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1. Genomic stability through time despite decades of exploitation in cod on both sides of the Atlantic.

Author

Pinsky, Malin, Eikeset, Anne, Helmerson, Cecilia, Bradbury, Ian, Bentzen, Paul, Morris, Corey, Gondek-Wyrozemska, Agata, Baalsrud, Helle, Brieuc, Marine, Kjesbu, Olav, Godiksen, Jane, Barth, Julia, Matschiner, Michael, Stenseth, Nils, Jakobsen, Kjetill, Jentoft, Sissel, and Star, Bastiaan

Subjects
fisheries-induced evolution, genetic diversity, historical DNA, population genomics, selective sweeps, Animals, Atlantic Ocean, Biomass, Evolution, Molecular, Gadus morhua, Genomic Instability, Polymorphism, Genetic
Abstract

The mode and extent of rapid evolution and genomic change in response to human harvesting are key conservation issues. Although experiments and models have shown a high potential for both genetic and phenotypic change in response to fishing, empirical examples of genetic responses in wild populations are rare. Here, we compare whole-genome sequence data of Atlantic cod (Gadus morhua) that were collected before (early 20th century) and after (early 21st century) periods of intensive exploitation and rapid decline in the age of maturation from two geographically distinct populations in Newfoundland, Canada, and the northeast Arctic, Norway. Our temporal, genome-wide analyses of 346,290 loci show no substantial loss of genetic diversity and high effective population sizes. Moreover, we do not find distinct signals of strong selective sweeps anywhere in the genome, although we cannot rule out the possibility of highly polygenic evolution. Our observations suggest that phenotypic change in these populations is not constrained by irreversible loss of genomic variation and thus imply that former traits could be reestablished with demographic recovery.

Published
2021

3. Post‐glacial recolonization and multiple scales of secondary contact contribute to contemporary Atlantic salmon (Salmo salar) genomic variation in North America.

Author

Nugent, Cameron M., Kess, Tony, Langille, Barbara L., Beck, Samantha V., Duffy, Steven, Messmer, Amber, Smith, Nicole, Lehnert, Sarah J., Wringe, Brendan F., Kent, Matthew, Bentzen, Paul, and Bradbury, Ian R.

Subjects
LAST Glacial Maximum, ATLANTIC salmon, SINGLE nucleotide polymorphisms, PRINCIPAL components analysis, GENOMICS
Abstract

Aim: In northern environments, periods of isolation during Pleistocene glaciations and subsequent recolonization and secondary contact have had a significant influence on contemporary diversity of many species. The recent advent of high‐resolution genomic analyses allows unprecedented power to resolve genomic signatures of such events in northern species. Here, we provide the highest resolution genomic characterization of Atlantic salmon in North America to date to infer glacial refugia and the geographic scales of post‐glacial secondary contact. Location: North America. Taxon: Atlantic salmon, Salmo salar. Methods: Samples were collected for 5455 individuals from 148 populations, encompassing the majority of the Atlantic salmon's native range in North America, from Labrador to Maine. Individuals were genotyped using a 220K single nucleotide polymorphism array aligned to the Atlantic salmon (Salmo salar) genome. Spatial genetic structure (principal component analysis, k‐means clustering, admixture) was evaluated in conjunction with genomic comparisons of these identified lineages to infer the refugia during the last glacial maximum and regions of secondary contact following recolonization. Results: Spatial genomic analyses identified three phylogeographic groups, consistent with the northward recolonization from two southern glacial refugia in North America (a western Maritime lineage and an eastern Newfoundland and Labrador lineage), with subsequent differentiation of the eastern lineage into two separate groups. Secondary contact among these North American groups was observed within the northern Gulf of St. Lawrence, and evidence of trans‐Atlantic secondary contact was detected within the eastern Newfoundland and Labrador lineage. Comparison of groups from insular Newfoundland with those from mainland Labrador suggests genomic regions displaying high differentiation were characterized by elevated European admixture, suggesting a possible role of European secondary contact in population divergence. Main Conclusions: These findings present the first evidence suggesting that genomic diversity in extant North American Atlantic salmon populations has resulted from allopatric isolation in two glacial refugia followed by both regional and trans‐Atlantic recolonization and secondary contact and demonstrate the power of genomic tools to resolve historical drivers of diversity in wild populations. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Genetic Diversity

Author

Wellband, Kyle, Baillie, Shauna M., Bentzen, Paul, Bernatchez, Louis, Noakes, David L. G., Series Editor, Muir, Andrew M., editor, Krueger, Charles C., editor, Hansen, Michael J., editor, and Riley, Stephen C., editor

Published
2021
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5. Trans-Atlantic genomic differentiation and parallel environmental and allelic variation in Lumpfish (Cyclopterus lumpus).

Author

Langille, Barbara L, Kess, Tony, Nugent, Cameron M, Messmer, Amber, Duffy, Steven J, Knutsen, Tim Martin, Kent, Matthew, Boyce, Danny, Gregory, Robert S, Gauthier, Johanne, Fairchild, Elizabeth A, Pietrak, Michael, Eddy, Stephen, Garcia de Leaniz, Carlos, Consuegra, Sofia, Whittaker, Ben, Bentzen, Paul, and Bradbury, Ian R

Subjects
SALMON farming, FISH farming, GENE frequency, LOCUS (Genetics), SALMON fishing
Abstract

In marine species with large populations and high dispersal potential, large-scale genetic differences and clinal trends in allele frequency can provide insight into the evolutionary processes that shape diversity. Lumpfish, Cyclopterus lumpus , is found throughout the North Atlantic and has traditionally been harvested for roe and more recently used as a cleaner fish in salmon aquaculture. We used a 70 K SNP array to evaluate trans-Atlantic differentiation, genetic structuring, and clinal variation across the North Atlantic. Basin-scale structuring between the Northeast and Northwest Atlantic was significant, with enrichment for loci associated with developmental/mitochondrial function. We identified a putative structural variant on chromosome 2, likely contributing to differentiation between Northeast and Northwest Atlantic Lumpfish, and consistent with post-glacial trans-Atlantic secondary contact. Redundancy analysis identified climate associations both in the Northeast (N  = 1269 loci) and Northwest (N  = 1637 loci), with 103 shared loci between them. Clinal patterns in allele frequencies were observed in some loci (15%—Northwest and 5%—Northeast) of which 708 loci were shared and involved with growth, developmental processes, and locomotion. The combined evidence of trans-Atlantic differentiation, environmental associations, and clinal loci, suggests that both regional and large-scale potentially-adaptive population structuring is present across the North Atlantic. [ABSTRACT FROM AUTHOR]

Published
2024
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7. eDNA metabarcoding reveals riverine fish community structure and climate associations in northeastern Canada

Author

Crowley, Samantha E., primary, Bentzen, Paul, additional, Kess, Tony, additional, Duffy, Steven J., additional, Messmer, Amber M., additional, Watson, Beth, additional, Dempson, J. Brian, additional, Keefe, Donald G., additional, Perry, Robert C., additional, Marquis, Benjamin, additional, Hajibabaei, Mehrdad, additional, Fahner, Nicole, additional, Berghuis, Lesley, additional, Hobrecker, Kerry, additional, and Bradbury, Ian R., additional

Published
2024
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8. Selection analysis on the rapid evolution of a secondary sexual trait

Author

Gordon, Swanne P, Reznick, David, Arendt, Jeff D, Roughton, Allen, Hernandez, Michelle N Ontiveros, Bentzen, Paul, and López-Sepulcre, Andrés

Subjects
Biological Sciences, Ecology, Evolutionary Biology, Genetics, Zoology, Human Genome, Good Health and Well Being, Animals, Biological Evolution, Color, Genetic Fitness, Longevity, Male, Mating Preference, Animal, Phenotype, Poecilia, Selection, Genetic, rapid evolution, sexual selection, fitness, mark-recapture, common garden experiments, mark–recapture, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences
Abstract

Evolutionary analyses of population translocations (experimental or accidental) have been important in demonstrating speed of evolution because they subject organisms to abrupt environmental changes that create an episode of selection. However, the strength of selection in such studies is rarely measured, limiting our understanding of the evolutionary process. This contrasts with long-term, mark-recapture studies of unmanipulated populations that measure selection directly, yet rarely reveal evolutionary change. Here, we present a study of experimental evolution of male colour in Trinidadian guppies where we tracked both evolutionary change and individual-based measures of selection. Guppies were translocated from a predator-rich to a low-predation environment within the same stream system. We used a combination of common garden experiments and monthly sampling of individuals to measure the phenotypic and genetic divergence of male coloration between ancestral and derived fish. Results show rapid evolutionary increases in orange coloration in both populations (1 year or three generations), replicating the results of previous studies. Unlike previous studies, we linked this evolution to an individual-based analysis of selection. By quantifying individual reproductive success and survival, we show, for the first time, that males with more orange and black pigment have higher reproductive success, but males with more black pigment also have higher risk of mortality. The net effect of selection is thus an advantage of orange but not black coloration, as reflected in the evolutionary response. This highlights the importance of considering all components of fitness when understanding the evolution of sexually selected traits in the wild.

Published
2015

9. Variable parallelism in the genomic basis of age at maturity across spatial scales in Atlantic Salmon.

Author

Kess, Tony, Lehnert, Sarah J., Bentzen, Paul, Duffy, Steven, Messmer, Amber, Dempson, J. Brian, Newport, Jason, Whidden, Christopher, Robertson, Martha J., Chaput, Gerald, Breau, Cindy, April, Julien, Gillis, Carole‐Anne, Kent, Matthew, Nugent, Cameron M., and Bradbury, Ian R.

Subjects
ATLANTIC salmon, LOCUS (Genetics), MOLECULAR evolution, LIFE history theory, FOCAL adhesions
Abstract

Complex traits often exhibit complex underlying genetic architectures resulting from a combination of evolution from standing variation, hard and soft sweeps, and alleles of varying effect size. Increasingly, studies implicate both large‐effect loci and polygenic patterns underpinning adaptation, but the extent that common genetic architectures are utilized during repeated adaptation is not well understood. Sea age or age at maturation represents a significant life history trait in Atlantic Salmon (Salmo salar), the genetic basis of which has been studied extensively in European Atlantic populations, with repeated identification of large‐effect loci. However, the genetic basis of sea age within North American Atlantic Salmon populations remains unclear, as does the potential for a parallel trans‐Atlantic genomic basis to sea age. Here, we used a large single‐nucleotide polymorphism (SNP) array and low‐coverage whole‐genome resequencing to explore the genomic basis of sea age variation in North American Atlantic Salmon. We found significant associations at the gene and SNP level with a large‐effect locus (vgll3) previously identified in European populations, indicating genetic parallelism, but found that this pattern varied based on both sex and geographic region. We also identified nonrepeated sets of highly predictive loci associated with sea age among populations and sexes within North America, indicating polygenicity and low rates of genomic parallelism. Despite low genome‐wide parallelism, we uncovered a set of conserved molecular pathways associated with sea age that were consistently enriched among comparisons, including calcium signaling, MapK signaling, focal adhesion, and phosphatidylinositol signaling. Together, our results indicate parallelism of the molecular basis of sea age in North American Atlantic Salmon across large‐effect genes and molecular pathways despite population‐specific patterns of polygenicity. These findings reveal roles for both contingency and repeated adaptation at the molecular level in the evolution of life history variation. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Fine‐scale environmentally associated spatial structure of lumpfish (Cyclopterus lumpus) across the Northwest Atlantic

Author

Langille, Barbara L., primary, Kess, Tony, additional, Brachmann, Matthew, additional, Nugent, Cameron M., additional, Messmer, Amber, additional, Duffy, Steven J., additional, Holborn, Melissa K., additional, Van Wyngaarden, Mallory, additional, Knutsen, Tim Martin, additional, Kent, Matthew, additional, Boyce, Danny, additional, Gregory, Robert S., additional, Gauthier, Johanne, additional, Fairchild, Elizabeth A., additional, Pietrak, Michael, additional, Eddy, Stephen, additional, de Leaniz, Carlos Garcia, additional, Consuegra, Sofia, additional, Whittaker, Ben, additional, Bentzen, Paul, additional, and Bradbury, Ian R., additional

Published
2023
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15. Post-glacial recolonization and multiple scales of secondary contact contribute to contemporary Atlantic salmon (Salmo salar) genomic variation in North America.

Author

Nugent, Cameron M, primary, Kess, Tony, additional, Beck, Samantha V, additional, Duffy, Steven, additional, Messmer, Amber, additional, Smith, Nicole, additional, Lehnert, Sarah J, additional, Wringe, Brendan F, additional, Bentzen, Paul, additional, and Bradbury, Ian R, additional

Published
2023
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18. Genomic tools for management and conservation of Atlantic cod in a coastal marine protected area

Author

Sinclair-Waters, Marion, Bentzen, Paul, Morris, Corey J., Ruzzante, Daniel E., Kent, Matthew P., Lien, Sigbjorn, and Bradbury, Ian R.

Subjects
Atlantic cod -- Protection and preservation, Fishery conservation -- Methods, Earth sciences
Abstract

Marine protected areas (MPAs) can serve as effective tools for the management and conservation of exploited marine species. The Gilbert Bay MPA in coastal Labrador was created to protect a genetically distinct population of Atlantic cod (Gadus morhua); however, decreases in abundance continue to occur potentially due to exploitation outside the MPA. We developed a single-nucleotide polymorphism (SNP) panel to identify Gilbert Bay cod in areas outside MPA boundaries where mixing with offshore cod occurs. In total, 361 individuals from Gilbert Bay, surrounding areas, and offshore were genotyped for 10 913 SNPs. Using [F.sub.ST] rankings and guided regularized random forest, we selected 23 SNPs that together generate 100% accuracy in individual assignment and accurately estimate the proportion of Gilbert Bay cod in fishery samples from sites outside MPA boundaries: on average, fishery samples included 17.3% Gilbert Bay cod. Estimates of effective population size for the Gilbert Bay population ranged from 655 to 1114. Our findings demonstrate the power of using genomic approaches for management of an exploited marine species and enhancing the design of MPAs. Les aires marines protegees (AMP) peuvent etre des outils efficaces pour la gestion et la conservation des especes marines exploitees. L'AMP de Gilbert Bay, le long des cotes du Labrador, a ete creee pour proteger une population genetiquement distincte de morues de l'Atlantique (Gadus morhua); cependant, des baisses d'abondance ont toujours lieu, possiblement en raison de l'exploitation en dehors de l'AMP. Nous avons developpe une puce pour la detection de polymorphismes mononucleotidiques (puce SNP) pour identifier les morues de Gilbert Bay dans des zones situees a l'exterieur des limites de l'AMP, ou ces morues se melangent a des morues d'origine extracotiere. Au total, 361 individus de Gilbert Bay, de zones environnantes et d'origine extracotiere ont ete genotypes pour 10 913 SNP. En utilisant les indices de differentiation ([F.sub.ST]) et une approche de forets aleatoires regularisee guidee, nous avons selectionne 23 SNP qui, collectivement, produisent des affectations individuelles a 100% exactes et estiment avec exactitude la proportion de morues de Gilbert Bay dans les echantillons de poissons provenant de sites a l'exterieur de l'AMP; en moyenne, les morues de Gilbert Bay constituaient 17,3% des echantillons. Les estimations de la taille effective de la population de Gilbert Bay allaient de 655 a 1 114 morues. Nos resultats demontrent la puissance des approches genomiques pour la gestion d'une espece marine exploitee et Amelioration de la conception d'AMP. [Traduit par la Redaction], Introduction Marine protected areas (MPAs) and marine reserves represent valuable tools for conservation and resource management (Gaines et al. 2010) and can play an important role in protecting marine species [...]

Published
2018
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20. Genomic and machine learning‐based screening of aquaculture‐associated introgression into at‐risk wild North American Atlantic salmon ( Salmo salar ) populations

Author

Nugent, Cameron M., primary, Kess, Tony, additional, Brachmann, Matthew K., additional, Langille, Barbara L., additional, Holborn, Melissa K., additional, Beck, Samantha V., additional, Smith, Nicole, additional, Duffy, Steven J., additional, Lehnert, Sarah J., additional, Wringe, Brendan F., additional, Bentzen, Paul, additional, and Bradbury, Ian R., additional

Published
2023
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24. Whole‐genome sequencing reveals fine‐scale environment‐associated divergence near the range limits of a temperate reef fish.

Author

Nugent, Cameron M., Kess, Tony, Brachmann, Matthew K., Langille, Barbara L., Duffy, Steven J., Lehnert, Sarah J., Wringe, Brendan F., Bentzen, Paul, and Bradbury, Ian R.

Subjects
NUCLEOTIDE sequencing, REEF fishes, FISH diversity, SALMON farming, GENETIC variation, FISH farming
Abstract

Environmental variation is increasingly recognized as an important driver of diversity in marine species despite the lack of physical barriers to dispersal and the presence of pelagic stages in many taxa. A robust understanding of the genomic and ecological processes involved in structuring populations is lacking for most marine species, often hindering management and conservation action. Cunner (Tautogolabrus adspersus) is a temperate reef fish with both pelagic early life‐history stages and strong site‐associated homing as adults; the species is also of interest for use as a cleaner fish in salmonid aquaculture in Atlantic Canada. We aimed to characterize genomic and geographic differentiation of cunner in the Northwest Atlantic. To achieve this, a chromosome‐level genome assembly for cunner was produced and used to characterize spatial population structure throughout Atlantic Canada using whole‐genome sequencing. The genome assembly spanned 0.72 Gbp and 24 chromosomes; whole‐genome sequencing of 803 individuals from 20 locations from Newfoundland to New Jersey identified approximately 11 million genetic variants. Principal component analysis revealed four regional Atlantic Canadian groups. Pairwise FST and selection scans revealed signals of differentiation and selection at discrete genomic regions, including adjacent peaks on chromosome 10 across multiple pairwise comparisons (i.e. FST 0.5–0.75). Redundancy analysis suggested association of environmental variables related to benthic temperature and oxygen range with genomic structure. Results suggest regional scale diversity in this temperate reef fish and can directly inform the collection and translocation of cunner for aquaculture applications and the conservation of wild populations throughout the Northwest Atlantic. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Genomic and machine learning-based screening of aquaculture associated introgression into at-risk wild North American Atlantic salmon (Salmo salar) populations

Author

Nugent, Cameron M., primary, Kess, Tony, additional, Brachmann, Matthew K., additional, Langille, Barbara L., additional, Holborn, Melissa K., additional, Beck, Samantha V., additional, Smith, Nicole, additional, Duffy, Steven J., additional, Lehnert, Sarah J., additional, Wringe, Brendan F., additional, Bentzen, Paul, additional, and Bradbury, Ian R., additional

Published
2022
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30. Parallel genomic basis of age at maturity across spatial scales in Atlantic Salmon

Author

Kess, Tony, primary, Lehnert, Sarah J., additional, Bentzen, Paul, additional, Duffy, Steven, additional, Messmer, Amber, additional, Dempson, J. Brian, additional, Newport, Jason, additional, Whidden, Christopher, additional, Robertson, Martha J., additional, Chaput, Gerald, additional, Breau, Cindy, additional, April, Julien, additional, Gillis, Carole-Anne, additional, Kent, Matthew, additional, Nugent, Cameron M., additional, and Bradbury, Ian R., additional

Published
2022
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33. Genomic evidence of recent European introgression into North American farmed and wild Atlantic salmon

Author

Bradbury, Ian R., primary, Lehnert, Sarah Jean, additional, Kess, Tony, additional, Van Wyngaarden, Mallory, additional, Duffy, Steven, additional, Messmer, Amber M., additional, Wringe, Brendan, additional, Karoliussen, Silje, additional, Dempson, J. Brian, additional, Fleming, Ian A., additional, Solberg, Monica Favnebe, additional, Glover, Kevin A., additional, and Bentzen, Paul, additional

Published
2022
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46. Reference genome of lumpfish Cyclopterus lumpus Linnaeus provides evidence of male heterogametic sex determination through the AMH pathway

Author

Holborn, Melissa K., primary, Einfeldt, Anthony L., additional, Kess, Tony, additional, Duffy, Steve J., additional, Messmer, Amber M., additional, Langille, Barbara L., additional, Brachmann, Matthew K., additional, Gauthier, Johanne, additional, Bentzen, Paul, additional, Knutsen, Tim Martin, additional, Kent, Matthew, additional, Boyce, Danny, additional, and Bradbury, Ian R., additional

Published
2022
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