Genomics reveal population structure, evolutionary history, and signatures of selection in the northern bottlenose whale, Hyperoodon ampullatus

Evelien de Greef; Anthony L. Einfeldt; Patrick J.O. Miller; Steven H. Ferguson; Colin J. Garroway; Kyle J. Lefort; Ian G. Paterson; Paul Bentzen; Laura J. Feyrer

doi:10.1111/mec.16643

Genomics reveal population structure, evolutionary history, and signatures of selection in the northern bottlenose whale, Hyperoodon ampullatus

Evelien de Greef, Anthony L. Einfeldt, Patrick J.O. Miller, Steven H. Ferguson, Colin J. Garroway, Kyle J. Lefort, Ian G. Paterson, Paul Bentzen, Laura J. Feyrer

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

Information on wildlife population structure, demographic history, and adaptations are fundamental to understanding species evolution and informing conservation strategies. To study this ecological context for a cetacean of conservation concern, we conducted the first genomic assessment of the northern bottlenose whale, Hyperoodon ampullatus, using whole-genome resequencing data (n = 37) from five regions across the North Atlantic Ocean. We found a range-wide pattern of isolation-by-distance with a genetic subdivision distinguishing three subgroups: the Scotian Shelf, western North Atlantic, and Jan Mayen regions. Signals of elevated levels of inbreeding in the Endangered Scotian Shelf population indicate this population may be more vulnerable than the other two subgroups. In addition to signatures of inbreeding, evidence of local adaptation in the Scotian Shelf was detected across the genome. We found a long-term decline in effective population size for the species, which poses risks to their genetic diversity and may be exacerbated by the isolating effects of population subdivision. Protecting important habitat and migratory corridors should be prioritized to rebuild population sizes that were diminished by commercial whaling, strengthen gene flow, and ensure animals can move across regions in response to environmental changes.

Original language	English
Journal	Molecular Ecology
DOIs	https://doi.org/10.1111/mec.16643
Publication status	Accepted/In press - 2022

Bibliographical note

Funding Information:
We are grateful to collaborators Hal Whitehead for advice, support, and logistics; field crews for sample collection including Merel Dalebout, Ellyn Davidson, Nigel Hussey, Kelsey Johnson, Jena Edwards, Cory Matthews, Brent Young, Amanda Barkley, Edward Skinner, Ryan Cunningham, and the crew of the Kiviuq; Phil Grayson, Matt Thorstensen, and Jaanus Suurväli for conceptual and bioinformatic input; and Compute Canada and University of Manitoba for computing services. This work was supported by Fisheries and Oceans Canada (DFO) Maritimes and National Geographic emerging explorer grant to L.J.F. L.J.F. was also supported by scholarships from the Natural Sciences and Engineering Research Council of Canada (NSERC), the Killam Trusts, and the province of Nova Scotia. Work was also supported by US Office of Naval Research and US Strategic Environmental Research and Development Program (SERDP), Fisheries and Oceans Canada Arctic Region, the University of Windsor, Crown‐Indigenous Relations and Northern Affairs Canada, the Nunavut Fisheries Association, the Government of Nunavut, and NSERC. Funding and resources for sequencing the northern bottlenose whale genome was supported by the CanSeq150 programme of Canada's Genomics Enterprise.

Publisher Copyright:
© 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.

ASJC Scopus Subject Areas

Ecology, Evolution, Behavior and Systematics
Genetics

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.

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10.1111/mec.16643

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@article{177fec54ec714b5f947c58341f44c886,

title = "Genomics reveal population structure, evolutionary history, and signatures of selection in the northern bottlenose whale, Hyperoodon ampullatus",

abstract = "Information on wildlife population structure, demographic history, and adaptations are fundamental to understanding species evolution and informing conservation strategies. To study this ecological context for a cetacean of conservation concern, we conducted the first genomic assessment of the northern bottlenose whale, Hyperoodon ampullatus, using whole-genome resequencing data (n = 37) from five regions across the North Atlantic Ocean. We found a range-wide pattern of isolation-by-distance with a genetic subdivision distinguishing three subgroups: the Scotian Shelf, western North Atlantic, and Jan Mayen regions. Signals of elevated levels of inbreeding in the Endangered Scotian Shelf population indicate this population may be more vulnerable than the other two subgroups. In addition to signatures of inbreeding, evidence of local adaptation in the Scotian Shelf was detected across the genome. We found a long-term decline in effective population size for the species, which poses risks to their genetic diversity and may be exacerbated by the isolating effects of population subdivision. Protecting important habitat and migratory corridors should be prioritized to rebuild population sizes that were diminished by commercial whaling, strengthen gene flow, and ensure animals can move across regions in response to environmental changes.",

author = "{de Greef}, Evelien and Einfeldt, {Anthony L.} and Miller, {Patrick J.O.} and Ferguson, {Steven H.} and Garroway, {Colin J.} and Lefort, {Kyle J.} and Paterson, {Ian G.} and Paul Bentzen and Feyrer, {Laura J.}",

note = "Funding Information: We are grateful to collaborators Hal Whitehead for advice, support, and logistics; field crews for sample collection including Merel Dalebout, Ellyn Davidson, Nigel Hussey, Kelsey Johnson, Jena Edwards, Cory Matthews, Brent Young, Amanda Barkley, Edward Skinner, Ryan Cunningham, and the crew of the Kiviuq; Phil Grayson, Matt Thorstensen, and Jaanus Suurv{\"a}li for conceptual and bioinformatic input; and Compute Canada and University of Manitoba for computing services. This work was supported by Fisheries and Oceans Canada (DFO) Maritimes and National Geographic emerging explorer grant to L.J.F. L.J.F. was also supported by scholarships from the Natural Sciences and Engineering Research Council of Canada (NSERC), the Killam Trusts, and the province of Nova Scotia. Work was also supported by US Office of Naval Research and US Strategic Environmental Research and Development Program (SERDP), Fisheries and Oceans Canada Arctic Region, the University of Windsor, Crown‐Indigenous Relations and Northern Affairs Canada, the Nunavut Fisheries Association, the Government of Nunavut, and NSERC. Funding and resources for sequencing the northern bottlenose whale genome was supported by the CanSeq150 programme of Canada's Genomics Enterprise. Publisher Copyright: {\textcopyright} 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.",

year = "2022",

doi = "10.1111/mec.16643",

language = "English",

journal = "Molecular Ecology",

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AU - de Greef, Evelien

AU - Einfeldt, Anthony L.

AU - Miller, Patrick J.O.

AU - Ferguson, Steven H.

AU - Garroway, Colin J.

AU - Lefort, Kyle J.

AU - Paterson, Ian G.

AU - Bentzen, Paul

AU - Feyrer, Laura J.

N1 - Funding Information: We are grateful to collaborators Hal Whitehead for advice, support, and logistics; field crews for sample collection including Merel Dalebout, Ellyn Davidson, Nigel Hussey, Kelsey Johnson, Jena Edwards, Cory Matthews, Brent Young, Amanda Barkley, Edward Skinner, Ryan Cunningham, and the crew of the Kiviuq; Phil Grayson, Matt Thorstensen, and Jaanus Suurväli for conceptual and bioinformatic input; and Compute Canada and University of Manitoba for computing services. This work was supported by Fisheries and Oceans Canada (DFO) Maritimes and National Geographic emerging explorer grant to L.J.F. L.J.F. was also supported by scholarships from the Natural Sciences and Engineering Research Council of Canada (NSERC), the Killam Trusts, and the province of Nova Scotia. Work was also supported by US Office of Naval Research and US Strategic Environmental Research and Development Program (SERDP), Fisheries and Oceans Canada Arctic Region, the University of Windsor, Crown‐Indigenous Relations and Northern Affairs Canada, the Nunavut Fisheries Association, the Government of Nunavut, and NSERC. Funding and resources for sequencing the northern bottlenose whale genome was supported by the CanSeq150 programme of Canada's Genomics Enterprise. Publisher Copyright: © 2022 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.

PY - 2022

Y1 - 2022

N2 - Information on wildlife population structure, demographic history, and adaptations are fundamental to understanding species evolution and informing conservation strategies. To study this ecological context for a cetacean of conservation concern, we conducted the first genomic assessment of the northern bottlenose whale, Hyperoodon ampullatus, using whole-genome resequencing data (n = 37) from five regions across the North Atlantic Ocean. We found a range-wide pattern of isolation-by-distance with a genetic subdivision distinguishing three subgroups: the Scotian Shelf, western North Atlantic, and Jan Mayen regions. Signals of elevated levels of inbreeding in the Endangered Scotian Shelf population indicate this population may be more vulnerable than the other two subgroups. In addition to signatures of inbreeding, evidence of local adaptation in the Scotian Shelf was detected across the genome. We found a long-term decline in effective population size for the species, which poses risks to their genetic diversity and may be exacerbated by the isolating effects of population subdivision. Protecting important habitat and migratory corridors should be prioritized to rebuild population sizes that were diminished by commercial whaling, strengthen gene flow, and ensure animals can move across regions in response to environmental changes.

AB - Information on wildlife population structure, demographic history, and adaptations are fundamental to understanding species evolution and informing conservation strategies. To study this ecological context for a cetacean of conservation concern, we conducted the first genomic assessment of the northern bottlenose whale, Hyperoodon ampullatus, using whole-genome resequencing data (n = 37) from five regions across the North Atlantic Ocean. We found a range-wide pattern of isolation-by-distance with a genetic subdivision distinguishing three subgroups: the Scotian Shelf, western North Atlantic, and Jan Mayen regions. Signals of elevated levels of inbreeding in the Endangered Scotian Shelf population indicate this population may be more vulnerable than the other two subgroups. In addition to signatures of inbreeding, evidence of local adaptation in the Scotian Shelf was detected across the genome. We found a long-term decline in effective population size for the species, which poses risks to their genetic diversity and may be exacerbated by the isolating effects of population subdivision. Protecting important habitat and migratory corridors should be prioritized to rebuild population sizes that were diminished by commercial whaling, strengthen gene flow, and ensure animals can move across regions in response to environmental changes.

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Genomics reveal population structure, evolutionary history, and signatures of selection in the northern bottlenose whale, Hyperoodon ampullatus

Abstract

Bibliographical note

ASJC Scopus Subject Areas

PubMed: MeSH publication types

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