Widespread gene flow between oceans in a pelagic seabird species complex

Jones, Katherine A. Booth; Nicoll, Malcolm A. C.; Raisin, Claire; Dawson, Deborah A.; Hipperson, Helen; Horsburgh, Gavin J.; Groombridge, Jim J.; Ismar, Stefanie M. H.; Sweet, Paul R.; Jones, Carl G.; Tatayah, Vikash; Ruhomaun, Kevin; Norris, Ken

doi:10.1111/mec.14330

Cited by 17 publications

(22 citation statements)

References 78 publications

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“…However, periods of admixture leave genomic signatures that can be used to infer the direction, extent and timing of ancestral gene flow (Duranton et al, 2018;Patterson et al, 2012;Racimo et al, 2015;Sousa & Hey, 2013). Divergence-with-gene-flow is often studied at local scales, but could influence global genetic structure and variation through connected networks of populations (Booth Jones et al, 2017;Novembre & Stephens, 2008).…”

Section: Introductionmentioning

confidence: 99%

Killer whale genomes reveal a complex history of recurrent admixture and vicariance

et al. 2019

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Reconstruction of the demographic and evolutionary history of populations assuming a consensus tree‐like relationship can mask more complex scenarios, which are prevalent in nature. An emerging genomic toolset, which has been most comprehensively harnessed in the reconstruction of human evolutionary history, enables molecular ecologists to elucidate complex population histories. Killer whales have limited extrinsic barriers to dispersal and have radiated globally, and are therefore a good candidate model for the application of such tools. Here, we analyse a global data set of killer whale genomes in a rare attempt to elucidate global population structure in a nonhuman species. We identify a pattern of genetic homogenisation at lower latitudes and the greatest differentiation at high latitudes, even between currently sympatric lineages. The processes underlying the major axis of structure include high drift at the edge of species' range, likely associated with founder effects and allelic surfing during postglacial range expansion. Divergence between Antarctic and non‐Antarctic lineages is further driven by ancestry segments with up to four‐fold older coalescence time than the genome‐wide average; relicts of a previous vicariance during an earlier glacial cycle. Our study further underpins that episodic gene flow is ubiquitous in natural populations, and can occur across great distances and after substantial periods of isolation between populations. Thus, understanding the evolutionary history of a species requires comprehensive geographic sampling and genome‐wide data to sample the variation in ancestry within individuals.

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Section: Introductionmentioning

confidence: 99%

Killer whale genomes reveal a complex history of recurrent admixture and vicariance

et al. 2019

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“…A recent analysis of the major clades of Procellariiformes using only UCE loci ( Estandia 2019 ) recovered a generally well resolved topology, though maximum likelihood and species tree estimation yielded lower support and conflicting topologies for the split among the shearwaters, suggesting a rapid radiation where ILS and/or historical introgression may have occurred. Hybridization has been documented in several species of Procellariiformes, including shearwaters ( Genovart et al 2012 ; Booth Jones et al 2017 ; Masello et al 2019 ) despite strong philopatry to breeding colonies and, in most cases, a lack of overlap between breeding areas of closely related species. Thus, shearwaters demonstrate the challenges typical of many other taxonomic groups, where rapid diversification and introgression hinder attempts to confidently resolve their evolutionary history, and provide a good case study for how combining genomic data sets can aid in clarifying relationships at recalcitrant nodes.…”

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confidence: 99%

Integrating Sequence Capture and Restriction Site-Associated DNA Sequencing to Resolve Recent Radiations of Pelagic Seabirds

et al. 2021

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The diversification of modern birds has been shaped by a number of radiations. Rapid diversification events make reconstructing the evolutionary relationships among taxa challenging due to the convoluted effects of incomplete lineage sorting (ILS) and introgression. Phylogenomic datasets have the potential to detect patterns of phylogenetic incongruence, and to address their causes. However, the footprints of ILS and introgression on sequence data can vary between different phylogenomic markers at different phylogenetic scales depending on factors such as their evolutionary rates or their selection pressures. We show that combining phylogenomic markers that evolve at different rates, such as paired-end double-digest restriction site-associated DNA (PE-ddRAD) and ultraconserved elements (UCEs), allows a comprehensive exploration of the causes of phylogenetic discordance associated with short internodes at different timescales. We used thousands of UCE and PE-ddRAD markers to produce the first well-resolved phylogeny of shearwaters, a group of medium-sized pelagic seabirds that are among the most phylogenetically controversial and endangered bird groups. We found that phylogenomic conflict was mainly derived from high levels of ILS due to rapid speciation events. We also documented a case of introgression, despite the high philopatry of shearwaters to their breeding sites, which typically limits gene flow. We integrated state-of-the-art concatenated and coalescent-based approaches to expand on previous comparisons of UCE and RAD-Seq datasets for phylogenetics, divergence time estimation and inference of introgression, and we propose a strategy to optimise RAD-Seq data for phylogenetic analyses. Our results highlight the usefulness of combining phylogenomic markers evolving at different rates to understand the causes of phylogenetic discordance at different timescales.

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“…Similar gene flow between Atlantic and Indian Oceans was proposed for petrels (Pterodroma spp. ;Booth Jones et al, 2017;Brown et al, 2010) and between Atlantic and Pacific Oceans for magnificent frigatebirds Fregata magnificens (Hailer et al, 2010). (Bourjea et al, 2007).…”

Section: Genetic Structuring Among Subspeciesmentioning

confidence: 99%

“…Seabirds are an intriguing taxon when their populations are considered in terms of gene flow and genetic diversity and structuring. Despite having wide dispersal potential over entire ocean basins (Booth Jones et al., 2017; Egevang et al., 2010; González‐Solís, Croxall, Oro, & Ruiz, 2007), they often show high levels of population isolation and even endemism. This is the so‐called “seabird paradox” (Friesen, 2015; Lombal, O'dwyer, Friesen, Woehler, & Burridge, 2020; Milot, Weimerskirch, & Bernatchez, 2008; Welch et al., 2012).…”

Section: Introductionmentioning

confidence: 99%

Genetic structuring among colonies of a pantropical seabird: Implication for subspecies validation and conservation

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et al. 2020

Ecology and Evolution

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Widespread gene flow between oceans in a pelagic seabird species complex

Cited by 17 publications

References 78 publications

Killer whale genomes reveal a complex history of recurrent admixture and vicariance

Killer whale genomes reveal a complex history of recurrent admixture and vicariance

Integrating Sequence Capture and Restriction Site-Associated DNA Sequencing to Resolve Recent Radiations of Pelagic Seabirds

Genetic structuring among colonies of a pantropical seabird: Implication for subspecies validation and conservation

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