RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic

Nicholas W. Jeffery; Claudio DiBacco; Mallory Van Wyngaarden; Lorraine C. Hamilton; Ryan R.E. Stanley; Renée Bernier; Jennifer FitzGerald; K. Matheson; C. H. McKenzie; Praveen Nadukkalam Ravindran; Robert Beiko; Ian R. Bradbury

doi:10.1002/ece3.2872

RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic

Nicholas W. Jeffery, Claudio DiBacco, Mallory Van Wyngaarden, Lorraine C. Hamilton, Ryan R.E. Stanley, Renée Bernier, Jennifer FitzGerald, K. Matheson, C. H. McKenzie, Praveen Nadukkalam Ravindran, Robert Beiko, Ian R. Bradbury

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39 Citations (Scopus)

Résumé

Genomic studies of invasive species can reveal both invasive pathways and functional differences underpinning patterns of colonization success. The European green crab (Carcinus maenas) was initially introduced to eastern North America nearly 200 years ago where it expanded northwards to eastern Nova Scotia. A subsequent invasion to Nova Scotia from a northern European source allowed further range expansion, providing a unique opportunity to study the invasion genomics of a species with multiple invasions. Here, we use restriction-site-associated DNA sequencing-derived SNPs to explore fine-scale genomewide differentiation between these two invasions. We identified 9137 loci from green crab sampled from 11 locations along eastern North America and compared spatial variation to mitochondrial COI sequence variation used previously to characterize these invasions. Overall spatial divergence among invasions was high (pairwise F_ST ~0.001 to 0.15) and spread across many loci, with a mean F_ST ~0.052 and 52% of loci examined characterized by F_ST values >0.05. The majority of the most divergent loci (i.e., outliers, ~1.2%) displayed latitudinal clines in allele frequency highlighting extensive genomic divergence among the invasions. Discriminant analysis of principal components (both neutral and outlier loci) clearly resolved the two invasions spatially and was highly correlated with mitochondrial divergence. Our results reveal extensive cryptic intraspecific genomic diversity associated with differing patterns of colonization success and demonstrates clear utility for genomic approaches to delineating the distribution and colonization success of aquatic invasive species.

Langue d'origine	English
Pages (de-à)	2513-2524
Nombre de pages	12
Journal	Ecology and Evolution
Volume	7
Numéro de publication	8
DOI	https://doi.org/10.1002/ece3.2872
Statut de publication	Published - avr. 2017
Publié à l'externe	Oui

Note bibliographique

Funding Information:
The authors wish to thank staff at Fisheries and Oceans Canada for their assistance with sample collection, in particular Erica Watson, Sophie Boudreau, Lorne Penny, Marie-Helene Theriault, Dawn Sephton, Roland Hagan, Paul Jivoff, and April Blakeslee. They also wish to thank the staff of the Aquatic Biotechnology Lab at the Bedford Institute of Oceanography for assistance with DNA extractions and RAD library preparation. Funding was provided by the Genomic Resource Development Initiative, Fisheries and Oceans Canada to IRB and CDB. This work was supported by a National Sciences and Engineering Research Council of Canada (NSERC) visiting fellowship awarded to NWJ.

Publisher Copyright:
© 2017 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

ASJC Scopus Subject Areas

Ecology, Evolution, Behavior and Systematics
Ecology
Nature and Landscape Conservation

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10.1002/ece3.2872

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Jeffery, N. W., DiBacco, C., Van Wyngaarden, M., Hamilton, L. C., Stanley, R. R. E., Bernier, R., FitzGerald, J., Matheson, K., McKenzie, C. H., Nadukkalam Ravindran, P., Beiko, R., & Bradbury, I. R. (2017). RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic. Ecology and Evolution, 7(8), 2513-2524. https://doi.org/10.1002/ece3.2872

Jeffery, NW, DiBacco, C, Van Wyngaarden, M, Hamilton, LC, Stanley, RRE, Bernier, R, FitzGerald, J, Matheson, K, McKenzie, CH, Nadukkalam Ravindran, P, Beiko, R & Bradbury, IR 2017, 'RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic', Ecology and Evolution, vol. 7, n° 8, pp. 2513-2524. https://doi.org/10.1002/ece3.2872

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title = "RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic",

abstract = "Genomic studies of invasive species can reveal both invasive pathways and functional differences underpinning patterns of colonization success. The European green crab (Carcinus maenas) was initially introduced to eastern North America nearly 200 years ago where it expanded northwards to eastern Nova Scotia. A subsequent invasion to Nova Scotia from a northern European source allowed further range expansion, providing a unique opportunity to study the invasion genomics of a species with multiple invasions. Here, we use restriction-site-associated DNA sequencing-derived SNPs to explore fine-scale genomewide differentiation between these two invasions. We identified 9137 loci from green crab sampled from 11 locations along eastern North America and compared spatial variation to mitochondrial COI sequence variation used previously to characterize these invasions. Overall spatial divergence among invasions was high (pairwise FST ~0.001 to 0.15) and spread across many loci, with a mean FST ~0.052 and 52% of loci examined characterized by FST values >0.05. The majority of the most divergent loci (i.e., outliers, ~1.2%) displayed latitudinal clines in allele frequency highlighting extensive genomic divergence among the invasions. Discriminant analysis of principal components (both neutral and outlier loci) clearly resolved the two invasions spatially and was highly correlated with mitochondrial divergence. Our results reveal extensive cryptic intraspecific genomic diversity associated with differing patterns of colonization success and demonstrates clear utility for genomic approaches to delineating the distribution and colonization success of aquatic invasive species.",

author = "Jeffery, {Nicholas W.} and Claudio DiBacco and {Van Wyngaarden}, Mallory and Hamilton, {Lorraine C.} and Stanley, {Ryan R.E.} and Ren{\'e}e Bernier and Jennifer FitzGerald and K. Matheson and McKenzie, {C. H.} and {Nadukkalam Ravindran}, Praveen and Robert Beiko and Bradbury, {Ian R.}",

note = "Funding Information: The authors wish to thank staff at Fisheries and Oceans Canada for their assistance with sample collection, in particular Erica Watson, Sophie Boudreau, Lorne Penny, Marie-Helene Theriault, Dawn Sephton, Roland Hagan, Paul Jivoff, and April Blakeslee. They also wish to thank the staff of the Aquatic Biotechnology Lab at the Bedford Institute of Oceanography for assistance with DNA extractions and RAD library preparation. Funding was provided by the Genomic Resource Development Initiative, Fisheries and Oceans Canada to IRB and CDB. This work was supported by a National Sciences and Engineering Research Council of Canada (NSERC) visiting fellowship awarded to NWJ. Publisher Copyright: {\textcopyright} 2017 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.",

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T1 - RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic

AU - Jeffery, Nicholas W.

AU - DiBacco, Claudio

AU - Van Wyngaarden, Mallory

AU - Hamilton, Lorraine C.

AU - Stanley, Ryan R.E.

AU - Bernier, Renée

AU - FitzGerald, Jennifer

AU - Matheson, K.

AU - McKenzie, C. H.

AU - Nadukkalam Ravindran, Praveen

AU - Beiko, Robert

AU - Bradbury, Ian R.

N1 - Funding Information: The authors wish to thank staff at Fisheries and Oceans Canada for their assistance with sample collection, in particular Erica Watson, Sophie Boudreau, Lorne Penny, Marie-Helene Theriault, Dawn Sephton, Roland Hagan, Paul Jivoff, and April Blakeslee. They also wish to thank the staff of the Aquatic Biotechnology Lab at the Bedford Institute of Oceanography for assistance with DNA extractions and RAD library preparation. Funding was provided by the Genomic Resource Development Initiative, Fisheries and Oceans Canada to IRB and CDB. This work was supported by a National Sciences and Engineering Research Council of Canada (NSERC) visiting fellowship awarded to NWJ. Publisher Copyright: © 2017 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

PY - 2017/4

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N2 - Genomic studies of invasive species can reveal both invasive pathways and functional differences underpinning patterns of colonization success. The European green crab (Carcinus maenas) was initially introduced to eastern North America nearly 200 years ago where it expanded northwards to eastern Nova Scotia. A subsequent invasion to Nova Scotia from a northern European source allowed further range expansion, providing a unique opportunity to study the invasion genomics of a species with multiple invasions. Here, we use restriction-site-associated DNA sequencing-derived SNPs to explore fine-scale genomewide differentiation between these two invasions. We identified 9137 loci from green crab sampled from 11 locations along eastern North America and compared spatial variation to mitochondrial COI sequence variation used previously to characterize these invasions. Overall spatial divergence among invasions was high (pairwise FST ~0.001 to 0.15) and spread across many loci, with a mean FST ~0.052 and 52% of loci examined characterized by FST values >0.05. The majority of the most divergent loci (i.e., outliers, ~1.2%) displayed latitudinal clines in allele frequency highlighting extensive genomic divergence among the invasions. Discriminant analysis of principal components (both neutral and outlier loci) clearly resolved the two invasions spatially and was highly correlated with mitochondrial divergence. Our results reveal extensive cryptic intraspecific genomic diversity associated with differing patterns of colonization success and demonstrates clear utility for genomic approaches to delineating the distribution and colonization success of aquatic invasive species.

AB - Genomic studies of invasive species can reveal both invasive pathways and functional differences underpinning patterns of colonization success. The European green crab (Carcinus maenas) was initially introduced to eastern North America nearly 200 years ago where it expanded northwards to eastern Nova Scotia. A subsequent invasion to Nova Scotia from a northern European source allowed further range expansion, providing a unique opportunity to study the invasion genomics of a species with multiple invasions. Here, we use restriction-site-associated DNA sequencing-derived SNPs to explore fine-scale genomewide differentiation between these two invasions. We identified 9137 loci from green crab sampled from 11 locations along eastern North America and compared spatial variation to mitochondrial COI sequence variation used previously to characterize these invasions. Overall spatial divergence among invasions was high (pairwise FST ~0.001 to 0.15) and spread across many loci, with a mean FST ~0.052 and 52% of loci examined characterized by FST values >0.05. The majority of the most divergent loci (i.e., outliers, ~1.2%) displayed latitudinal clines in allele frequency highlighting extensive genomic divergence among the invasions. Discriminant analysis of principal components (both neutral and outlier loci) clearly resolved the two invasions spatially and was highly correlated with mitochondrial divergence. Our results reveal extensive cryptic intraspecific genomic diversity associated with differing patterns of colonization success and demonstrates clear utility for genomic approaches to delineating the distribution and colonization success of aquatic invasive species.

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RAD sequencing reveals genomewide divergence between independent invasions of the European green crab (Carcinus maenas) in the Northwest Atlantic

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