Climate-driven changes in functional biogeography of Arctic marine fish communities
Permanent link
https://hdl.handle.net/10037/12041Date
2017-11-14Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Frainer, André; Primicerio, Raul; Kortsch, Susanne; Aune, Magnus; Dolgov, Andrey V.; Fossheim, Maria; Aschan, MichaelaAbstract
Climate change triggers poleward shifts in species distribution
leading to changes in biogeography. In the marine environment,
fish respond quickly to warming, causing community-wide reorganizations, which result in profound changes in ecosystem functioning. Functional biogeography provides a framework to address how
ecosystem functioning may be affected by climate change over
large spatial scales. However, there are few studies on functional
biogeography in the marine environment, and none in the Arctic,
where climate-driven changes are most rapid and extensive. We
investigated the impact of climate warming on the functional
biogeography of the Barents Sea, which is characterized by a sharp
zoogeographic divide separating boreal from Arctic species. Our
unique dataset covered 52 fish species, 15 functional traits, and
3,660 stations sampled during the recent warming period. We found
that the functional traits characterizing Arctic fish communities,
mainly composed of small-sized bottom-dwelling benthivores, are
being rapidly replaced by traits of incoming boreal species, particularly the larger, longer lived, and more piscivorous species. The
changes in functional traits detected in the Arctic can be predicted
based on the characteristics of species expected to undergo quick
poleward shifts in response to warming. These are the large,
generalist, motile species, such as cod and haddock. We show
how functional biogeography can provide important insights into
the relationship between species composition, diversity, ecosystem
functioning, and environmental drivers. This represents invaluable
knowledge in a period when communities and ecosystems experience rapid climate-driven changes across biogeographical regions.