Allelochemical interactions and short-term effects of the dinoflagellate Alexandrium on selected photoautotrophic and heterotrophic protists

The marine dinoflagellate genus Alexandrium (Halim) Balech contains members that produce highly potent phycotoxins (PSP toxins or spirolides) as well as lytic substances and other allelochemicals of unknown structure and ecological significance. One isolate each of six Alexandrium species (A. tamarense, A. ostenfeldii, A. lusitanicum, A. minutum, A. catenella, A. taylori), of the closely related gonyaulacoid dinoflagellate Fragilidium subglobosum, and of the peridinioid Scrippsiella trochoidea were tested in 24 h co-incubation experiments for their short-term deleterious effects on a diversity of marine protists. Both autotrophs (Rhodomonas salina, Dunaliella salina, Thalassiosira weissflogii) and heterotrophs (Oxyrrhis marina, Amphidinium crassum, Rimostrombidium caudatum) were included as target species. All donor isolates except S. trochoidea exhibited lytic effects on at least some target species. Lytic effects were observed with all Alexandrium species, for both whole cell samples and culture filtrate (<10 μm and <0.2 μm). Antibiotic treated cultures with drastically reduced bacterial numbers did not show any general reduction in lytic capacity, therefore direct involvement of extracellular bacteria in allelochemical production is unlikely. Values of EC₅₀, defined as the Alexandrium cell concentration causing lysis of 50% of target cells, differed by two orders of magnitude depending on the donor/target combination, from 3.1 × 10³ cells ml⁻¹ (A. minutum/O. marina) down to 0.02 × 10³ cells ml⁻¹ (A. catenella/D. salina). Within the array of nine donor Alexandrium/target combinations, variable ratios in EC₅₀ values between donor/target combination cannot be explained by quantitative differences in allelochemical production, but rather indicate qualitative differences in the composition of compounds produced by different Alexandrium strains. In conclusion, our study confirms the widespread lytic capacity within the genus Alexandrium, although allelochemical effects are not restricted to this genus. Allelochemical interactions mediated by such lytic substances may be significant in explaining the formation and maintenance of Alexandrium blooms through direct destructive effects on competing algae or unicellular grazers.