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Abstract:
The patterns of genetic relatedness among individuals vary along the genome, representing fluctuation of local ancestry. The factors responsible for this variation have not been well studied in wild animals with ecological and behavioural relevance. Here, we characterise the genomic architecture of genetic relatedness in the Eurasian blackcap, an iconic songbird species in ecology and quantitative genetics of migratory behaviour. We identify 23 genomic regions with deviated local relatedness patterns, using a chromosome-level de novo assembly of the blackcap genome and whole-genome resequencing data of 179 individuals from nine populations with diverse migratory phenotypes. Five genomic regions show local relatedness patterns of polymorphic inversions, three of which are syntenic to polymorphic inversions known in the zebra finch. Phylogenetic analysis reveals these three polymorphic inversions evolved independently in the blackcap and zebra finch indicating convergence of polymorphic inversions. Population genetic analyses in these three inversions in the blackcap suggest balancing selection between two haplotypes in one locus and background selection in the other two loci. One genomic region with deviated local relatedness is under selection against gene flow by population-specific reduction in recombination rate. Other genomic islands including 11 pericentromeric regions consist of evolutionarily conserved and non-conserved recombination cold-spots under background selection. Two of these regions with non-conserved recombination suppression are known to be associated with population-specific migratory phenotypes, where local relatedness patterns support additional effects of population-specific selection. These results highlight how different forms of recombination suppression and selection jointly affect heterogeneous genomic landscape of local ancestries.Competing Interest StatementThe authors have declared no competing interest.
