Mycoscience最新文献

The telial stage of Puccinia chunjiei was described in 2012 from a single specimen collected in China (DAOM 240982). This species is the closest relative of P. graminis but differs in telial morphology on their grass hosts and in DNA sequences. As part of a DNA-barcoding project for rust herbarium specimens, collections of the aecial stage of P. graminis on Berberis were processed. For one specimen, BPI 1103856, the ITS sequence matched that of P. chunjiei and the aecial morphology differed from P. graminis. An expanded description of P. chunjiei is presented with photographs of the aecial stages of both species.

Neofavolus teixeirae sp. nov. (Basidiomycota) is described and illustrated based on specimens collected from a reforestation area in southeastern Brazil. This new species is characterized by a lateral stipe up to 1.3 cm long, lacerate and angular pores measuring 0.5-2 (-2.5) per mm, and cylindrical to subcylindrical basidiospores. Phylogenetic analyses of the ITS and LSU regions confirmed its phylogenetic placement and taxonomic identity. A key to Neofavolus species is presented.

A wild edible Gomphus species was discovered at local wild mushroom markets from May to November in Southwest China, where it was eaten for hundreds of years. However, litter information on the taxonomy is available. Whether Gomphus is a saprotrophic, parasitic, or ectomycorrhizal (ECM) fungus is unclear. In the present study, field investigation, fungi isolation, optimum medium, morphological description, molecular analyses, and preliminary exploration on mycorrhizal synthesis were carried out. The morphological and molecular analyses showed that the same species between Gomphus matijun and Gomphus sp. (zituoluo) might be the related species of Gomphus purpuraceus. Moreover, the root dry weight and first-lateral root number of inoculated seedlings were significantly enhanced by evaluating Pinus massoniana seedlings inoculated with G. matijun. Meanwhile, the levels of nine phytohormones, including five new phytohormones, in the roots of inoculated seedlings were upregulated. This study explored the mycorrhizal synthesis of the wild edible Gomphus species from Southwest China with P. massoniana Lamb. We concluded that G. matijun might be an ECM fungus. The mycorrhizal synthesis of G. matijun under pure culture conditions provided the basis for the next inoculation under controlled soil conditions, making the conservation and cultivation of G. matijun feasible in the future.

Dr. Kobayasi and Mr. Shimizu described 31 species of Cordyceps infecting Lepidoptera. Holotype specimens of 14 species and two authentic specimens of one of the 31 species were rediscovered from a herbarium of the National Museum of Nature and Science (TNS). Registration numbers (TNS-F-number) were given to these 16 specimens, and one was lectotypified as follows. Holotypes: Metarhizium indigoticum TNS-F-230337; Yosiokobayasia kusanagiensis TNS-F-197994 (Clavicipitaceae); Beauveria hepialidicola (Kobayasi & Shimizu) Hirok. Sato, S. Ban & Hosoya, comb. nov. TNS-F-197986; Cordyceps ampullacea TNS-F-197981, Cordyceps militaris f. alba TNS-F-230340, Cordyceps ochraceostromata TNS-F-195471, and Cordyceps rosea TNS-F-197972 (Cordyceps sensu stricto, Cordycipitaceae); Ophiocordyceps aurantia TNS-F-195485, Ophiocordyceps cochlidiicola TNS-F-195470, and Ophiocordyceps hiugensis TNS-F-197978 (Ophiocordy-cipitaceae); and Cordyceps changpaishanensis TNS-F-195501, Cordyceps ootakiensis TNS-F-197976, Cordyceps shimizui TNS-F-197995, and Cordyceps sulfurea TNS-F-197974 (Cordyceps sensu lato). Lectotype: Cordyceps bulolensis TNS-F-230327 (Cordyceps sensu lato). A new combination Beauveria hepialidicola comb. nov., is proposed for Cordyceps hepialidicola based on morphological observations.

To understand the species distribution, diversity, and density of lipomycetaceous yeasts in soil based on their north-to-south location in Japan, 1146 strains were isolated from soil samples at 11 locations from Hokkaido to Okinawa Prefecture and taxonomically characterized. Lipomycetaceous yeast strains were isolated efficiently from soil by selecting watery mucoid-like colonies on agar plates with nitrogen-depleted medium. Twenty-four (80%) of the 30 known species of the genus Lipomyces were isolated from the soil samples collected in Japan, including species recently proposed. Among the species isolated, L. starkeyi was the most predominant in Japan, except on Iriomote Island, Okinawa, and accounted for 60-98% of the isolated strains. Lipomyces yarrowii was the dominant species on Iriomote Island (64%). The second most dominant species were L. chichibuensis in Saitama Prefecture and L. doorenjongii from Yamaguchi to Okinawa Prefecture. The species diversity of lipomycetaceous yeasts was in Japan and the significant correlation with the latitude of the sampling sites was revealed.

Matsutake mushrooms are among the best-known edible wild mushroom taxa worldwide. The representative Tricholoma matsutake is from East Asia and the northern and central regions of Europe. Here, we report the existence of T. matsutake under fir trees in Eastern Europe (i.e., Ukraine), as confirmed by phylogenetic analysis of nine loci on the nuclear and mitochondrial genomes. All specimens from Japan, Bhutan, China, North Korea, South Korea, Sweden, Finland, and Ukraine formed a T. matsutake clade according to the phylogeny of the internal transcribed spacer region. The European population of T. matsutake was clustered based on the β2 tubulin gene, with a moderate bootstrap value. In contrast, based on analyses of three loci, i.e., rpb2, tef1, and the β2 tubulin gene, T. matsutake specimens sampled from Bhutan and China belonged to a clade independent of the other specimens of this species, implying a genetically isolated population. As biologically available type specimens of T. matsutake have not been designated since its description as a new species from Japan in 1925, we established an epitype of this fungus, sampled in a Pinus densiflora forest in Nagano, Japan.

Most edible ectomycorrhizal mushrooms are harvested in forests or controlled tree plantations; examples include truffles, chanterelles, porcinis, saffron milk caps, and matsutake. This study explored recent advances in in vitro ectomycorrhizal cultivation of chanterelles and matsutakes for successful ectomycorrhizal seedling establishment and the subsequent manipulation of these seedlings for efficient fruiting body production. Chanterelle cultivation studies have been limited due to the difficulty of establishing pure cultures. However, once pure cultures were established in the Japanese yellow chanterelle (Cantharellus anzutake), its ectomycorrhizal manipulation produced fruiting bodies under controlled laboratory conditions. As C. anzutake strains have fruited repeatedly under ectomycorrhizal symbiosis with pine and oak seedlings, mating tests for the cross breeding are ongoing issues. As one of the established strains C-23 has full-genome sequence, its application for various type of ectomycorrhizal studies is also expected. By contrast, Tricholoma matsutake fruiting bodies have not yet been produced under controlled conditions, despite successful establishment of ectomycorrhizal seedlings. At present, the shiro structure of ≈1L in volume can be provided in two y incubation with pine hosts under controlled environmental conditions. Therefore, further studies that provides larger shiro on the host root system are desired for the outplantation trial and fruiting.

Some Asian fungi are morphologically very similar to European species but belong to different species. A fungus that resembles Pyrenopeziza petiolaris, which commonly occurs on the petioles of Acer pseudoplatanus in Europe, was found on the petioles of Acer spp. and other tree leaves in Japan. The apothecia of this fungus were smaller than those of P. petiolaris, suggesting that it is a different species. To examine this possibility, specimens of this fungus were collected from various hosts in Japan. A detailed morphological examination elucidated that this fungus differed from P. petiolaris in smaller apothecia, marginal cells of the ectal excipulum, and conidia. The ITS sequence difference between this fungus and P. petiolaris was 3.3-4.3%, and they formed distinct clades in the phylogenetic analysis, supporting that they are different species. Consequently, a new species, P. orientalipetiolaris is described. Since an undescribed phialophora-state was observed in the cultures of P. petiolaris for the first time, the morphology under culture is also reported in detail.

Rhizopogon roseolus is a basidiomycetous ectomycorrhizal fungus that inhabits mainly coastal areas. Understanding the response of this fungus to salinity at each stage of its life cycle will lead to elucidation of the strategies for its propagation. This study examined the effect of sodium chloride (NaCl) on basidiospore germination and mycelial growth of both homokaryotic and heterokaryotic strains of R. roseolus, on nutrient agar media with varying concentrations of NaCl (0, 50, 150, and 300 mM). Regardless of the presence of NaCl, R. roseolus basidiospores germinated and the germlings grew, forming compatible fusions. In addition, all multispore strains, including homokaryons and heterokaryons, grew under these NaCl conditions. Most of these strains had an effective concentration inhibiting mycelial growth by 50% value greater than 300 mM of NaCl. These results indicate that R. roseolus can germinate, grow, and mate in the presence of NaCl, allowing it to propagate in saline habitats.