Characterizing neutral and adaptive genomic differentiation in a changing climate: The most northerly freshwater fish as a model

O’Malley, Kathleen G.; Vaux, Felix; Black, Andrew N.

doi:10.1002/ece3.4891

Cited by 12 publications

(11 citation statements)

References 95 publications

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“…A comparison of the locations in which sympatric resident and anadromous Arctic Charr are and are not genetically distinct could yield insights into the ecological factors driving genetic differentiation. Significant genetic differences have been observed among resident and anadromous Arctic Charr in Labrador (this study and Salisbury et al., 2018), Greenland (Doenz et al., 2019) and Svalbard (O'Malley et al., 2019) but not Baffin Island (Moore et al., 2014). Distance to the ocean and the associated migratory fitness costs (Finstad & Hein, 2012) may play a role in favouring genetically distinct residents as Baffin Island sites were <1 km from the ocean (Loewen et al., 2010) whereas the Labrador sites were all >10 km from the ocean (Ramah ~ 10 km, Brooklyn ~ 35 km, Esker North ~ 78 km, as measured using Google Earth Pro [GEP]).…”

Section: Discussionmentioning

confidence: 46%

“…Distance to the ocean and the associated migratory fitness costs (Finstad & Hein, 2012) may play a role in favouring genetically distinct residents as Baffin Island sites were <1 km from the ocean (Loewen et al., 2010) whereas the Labrador sites were all >10 km from the ocean (Ramah ~ 10 km, Brooklyn ~ 35 km, Esker North ~ 78 km, as measured using Google Earth Pro [GEP]). However, genetically distinct morphs in Svalbard (O'Malley et al., 2019) were only ~2 km (measured with GEP) from the ocean. The small size of Ramah Lake (0.25 km 2 , measured with GEP) also suggests that lake size did not prevent the genetic differentiation of morphs in the similarly sized Baffin Island lakes (0.15–1.2 km 2 ) (Loewen et al., 2009).…”

Section: Discussionmentioning

confidence: 99%

“…Residents remain in freshwater their entire lives; they mature at a younger age and smaller size and also achieve a smaller lifetime length than the anadromous morph (Jonsson & Hindar, 1982; Jonsson & Jonsson, 2001; Rikardsen et al., 2004). While residency and anadromy have been thought to be primarily plastic traits in Arctic Charr (Jonsson & Jonsson, 2001; Moore et al., 2014; Nordeng, 1983) recent evidence based on neutral markers suggests that sympatric resident and anadromous morphs may be genetically differentiated (Doenz et al., 2019; O'Malley et al., 2019; Salisbury et al., 2018). Given that the anadromous morph forms the basis of economically and culturally important subsistence, recreational, and commercial fisheries often run by Indigenous peoples (Moore et al., 2013; Scott & Crossman, 1973) an understanding of the genetic contribution to Arctic Charr life history is essential for management and conservation.…”

Section: Introductionmentioning

confidence: 99%

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Limited genetic parallelism underlies recent, repeated incipient speciation in geographically proximate populations of an Arctic fish (Salvelinus alpinus)

et al. 2020

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The genetic underpinnings of incipient speciation, including the genomic mechanisms which contribute to morphological and ecological differentiation and reproductive isolation, remain poorly understood. The repeated evolution of consistently, phenotypically distinct morphs of Arctic Charr (Salvelinus alpinus) within the Quaternary period offer an ideal model to study the repeatability of evolution at the genomic level. Sympatric morphs of Arctic Charr are found across this species' circumpolar distribution. However, the specific genetic mechanisms driving this morph differentiation are largely unknown despite the cultural and economic importance of the anadromous morph. We used a newly designed 87k SNP chip to investigate the character and consistency of the genomic differences among sympatric morphs within three recently deglaciated and geographically proximate lakes in Labrador, Canada. We found genetically distinct small and large morph Arctic Charr in all three lakes consistent with resident and anadromous morphs, respectively. A degree of reproductive isolation among sympatric morphs is likely given genome‐wide distributions of outlier SNPs and high genome‐wide FSTs. Across all lakes, outlier SNPs were largely nonoverlapping suggesting a lack of genetic parallelism driving morph differentiation. Alternatively, several genes and paralogous copies of the same gene consistently differentiated morphs across multiple lakes suggesting their importance to the manifestation of morphs. Our results confirm the utility of Arctic Charr as a model for investigating the predictability of evolution and support the importance of both genetic parallelism and nonparallelism to the incipient speciation of Arctic Charr morphs.

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Section: Discussionmentioning

confidence: 46%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Limited genetic parallelism underlies recent, repeated incipient speciation in geographically proximate populations of an Arctic fish (Salvelinus alpinus)

et al. 2020

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“…However, population structure in Hudson Bay appeared weaker, as there were signs of admixture between rivers within 100 km. As discussed earlier, other studies on Arctic Char have attributed low genetic differentiation over long distances to recent post-glaciation colonization events (Moore et al, 2013; O’Malley et al, 2019). However, lower salinity and a longer summer period in Hudson Bay could also lead to higher connectivity between estuaries.…”

Section: Discussionmentioning

confidence: 76%

Population structure and genomic evidence for local adaptation to freshwater and marine environments in anadromous Arctic Char (Salvelinus alpinus) throughout Nunavik, Québec, Canada

Dallaire

Normandeau

Mainguy

et al. 2020

Preprint

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Distinguishing neutral and adaptive genetic variation is one of the main challenges in investigating processes shaping population structure in the wild. Despite marine environments being key habitats for the growth of anadromous fishes, landscape genomics studies on salmonids have generally focused on identifying signatures of adaptation to freshwater habitats. Unlike most other anadromous salmonids, Arctic Char (Salvelinus alpinus) occupy coastal habitats near their overwintering rivers during their marine phase, thus making adaptation to marine habitats possible. The aim of this study was to document the neutral and adaptive variation of populations among anadromous Arctic Char in Nunavik and bordering regions. We used GBS to genotype 20,327 filtered single nucleotide polymorphisms (SNPs) for 650 individuals sampled in 23 locations along >2,000 km of coastline. Our results reveal a hierarchical genetic structure, whereby neighboring hydrographic systems harbour distinct populations grouping within major oceanographic basins, namely the Hudson Bay, Hudson Strait, Ungava Bay and Labrador Sea. We found genetic diversity and differentiation to be influenced by both post-glacial recolonization history and by patterns of isolation-by-distance reflecting contemporary gene flow. Furthermore, using three gene-environment association (GEA) methods we found genomic evidence for local adaptation to both freshwater and marine habitats, especially in relation to sea-surface and air temperatures during summer, precipitation, and salinity. This study is among the first to explicitly explore the genetic basis of marine adaptations in salmonids and highlights the complex interactions in selective pressures over the lifespan of anadromous fishes.

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“…However, population structure in Hudson Bay was weaker, as there were signs of admixture between rivers within 100 km of each other. Other studies have attributed low genetic differentiation over long distances to recent postglaciation colonization events (Delgado et al, 2019;Moore et al, 2013;O'Malley et al, 2019). Nonexclusively, lower salinity and a longer summer period in Hudson Bay could also lead to higher connectivity between estuaries.…”

Section: Contemporary Gene Flowmentioning

confidence: 99%

Genomic data support management of anadromous Arctic Char fisheries in Nunavik by highlighting neutral and putatively adaptive genetic variation

Dallaire

Normandeau

Mainguy

et al. 2021

Evolutionary Applications

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Characterizing neutral and adaptive genomic differentiation in a changing climate: The most northerly freshwater fish as a model

Cited by 12 publications

References 95 publications

Limited genetic parallelism underlies recent, repeated incipient speciation in geographically proximate populations of an Arctic fish (Salvelinus alpinus)

Limited genetic parallelism underlies recent, repeated incipient speciation in geographically proximate populations of an Arctic fish (Salvelinus alpinus)

Population structure and genomic evidence for local adaptation to freshwater and marine environments in anadromous Arctic Char (Salvelinus alpinus) throughout Nunavik, Québec, Canada

Genomic data support management of anadromous Arctic Char fisheries in Nunavik by highlighting neutral and putatively adaptive genetic variation

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