Population genomics of the killer whale indicates ecotype evolution in sympatry involving both selection and drift
Population genomics of the killer whale indicates ecotype evolution in sympatry involving both selection and drift
The evolution of diversity in the marine ecosystem is poorly understood, given the relatively high potential for connectivity, especially for highly mobile species such as whales and dolphins. The killer whale (Orcinus orca) has a worldwide distribution, and individual social groups travel over a wide geographic range. Even so, regional populations have been shown to be genetically differentiated, including among different foraging specialists (ecotypes) in sympatry. Given the strong matrifocal social structure of this species together with strong resource specializations, understanding the process of differentiation will require an understanding of the relative importance of both genetic drift and local adaptation. Here we provide a high-resolution analysis based on nuclear single-nucleotide polymorphic markers and inference about differentiation at both neutral loci and those potentially under selection. We find that all population comparisons, within or among foraging ecotypes, show significant differentiation, including populations in parapatry and sympatry. Loci putatively under selection show a different pattern of structure compared to neutral loci and are associated with gene ontology terms reflecting physiologically relevant functions (e.g. related to digestion). The pattern of differentiation for one ecotype in the North Pacific suggests local adaptation and shows some fixed differences among sympatric ecotypes. We suggest that differential habitat use and resource specializations have promoted sufficient isolation to allow differential evolution at neutral and functional loci, but that the process is recent and dependent on both selection and drift.
adaptation, Cetacea, ecological genetics, population genomics, sympatric divergence
5179-5192
Moura, Andre E.
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Kenny, John G.
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Chaudhuri, Roy
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Hughes, Margaret A.
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J. Welch, Andreanna
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Reisinger, Ryan R.
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De Bruyn, P. J.Nico
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Dahlheim, Marilyn E.
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Hall, Neil
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Hoelzel, A. Rus
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21 October 2014
Moura, Andre E.
665db41b-726d-457f-b525-496540b1bf2a
Kenny, John G.
e1919278-456e-4035-b7dd-b0e33d685b66
Chaudhuri, Roy
320dd2b7-ea10-4487-83a6-8566ef971737
Hughes, Margaret A.
48ec593d-44d2-4e69-a115-e329b66c8f38
J. Welch, Andreanna
4f2d17e4-fcac-453b-b7b7-8cee08f36cf9
Reisinger, Ryan R.
4eaf9440-48e5-41fa-853f-d46457e5444e
De Bruyn, P. J.Nico
3257867f-eda3-4ddf-baa3-aaf692de19bb
Dahlheim, Marilyn E.
ff064450-a0d9-4f0b-85c7-8501a54d0b72
Hall, Neil
677a5dd6-6fe0-405e-a78a-181371e526dc
Hoelzel, A. Rus
b911b554-8bee-4c68-9cf4-62214d803e7f
Moura, Andre E., Kenny, John G., Chaudhuri, Roy, Hughes, Margaret A., J. Welch, Andreanna, Reisinger, Ryan R., De Bruyn, P. J.Nico, Dahlheim, Marilyn E., Hall, Neil and Hoelzel, A. Rus
(2014)
Population genomics of the killer whale indicates ecotype evolution in sympatry involving both selection and drift.
Molecular Ecology, 23 (21), .
(doi:10.1111/mec.12929).
Abstract
The evolution of diversity in the marine ecosystem is poorly understood, given the relatively high potential for connectivity, especially for highly mobile species such as whales and dolphins. The killer whale (Orcinus orca) has a worldwide distribution, and individual social groups travel over a wide geographic range. Even so, regional populations have been shown to be genetically differentiated, including among different foraging specialists (ecotypes) in sympatry. Given the strong matrifocal social structure of this species together with strong resource specializations, understanding the process of differentiation will require an understanding of the relative importance of both genetic drift and local adaptation. Here we provide a high-resolution analysis based on nuclear single-nucleotide polymorphic markers and inference about differentiation at both neutral loci and those potentially under selection. We find that all population comparisons, within or among foraging ecotypes, show significant differentiation, including populations in parapatry and sympatry. Loci putatively under selection show a different pattern of structure compared to neutral loci and are associated with gene ontology terms reflecting physiologically relevant functions (e.g. related to digestion). The pattern of differentiation for one ecotype in the North Pacific suggests local adaptation and shows some fixed differences among sympatric ecotypes. We suggest that differential habitat use and resource specializations have promoted sufficient isolation to allow differential evolution at neutral and functional loci, but that the process is recent and dependent on both selection and drift.
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e-pub ahead of print date: 19 September 2014
Published date: 21 October 2014
Keywords:
adaptation, Cetacea, ecological genetics, population genomics, sympatric divergence
Identifiers
Local EPrints ID: 455011
URI: http://eprints.soton.ac.uk/id/eprint/455011
ISSN: 0962-1083
PURE UUID: 18bda25c-3e07-462c-98ab-c80e5b4f39a8
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Date deposited: 03 Mar 2022 17:46
Last modified: 17 Mar 2024 04:08
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Contributors
Author:
Andre E. Moura
Author:
John G. Kenny
Author:
Roy Chaudhuri
Author:
Margaret A. Hughes
Author:
Andreanna J. Welch
Author:
P. J.Nico De Bruyn
Author:
Marilyn E. Dahlheim
Author:
Neil Hall
Author:
A. Rus Hoelzel
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