Phenotypic and genotypic identification and phylogenetic characterisation of <Emphasis Type="Italic">Taphrina</Emphasis> fungi on alder

All Taphrina species are dimorphic with a mycelium stage biotrophic on vascular plants and a saprophytic yeast stage. European species of Taphrina on Alnus species (Betulaceae) were identified using morphological, physiological and molecular characteristics, the latter including determination of PCR fingerprints and of nucleotide sequences from selected nuclear ribosomal DNA regions. PCR fingerprinting gives a good overview of species identification, as do nucleotide sequences, which in addition, help to clarify phylogenetic relationships. Taphrina alni is a homogeneous species that exhibited more than 50% similarity in PCR fingerprinting with three different primers. Morphologically, it produces tongue-like outgrowths from female catkins of Alnus incana. Taphrina robinsoniana from A. rugosa and A. serrulata in North America is phylogenetically closely related to T. alni, but the two species could be separated by their PCR fingerprints, partial sequences of 26S rDNA (D1/D2) and ITS1/ITS2 sequences. T. epiphylla and T. sadebeckii are two phylogenetically closely related species. T. epiphylla causes witches brooms in crowns of A. incana. In addition, T. epiphylla forms slightly yellow white-grey leaf spots in midsummer on A. incana. Yellow white-grey leaf spots up to 10 mm on A. glutinosa are characteristic for T. sadebeckii. Both species can be separated well by PCR fingerprinting. Different from T. epiphylla, T. sadebeckii is genotypically more heterogeneous. Only two out of three different primers showed similarity values above 50% in different European strains of T. sadebeckii. Although genetic variability was not detected in complete sequences of the 18S ribosomal DNA of T. sadebeckii, ITS1/ITS2 sequences appeared to be more heterogeneous, too. Taphrina tosquinetii is a genotypically homogeneous species causing leaf curl on Alnus glutinosa. It was not possible to distinguish the yeast phases from different Taphrina species on Alnus using morphological and physiological characteristics only. Dedicated to Prof. Dr. Hanns Kreisel on the occasion of his 70^th birthday