Interactions between red tide microalgae and herbivorous zooplankton: the noxious effects of Gyrodinium corsicum (Dinophyceae) on Acartia grani (Copepoda: Calanoida)

doi:10.1093/plankt/21.12.2361

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Journal of Plankton Research Vol.21 no.12 pp.2361-2371, 1999
© Oxford University Press 1999

Interactions between red tide microalgae and herbivorous zooplankton: the noxious effects of Gyrodinium corsicum (Dinophyceae) on Acartia grani (Copepoda: Calanoida)

M. Delgado and M. Alcaraz

Institut de Ciències del Mar, CSIC, P. Joan de Borbó S/N, 08039 Barcelona, Spain

Gyrodinium corsicum is a dinoflagellate responsible for recurrentwater discolourations during winter in Alfacs Bay (Ebre Riverdelta, NW Mediterranean). Since first detected in 1994, episodicmortality of mussels and fish was attributed to this organism,although no direct evidence was obtained. In order to establishthe direct role of the dinoflagellate in the mortality of marinefauna, we have studied the effects of G.corsicum on a potentialpredator, the co-occurring planktonic copepod Acartia grani.Female A.grani were exposed to different concentrations of intactcells, and <5 µm and <0.2 µm filtrates ofthe dinoflagellate. At concentrations of $>=$ 3100 cells ml^–1,G.corsicum reduced feeding and egg production rates, and causedparalysis and death of A.grani. Low dinoflagellate concentrations(630 cells ml^–1) or the <5 µm and <0.2 µmfiltrates were harmless, at least for the duration of the experiment.Our study demonstrated that a possible poisoning effect dueto the ingestion of the dinoflagellate by the copepod must bedisregarded, and the toxic effects of soluble substances excretedby the dinoflagellate, or accompanying free-living toxic bacteria,were not causes of copepod paralysis and death. Scanning electronmicroscopy of female A.grani exposed to G.corsicum indicateda clear tendency of the dinoflagellate to adhere to the copepodcuticle at preferential zones like the urosome and the antennae.Apparently, direct contact between the copepod and the dinoflagellateis a prerequisite for the noxious effects. Amongst other ecologicalconsequences, the development of G.corsicum blooms representsa drastic reduction of grazing pressure in the system throughthe control of the herbivorous populations. Whether mechanicalor chemical effects are the primary reasons for the observedeffects is unknown, and to elucidate this will require furtherresearch.

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