Impacts of unusually high sea ice cover on Antarctic coastal benthic food web structure

Antarctica currently undergoes strong and contrasted impacts linked with climate change. While the West Antarctic Peninsula is one of the most rapidly warming regions in the world, resulting in sea ice cover decrease, the sea ice cover of East Antarctica unexpectedly tends to increase, possibly in r...

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Bibliographic Details
Main Authors: Michel, Loïc, Dubois, Philippe, Eleaume, Marc, Fournier, Jérôme, Gallut, Cyril, Jane, Philip, Lepoint, Gilles
Other Authors: MARE - Centre Interfacultaire de Recherches en Océanologie - ULiège
Format: Conference Object
Language:English
Published: 2016
Subjects:
stable isotope
antarctica
food web
mixing model
benthic invertebrates
trophic marker
Life sciences
Aquatic sciences & oceanology
Environmental sciences & ecology
Zoology
Sciences du vivant
Sciences aquatiques & océanologie
Sciences de l’environnement & écologie
Zoologie
Antarc*
Antarctic
Antarctic Peninsula
Antarctica
East Antarctica
Sea ice
Online Access:https://orbi.uliege.be/handle/2268/195134
https://orbi.uliege.be/bitstream/2268/195134/1/Michel_IsoEcol2016.pdf
Description
Summary:Antarctica currently undergoes strong and contrasted impacts linked with climate change. While the West Antarctic Peninsula is one of the most rapidly warming regions in the world, resulting in sea ice cover decrease, the sea ice cover of East Antarctica unexpectedly tends to increase, possibly in relation with changes in atmospheric circulation. Changes in sea ice cover are likely to influence benthic food web structure through modifications of benthic-pelagic coupling, disruption of benthic production and/or modifications of benthic community structure (i.e. resource availability for benthic consumers). Here, we studied shallow (0-20 m) benthic food web structure on the coasts of Petrels Island (Adélie Land, East Antarctica) during an event of unusually high spatial and temporal (two successive austral summers without seasonal break-up) sea ice cover. Using stable isotope ratios of C, N and S and the SIAR mixing model, we examined importance of several organic matter sources (benthic macroalgae, benthic biofilm, sympagic algae, suspended particulate organic matter and penguin guano) for nutrition of over 20 taxa of benthic invertebrates (sponges, sea anemones, nemerteans, sessile and mobile polychaetes, gastropods, bivalves, sipunculids, pycnogonids, amphipods, sea stars, sea urchins and sea cucumbers) spanning most present functional guilds. Our results provide insights about how Antarctic benthic consumers, which have evolved in an extremely stable environment, might adapt their feeding habits in response to sudden man-driven changes in environmental conditions and trophic resource availability.

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