The morphological and molecular differentiation of the Micrasterias truncata (Corda) ex Bréb species complex was investigated. In total, 17 strains traditionally assigned to M. truncata were isolated from different European localities (Czech Republic, southwest France, Ireland), and obtained from public culture collections.
In addition, strains of the morphologically similar species, M. decemdentata (Nägeli) W. Archer and M. zeylanica F.
E. Fritsch, were also included.
Molecular phylogenetic analysis based on trnGucc intron sequences revealed five well supported clades. Two Australian strains assigned to M. truncata var. pusilla G.
S. West formed a lineage sister to M. zeylanica.
This was evident from a concatenated phylogeny based on small subunit rDNA and trnGucc intron sequences. The isolated position of these strains was also illustrated by parallel landmark-based geometric morphometric analysis of cell shapes.
The strains NIES 783 and NIES 784 probably represent a separate species. Particular analysis, including additional strains, is needed to resolve the relationship inside this lineage.
The second phylogenetic lineage, containing two strains of M. truncata var. semiradiata (Kützing) Wolle, was also different from other strains on the basis of morphometric data. We suggest recognizing this variety as a separate species, Micrasterias semiradiata L.A.
Brébisson ex F. T.
Kützing. The remaining three clades formed a firmly supported group of the 'core'M. truncata recognized by both molecular markers.
However, neither any morphological, morphometric, nor geographical pattern was detected among members of these three clades. This pattern could be caused by a relatively recent origin of these lineages that may represent a sympatric, truly cryptic species.
Strains attributable to traditional morphologically defined variety M. truncata var. neodamensis were nested within the 'core'M. truncata.