The use of stable isotopes to measure the ingestion rate of potentially toxic benthic dinoflagellates by harpacticoid copepods

Phycotoxins synthesized by benthic dinoflagellates are known to bioaccumulate in macrofauna and hence represent a risk for human health. However, the presence of toxins synthesized by benthic dinoflagellates in smaller marine organisms than macrofauna has not been considered despite the fact that su...

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Bibliographic Details
Published in:Journal of experimental marine biology and ecology 2020-03, Vol.524, p.151285, Article 151285
Main Authors: Boisnoir, Aurélie, Pavaux, Anne-Sophie, Schizas, Nikolaos V., Marro, Sophie, Blasco, Thierry, Lemée, Rodolphe, Pascal, Pierre-Yves
Format: Article
Language:English
Subjects:
Amphidinium cf. carterae
Food web
Grazing rate
Isotope
Meiofauna
Ostreopsis cf. ovata
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Summary:Phycotoxins synthesized by benthic dinoflagellates are known to bioaccumulate in macrofauna and hence represent a risk for human health. However, the presence of toxins synthesized by benthic dinoflagellates in smaller marine organisms than macrofauna has not been considered despite the fact that such small organisms have an important ecological role in the benthic food web. This present study quantified, for the first time, the trophic relationship between benthic dinoflagellates and meiofauna by using stable isotope enriched dinoflagellates during ingestion experiments. Results showed that harpacticoid copepods were not able to discriminate, during ingestion, between the potentially toxic cells of Ostreopsis cf. ovata and the non-toxic cells of Amphidinium cf. carterae, even when another food resource, such as diatoms (e.g. Odontella sp.), was provided (Kruskal Wallis test, p > .05). •Trophic relationship quantified using stable isotopes during grazing experiments•Harpacticoid copepods graze benthic dinoflagellates in the Caribbean Sea•Meiofauna can constitute an input channel of benthic dinoflagellates toxins
ISSN:0022-0981
1879-1697
DOI:10.1016/j.jembe.2019.151285