatively old species pairs (again measured by mtDNA divergence) were typically narrow. It remains to be determined whether mtDNA divergence is effectively neutral and a proxy for over all genetic incompatibility It remains to be determined whether mtDNA divergence is effectively neutral and a proxy for over all genetic incompatibility (e.g. [14]), or may directly cause incompatibilities between mitochondrial and nuclear cellular respiration genes [15,16]

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