RT Journal Article
SR Electronic
T1 Genomic architecture controls spatial structuring in Amazonian birds
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2021.12.01.470789
DO 10.1101/2021.12.01.470789
A1 Gregory Thom
A1 Lucas Rocha Moreira
A1 Romina Batista
A1 Marcelo Gehara
A1 Alexandre Aleixo
A1 Brian Tilston Smith
YR 2021
UL http://biorxiv.org/content/early/2021/12/02/2021.12.01.470789.abstract
AB Large rivers are ubiquitously invoked to explain the distributional limits and speciation of the Amazon Basin’s mega-diversity. However, inferences on the spatial and temporal origins of Amazonian species have narrowly focused on evolutionary neutral models, ignoring the potential role of natural selection and intrinsic genomic processes known to produce heterogeneity in differentiation across the genome. To test how these factors may influence evolutionary inferences across multiple taxa, we sequenced whole genomes of populations for three bird species that co-occur in southeastern Amazonian and exhibit different life histories linked to their propensity to maintain gene flow across the landscape. We found that phylogenetic relationships within species and demographic parameters varied across the genome in predictable ways. Genetic diversity was positively associated with recombination rate and negatively associated with the species tree topology weight. Gene flow was less pervasive in regions of low recombination, making these windows more suitable for commonly used phylogenetic methods that assume a bifurcating-branching model. To corroborate that these associations were attributable to selection, we modeled the signature of adaptive alleles across the genome taking demographic history into account, and found that on average 31.6 % of the genome showed high probability for patterns consistent with selective sweeps and linked selection directly affecting the estimation of evolutionary parameters. By implementing a comparative genomic approach we were able to disentangle the effects of intrinsic genomic characteristics and selection from the neutral processes and show how speciation hypotheses are sensitive to genomic architecture.Competing Interest StatementThe authors have declared no competing interest.