Journal
JOURNAL OF FISH BIOLOGY
Volume 93, Issue 5, Pages 1016-1020Publisher
WILEY
DOI: 10.1111/jfb.13817
Keywords
climate change; embryogenesis; epigenetics; migration; phenotypic plasticity; River Imsa
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Funding
- Norwegian Environmental Agency
- Norwegian Research Council
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Here, we show that adult Atlantic salmon Salmo salar returned about 2 weeks later from the feeding areas in the North Atlantic Ocean to the Norwegian coast, through a phenotypically plastic mechanism, when they developed as embryos in c. 3 degrees C warmer water than the regular incubation temperature. This finding has relevance to changes in migration timing caused by climate change and for cultivation and release of S. salar.
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