Xiaodong Liu scite author profile

The harbour seal (Phoca vitulina) is the most widely distributed pinniped, occupying a wide variety of habitats and climatic zones across the Northern Hemisphere. Intriguingly, the harbour seal is also one of the most philopatric seals, raising questions as to how it colonized its current range. To shed light on the origin, remarkable range expansion, population structure and genetic diversity of this species, we used genotyping‐by‐sequencing to analyse ~13,500 biallelic single nucleotide polymorphisms from 286 individuals sampled from 22 localities across the species’ range. Our results point to a Northeast Pacific origin of the harbour seal, colonization of the North Atlantic via the Canadian Arctic, and subsequent stepping‐stone range expansions across the North Atlantic from North America to Europe, accompanied by a successive loss of genetic diversity. Our analyses further revealed a deep divergence between modern North Pacific and North Atlantic harbour seals, with finer‐scale genetic structure at regional and local scales consistent with strong philopatry. The study provides new insights into the harbour seal's remarkable ability to colonize and adapt to a wide range of habitats. Furthermore, it has implications for current harbour seal subspecies delineations and highlights the need for international and national red lists and management plans to ensure the protection of genetically and demographically isolated populations.

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Colonialism in South Africa leaves a lasting legacy of reduced genetic diversity in Cape buffalo

Quinn

Garcia‐Erill

Santander

et al. 2023

Molecular Ecology

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The iconic Cape buffalo has experienced several documented population declines in recent history. These declines have been largely attributed to the late 19th century rinderpest pandemic. However, the effect of the rinderpest pandemic on their genetic diversity remains contentious, and other factors that have potentially affected this diversity include environmental changes during the Pleistocene, range expansions and recent human activity. Motivated by this, we present analyses of whole genome sequencing data from 59 individuals from across the Cape buffalo range to assess present‐day levels of genome‐wide genetic diversity and what factors have influenced these levels. We found that the Cape buffalo has high average heterozygosity overall (0.40%), with the two southernmost populations having significantly lower heterozygosity levels (0.33% and 0.29%) on par with that of the domesticated water buffalo (0.29%). Interestingly, we found that these lower levels are probably due to recent inbreeding (average fraction of runs of homozygosity 23.7% and 19.9%) rather than factors further back in time during the Pleistocene. Moreover, detailed investigations of recent demographic history show that events across the past three centuries were the main drivers of the exceptional loss of genetic diversity in the southernmost populations, coincident with the onset of colonialism in the southern extreme of the Cape buffalo range. Hence, our results add to the growing body of studies suggesting that multiple recent human‐mediated impacts during the colonial period caused massive losses of large mammal abundance in southern Africa.

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A polygenic architecture with habitat‐dependent effects underlies ecological differentiation in Silene

et al. 2022

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Summary Ecological differentiation can drive speciation but it is unclear how the genetic architecture of habitat‐dependent fitness contributes to lineage divergence. We investigated the genetic architecture of cumulative flowering, a fitness component, in second‐generation hybrids between Silene dioica and Silene latifolia transplanted into the natural habitat of each species. We used reduced‐representation sequencing and Bayesian sparse linear mixed models (BSLMMs) to analyze the genetic control of cumulative flowering in each habitat. Our results point to a polygenic architecture of cumulative flowering. Allelic effects were mostly beneficial or deleterious in one habitat and neutral in the other. Positive‐effect alleles often were derived from the native species, whereas negative‐effect alleles, at other loci, tended to originate from the non‐native species. We conclude that ecological differentiation is governed and maintained by many loci with small, habitat‐dependent effects consistent with conditional neutrality. This pattern may result from differences in selection targets in the two habitats and from environmentally dependent deleterious load. Our results further suggest that selection for native alleles and against non‐native alleles acts as a barrier to gene flow between species.

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Xiaodong Liu

Origin and expansion of the world’s most widespread pinniped: Range‐wide population genomics of the harbour seal (Phoca vitulina)

Colonialism in South Africa leaves a lasting legacy of reduced genetic diversity in Cape buffalo

A polygenic architecture with habitat‐dependent effects underlies ecological differentiation in Silene

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