Genome architecture enables local adaptation of Atlantic cod despite high connectivity

Adaptation to local conditions is a fundamental process in evolution; however, mechanisms maintaining local adaptation despite high gene flow are still poorly understood. Marine ecosystems provide a wide array of diverse habitats that frequently promote ecological adaptation even in species characte...

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Published in:Molecular Ecology
Main Authors: Barth, Julia Maria Isis, Berg, Paul Ragnar, Jonsson, Per R, Bonanomi, Sara, Corell, Hanna, Hemmer-Hansen, Jakob, Jakobsen, Kjetill Sigurd, Johannesson, Kerstin, Jorde, Per Erik, Knutsen, Halvor, Moksnes, Per-Olav, Star, Bastiaan, Stenseth, Nils Christian, Svedang, Henrik, Jentoft, Sissel, Andre, Carl
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
atlantic cod
Gadus morhua
Online Access:http://hdl.handle.net/11250/2484932
https://doi.org/10.1111/mec.14207
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spelling ftimr:oai:imr.brage.unit.no:11250/2484932 2023-05-15T15:27:03+02:00 Genome architecture enables local adaptation of Atlantic cod despite high connectivity Barth, Julia Maria Isis Berg, Paul Ragnar Jonsson, Per R Bonanomi, Sara Corell, Hanna Hemmer-Hansen, Jakob Jakobsen, Kjetill Sigurd Johannesson, Kerstin Jorde, Per Erik Knutsen, Halvor Moksnes, Per-Olav Star, Bastiaan Stenseth, Nils Christian Svedang, Henrik Jentoft, Sissel Andre, Carl 2017 application/pdf http://hdl.handle.net/11250/2484932 https://doi.org/10.1111/mec.14207 eng eng Norges forskningsråd: 144182 Norges forskningsråd: 179569 Interreg: 168975 Interreg: 175806 Molecular Ecology. 2017, 26 (17), 4452-4466. urn:issn:0962-1083 http://hdl.handle.net/11250/2484932 https://doi.org/10.1111/mec.14207 cristin:1514164 4452-4466 26 Molecular Ecology 17 Journal article Peer reviewed 2017 ftimr https://doi.org/10.1111/mec.14207 2021-09-23T20:15:31Z Adaptation to local conditions is a fundamental process in evolution; however, mechanisms maintaining local adaptation despite high gene flow are still poorly understood. Marine ecosystems provide a wide array of diverse habitats that frequently promote ecological adaptation even in species characterized by strong levels of gene flow. As one example, populations of the marine fish Atlantic cod (Gadus morhua) are highly connected due to immense dispersal capabilities but nevertheless show local adaptation in several key traits. By combining population genomic analyses based on 12K single nucleotide polymorphisms with larval dispersal patterns inferred using a biophysical ocean model, we show that Atlantic cod individuals residing in sheltered estuarine habitats of Scandinavian fjords mainly belong to offshore oceanic populations with considerable connectivity between these diverse ecosystems. Nevertheless, we also find evidence for discrete fjord populations that are genetically differentiated from offshore populations, indicative of local adaptation, the degree of which appears to be influenced by connectivity. Analyses of the genomic architecture reveal a significant overrepresentation of a large ~5 Mb chromosomal rearrangement in fjord cod, previously proposed to comprise genes critical for the survival at low salinities. This suggests that despite considerable connectivity with offshore populations, local adaptation to fjord environments may be enabled by suppression of recombination in the rearranged region. Our study provides new insights into the potential of local adaptation in high gene flow species within fine geographical scales and highlights the importance of genome architecture in analyses of ecological adaptation. acceptedVersion publishedVersion Article in Journal/Newspaper atlantic cod Gadus morhua Institute for Marine Research: Brage IMR Molecular Ecology 26 17 4452 4466
institution Open Polar
collection Institute for Marine Research: Brage IMR
op_collection_id ftimr
language English
description Adaptation to local conditions is a fundamental process in evolution; however, mechanisms maintaining local adaptation despite high gene flow are still poorly understood. Marine ecosystems provide a wide array of diverse habitats that frequently promote ecological adaptation even in species characterized by strong levels of gene flow. As one example, populations of the marine fish Atlantic cod (Gadus morhua) are highly connected due to immense dispersal capabilities but nevertheless show local adaptation in several key traits. By combining population genomic analyses based on 12K single nucleotide polymorphisms with larval dispersal patterns inferred using a biophysical ocean model, we show that Atlantic cod individuals residing in sheltered estuarine habitats of Scandinavian fjords mainly belong to offshore oceanic populations with considerable connectivity between these diverse ecosystems. Nevertheless, we also find evidence for discrete fjord populations that are genetically differentiated from offshore populations, indicative of local adaptation, the degree of which appears to be influenced by connectivity. Analyses of the genomic architecture reveal a significant overrepresentation of a large ~5 Mb chromosomal rearrangement in fjord cod, previously proposed to comprise genes critical for the survival at low salinities. This suggests that despite considerable connectivity with offshore populations, local adaptation to fjord environments may be enabled by suppression of recombination in the rearranged region. Our study provides new insights into the potential of local adaptation in high gene flow species within fine geographical scales and highlights the importance of genome architecture in analyses of ecological adaptation. acceptedVersion publishedVersion
format Article in Journal/Newspaper
author Barth, Julia Maria Isis
Berg, Paul Ragnar
Jonsson, Per R
Bonanomi, Sara
Corell, Hanna
Hemmer-Hansen, Jakob
Jakobsen, Kjetill Sigurd
Johannesson, Kerstin
Jorde, Per Erik
Knutsen, Halvor
Moksnes, Per-Olav
Star, Bastiaan
Stenseth, Nils Christian
Svedang, Henrik
Jentoft, Sissel
Andre, Carl
spellingShingle Barth, Julia Maria Isis
Berg, Paul Ragnar
Jonsson, Per R
Bonanomi, Sara
Corell, Hanna
Hemmer-Hansen, Jakob
Jakobsen, Kjetill Sigurd
Johannesson, Kerstin
Jorde, Per Erik
Knutsen, Halvor
Moksnes, Per-Olav
Star, Bastiaan
Stenseth, Nils Christian
Svedang, Henrik
Jentoft, Sissel
Andre, Carl
Genome architecture enables local adaptation of Atlantic cod despite high connectivity
author_facet Barth, Julia Maria Isis
Berg, Paul Ragnar
Jonsson, Per R
Bonanomi, Sara
Corell, Hanna
Hemmer-Hansen, Jakob
Jakobsen, Kjetill Sigurd
Johannesson, Kerstin
Jorde, Per Erik
Knutsen, Halvor
Moksnes, Per-Olav
Star, Bastiaan
Stenseth, Nils Christian
Svedang, Henrik
Jentoft, Sissel
Andre, Carl
author_sort Barth, Julia Maria Isis
title Genome architecture enables local adaptation of Atlantic cod despite high connectivity
title_short Genome architecture enables local adaptation of Atlantic cod despite high connectivity
title_full Genome architecture enables local adaptation of Atlantic cod despite high connectivity
title_fullStr Genome architecture enables local adaptation of Atlantic cod despite high connectivity
title_full_unstemmed Genome architecture enables local adaptation of Atlantic cod despite high connectivity
title_sort genome architecture enables local adaptation of atlantic cod despite high connectivity
publishDate 2017
url http://hdl.handle.net/11250/2484932
https://doi.org/10.1111/mec.14207
genre atlantic cod
Gadus morhua
genre_facet atlantic cod
Gadus morhua
op_source 4452-4466
26
Molecular Ecology
17
op_relation Norges forskningsråd: 144182
Norges forskningsråd: 179569
Interreg: 168975
Interreg: 175806
Molecular Ecology. 2017, 26 (17), 4452-4466.
urn:issn:0962-1083
http://hdl.handle.net/11250/2484932
https://doi.org/10.1111/mec.14207
cristin:1514164
op_doi https://doi.org/10.1111/mec.14207
container_title Molecular Ecology
container_volume 26
container_issue 17
container_start_page 4452
op_container_end_page 4466
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