Diversity and toxicity of Pacific strains of the benthic dinoflagellate Coolia (Dinophyceae), with a look at the Coolia canariensis species complex.

ABSTRACT

Coolia Meunier 1919 from benthic assemblages of Hawai'i and Guam were isolated and clonal cultures were established from single cells. Cultures were identified to species-level based on 28S rRNA and ITS-5.8S rRNA genes and tested for toxicity. In Hawai'i, two strains of C. malayensis were isolated. In Guam, a high biodiversity was identified four strains of C. malayensis, one strain of C. palmyrensis, one strain of C. tropicalis, one strain of C. canariensis phylogroup III, and two strains forming a new phylogroup (phylogroup IV) of nontoxic C. canariensis. Morphology of the new C. canariensis phylogroup was described using light microscopy and scanning electron microscopy. Mass cultures and methanol extracts of representative cultures (C. malayensis, C. palmyrensis, C. canariensis, C. tropicalis) from Guam were prepared for liquid chromatography-mass spectrometry analysis. Chemical analyses revealed yessotoxin analogue C56H78O18S2 is produced by C. malayensis, C. canariensis phylogroup IV and C. palmyrensis, but other analogues, C57H80O18S2 and C58H86O18S2, were only found in C. malayensis (Okinawa) and C. canariensis phylogroup IV. Individual toxin profiles were also different over time for an Okinawa strain of C. malayensis (NIES-3637), highlighting intra and inter-species variation in Yessotoxin-analogue expression. Biological activity was tested using Artemia bioassay and toxicity was observed in Guam and Okinawa strains of C. malayensis. Strong support of four distinct clades within the C. canariensis species complex was recovered in phylogenetic analyses, despite morphological similarities.