Mycoscience Volume 46, Issue 5

Seasonal and leaf age-dependent changes in occurrence of phyllosphere fungi of giant dogwood

To examine the relative importance of leaf age and season on the occurrence of phyllosphere fungi, temporal patterns of epiphytic and endophytic phyllosphere fungi of giant dogwood (Swida controversa) were studied with reference to leaf emergence at first occurrence and in the middle of the growing season. A total of 15 and 44 species were isolated from the surface and interior of leaves, respectively. On the leaf surface, detection rate of fungi was consistently 100% and their frequencies increased during the growing season, whereas in the leaf interior, detection rate of fungi and their frequencies were low at leaf emergence and gradually increased during the growing season. Six epiphytic and two endophytic fungi were observed frequently. A white sterile mycelium was frequent only on the surface of newly emerged leaves in the first-order shoot in May. The other 7 species increased during the growing season. The frequencies of Phomopsis sp., Pestalotiopsis sp. 1, and Trichoderma viride were higher on the leaves of first-order shoots than those of higher-order shoots that emerged between July and September, suggesting the possible effects of leaf age on their occurrence. On the other hand, the frequencies of Colletotrichum gloeosporioides, Clonostachys rosea, Cladosporium cladosporioides, and Phoma sp. 1 were not different between the first- and higher-order shoots, suggesting the negligible effect of leaf age. The influence of phenological patterns of leaf emergence of deciduous trees on the diversity and composition of assemblages of phyllosphere fungi is discussed.

Colonization and lignin decomposition of Camellia japonica leaf litter by endophytic fungi

Endophytic fungi occur on various types of leaf litter, but few studies have been done on their roles as saprophytes in decomposition. This study examined the succession of fungi in live, newly shed, and decomposing leaves at 2 months of decomposition of Camellia japonica and chemical changes in decomposing leaves colonized by endophytes. Coccomyces nipponicum, Lophodermium sp., Geniculosporium sp. 1, and Colletotrichum gloeosporioides were isolated from living leaves. Coccomyces nipponicum and Lophodermium sp. were also isolated frequently from newly shed and decomposing leaves. These two fungi caused a decrease of lignin content and bleaching in decomposing leaves under field and laboratory conditions. Total hyphal length in decomposing leaves was higher in bleached portions than in surrounding nonbleached portions, which probably reflected the early onset of hyphal growth of endophytes inside leaf tissue at leaf senescence or death. Incubation of newly shed leaves that were sterilized to exclude previously established endophytes resulted in no occurrence of bleached portions in decomposing leaves on the forest floor. This result indicated that these endophytes were incapable of colonizing leaves directly after litterfall and that the persistence of endophytes from live leaves was crucial for their colonization in decomposing leaves.

Three new freshwater ascomycetes from rivers in Akkeshi, Hokkaido, northern Japan

Three lignicolous freshwater ascomycetes from rivers in Akkeshi, Hokkaido, northern Japan are reported. All of these are new species belonging to the Lophiostomataceae and described as Lophiostoma breviappendiculatum, Massarina clionina, and Massariosphaeria maxima. Morphological differences between each species and its similar taxa are noted. All three species have been observed to produce only ascomatal states in artificial culture.

Japanese species of Hypomyces and its anamorph III

Three new species of Hypomyces with KOH-negative subiculi occurring on the Aphyllophorales are described. Hypomyces pseudocorticiicola is characterized by a grayish-yellow to brown subiculum, fusiform ascospores, always with one septum, and its Cladobotryum-anamorph. Hypomyces laeticolor is characterized by a bright-colored subiculum, small apiculi on the ascospores, and well-developed verticillate conidiogenous cells. Hypomyces penicillatus forms a Trichothecium-like anamorph with well-developed verticils of conidiogenous cells.

Type studies of the polypores described by E.J.H. Corner from Asia and West Pacific Areas. VII. Species described in Trametes (1)

Identifications of 30 species of polypores described by Corner were made by type examinations. The following new combinations are proposed: Antrodiella depauperata, Daedalea dochmia, D. fulvirubida, D. lusor, D. pseudodochmia, Fomitella fumosipora, F. rhodophaea, Microporus internuntius, and Trichaptum brastagii. The following names are accepted in the original genus: Trametes arcana, T. barbulata, T. daedaleoides, and T. jejuna. The following species are taxonomic synonyms of already-described species: Trametes atriceps, a synonym of Trametes menziesii; T. badiuscula, a synonym of Abundisporus roseoalbus; T. biogilvoides, a synonym of Coriolopsis glabro-rigens; T. elevata, a synonym of Daedalea dochmia; T. flammula, a synonym of C. glabro-rigens; T. fulvidochmia, a synonym of D. dochmia; T. linguiformis, a synonym of Trichaptum suberosum; and T. luridochracea, a synonym of Lenzites acutus. Trametes benetosta is a synonym of Fomitella rhodophaea or its allied species. The following species are dubious because of the poor or sterile conditions of their type specimens: Trametes allantospora, T. cristobalensis, T. farinolens, T. febris, T. fuligineicana, and T. granulifera. No authentic specimens were traced for T. argenteiceps, T. benevestita, T. castaneifumosa, T. decorticans, and T. flavidinigra. Descriptions and line drawings are given for poorly known species.

Bambusicolous fungi in Japan (6): Katumotoa, a new genus of phaeosphaeriaceous ascomycetes

A new genus, Katumotoa, is established for a single species, K. bambusicola, collected from culms of Sasa kurilensis. Morphological differences between Katumotoa and some related genera are noted. Katumotoa is characterized by perithecioid ascomata, thin ascomal wall composed of small pseudoparenchymatous cells, cellular pseudoparaphyses, fissitunicate asci, and apiosporous fusiform ascospores with bipolar mucilaginous sheath. From these features, it is considered that the genus belongs to Phaeosphaeriaceae in Pleosporales.

Analysis of whole cellular fatty acids and anastomosis relationships of binucleate Rhizoctonia spp. associated with Ceratobasidium cornigerum

Previous research has demonstrated that whole cellular fatty acids analysis is a useful tool for identifying and establishing taxonomic relationships between anastomosis groups (AGs) and related Rhizoctonia isolates. In this experiment, the composition of fatty acid of 28 isolates of teleomorph genus Ceratobasidium cornigerum, consisting of binucleate Rhizoctonia, AG-A, AG-B(o), AG-C, AG-P, and AG-Q, was evaluated using gas chromatography. Eleven fatty acids identified, i.e., myristic, pentadecanoic, palmitic, 2-hydroxypalmitic, palmitoleic, heptadecanoic, 9-heptadecenoic, stearic, oleic, linoleic, and linolenic acids, were present in isolates of AG-A, AG-B(o), AG-C, AG-P, and AG-Q. The major fatty acids, palmitic, oleic, and linoleic acids, were common in all isolates, constituting 87.1% to 94.7% of the whole cellular fatty acids identified. Isolates within the same AG were closely clustered, whereas isolates from different AGs were clearly and distinctly clustered based on average linkage cluster analysis of whole cellular fatty acids. Principal-component analysis generated from all fatty acids also confirmed the divergent separation of the 5 AGs of binucleate Rhizoctonia.

A new species of the genus Laboulbenia (Laboulbeniales) on Ophionea indica (Coleoptera, Carabidae, Odacanthini) from Taiwan

Laboulbenia ophioneae is described as a new species with illustrations. It is closely related to Laboulbenia celestialis and Laboulbenia asiatica because of some similarities in the morphology of appendages and perithecia. The present species from the latter two species can be distinguished by the shorter, inflated perithecia, the shorter receptacles, and the appendages consisting of more or less darkly colored, broader branches. This new species was found on elytra of Ophionea indica from Taiwan, which has been also known as a host of Laboulbenia polymorpha. A mature thallus noticed by Terada (2004) on the slide 673b (M. Ishikawa collection) and a young thallus illustrated by Sugiyama (1978, fig. 1-G as L. polymorpha) on 673d (M. Ishikawa collection) are both identified as L. ophioneae.