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This paper is the second in a series focused on providing a stable platform for the taxonomy of phytopathogenic fungi. It focuses on 25 phytopathogenic genera: Alternaria, Bipolaris, Boeremia, Botryosphaeria, Calonectria, Coniella, Corticiaceae, Curvularia, Elsinoe, Entyloma, Erythricium, Fomitiporia, Fulviformes, Laetisaria, Limonomyces, Neofabraea, Neofusicoccum, Phaeoacremonium, Phellinotus, Phyllosticta, Plenodomus, Pseudopyricularia, Tilletia, Venturia and Waitea, using recent molecular data, up to date names and the latest taxonomic insights. For each genus a taxonomic background, diversity aspects, species identification and classification based on molecular phylogeny and recommended genetic markers are provided. In this study, varieties of the genus Boeremia have been elevated to species level. Botryosphaeria, Bipolaris, Curvularia, Neofusicoccum and Phyllosticta that were included in the One Stop Shop 1 paper are provided with updated entries, as many new species have been introduced to these genera.

This study deals with an extensive taxonomic reevaluation focusing on phylogenetic relationships and morphological characterization of Tubeufiales, especially those helicosporous hyphomycetes which are difficult to identify. Based on evidence from DNA sequence data and morphology, we introduce 13 new genera in the family Tubeufiaceae, viz. Acanthotubeufia, Dematiohelicoma, Dematiohelicomyces, Dematiohelicosporum, Dematiotubeufia, Helicoarctatus, Helicohyalinum, Helicotruncatum, Neochlamydotubeufia, Neohelicoma, Pleurohelicosporium, Pseudohelicomyces and Pseudohelicoon; transfer Chaetosphaerulina from Dothideomycetes genera incertae sedis, and Artocarpomyces and Helicodochium from Ascomycetes genera incertae sedis into Tubeufiaceae; introduce 52 new species, viz. Berkleasmium fusiforme, B. longisporum, Chlamydotubeufia cylindrica, Dematiohelicosporum guttulatum, Helicoarctatus aquaticus, Helicodochium aquaticum, Helicohyalinum infundibulum, Helicoma aquaticum, H. brunneisporum, H. cocois, H. rufum, H. fusiforme, H. longisporum, H. multiseptatum, H. rubriappendiculatum, H. septoconstrictum, H. tectonae, Helicomyces hyalosporus, Helicosporium aquaticum, H. flavisporum, H. setiferum, H. vesicarium, H. viridiflavum, Neochlamydotubeufia fusiformis, Neohelicomyces hyalosporus, Neohelicosporium acrogenisporum, N. astrictum, N. ellipsoideum, N. irregulare, N. krabiense, N. laxisporum, N. ovoideum, Pleurohelicosporium parvisporum, Pseudohelicomyces aquaticus, P. hyalosporus, Tubeufia abundata, T. bambusicola, T. brevis, T. brunnea, T. chlamydospora, T. dictyospora, T. eccentrica, T. fangchengensis, T. hechiensis, T. inaequalis, T. krabiensis, T. rubra, T. sessilis, T. sympodihylospora, T. sympodilaxispora, T. taiwanensis and T. tratensis; provide 43 new combinations, viz. Acanthohelicospora guianensis, Acanthotubeufia filiforme, Berkleasmium aquatica, B. guangxiense, B. latisporum, B. thailandicum, Dematiohelicoma perelegans, D. pulchrum, Dematiohelicomyces helicosporus, Dematiotubeufia chiangraiensis, Helicohyalinum aquaticum, Helicoma elinorae, H. gigasporum, H. hongkongense, H. linderi, H. nematosporum, H. pannosum, H. serpentinum, Helicomyces chiayiensis, Helicotruncatum palmigenum, Neochlamydotubeufia khunkornensis, Neohelicoma fagacearum, Neohelicomyces pallidus, Neohelicosporium abuense, N. aurantiellum, N. griseum, N. morganii, N. myrtacearum, N. nizamabadense, N. sympodiophorum, N. taiwanense, N. vesiculiferum, Pseudohelicomyces indicus, P. paludosus, P. talbotii, Pseudohelicoon gigantisporum, P. subglobosum, Tubeufia dentophora, T. geniculata, T. lilliputea, T. machaerinae, T. sympodiophora and T. xylophila; introduce 16 new records, viz. Dictyospora thailandica, Helicomyces colligatus, H. torquatus, Neohelicosporium guangxiense, N. hyalosporum, N. parvisporum, Thaxteriellopsis lignicola, Tubeufia aquatica, T. chiangmaiensis, T. cylindrothecia, T. filiformis, T. guangxiensis, T. laxispora, T. parvispora, T. roseohelicospora and T. tectonae. The taxonomy of Helicoma, Helicomyces and Helicosporium is revisited based on phylogenetic analyses and morphological evidence. Neorhamphoria is transferred to Bezerromycetaceae. Three species are excluded from the genus Chlamydotubeufia, twelve species from Helicoma, four species from Helicomyces, 25 species from Helicosporium, six species from Neoacanthostigma and one species from Tubeufia. A multi-gene phylogenetic tree based on maximum likelihood and Bayesian analyses of ITS, LSU, RPB2 and TEF1α sequence data of species of Tubeufiales is provided. Detailed descriptions and illustrations are provided, as well as the morphological comparison with similar taxa are explored. The checklist of accepted Tubeufiales species and re-organised Tubeufiales species are provided.

The ascomycetous families, Didymosphaeriaceae and Montagnulaceae, have been treated in Pleosporales , Dothideomycetes, and both include saprobes, endophytes and pathogens associated with a wide variety of substrates worldwide. Didymosphaeriaceae was characterized by 1-septate ascospores and trabeculate pseudoparaphyses, mainly anastomosing above the asci, while species in Montagnulaceae had 1 to multi-septate ascospores and generally cellular pseudoparaphyses. In recent treatments, Bimuria , Didymocrea , Kalmusia , Karstenula , Montagnula , Paraphaeosphaeria , Paraconiothyrium and Letendraea were placed in Montagnulaceae, while only Didymosphaeria has been placed in Didymosphaeriaceae . New morphological and molecular data from recent collections have become available and thus the understanding of the families can be improved. Based on analyses of concatenated internal transcribed spacer (ITS) with LSU, SSU and β-tubulin gene sequences, the taxonomy of the genera classified in these families are re-assessed. Our phylogenetic analyses conclude that, the recently introduced Didymosphaeria rubi-ulmifolii with Paraconiothyrium brasiliense species complex, Alloconiothyrium , Bimuria , Deniquelata , Didymocrea , Kalmusia , Karstenula , Letendraea , Montagnula , Neokalmusia , Paraconiothyrium , Paraphaeosphaeria , Phaeodothis and Tremateia, forms a robust clade named here Didymosphaeriaceae. We therefore synonymize Montagnulaceae under Didymosphaeriaceae which is the oldest name and has priority and provide a update account of the family. Didymosphaeria is represented by Didymosphaeria rubi-ulmifolii . A new genus, Neokalmusia , is introduced in the family to accommodate the bambusicolous taxa Kalmusia brevispora and K. scabrispora . This introduction is based on molecular data coupled with morphology. One new species, Paraconiothyrium magnoliae and the sexual morph of Paraconiothyrium fuckelii, is also introduced. Julella and Barria are assigned to the family based on morphological similarity with Didymosphaeriaceae. Wilmia (previously referred to the Phaeosphaeriaceae ) is synonymized under Letendraea ( Didymosphaeriaceae ). Furthermore, a new species, Letendraea cordylinicola, is introduced and placed in Didymosphaeriaceae based on phylogeny and morphology. The paraphyletic nature of Paraconiothyrium is partially resolved, but further sampling with fresh collections and molecular data of species in this genus are needed to obtain a natural classification.

The family Pleosporaceae includes numerous saprobic, opportunistic human, and plant pathogenic taxa. The classification of genera and species Pleosporaceae has been a major challenge due to the lack of a clear understanding of the importance of the morphological characters used to distinguish taxa as well as the lack of reference strains. Recent treatments concluded that Pleospora and some other genera in Pleosporaceae are likely polyphyletic. In order to establish the evolutionary relationships and to resolve the polyphyletic nature of Pleospora and allied genera, we sequenced the 18S nrDNA, 28S nrDNA, ITS, GAPDH, RPB2 and TEF1-alpha gene regions of Pleosporaceae species and phylogenetically analysed this data. Multigene phylogenies strongly support the monophyletic nature of Pleosporaceae among the other families in Pleosporale s, and the acceptance of the genera Alternaria, Bipolaris, Clathrospora, Comoclathris, Curvularia, Dactuliophora, Decorospora, Diademosa, Exserohilum, Extrawettsteinina, Gibbago, Neocamarosporium, Paradendryphiella, Platysporoides, Pleospora, Porocercospora, Pseudoyuconia and Pyrenophora. Austropleospora , Dendryphion , Edenia and Macrospora are excluded from the family based on morphology coupled with molecular data. Two novel species, Alternaria murispora in this paper and Comoclathris sedi are introduced. The sexual morph of Alternaria alternata is re-described and illustrated using modern concepts from fresh collections. The paraphyletic nature of Pleospora is resolved based on the available morpho-molecular data, but further sampling with fresh collections, reference or ex-type strains and molecular data are needed to obtain a natural classification of genera and the family.

Cordycepin is one of the most important bioactive compounds produced by species of Cordyceps sensu lato, but it is hard to produce large amounts of this substance in industrial production. In this work, single factor design, Plackett-Burman design, and central composite design were employed to establish the key factors and identify optimal culture conditions which improved cordycepin production. Using these culture conditions, a maximum production of cordycepin was 2008.48 mg/L for 700 mL working volume in the 1000 mL glass jars and total content of cordycepin reached 1405.94 mg/bottle. This method provides an effective way for increasing the cordycepin production at a large scale. The strategies used in this study could have a wide application in other fermentation processes.

Helicosporous hyphomycetes are a morphologically allied group of Tubeufiales. We introduce a new helicosporous genus, Neohelicosporium, with five new species, Neohelicosporium aquaticum, N. guangxiense, N. hyalosporum, N. parvisporum, and N. thailandicum, based on morphological and phylogenetic evidence. The RPB2 protein gene data are provided to analyze their phylogeny in Tubeufiales. Phylogenetic analyses of combined ITS, LSU, RPB2, and TEF1α sequence data from 13 new isolates of Neohelicosporium provided evidence to support the establishment of the new taxa. The morphological characters of Neohelicosporium that differentiate it from other helicosporous species are compared and discussed.

Eight hyphomycetes were collected as part of an investigation into the diversity of hyphomycetous fungi in China. Based on morphology and multi-loci (LSU, ITS, tef1α, and rpb2) phylogenetic analyses, five new taxa, including a new Aquapteridospora species A. hyalina and four novel Distoseptispora species, viz D. aquisubtropica, D. septata, D. tropica, and D. wuzhishanensis were introduced in Distoseptisporales (Sordariomycetes). Two new habitat records, viz Distoseptispora pachyconidia and D. xishuangbannaensis were firstly reported. Also provided in this study are detailed descriptions of eight new collections and a revised phylogenetic tree for the Distoseptisporales.

During a survey of microfungi associated with forest plants, four specimens related to Kirschsteiniothelia were collected from decaying wood in Guizhou, Hainan and Yunnan Provinces, China. Kirschsteiniothelia species have sexual and asexual forms. They are commonly found as saprophytes on decaying wood and have been reported as disease-causing pathogens in humans as well. In this study, we introduce three novel Kirschsteiniothelia species ( K. bulbosapicalis , K. dendryphioides and K. longirostrata ) and describe a new host record for K. atra , based on morphology and multi-gene phylogenetic analyses of a concatenated ITS, LSU and SSU rDNA sequence data. These taxa produced a dendryphiopsis- or sporidesmium-like asexual morph and detailed descriptions and micromorphological illustrations are provided. Furthermore, we provide a checklist for the accepted Kirschsteiniothelia species, including detailed host information, habitat preferences, molecular data, existing morphological type, country of origin and corresponding references.

Chaetosphaeriaceae is a genera-rich and highly diverse group of fungi with a worldwide distribution in terrestrial and aquatic habitats. Eight fresh collections of Chaetosphaeriaceae were obtained during investigations of hyaline-spored hyphomycetes in China and Thailand. Based on morphological characteristics and phylogenetic analysis of a combined LSU and ITS sequence dataset, Chaetosphaeria obovoidea, Codinaea aseptata, Codinaeella hyalina, Dictyochaeta guizhouensis and Paragaeumannomyces guttulatus were introduced as new species, Codinaea terminalis was reported as new host record, and Codinaea dwaya and Phialosporostilbe scutiformis were introduced as new collections. Phylogenetic analysis in this study revealed that Chaetosphaeria was polyphyletic. Detailed descriptions and illustrations of new taxa and identified species are provided, as well as an updated phylogenetic tree to confirm the placements of these eight new collections.

Tetraplosphaeriaceae (Pleosporales, Ascomycota) is a family with many saprobes recorded from various hosts, especially bamboo and grasses. During a taxonomic investigation of microfungi in tropical and subtropical forest regions of Guizhou, Hainan and Yunnan provinces, China, several plant samples were collected and examined for fungi. Four newly discovered species are described based on morphology and evolutionary relationships with their allies inferred from phylogenetic analyses derived from a combined dataset of LSU, ITS, SSU, and tub2 DNA sequence data. Detailed illustrations, descriptions and taxonomic notes are provided for each species. The four new species of Tetraplosphaeriaceae reported herein are Polyplosphaeria guizhouensis , Polyplosphaeria hainanensis , Pseudotetraploa yunnanensis , and Tetraploa hainanensis . A checklist of Tetraplosphaeriaceae species with available details on their ecology is also provided.