Stabilizing selection on Atlantic cod supergenes through a millennium of extensive exploitation

Life on Earth has been characterized by recurring cycles of ecological stasis and disruption, relating biological eras to geological and climatic transitions through the history of our planet. Due to the increasing degree of ecological abruption caused by human influences many advocate that we now h...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences
Main Authors: Sodeland, Marte, Jentoft, Sissel, Jorde, Per Erik, Mattingsdal, Morten, Albretsen, Jon, Kleiven, Alf Ring, Synnes, Ann-Elin Wårøy, Espeland, Sigurd Heiberg, Olsen, Esben Moland, Andrè, Carl, Stenseth, Nils Chr., Knutsen, Halvor
Format: Text
Language:English
Published: National Academy of Sciences 2022
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Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8872764/
http://www.ncbi.nlm.nih.gov/pubmed/35165196
https://doi.org/10.1073/pnas.2114904119
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Summary:Life on Earth has been characterized by recurring cycles of ecological stasis and disruption, relating biological eras to geological and climatic transitions through the history of our planet. Due to the increasing degree of ecological abruption caused by human influences many advocate that we now have entered the geological era of the Anthropocene, or “the age of man.” Considering the ongoing mass extinction and ecosystem reshuffling observed worldwide, a better understanding of the drivers of ecological stasis will be a requisite for identifying routes of intervention and mitigation. Ecosystem stability may rely on one or a few keystone species, and the loss of such species could potentially have detrimental effects. The Atlantic cod (Gadus morhua) has historically been highly abundant and is considered a keystone species in ecosystems of the northern Atlantic Ocean. Collapses of cod stocks have been observed on both sides of the Atlantic and reported to have detrimental effects that include vast ecosystem reshuffling. By whole-genome resequencing we demonstrate that stabilizing selection maintains three extensive “supergenes” in Atlantic cod, linking these genes to species persistence and ecological stasis. Genomic inference of historic effective population sizes shows continued declines for cod in the North Sea–Skagerrak–Kattegat system through the past millennia, consistent with an early onset of the marine Anthropocene through industrialization and commercialization of fisheries throughout the medieval period.