Dietary plasticity in the bivalve Astarte moerchi revealed by a multimarker study in two Arctic fjords

TitreDietary plasticity in the bivalve Astarte moerchi revealed by a multimarker study in two Arctic fjords
Type de publicationJournal Article
AuteursDe Cesare, S, Meziane, T, Chauvaud, L, Richard, J, Sejr, MK, Thebault, J, Winkler, G, Olivier, F
Journal{MARINE ECOLOGY PROGRESS SERIES}
Volume{567}
Pagination{157-172}
Date Published{MAR 13}
Type of Article{Article}
ISSN{0171-8630}
Mots-clésClimate Change, Compound-specific carbon stable isotopes}, fatty acids, Filter-feeding bivalves, Pelagic-benthic coupling, Trophic markers, {Arctic benthos
Résumé

{Arctic coastal ecosystems are likely to be strongly affected by predicted environmental changes such as sea-ice decline and increase in freshwater input and turbidity. These changes are expected to impact primary production dynamics and consequently benthic consumers. The trophic relationship between primary producers and benthic primary consumers were compared in 2 Arctic fjords with different seasonal ice-cover: Young Sound (NE Greenland, a high-Arctic fjord) and Kongsfjorden (Svalbard Archipelago, a sub-Arctic fjord). For comparison, we selected the filter-feeding bivalve Astarte moerchi (belonging to the complex A. borealis), which has a broad geographical distribution in the Arctic. The bivalve digestive glands and food sources were characterized with fatty acids (FAs), bulk stable isotopes, and compound-specific stable isotopes of individual FAs. Our results suggest that diatoms of pelagic and/ or benthic origin are the main contributors to the A. moerchi diet in Young Sound and make up a less important fraction of the diet in the Kongsfjorden population. A contribution by sympagic diatoms is clearly excluded in the sub-Arctic fjord and needs to be further assessed in the Arctic fjord. The A. moerchi diet in sub-Arctic Kongsfjorden is more diversified, varies with season, and has contributions from dinoflagellates and macroalgal detritus. These results, together with higher concentrations of total FAs in the Young Sound population, demonstrated and characterized the trophic plasticity of this bivalve species. Based on these results, we discuss potential effects of environmental factors (shifts in trophic resources, increase in turbidity) for A. moerchi populations in changing Arctic ecosystems.}

DOI10.3354/meps12035}