Range-wide parallel climate-associated genomic clines in atlantic salmon

Nicholas W. Jeffery; Ryan R.E. Stanley; Brendan F. Wringe; Javier Guijarro-Sabaniel; Vincent Bourret; Louis Bernatchez; Paul Bentzen; Robert G. Beiko; John Gilbey; Marie Clément; Ian R. Bradbury

doi:10.1098/rsos.171394

Range-wide parallel climate-associated genomic clines in atlantic salmon

Nicholas W. Jeffery, Ryan R.E. Stanley, Brendan F. Wringe, Javier Guijarro-Sabaniel, Vincent Bourret, Louis Bernatchez, Paul Bentzen, Robert G. Beiko, John Gilbey, Marie Clément, Ian R. Bradbury

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Resumen

Clinal variation across replicated environmental gradients can reveal evidence of local adaptation, providing insight into the demographic and evolutionary processes that shape intraspecific diversity. Using 1773 genome-wide single nucleotide polymorphisms we evaluated latitudinal variation in allele frequency for 134 populations of North American and European Atlantic salmon (Salmo salar).We detected 84 (4.74%) and 195 (11%) loci showing clinal patterns in North America and Europe, respectively, with 12 clinal loci in common between continents. Clinal single nucleotide polymorphisms were evenly distributed across the salmon genome and logistic regression revealed significant associations with latitude and seasonal temperatures, particularly average spring temperature in both continents. Loci displaying parallel clines were associated with several metabolic and immune functions, suggesting a potential basis for climate-associated adaptive differentiation. These climate-based clines collectively suggest evidence of large-scale environmental associated differences on either side of the North Atlantic. Our results support patterns of parallel evolution on both sides of the North Atlantic, with evidence of both similar and divergent underlying genetic architecture. The identification of climate-associated genomic clines illuminates the role of selection and demographic processes on intraspecific diversity in this species and provides a context in which to evaluate the impacts of climate change.

Idioma original	English
Número de artículo	171394
Publicación	Royal Society Open Science
Volumen	4
N.º	11
DOI	https://doi.org/10.1098/rsos.171394
Estado	Published - nov. 15 2017

Nota bibliográfica

Funding Information:
Data accessibility. All data used in the present study is publicly available and cited in the text. Filtered genotypes, R scripts, and metadata used in the analyses are available from the Dryad Digital Repository: https://doi.org/10.5061/ dryad.cv20d [67]. Authors’ contributions. N.W.J. and I.R.B. conceived of and designed the study. N.W.J., R.R.E.S., B.F.W. and J.G.-S. performed the statistical analyses. L.B., V.B., J.G.-S., P.B., R.G.B. and M.C. provided molecular data and metadata for the study. All authors wrote, revised and approved the final draft of the manuscript. Competing interests. We have no competing interests. Funding. This study was funded by a Genomics Research and Development Initiative (GRDI) grant, National Sciences and Engineering Research Council (NSERC) Discovery Grant to I.R.B. and Strategic Project Grants lead by L.B. and P.B. M.C., R.G.B. and I.R.B. are also funded by the Strategic Project Grant. N.W.J. is supported by an NSERC Visiting Fellowship in a Government Laboratory. Acknowledgements. The authors thank staff of the Newfoundland DFO Salmonids section, Jonathan Pearce, the Nunatsiavut Government, the Sivunivut Inuit Community Corporation, the Innu Nation, the Labrador Hunting and Fishing Association and fishers from Rigolet, North West River and Sheshatshiu (Labrador) for tissue collections and

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© 2017 The Authors.

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title = "Range-wide parallel climate-associated genomic clines in atlantic salmon",

abstract = "Clinal variation across replicated environmental gradients can reveal evidence of local adaptation, providing insight into the demographic and evolutionary processes that shape intraspecific diversity. Using 1773 genome-wide single nucleotide polymorphisms we evaluated latitudinal variation in allele frequency for 134 populations of North American and European Atlantic salmon (Salmo salar).We detected 84 (4.74%) and 195 (11%) loci showing clinal patterns in North America and Europe, respectively, with 12 clinal loci in common between continents. Clinal single nucleotide polymorphisms were evenly distributed across the salmon genome and logistic regression revealed significant associations with latitude and seasonal temperatures, particularly average spring temperature in both continents. Loci displaying parallel clines were associated with several metabolic and immune functions, suggesting a potential basis for climate-associated adaptive differentiation. These climate-based clines collectively suggest evidence of large-scale environmental associated differences on either side of the North Atlantic. Our results support patterns of parallel evolution on both sides of the North Atlantic, with evidence of both similar and divergent underlying genetic architecture. The identification of climate-associated genomic clines illuminates the role of selection and demographic processes on intraspecific diversity in this species and provides a context in which to evaluate the impacts of climate change.",

author = "Jeffery, {Nicholas W.} and Stanley, {Ryan R.E.} and Wringe, {Brendan F.} and Javier Guijarro-Sabaniel and Vincent Bourret and Louis Bernatchez and Paul Bentzen and Beiko, {Robert G.} and John Gilbey and Marie Cl{\'e}ment and Bradbury, {Ian R.}",

note = "Funding Information: Data accessibility. All data used in the present study is publicly available and cited in the text. Filtered genotypes, R scripts, and metadata used in the analyses are available from the Dryad Digital Repository: https://doi.org/10.5061/ dryad.cv20d [67]. Authors{\textquoteright} contributions. N.W.J. and I.R.B. conceived of and designed the study. N.W.J., R.R.E.S., B.F.W. and J.G.-S. performed the statistical analyses. L.B., V.B., J.G.-S., P.B., R.G.B. and M.C. provided molecular data and metadata for the study. All authors wrote, revised and approved the final draft of the manuscript. Competing interests. We have no competing interests. Funding. This study was funded by a Genomics Research and Development Initiative (GRDI) grant, National Sciences and Engineering Research Council (NSERC) Discovery Grant to I.R.B. and Strategic Project Grants lead by L.B. and P.B. M.C., R.G.B. and I.R.B. are also funded by the Strategic Project Grant. N.W.J. is supported by an NSERC Visiting Fellowship in a Government Laboratory. Acknowledgements. The authors thank staff of the Newfoundland DFO Salmonids section, Jonathan Pearce, the Nunatsiavut Government, the Sivunivut Inuit Community Corporation, the Innu Nation, the Labrador Hunting and Fishing Association and fishers from Rigolet, North West River and Sheshatshiu (Labrador) for tissue collections and Publisher Copyright: {\textcopyright} 2017 The Authors.",

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AU - Jeffery, Nicholas W.

AU - Stanley, Ryan R.E.

AU - Wringe, Brendan F.

AU - Guijarro-Sabaniel, Javier

AU - Bourret, Vincent

AU - Bernatchez, Louis

AU - Bentzen, Paul

AU - Beiko, Robert G.

AU - Gilbey, John

AU - Clément, Marie

AU - Bradbury, Ian R.

N1 - Funding Information: Data accessibility. All data used in the present study is publicly available and cited in the text. Filtered genotypes, R scripts, and metadata used in the analyses are available from the Dryad Digital Repository: https://doi.org/10.5061/ dryad.cv20d [67]. Authors’ contributions. N.W.J. and I.R.B. conceived of and designed the study. N.W.J., R.R.E.S., B.F.W. and J.G.-S. performed the statistical analyses. L.B., V.B., J.G.-S., P.B., R.G.B. and M.C. provided molecular data and metadata for the study. All authors wrote, revised and approved the final draft of the manuscript. Competing interests. We have no competing interests. Funding. This study was funded by a Genomics Research and Development Initiative (GRDI) grant, National Sciences and Engineering Research Council (NSERC) Discovery Grant to I.R.B. and Strategic Project Grants lead by L.B. and P.B. M.C., R.G.B. and I.R.B. are also funded by the Strategic Project Grant. N.W.J. is supported by an NSERC Visiting Fellowship in a Government Laboratory. Acknowledgements. The authors thank staff of the Newfoundland DFO Salmonids section, Jonathan Pearce, the Nunatsiavut Government, the Sivunivut Inuit Community Corporation, the Innu Nation, the Labrador Hunting and Fishing Association and fishers from Rigolet, North West River and Sheshatshiu (Labrador) for tissue collections and Publisher Copyright: © 2017 The Authors.

PY - 2017/11/15

Y1 - 2017/11/15

N2 - Clinal variation across replicated environmental gradients can reveal evidence of local adaptation, providing insight into the demographic and evolutionary processes that shape intraspecific diversity. Using 1773 genome-wide single nucleotide polymorphisms we evaluated latitudinal variation in allele frequency for 134 populations of North American and European Atlantic salmon (Salmo salar).We detected 84 (4.74%) and 195 (11%) loci showing clinal patterns in North America and Europe, respectively, with 12 clinal loci in common between continents. Clinal single nucleotide polymorphisms were evenly distributed across the salmon genome and logistic regression revealed significant associations with latitude and seasonal temperatures, particularly average spring temperature in both continents. Loci displaying parallel clines were associated with several metabolic and immune functions, suggesting a potential basis for climate-associated adaptive differentiation. These climate-based clines collectively suggest evidence of large-scale environmental associated differences on either side of the North Atlantic. Our results support patterns of parallel evolution on both sides of the North Atlantic, with evidence of both similar and divergent underlying genetic architecture. The identification of climate-associated genomic clines illuminates the role of selection and demographic processes on intraspecific diversity in this species and provides a context in which to evaluate the impacts of climate change.

AB - Clinal variation across replicated environmental gradients can reveal evidence of local adaptation, providing insight into the demographic and evolutionary processes that shape intraspecific diversity. Using 1773 genome-wide single nucleotide polymorphisms we evaluated latitudinal variation in allele frequency for 134 populations of North American and European Atlantic salmon (Salmo salar).We detected 84 (4.74%) and 195 (11%) loci showing clinal patterns in North America and Europe, respectively, with 12 clinal loci in common between continents. Clinal single nucleotide polymorphisms were evenly distributed across the salmon genome and logistic regression revealed significant associations with latitude and seasonal temperatures, particularly average spring temperature in both continents. Loci displaying parallel clines were associated with several metabolic and immune functions, suggesting a potential basis for climate-associated adaptive differentiation. These climate-based clines collectively suggest evidence of large-scale environmental associated differences on either side of the North Atlantic. Our results support patterns of parallel evolution on both sides of the North Atlantic, with evidence of both similar and divergent underlying genetic architecture. The identification of climate-associated genomic clines illuminates the role of selection and demographic processes on intraspecific diversity in this species and provides a context in which to evaluate the impacts of climate change.

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Range-wide parallel climate-associated genomic clines in atlantic salmon

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