Intraspecific genomic variation and local adaptation in a young hybrid species

Hybridization increases genetic variation, hence hybrid species may have greater evolutionary potential once their admixed genomes have stabilized and incompatibilities have been purged. Yet, little is known about how such hybrid lineages evolve at the genomic level following their formation, in par...

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Veröffentlicht in:	Molecular ecology 2021-02, Vol.30 (3), p.791-809
Hauptverfasser:	Cuevas, Angélica, Ravinet, Mark, Sætre, Glenn‐Peter, Eroukhmanoff, Fabrice
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Alleles Biological evolution Deoxyribonucleic acid Divergence DNA DNA sequencing Evolution Gene frequency Genetic diversity genome evolution Genomes genomic incompatibilities Genomics hybrid constraints hybrid species Hybridization local adaptation Loci Morphology Passer sparrows Population Population differentiation Population genetics Populations Species
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container_title	Molecular ecology
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creator	Cuevas, Angélica Ravinet, Mark Sætre, Glenn‐Peter Eroukhmanoff, Fabrice
description	Hybridization increases genetic variation, hence hybrid species may have greater evolutionary potential once their admixed genomes have stabilized and incompatibilities have been purged. Yet, little is known about how such hybrid lineages evolve at the genomic level following their formation, in particular their adaptive potential. Here we investigate how the Italian sparrow (Passer italiae), a homoploid hybrid species, has evolved and locally adapted to its variable environment. Using restriction site‐associated DNA sequencing (RAD‐seq) on several populations across the Italian peninsula, we evaluate how genomic constraints and novel genetic variation have influenced population divergence and adaptation. We show that population divergence within this hybrid species has evolved in response to climatic variation, suggesting ongoing local adaptation. As found previously in other nonhybrid species, climatic differences appear to increase population differentiation. We also report strong population divergence in a gene known to affect beak morphology. Most of the strongly divergent loci among Italian sparrow populations do not seem to be differentiated between its parent species, the house and Spanish sparrows. Unlike in the hybrid, population divergence within each of the parental taxa has occurred mostly at loci with high allele frequency difference between the parental species, suggesting that novel combinations of parental alleles in the hybrid have not necessarily enhanced its evolutionary potential. Rather, our study suggests that constraints linked to incompatibilities may have restricted the evolution of this admixed genome, both during and after hybrid species formation.
doi_str_mv	10.1111/mec.15760
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Most of the strongly divergent loci among Italian sparrow populations do not seem to be differentiated between its parent species, the house and Spanish sparrows. Unlike in the hybrid, population divergence within each of the parental taxa has occurred mostly at loci with high allele frequency difference between the parental species, suggesting that novel combinations of parental alleles in the hybrid have not necessarily enhanced its evolutionary potential. 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Most of the strongly divergent loci among Italian sparrow populations do not seem to be differentiated between its parent species, the house and Spanish sparrows. Unlike in the hybrid, population divergence within each of the parental taxa has occurred mostly at loci with high allele frequency difference between the parental species, suggesting that novel combinations of parental alleles in the hybrid have not necessarily enhanced its evolutionary potential. 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subjects	Adaptation Alleles Biological evolution Deoxyribonucleic acid Divergence DNA DNA sequencing Evolution Gene frequency Genetic diversity genome evolution Genomes genomic incompatibilities Genomics hybrid constraints hybrid species Hybridization local adaptation Loci Morphology Passer sparrows Population Population differentiation Population genetics Populations Species
title	Intraspecific genomic variation and local adaptation in a young hybrid species
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