Chemotaxonomy of planktonic cyanobacteria based on non‐polar and 3‐hydroxy fatty acid composition

SUMMARY Twenty‐eight axenio planktonic cyanobacterial strains (10 Microcystis , three Oscillatoria , one Spirulina , one Aphanizomenon , 13 Anabaena ) were investigated for their fatty acid composition by measurement of non‐polar and hydroxy fatty acids. No 2‐hydroxy fatty acids were detected in any strain, but 3‐hydroxy fatty acids were detected in minor quantities in 24 strains. The highest portion of total fatty acids were non‐polar fatty acids. Qualitative and quantitative analyses of 3‐hydroxy fatty acids showed no taxonomic value in these strains, while the type of non‐polar fatty acid composition was shown to be consistent within Microcystis and Anabaena strains, distinguishing them as type 4, characterized by the presence of 18:4, and type 2, characterized by 18:3 (α) of the Kenyon‐Murata system. Two Oscillatoria agardhii Gomont strains were also included in the type 2 group due to the presence of 18: 3 (α), but the difference in characteristics of 16:2 and 16:3 between O. agardhii and Anabaena further divided type 2 into two subgroups: type 2A for Anabaena and type 2B for O. agardhii . A simplified unweighted pair group method with arithmetic averages (UPGMA) dendrogram demonstrated that the classification of 28 strains ( Microcystis spp., Anabaena spp., Aphanizomenon flos‐aquae (Lemmermann) Ralfs f. gracile (Lemmermann) Elenkin, O. agardhii and Spirullnasubsalsa Oersted ex Gomont based on numerical analysis of non‐polar fatty acids corresponded to morphological species criteria, suggesting that non‐polar fatty acid composition is a valuable chemical marker in the taxonomy of planktonic cyanobacteria. However, the fatty acid composition in Oscillatoria raciborskii is similar to that of Microcystis and very different from that of O. agardhii , suggesting its special position in Oscillatoria and the chemical diversity in the genus Oscillatoria .