Gerhard Rambold

Fungal diversity notes 1–110: taxonomic and phylogenetic contributions to fungal species

This paper is a compilation of notes on 110 fungal taxa, including one new family, 10 new genera, and 76 new species, representing a wide taxonomic and geographic range. The new family, Paradictyoarthriniaceae is introduced based on its distinct lineage in Dothideomycetes and its unique morphology. The family is sister to Biatriosporaceae and Roussoellaceae. The new genera are Allophaeosphaeria (Phaeosphaeriaceae), Amphibambusa (Amphisphaeriaceae), Brunneomycosphaerella (Capnodiales genera incertae cedis), Chaetocapnodium (Capnodiaceae), Flammeascoma (Anteagloniaceae), Multiseptospora (Pleosporales genera incertae cedis), Neogaeumannomyces (Magnaporthaceae), Palmiascoma (Bambusicolaceae), Paralecia (Squamarinaceae) and Sarimanas (Melanommataceae). The newly described species are the Ascomycota Aliquandostipite manochii, Allophaeosphaeria dactylidis, A. muriformia, Alternaria cesenica, Amphibambusa bambusicola, Amphisphaeria sorbi, Annulohypoxylon thailandicum, Atrotorquata spartii, Brunneomycosphaerella laburni, Byssosphaeria musae, Camarosporium aborescentis, C. aureum, C. frutexensis, Chaetocapnodium siamensis, Chaetothyrium agathis, Colletotrichum sedi, Conicomyces pseudotransvaalensis, Cytospora berberidis, C. sibiraeae, Diaporthe thunbergiicola, Diatrype palmicola, Dictyosporium aquaticum, D. meiosporum, D. thailandicum, Didymella cirsii, Dinemasporium nelloi, Flammeascoma bambusae, Kalmusia italica, K. spartii, Keissleriella sparticola, Lauriomyces synnematicus, Leptosphaeria ebuli, Lophiostoma pseudodictyosporium, L. ravennicum, Lophiotrema eburnoides, Montagnula graminicola, Multiseptospora thailandica, Myrothecium macrosporum, Natantispora unipolaris, Neogaeumannomyces bambusicola, Neosetophoma clematidis, N. italica, Oxydothis atypica, Palmiascoma gregariascomum, Paraconiothyrium nelloi, P. thysanolaenae, Paradictyoarthrinium tectonicola, Paralecia pratorum, Paraphaeosphaeria spartii, Pestalotiopsis digitalis, P. dracontomelon, P. italiana, Phaeoisaria pseudoclematidis, Phragmocapnias philippinensis, Pseudocamarosporium cotinae, Pseudocercospora tamarindi, Pseudotrichia rubriostiolata, P. thailandica, Psiloglonium multiseptatum, Saagaromyces mangrovei, Sarimanas pseudofluviatile, S. shirakamiense, Tothia spartii, Trichomerium siamensis, Wojnowicia dactylidicola, W. dactylidis and W. lonicerae. The Basidiomycota Agaricus flavicentrus, A. hanthanaensis, A. parvibicolor, A. sodalis, Cantharellus luteostipitatus, Lactarius atrobrunneus, L. politus, Phylloporia dependens and Russula cortinarioides are also introduced. Epitypifications or reference specimens are designated for Hapalocystis berkeleyi, Meliola tamarindi, Pallidocercospora acaciigena, Phaeosphaeria musae, Plenodomus agnitus, Psiloglonium colihuae, P. sasicola and Zasmidium musae while notes and/or new sequence data are provided for Annulohypoxylon leptascum, A. nitens, A. stygium, Biscogniauxia marginata, Fasciatispora nypae, Hypoxylon fendleri, H. monticulosum, Leptosphaeria doliolum, Microsphaeropsis olivacea, Neomicrothyrium, Paraleptosphaeria nitschkei, Phoma medicaginis and Saccotheciaceae. A full description of each species is provided with light micrographs (or drawings). Molecular data is provided for 90 taxa and used to generate phylogenetic trees to establish a natural classification for species.

On the ascus types in thePhysciaceae (Lecanorales)

Comparative studies in thePhysciaceae revealed that characters of the apical apparatus of asci differ between the various genera. Two major ascus types are observable in this family. They are found to correspond with certain ascospore types.

Phorophyte specificity and environmental parameters versus stochasticity as determinants for species composition of corticolous crustose lichen communities in the Atlantic rain forest of northeastern Brazil

A transect of 47 mature trees was studied within an Atlantic rain-forest plot in northeastern Brazil to determinate effects of phorophyte specificity and environmental parameters vs. stochasticity on the structure of corticolous, crustose microlichen communities. A total of 150 lichen species was found, most being rare to extremely rare. Multivariate analysis of sample plots indicated subtle phorophyte preferences among certain lichen species, corresponding to differences in bark pH, degree of bark shedding, density and size of bark lenticels, and presence of milk sap. Individual and multiple regressions revealed correlations between lichen species richness; respectively, area cover and bark pH (negative); density and size of bark lenticels (negative); degree of bark shedding (negative); presence of milk sap (positive); and diffuse site factor (positive). No strongly delimited lichen communities were detected, but cluster analysis revealed three main groups and six subgroups with slightly different lichen species composition, each one with characteristic indicator species but with highly variable overall species composition. Beta diversity was high among samples and lacked spatial structure. However, beta diversity was significantly lower among samples belonging to the same tree species, independent of their spatial arrangement. It was concluded that community formation in tropical rain-forest understory lichens subtly correlates with two main environmental factor complexes—phorophyte bark characteristics and microclimate—but is to a large extent determined by the stochastic effects of species dispersal, especially of rare species.

Phylogenetic relationships of the Physciaceae inferred from rDNA sequence data and selected phenotypic characters

The monophyletic origin of the ascomycete family Physciaceae, its position within the Lecanorales and the phylogenetic structure within the family were investigated using nuclear rDNA sequence analyses. The common origin of the Caliciaceae and Physciaceae as previously shown (Wedin et al 2000) was confirmed. Further it could be shown that the Caliciaceae are nested within the Physciaceae. A unique region in loop 37 of the SSU rRNA secondary structure model was identified, which characterizes the Physciaceae/Caliciaceae. The SSU rDNA sequence data did not support a particular relationship with any other Lecanoralean family. Analyses of ITS rDNA sequences revealed a bifurcation of the Physciaceae/Caliciaceae clade, which was found to be congruent with the distribution of certain morphological characters. The congruence with the ITS phylogeny demonstrated the phylogenetic significance of ascus type, hypothecium pigmentation, ascospore characters and excipulum type. Fine-structure details of ascospores and the structure of excipula were found to be important in the recognition of convergences in these traits. Other previously used characters, i.e., growth habit, certain ascospore types or structure of the upper cortex, were found to be of multiple origins within the Physciaceae. All monophyletic lineages of noncrustose growth habit exhibit uniform ascospore types, indicating a higher evolutionary age of ascospore types than foliose growth habit. The taxonomic segregation of the Physciaceae into the Physciaceae and Caliciaceae is proposed here.

First fungal community analyses of endophytic ascomycetes associated with Viscum album ssp. austriacum and its host Pinus sylvestris.

The endophytic fungal communities in the hemi-parasitic epiphyte Viscum album and in its phorophyte Pinus sylvestris were compared to reveal the fungal distribution patterns in their hosts. The ITS nrDNA of 208 multiple-isolated fungal strains was sequenced and a newly designed process was applied for assigning taxon names to the obtained sequences. Furthermore, the isolates were grouped as clusters, by subjecting a sequence similarity matrix to various cluster analyses, the results of which were compared and verified by data from phylogenetic reconstructions. In contrast to a previously reported dominance of Leotiomycetes among Pinus inhabiting fungi, the endophytic communities of the two host plant species studied here were dominated by Xylariaceae (Sordariomycetes). This is in accordance with the finding that host selectivity was only a minor factor in explaining the distribution patterns of the endophytic fungi in Viscum and Pinus. Organ and, probably, tissue selectivity had a more pronounced effect. The composition and condition of the woods in the surrounding, however, are concluded to be the major determinants, due to the following circumstantial evidence: The highest similarities in fungal community compositions were found for the leaves of the two host plant species, especially when considering only the older leaves. The finding that the inhabitants of matured or senescent organs are less host-selective is in accordance with decreasing defence capabilities of ageing host plant tissue and an increased nutrient supply for saprobic taxa. Therefore, the composition of the fungal communities in ageing leaves seems to be predominantly ascribed to contagious spread and to depend on the spectrum of nearby sporulating fungal taxa. We suggest that because a broad range of suitable substrates for Xylariaceae was present in immediate vicinity of the study sites, these fungi also dominated among the recorded endophytic taxa.

Phacopsis — A lichenicolous genus of the family Parmeliaceae

SSU nrDNA studies of two representatives of the lichenicolous genus Phacopsis revealed that they belong to the family Parmeliaceae (Lecanorales) and therefore represent lichenicolous lichens with an endokapylic thallus. Because they are the only lichenicolous taxa within this family, it is suggested that their transition from a foliose and/or fruticose precursor lichen might have been due to a unique (or rare) evolutionary one step event(s). Phylogenetic analyses of the ITS nrDNA of the type species of Phacopsis (P. vulpina) and Nesolechia (N. oxyspora = P. oxyspora) could neither confirm nor reject a monophyletic origin of these two Parmeliacean genera, as previously implied by their synonymization. However, it is considered premature to draw nomenclatorial consequences.

Corticolous Microlichens in Northeastern Brazil: Habitat Differentiation Between Coastal Mata Atlântica, Caatinga and Brejos de Altitude

Abstract Based on a study of 22 sites in northeastern Brazil, including the three main vegetation types, coastal Mata Atlântica (Zona da Mata), Caatinga and Brejos de Altitude (rain forest enclaves in Caatinga areas), we studied the distribution and habitat preferences of 456 crustose and microfoliose lichen species. Alpha-diversity ranged between three and 99 species per site, with Zona da Mata and Brejos de Altitude showing higher numbers than Caatinga sites. Beta-diversity (dissimilarity) was highest between Zona da Mata sites and, as a whole, the Zona da Mata showed the highest gamma-diversity, with a total of 334 species. Site ordination by non-metric multidimensional scaling (NMS), as well as cluster analysis, both using Sørensens coefficient of dissimilarity, show that Zona da Mata and Caatinga sites have distinctive lichen species compositions, with the isolated Brejos de Altitude being more similar to coastal Zona da Mata than to Caatinga sites. Exposed Zona da Mata sites have certain species in common with Caatinga sites but overall cluster with the Zona da Mata sites. The transitional Agreste vegetation (one study site) also appears transitional between Zona da Mata and Caatinga in its lichen species composition. Indicator species analysis for each vegetation type was performed by applying a Monte-Carlo test. Other than ten ubiquitous taxa (found in all three vegetation types), 59 taxa were shared between Zona da Mata and Brejos de Altitude, 20 between Zona da Mata and Caatinga, and none between Brejos de Altitude and Caatinga. Dissimilarity values of Zona da Mata versus Brejos de Altitude sites were high (0.77 or 23% shared species on average), as were those of Zona da Mata versus Caatinga sites (average of 0.92 or 8% shared species). Zona da Mata lichens had a higher proportion of Arthoniomycetidae (Arthoniales: Arthoniaceae, Roccellaceae) and Chaetothyriomycetidae (Pyrenulales: Pyrenulaceae), as well as Porinaceae and Thelotremataceae; frequently trentepohlioid photobionts, predominantly transversely septate and/or narrow ascospores, and lack of lichen substances. Brejos de Altitude lichens showed a higher proportion of Dothideomycetiae (Trypetheliaceae) and Ostropomycetidae (Ostropales: Gomphillaceae and Graphidaceae), as well as Pilocarpaceae; ascospores were predominantly thick-walled or muriform and hyaline. Caatinga sites were dominated by Lecanoromycetidae (Lecanorales: Lecanoraceae; Teloschistales: Physciaceae) and Pertusariales (Pertusariaceae); taxa were chiefly associated with chlorococcoid photobionts, ascospores were megalosporous, non-septate and/or brown, and showed a predominance of certain cortical substances (atranorin, lichexanthone other xanthones, pulvinic acid derivates), as well as norstictic acid as medullary substance.

The distribution of ascus types and photobiontal selection in Lecanoromycetes (Ascomycota) against the background of a revised SSU nrDNA phylogeny

Within the last decade, molecular methods have revealed the relationships in many groups of lichenized Ascomycetes. However, the published phylogenies were often contradictory with respect to higher taxonomic levels. To achieve a more convincing overall picture of phylogenetic relationships of and within the Lecanoromycetes, we set up an alignment of all publicly available SSU nrDNA sequences of the Pezizomycotina, discarded those of insufficient quality, and added 21 newly obtained sequences representing groups that were not or under-represented so far. The alignment of 635 taxa and a subset of 166 Lecanoromycetes were analysed with different phylogenetic algorithms. The best phylogenetic trees, with respect to length, resolution, and support, were obtained with the Parsimony Ratchet method and DNAPARS (Phylip). According to these results, the Lecanoromycetes were subdivided into eight monophyletic clades representing the following orders: Acarosporales ad. int., Agyriales, Baeomycetales, Gyalectales, Icmadophilales ad. int., Lecanorales, Ostropales, and Pertusariales. These clades are distributed in two monophyletic groups corresponding to the two different types of ascomatal ontogeny. The taxa of the Lecanorales-clade differ from the other orders by the absence of a primary cyanobiont and of phycobionts of the genera Coccomyxa and Trentepohlia, in combination with the presence of an amyloid reaction of the ascus tips (lacking amyloid flanks). The Lecanorales-clade is subdivided into nine groups which are treated here at the level of suborders: Lecideineae, Teloschistineae, Physciineae, Bacidiineae ad int., Sphaerophorineae ad int., Rhizocarpineae ad int., Psorineae ad int., Cladoniineae, and Lecanorineae. The amyloid reaction pattern of the ascus apex correlates with this grouping at suborder rank. Peltigerales were excluded from the Lecanorales but included in the Lecanoromycetes based on morpho-anatomical features. The Lichinales were excluded from the Lecanoromycetes, while the position of the Umbilicariaceae remains unclear.

Genomic adaptations of the halophilic Dead Sea filamentous fungus Eurotium rubrum

The Dead Sea is one of the most hypersaline habitats on Earth. The fungus Eurotium rubrum (Eurotiomycetes) is among the few species able to survive there. Here we highlight its adaptive strategies, based on genome analysis and transcriptome profiling. The 26.2 Mb genome of E. rubrum shows, for example, gains in gene families related to stress response and losses with regard to transport processes. Transcriptome analyses under different salt growth conditions revealed, among other things differentially expressed genes encoding ion and metabolite transporters. Our findings suggest that long-term adaptation to salinity requires cellular and metabolic responses that differ from short-term osmotic stress signalling. The transcriptional response indicates that halophilic E. rubrum actively counteracts the salinity stress. Many of its genes encode for proteins with a significantly higher proportion of acidic amino acid residues. This trait is characteristic of the halophilic prokaryotes as well, supporting the theory of convergent evolution under extreme hypersaline stress.

Fungal community composition shifts along a leaf degradation gradient in a European beech forest

AimsThe fungal communities in living and decomposed leaves of European Beech (Fagus sylvatica) were compared to identify the phyllosphere fungi involved in litter decomposition at a site in Bavaria, Germany.MethodsNew primers were designed to cover a broad range of fungal ribosomal DNA sequence diversity. Following ‘environmental PCR’, clone libraries from each of five samples of living leaves (surface-sterilized and untreated), freshly fallen, initially and highly decomposed leaves, were screened using RFLP fingerprinting.ResultsStatistical analysis (ANOSIM) revealed that the fungal communities colonizing living (a) and initially decomposed leaves (c) significantly differed between each other and from freshly fallen (b) and highly decomposed leaves (d). Fungal assemblages of a and d were statistically indistinguishable from each other and from the endophyllous fungal community in living leaves.ConclusionsThe results showed that endophyllous fungi play a role throughout the whole decomposition process of beech leaf litter. Therefore, clarification of the life cycle of certain endophytic and/or soil fungi may only be achieved by considering both phyllosphere and soil habitats.