Life-history traits and habitat availability shape genomic diversity in birds: implications for conservation

Brüniche‐Olsen, Anna; Kellner, Kenneth F.; Belant, Jerrold L.; DeWoody, J. Andrew

doi:10.1098/rspb.2021.1441

Cited by 22 publications

(33 citation statements)

References 82 publications

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“…Small-bodied species ( O. oceanicus , F. grallaria , H. tethys , and P. urinatrix ) have higher heterozygosities and higher variance in heterozygosity levels across the genome than large-bodied species ( Fulmarus glacialis , C. borealis , P. mauretanicus and T. chlororhynchos ). This pattern is in line with the negative correlations reported between heterozygosity and body size across animals from many taxa ( Romiguier et al 2014 ; Brüniche-Olsen et al 2018 , 2021 ). Such well-supported correlations are likely due to the interplay between N e and μ , both of which are correlated with body size ( Romiguier et al 2014 ; Brüniche-Olsen et al 2018 ).…”

Section: Discussionsupporting

confidence: 87%

“…The genetic diversity within a species represents a reservoir of adaptive variation that can help populations to cope with environmental variability ( Dussex et al 2021 ). Understanding the processes that shape genetic diversity and its distribution pattern within species is paramount to assess the conservation status or the factors responsible for a species decline ( Brüniche-Olsen et al 2021 ). This knowledge can inform the proposal of effective conservation and management plans, as for instance the definition of management units ( Funk et al 2012 ).…”

Section: Introductionmentioning

confidence: 99%

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The First Genome of the Balearic Shearwater (Puffinus mauretanicus) Provides a Valuable Resource for Conservation Genomics and Sheds Light on Adaptation to a Pelagic lifestyle

Cuevas-Caballé

Obiol

Vizueta

et al. 2022

Genome Biology and Evolution

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The Balearic shearwater (Puffinus mauretanicus) is the most threatened seabird in Europe and member of the most speciose group of pelagic seabirds, the order Procellariiformes, which exhibit extreme adaptations to a pelagic lifestyle. The fossil record suggests that human colonization of the Balearic Islands resulted in a sharp decrease of the Balearic shearwater population size. Currently, populations continue to be decimated mainly due to predation by introduced mammals and bycatch in longline fisheries, and some studies predict their extinction by 2070. Here, we generated the first high-quality reference genome for the species, with a completeness amongst the highest across available avian species, using a combination of short and long reads. We used this reference genome to study critical aspects relevant to the conservation status of the Balearic shearwater and to gain insights into the adaptation to a pelagic lifestyle of the order Procellariiformes. We detected relatively high levels of genome-wide heterozygosity in the Balearic shearwater despite its reduced population size. However, the reconstruction of its historical demography uncovered an abrupt population decline potentially linked to a reduction of the neritic zone during the Penultimate Glacial Period (∼194-135 kya). Comparative genomics analyses uncover a set of candidate genes that may have played an important role into the adaptation to a pelagic lifestyle of Procellariiformes, including those for the enhancement of fishing capabilities, night vision and the development of natriuresis. The reference genome obtained will be the keystone for future developments of genetic tools in conservation efforts for this Critically Endangered species.

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Section: Discussionsupporting

confidence: 87%

Section: Introductionmentioning

confidence: 99%

The First Genome of the Balearic Shearwater (Puffinus mauretanicus) Provides a Valuable Resource for Conservation Genomics and Sheds Light on Adaptation to a Pelagic lifestyle

Cuevas-Caballé

Obiol

Vizueta

et al. 2022

Genome Biology and Evolution

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“…In birds, we used π estimates in [78], obtaining direct estimates for 13 of the remaining species. For species not present in the database, we assigned the π of the closest species in the bird phylogeny (85 species).…”

Section: Species Selection Criteriamentioning

confidence: 99%

A paternal bias in germline mutation is widespread in amniotes and can arise independently of cell divisions

Manuel

Przeworski

2022

Preprint

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In humans and other mammals, germline mutations are more likely to arise in fathers than in mothers. Although this sex bias has long been attributed to DNA replication errors in spermatogenesis, recent evidence from humans points to the importance of mutagenic processes that do not depend on cell division, calling into question our understanding of this basic phenomenon. Here, we infer the ratio of paternal-to-maternal mutations, α, in 42 species of amniotes, from putatively neutral substitution rates of sex chromosomes and autosomes. Despite marked differences in gametogenesis, physiologies and environments across species, fathers consistently contribute more mutations than mothers in all the species examined, including mammals, birds and reptiles. In mammals, α is as high as 4 and correlates with generation times; in birds and snakes, α appears more stable around 2. These observations can be explained by a simple model, in which mutations accrue at equal rates in both sexes during early development and at a higher rate in the male germline after sexual differentiation, with a conserved paternal-to-maternal ratio across species. Thus, α may reflect the relative contributions of two or more developmental phases to total germline mutations, and is expected to depend on generation time even if mutations do not track cell divisions.

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“…The genetic diversity of centipedes decreases with increasing body size, a relationship that has been observed across several animal groups (Brüniche-Olsen et al, 2021;De Kort et al, 2021;Mackintosh et al, 2019;Romiguier et al, 2014; an exception being Barrow et al, 2021). This association could be driven by the negative relationship between body size and abundance due to resource constraints (White et al, 2007), and by body size representing an ecological strategy that determines long-term effective population size (Ellegren & Galtier, 2016).…”

Section: Species Traits Are Significant Correlates Of Genetic Diversitymentioning

confidence: 87%

Genetic diversity varies with species traits and latitude in predatory soil arthropods (Myriapoda: Chilopoda)

Bharti

Pawar

Edgecombe

et al. 2022

Preprint

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AimTo investigate the drivers of intra-specific genetic diversity in centipedes, a group of ancient predatory soil arthropods.LocationGlobalTime periodPresentMajor taxa studiedCentipedes (Class: Chilopoda)MethodsWe assembled a database of over 1200 mitochondrial cytochrome c oxidase subunit I sequences representing 120 centipede species from all five orders of Chilopoda. We used this sequence dataset to estimate genetic diversity for centipede species and compared its distribution with estimates from other arthropod groups. We studied the variation in centipede genetic diversity with species traits and biogeography using a beta regression framework, controlling for the effect of shared evolutionary history within a family.ResultsWe observed a wide variation in genetic diversity across centipede species (0 to 0.1713), which falls towards the higher end of values among arthropods. Overall, 21.51% of the variation in mitochondrial COI genetic diversity in centipedes was explained by a combination of predictors related to life history and biogeography. Genetic diversity decreased with body size and latitudinal position of sampled localities, was greater in species showing maternal care and increased with geographic distance among conspecifics.Main conclusionsCentipedes fall towards the higher end of genetic diversity among arthropods, which may be related to their long evolutionary history and low dispersal ability. In centipedes, the negative association of body size with genetic diversity may be mediated by its influence on local abundance or the influence of ecological strategy on long-term population history. Species with maternal care had higher genetic diversity, which goes against our expectations and needs further scrutiny. Hemispheric differences in genetic diversity can be due to historic climatic stability and lower seasonality in the southern hemisphere. Overall, we find that despite the differences in mean genetic diversity among animals, similar processes related to life history strategy and biogeography shape the variation within them.

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Life-history traits and habitat availability shape genomic diversity in birds: implications for conservation

Cited by 22 publications

References 82 publications

The First Genome of the Balearic Shearwater (Puffinus mauretanicus) Provides a Valuable Resource for Conservation Genomics and Sheds Light on Adaptation to a Pelagic lifestyle

The First Genome of the Balearic Shearwater (Puffinus mauretanicus) Provides a Valuable Resource for Conservation Genomics and Sheds Light on Adaptation to a Pelagic lifestyle

A paternal bias in germline mutation is widespread in amniotes and can arise independently of cell divisions

Genetic diversity varies with species traits and latitude in predatory soil arthropods (Myriapoda: Chilopoda)

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