Seascape genetics of a flatfish reveals local selection under high levels of gene flow

Local adaptation is often found to be in a delicate balance with gene flow in marine species with high dispersal potential. Genotyping with mapped transcriptome-derived markers and advanced seascape statistical analyses are proven tools to uncover the genomic basis of biologically relevant traits un...

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Main Authors: Diopere, Eveline, Vandamme, Sara G., Hablützel, Pascal, Cariani, Alessia, Van Houdt, Jeroen, Rijnsdorp, Adriaan, Tinti, Fausto, FishPopTrace Consortium, Volckaert, Filip, Maes, Gregory
Format: Article in Journal/Newspaper
Language:English
Published: Published by Academic Press for International Council for the Exploration of the Sea 2017
Subjects:
Northeast Atlantic
Online Access:https://lirias.kuleuven.be/handle/123456789/601353
https://lirias.kuleuven.be/bitstream/123456789/601353/1//Diopere+et+al.+2017+ICES+Journal+of+Marine+Science.pdf
id ftunivleuven:oai:lirias.kuleuven.be:123456789/601353
record_format openpolar
spelling ftunivleuven:oai:lirias.kuleuven.be:123456789/601353 2023-05-15T17:41:34+02:00 Seascape genetics of a flatfish reveals local selection under high levels of gene flow Diopere, Eveline Vandamme, Sara G. Hablützel, Pascal Cariani, Alessia Van Houdt, Jeroen Rijnsdorp, Adriaan Tinti, Fausto FishPopTrace Consortium Volckaert, Filip Maes, Gregory 2017-08-25 821245 bytes application/pdf https://lirias.kuleuven.be/handle/123456789/601353 https://lirias.kuleuven.be/bitstream/123456789/601353/1//Diopere+et+al.+2017+ICES+Journal+of+Marine+Science.pdf en eng Published by Academic Press for International Council for the Exploration of the Sea ICES Journal of Marine Science https://lirias.kuleuven.be/handle/123456789/601353 1054-3139 1095-9289 https://lirias.kuleuven.be/bitstream/123456789/601353/1//Diopere+et+al.+2017+ICES+Journal+of+Marine+Science.pdf 479088;intranet Article IT 479088;Article 2017 ftunivleuven 2018-01-06T16:27:40Z Local adaptation is often found to be in a delicate balance with gene flow in marine species with high dispersal potential. Genotyping with mapped transcriptome-derived markers and advanced seascape statistical analyses are proven tools to uncover the genomic basis of biologically relevant traits under environmental selection. Using a panel of 426 gene-linked single nucleotide polymorphisms (SNPs), we scanned 17 samples (n = 539) of sole (Solea solea L.) from the Northeast Atlantic Ocean and applied a node-based seascape analysis. Neutral loci confirmed a clear distinction between the North Sea–Baltic Sea transition zone and the other Eastern Atlantic samples. At a more subtle level, the latter unit split in an English Channel and North Sea group, and a Bay of Biscay and Atlantic Iberian coast group. A fourth group, the Irish and Celtic Sea, was identified with 19 outlier loci. A pattern of isolation by distance (IBD) characterized the latitudinal distribution. Seascape analyses identified winter seawater temperature, food availability and coastal currents to explain a significant component of geographically distributed genetic variation, suggesting that these factors act as drivers of local adaptation. The evidence for local adaptation is in line with the current understanding on the impact of two key ecological factors, the life-history trait winter mortality and the behaviour of inshore/offshore spawning. We conclude that the subtle differentiation between two metapopulations (North Sea and Bay of Biscay) mirrors local adaptation. At least three genomic regions with strong population differentiation point to locally divergent selection. Further functional characterization of these genomic regions should help with formulating adaptive management policies. status: accepted Article in Journal/Newspaper Northeast Atlantic KU Leuven: Lirias
institution Open Polar
collection KU Leuven: Lirias
op_collection_id ftunivleuven
language English
description Local adaptation is often found to be in a delicate balance with gene flow in marine species with high dispersal potential. Genotyping with mapped transcriptome-derived markers and advanced seascape statistical analyses are proven tools to uncover the genomic basis of biologically relevant traits under environmental selection. Using a panel of 426 gene-linked single nucleotide polymorphisms (SNPs), we scanned 17 samples (n = 539) of sole (Solea solea L.) from the Northeast Atlantic Ocean and applied a node-based seascape analysis. Neutral loci confirmed a clear distinction between the North Sea–Baltic Sea transition zone and the other Eastern Atlantic samples. At a more subtle level, the latter unit split in an English Channel and North Sea group, and a Bay of Biscay and Atlantic Iberian coast group. A fourth group, the Irish and Celtic Sea, was identified with 19 outlier loci. A pattern of isolation by distance (IBD) characterized the latitudinal distribution. Seascape analyses identified winter seawater temperature, food availability and coastal currents to explain a significant component of geographically distributed genetic variation, suggesting that these factors act as drivers of local adaptation. The evidence for local adaptation is in line with the current understanding on the impact of two key ecological factors, the life-history trait winter mortality and the behaviour of inshore/offshore spawning. We conclude that the subtle differentiation between two metapopulations (North Sea and Bay of Biscay) mirrors local adaptation. At least three genomic regions with strong population differentiation point to locally divergent selection. Further functional characterization of these genomic regions should help with formulating adaptive management policies. status: accepted
format Article in Journal/Newspaper
author Diopere, Eveline
Vandamme, Sara G.
Hablützel, Pascal
Cariani, Alessia
Van Houdt, Jeroen
Rijnsdorp, Adriaan
Tinti, Fausto
FishPopTrace Consortium
Volckaert, Filip
Maes, Gregory
spellingShingle Diopere, Eveline
Vandamme, Sara G.
Hablützel, Pascal
Cariani, Alessia
Van Houdt, Jeroen
Rijnsdorp, Adriaan
Tinti, Fausto
FishPopTrace Consortium
Volckaert, Filip
Maes, Gregory
Seascape genetics of a flatfish reveals local selection under high levels of gene flow
author_facet Diopere, Eveline
Vandamme, Sara G.
Hablützel, Pascal
Cariani, Alessia
Van Houdt, Jeroen
Rijnsdorp, Adriaan
Tinti, Fausto
FishPopTrace Consortium
Volckaert, Filip
Maes, Gregory
author_sort Diopere, Eveline
title Seascape genetics of a flatfish reveals local selection under high levels of gene flow
title_short Seascape genetics of a flatfish reveals local selection under high levels of gene flow
title_full Seascape genetics of a flatfish reveals local selection under high levels of gene flow
title_fullStr Seascape genetics of a flatfish reveals local selection under high levels of gene flow
title_full_unstemmed Seascape genetics of a flatfish reveals local selection under high levels of gene flow
title_sort seascape genetics of a flatfish reveals local selection under high levels of gene flow
publisher Published by Academic Press for International Council for the Exploration of the Sea
publishDate 2017
url https://lirias.kuleuven.be/handle/123456789/601353
https://lirias.kuleuven.be/bitstream/123456789/601353/1//Diopere+et+al.+2017+ICES+Journal+of+Marine+Science.pdf
genre Northeast Atlantic
genre_facet Northeast Atlantic
op_relation ICES Journal of Marine Science
https://lirias.kuleuven.be/handle/123456789/601353
1054-3139
1095-9289
https://lirias.kuleuven.be/bitstream/123456789/601353/1//Diopere+et+al.+2017+ICES+Journal+of+Marine+Science.pdf
op_rights 479088;intranet
_version_ 1766143206820413440

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