• The dinophycean genus Azadinium and related species – morphological and molecular characterization, biogeography, and toxins

      Tillmann, U.; Elbrächter, M.; Gottschling, M.; Gu, H.; Jeong, H.J.; Krock, B.; Nézan, E.; Potvin, E.; Salas, R.; Soehner, S. (International Society for the Study of Harmful Algae, 2014)
      Azaspiracids (AZAs) are the most recently discovered group of lipophilic marine biotoxins of microalgal origin. It took about twelve years from the first human poisoning event until a culprit for AZA production was unambiguously identified and described as a novel species, Azadinium spinosum, within a newly created genus. Since then, knowledge on the genus has increased considerably, and an update on the current circumscription of the genus is presented here including various aspects of morphology, phylogeny, biogeography, and toxin production. There are currently five described species: A. spinosum, A. obesum, A. poporum, A. caudatum, and A. polongum. As indicated by molecular sequence variation detected in field samples, there are probably more species to recognize. Moreover, Amphidoma languida has been described recently, and this species is the closest relative of Azadinium based on both molecular and morphological data. Amphidoma and Azadinium are now grouped in the family Amphidomataceae, which forms an independent lineage among other monophyletic major groups of dinophytes. Initially, azaspiracids have been detected in A. spinosum only, but AZA production within the Amphidomataceae appears complex and diverse: A new type of azaspiracid, with a number of structural variants, has been detected in A. poporum and Amphidoma languida, and AZA-2 has now been detected in Chinese strains of A. poporum.
    • A multi-year comparison of Spirolide profiles in planktonic field samples from the North Sea and adjacent waters

      Krock, B.; Tillmann, U.; Alpermann, T.; Salas, R.; Cembella, A.D. (Alfred-Wegener-Institut für Polar- und Meeresforschung in der Helmholtz-Gemeinschaft, 2010)
      Alexandrium ostenfeldii isolates from distinct geographical locations showed almost identical profiles, primarily consisting of 20-methyl spirolide G (20-meG). Whereas the Scottish isolate produces only this variant, the Irish isolate additionally yields slight amounts of 13-desmethyl spirolide C (13-desmeC). These profiles were also reflected in the field data, where 20-meG was the most abundant spirolide throughout all samples and years.
    • Novel azaspiracids produced by Amphidomataceae

      Krock, B.; Tillmann, U.; Jeong, H.J.; Potvin, E.; Salas, R.; Kilcoyne, J.; Gu, H. (Alfred-Wegener-Institut für Polar- und Meeresforschung, 2012)