Revisiting the footprints of climate change in Arctic marine food webs: An assessment of knowledge gained since 2010
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https://hdl.handle.net/10037/30003Date
2023-01-30Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
In 2011, a first comprehensive assessment of the footprints of climate change on
Arctic marine ecosystems (such as altered distribution ranges, abundances, growth
and body conditions, behaviours and phenologies, as well as community and
regime shifts) was published. Here, we re-assess the climate-driven impacts
reported since then, to elucidate to which extent and how observed ecological
footprints have changed in the following decade (2011 to 2021). In total, 98
footprints have been described and analysed. Most of those impacts reported in
the 2011 assessment are reconfirmed and can, hence, be assumed as continuing
trends. In addition, novel footprints (behavioural changes, diet changes, altered
competition and pathogen load) are described. As in 2011, most reported
footprints are related to changes in distribution ranges, abundances, biomass
and production. Range shifts have mostly been observed for fish species, while
behavioural changes have mainly been reported for mammals. Primary production
has been observed to further increase in Arctic seas. The footprints on pelagic
herbivores, particularly the key species Calanus spp., are less clear. In comparison
to 2011, more complex, cascading effects of climate change, such as increased
bowhead whale body conditions due to increased primary production, have been
reported. The observed footprints, and the trends that they indicate, strongly
suggest that due to further northward range shifts of sub-Arctic and boreal species
Arctic seas are likely to experience increasing species richness in the future.
However, a tipping point may be reached, characterized by subsequent
biodiversity decline, when Arctic-endemic species will go extinct as ocean
warming and/or acidification will exceed their physiological adaptation capacity.
Furthermore, as invading boreal species have a competitive advantage due to their
wider physiological and trophic range, Arctic species abundances are predicted to
decrease. Overall, the future Arctic Ocean will very likely experience increasing
numbers and intensities of climate-change footprints.
Publisher
Frontiers MediaCitation
Brandt, Wassmann, Piepenburg. Revisiting the footprints of climate change in Arctic marine food webs: An assessment of knowledge gained since 2010. Frontiers in Marine Science. 2023;10Metadata
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