Zsolt Merényi

Phylogeny and phylogeography of the Tuber brumale aggr.

The Tuber brumale (winter truffle) is a black truffle reported from most European countries, belonging to the Melanosporum group. Its significance in the economy is ambivalent as the winter truffle has been shown to be a frequent contaminant species in the orchards of the Perigord truffle and occasionally in those of the summer truffle, yet owing to its delicate fragrance, its trade is worthy of note. The phylogeny and phylogeography of economically important truffles are relatively well-explored; however, no thorough research has been published on these aspects of the winter truffle. Therefore, here, we report the first phylogeographic analyses based on samples representing the entire distribution of the species. ITS sequences were used in this survey for haplotype and coalescent analyses, while phylogenetic analyses were based on the ITS, LSU and PKC loci. According to all loci, the samples clustered into two big clades imply the existence of two phylogenetic species. Based on our results, one of these appears to be endemic to the Carpathian Basin. In the other more widespread species, two main phylogeographic groups can be distinguished that show east-west separation with a zone of overlap in the Carpathian Basin, suggesting that they survived the latest glacial period in separate refugia.

Lecophagus vermicola sp. nov., a nematophagous hyphomycete with an unusual hunting strategy

Lecophagus vermicola sp. nov. is described and illustrated as a predacious (carnivorous) hyphomycete living in bark fissures of living trees of Platanus and other angiosperm and gymnosperm trees, recorded in Hungary, Luxembourg and France. The fungus captures nematodes unlike other Lecophagus species, which are predators of rotifers and tardigrades. The morphology of the sessile, adhesive knobs differ from all previously described species of the genus which form adhesive pegs. Molecular data confirms that the new species belongs to the Lecophagus clade but without matching existing sequences. The fungus captures victims with adhesive knobs and colonizes its prey with a mycelium of rather broad hyphae on which, again, adhesive knobs are formed which penetrate the cuticule of the victim. Clusters of colonized nematodes form a network utilized to capture more prey. The fungus lives in the xeric, ephemerally aquatic habitat of bark fissures of standing, living or dead, corticated trunks and branches. The genus Haptocara is compared, which has similar adhesive knobs capturing nematodes and similar broad hyphae, but for which no molecular data was available.

Phylogenetic overview of the genus Genea (Pezizales, Ascomycota) with an emphasis on European taxa

We constructed a comprehensive phylogeny of the genus Genea, with new molecular data from samples collected in several countries in temperate and Mediterranean Europe, as well as North America. Type specimens and authentic material of most species were examined to support identifications. The molecular identity of the most common species in Genea was compared with nuc rDNA internal transcribed spacer (ITS), D1-D2 domains of 28S nuc rDNA (28S rDNA) and translation elongation factor 1-α ene (TEF1) profiles of 10 recently proposed taxa, G. brunneocarpa, G. compressa, G. dentata, G. fageticola, G. lobulata, G. oxygala, G. pinicola, G. pseudobalsleyi, G. pseudoverrucosa and G. tuberculata, supporting their status as distinct species. Genea mexicana and G. thaxteri on the one hand and G. sphaerica and G. lespiaultii on the other are closely related. Multiple lineages were recorded for G. verrucosa and G. fragrans, but we found no morphological traits to discriminate among them, so we tentatively interpreted them as cryptic species. A key to species of the genus Genea is provided to facilitate identification. We provide macroscopic images of fresh specimens and of representative spores of most species. Finally, we conducted a molecular analysis of the divergence time for Genea and discuss the implications of our results.

Mycoceros antennatissimus gen. et sp. nov.: a mitosporic fungus capturing pollen grains

Mycoceros antennatissimus gen. et sp. nov. is described and illustrated from pollen grains deposited on the bark of Elaeagnus angustifolia and Platanus × acerifolia in Hungary. This fungus is shown to capture pollen grains by its three-dimensional shape. It clearly shows seasonality and appears to be rare. The following factors determine its ecological niche: (1) the availability of fresh Pinaceae pollen grains deposited from the air on the bark of a nearby standing angiosperm tree with (2) water-retaining spongious bark, and (3) rainy weather. Conidia are mainly dispersed by stemflow rainwater, while they hardly become airborne. Direct polymerase chain reaction (PCR) from single conidia made it possible to perform molecular phylogenetic investigation in order to clarify its taxonomic relationship within the Ascomycota.

Tuber brumale: A Controversial Tuber Species

Tuber brumale is one of the most controversial and most studied Tuber species. Though they are excellently organoleptic and consequently have gastronomic and economic value, they are considered to have a contaminant role in truffle plantations. In addition, the relationship between T. brumale and Tuber moschatum was a long debate. In this chapter we would like to demonstrate the controversial situation surrounding T. brumale, summarise the accumulated knowledge from this species aggregate as well as highlight new information. This includes the realisation that T. brumale should be treated as a species aggregate with a morphologically hardly separable pseudocryptic species pair. In addition the genetic variability of the aggregate is more complex and more related to geographic regions than previously assumed, leading to a change in our understanding of the geographic distribution of T. brumale. Although our knowledge of its environmental demands has grown, we know next to nothing about the interspecific interactions between members of the aggregate or genus. Likewise, T. brumale aggr.’s mycorrhizal substitution roles in truffle plantations require further investigation.