Two new Kirschsteiniothelia species with Dendryphiopsis anamorphs cluster in Kirschsteiniotheliaceae fam. nov.

Two new Kirschsteiniothelia species are proposed in this study; both were collected on decaying wood from Chiang Mai and Chiang Rai provinces in northern Thailand. The taxa were isolated and the morphological characters are described and illustrated. ITS, LSU and SSU combined sequence analysis showed taxa of Kirschsteiniothelia separating into three lineages: (i) K. elaterascus grouped within Morosphaeriaceae (Pleosporales); (ii) K. maritima clustered with Mytilinidion spp. as a sister group in the Mytilinidiaceae clade; and (iii) the two new Kirschsteiniothelia species, which produce Dendryphiopsis anamorphs in culture, clustered with K. aethiops (the generic type) and the anamorph D. atra. The new family Kirschsteiniotheliaceae is introduced to accommodate taxa grouping with K. aethiops. K. elaterascus is transferred to Morosphaeria (Morosphaeriaceae) and a new genus Halokirschteiniothelia is introduced to accommodate K. maritima (Mytilinidiaceae).

Phylogeny of Chaetothyriaceae in northern Thailand including three new species.

In a recent study unusual taxa of epiphyllous ascomycota belonging to Chaetothyriaceae (Eurotiomycetes) were collected in northern Thailand. This family is poorly understood due to morphological confusion and lack of phylogenetic studies. This paper deals with three new species, Ceramothyrium thailandicum, Chaetothyrium brischofiacola and Phaeosaccardinula ficus, which are fully described and illustrated. A DNA sequence analyses of LSU and ITS rDNA genes shows that the new species cluster in the Chaetothyriaceae. This paper adds six sequences for Chaetothyriaceae to GenBank, providing much needed data for the family.

Molecular diversity of myxomycetes associated with decaying wood and forest floor leaf litter.

Denaturing gradient gel electrophoresis (DGGE) fingerprinting was used to assess the molecular diversity of myxomycetes from environmental samples (decaying wood and forest floor litter) collected at the Mushroom Research Centre in northern Thailand. Total genomic DNA was extracted directly from environmental samples on which myxomycetes were not apparent. Part of the small subunit ribosomal RNA gene (SSU rDNA) was amplified and DNA sequences analyzed. DGGE gels revealed up to 17 operational taxonomic units (OTU) from decaying wood and 10 OTU from forest floor litter samples, but only seven (wood) and six (litter) OTU could be re-amplified and/or sequenced. Based on results obtained with the BLAST analysis program, the species involved appeared to correspond most closely to Diderma saundersii, Didymium iridis, Stemonitis flavogenita and Hyperamoeba sp. strain W2i on decaying wood and to Diderma saundersii and Physarum didermoides on forest floor litter. Our results suggest that then PCR-DGGE can be used to obtain data on the presence of myxomycetes in their primary microhabitats without the need to observe the sporocarps of these organisms. As such the technique would seem to have considerable potential for contributing to a more complete understanding of myxomycete diversity and ecology in terrestrial ecosystems.