During our survey on marine-based ascomycetes of southern Thailand,fallen mangrove twigs were collected from the intertidal zones.Those specimens yielded a novel asexual morph of Jattaea(Calosphaeriaceae,Calosphaerial...During our survey on marine-based ascomycetes of southern Thailand,fallen mangrove twigs were collected from the intertidal zones.Those specimens yielded a novel asexual morph of Jattaea(Calosphaeriaceae,Calosphaeriales),Jattaea bruguierae,which is confirmed as a new species by morphological characteristics such as nature and measurements of conidia and conidiophores,as well as a multigene analysis based on combined LSU,SSU,ITS andβ-tubulin sequence data.Jattaea species are abundantly found from wood in terrestrial environments,while the asexual morphs are mostly reported from axenic cultures.Jattaea bruguierae is the first documentation of an asexual morph species from marine-habitats.展开更多
Bamboos not only provide socio-economic benefits to communities within the region,but also provide ecosystem services such as soil-water conservation,stabilization of sandy soils and restoration of soil nutrients.Bamb...Bamboos not only provide socio-economic benefits to communities within the region,but also provide ecosystem services such as soil-water conservation,stabilization of sandy soils and restoration of soil nutrients.Bambusicolous ascomycetes refer to ascomycetous fungi living on any substrate of bamboo.As the largest group of fungi on bamboo,they play a significant ecological value in species composition and the structure of the fungal community,circulation of materials and energy flow of nutritional elements.In an effort to document the bambusicolous Ascomycota found in China,we assessed all major sources of academic literature,journal papers,and the USDA database(https://nt.ars-grin.gov/fungaldatabases/fungushost/fungushost.cfm)for reports of these fungi from China.As a result,we produced a systematic and comprehensive checklist of bambusicolous Ascomycota in China.Current names of fungi,bamboo host name,bamboo substrate,details of collected localities,references and latest classification for every bambusicolous ascomycete in China are also provided.In addition,we focused on the species richness of bambusicolous Ascomycota in China with an emphasis on southwest China.展开更多
Fourty-three species of microfungi from bamboo are treated,including one new family,Occultibambusaceae,three new genera,Neoanthostomella,Occultibambusa and Seriascoma,27 new species,one renamed species and 15 redescri...Fourty-three species of microfungi from bamboo are treated,including one new family,Occultibambusaceae,three new genera,Neoanthostomella,Occultibambusa and Seriascoma,27 new species,one renamed species and 15 redescribed or re-illustrated species,and four designated reference specimens are treated in this paper,the majority of which are saprobic on dead culms.To determine species identification,separate phylogenetical analyses for each group are carried out,based on molecular data from this study and sequences downloaded from GenBank.Morphologically similar species and phylogenetically close taxa are compared and discussed.In addition a list of bambusicolous fungi published since Hyde and colleagues in 2002 is provided.展开更多
Species with relatively small,membraneous,black ascomata,with or without long necks,unitunicate,cylindrical asci with apical rings and fusiform,hyaline ascospores with or without mucilaginous sheaths are common in fre...Species with relatively small,membraneous,black ascomata,with or without long necks,unitunicate,cylindrical asci with apical rings and fusiform,hyaline ascospores with or without mucilaginous sheaths are common in freshwater habitats in tropical and temperate regions.Many of these taxa have originally been recorded as Annulatascaceae-like taxa.Twenty genera have been included in the family Annulatascaceae,mostly based on morphological characters,while molecular work and phylogenetic analyses are lacking for many genera.In this study,nine new Annulatascaceae-like taxa collected from Thailand were morphologically examined.Pure cultures obtained from single ascospores were used in molecular studies.The nine new strains and several other strains of Annulatascaceae-like Sordariomycetes species were used to establish phylogenetic and evolution relationships among the taxa,based on combined LSU,SSU,ITS and RPB2 sequence data.Phylogenetic analyses provide evidence to introduce one new order and six new families,to accommodate taxa excluded from Annulatascaceae sensu stricto.A new order Atractosporales is established based on the molecular study,including three new introduced families Conlariaceae,Pseudoproboscisporaceae and Atractosporaceae.Conlariaceae is introduced for the genus Conlarium which comprises two species,Conlarium duplumascosporun and a new Hyphomycetous asexual morph taxon Conlarium aquaticum which has subglobose or irregular,brown,clathrate,muriform conidia.Pseudoproboscisporaceae includes Pseudoproboscispora and Diluviicola,while Atractosporaceae includes the genera Rubellisphaeria and Atractospora.Barbatosphaeria,Xylomelasma and Ceratostomella form a distinct stable lineage which is introduced as a new family Barbatosphaeriaceae in Diaporthomycetidae families incertae sedis.A new family Lentomitellaceae is introduced in Diaporthomycetidae families incertae sedis,to accommodate the genus Lentomitella.Woswasiaceae is introduced to accommodate Woswasia,Xylochrysis and Cyanoannulus in Diaporthomycetidae families incertae sedis.Three new species of Fluminicola viz.F.saprophytica,F.thailandensis and F.aquatica are introduced.A new sexual morph,Dictyosporella thailandensis,is reported and Dictyosporella is excluded from Annulatascaceae and placed in Diaporthomycetidae genera incertae sedis.The first sexual morph of Sporidesmium,S.thailandense is also described.The new species Atractospora thailandensis,Diluviicola aquatica and Pseudoproboscispora thailandensis are also introduced.Platytrachelon is added to Papulosaceae based on phylogenetic analysis and morphological characters.Aquaticola,Fusoidispora and Pseudoannulatascus are excluded from Annulatascaceae and placed in Diaporthomycetidae genera incertae sedis.Mirannulata is accommodated in Sordariomycetes,genera incertae sedis.展开更多
To date there is virtually no information available concerning the fungi associated with Tectona grandis(teak)(Lamiaceae)in Thailand.In this study,samples of microfungi were collected from both asymptomatic stems and ...To date there is virtually no information available concerning the fungi associated with Tectona grandis(teak)(Lamiaceae)in Thailand.In this study,samples of microfungi were collected from both asymptomatic stems and dead wood,and symptomatic branches,stem and leaves of T.grandisfrom 27 sites in six provinces(Chiang Mai,Chiang Rai,Phayao,Phitsanulok,Phrae and Uttaradit Provinces).Morphology and combined multi-gene phylogeny(CAL,GAPDH,ITS,LSU,RPB2,SSU,TEF1 and TUB)were used to identify taxa.A total of 270 collections,representing 28 fungal species residing in 12 families,7 orders and 21 genera,with three species of uncertain taxonomic placement were identified.Of these,one family,three genera and 14 species are new to science.The new family,Pseudocoleodictyosporaceae is introduced based on its distinct lineage in the Dothideomycetes and its unique morphology as compared to Roussoellaceae and Torulaceae.The new genera are Neooccultibambusa,Pseudocoleodictyospora and Subglobosporium.The newly described species are Diaporthe neoraonikayaporum,D.tectonendophytica,D.tectonae,D.tectonigena,Hermatomyces tectonae,H.thailandica,Manoharachariella tectonae,Neooccultibambusa chiangraiensis,Pseudocoleodictyospora sukhothaiensis,Ps.tectonae,Ps.thailandica,Rhytidhysteron tectonae,Subglobosporium tectonae and Tubeufia tectonae.Fourteen species are known published taxa including Alternaria tillandsiae,Berkleasmium talaumae,Boerlagiomyces macrospora,Ceratocladium purpureogriseum,Fusarium solani,Helicoma siamense,Lasiodiplodia theobromae,Macrovalsaria megalospora,Paradictyoarthrinium diffractum,Phaeoacremonium italicum,Sphaeropsis eucalypticola,Stachybotrys levispora,St.renispora and Thaxteriellopsis lignicola.Epitypifications or reference specimens are designated for Boerlagiomyces macrospora and Macrovalsaria megalospora.Macrovalsaria megalospora is transferred from Botryosphaeriaceae to Dothideomycetes genus,incertae sedis based on taxonomy and phylogenetic analysis,which indicate it is distinct from Botryosphaeriaceae.All fungal species represent first reports on T.grandisin Thailand.New taxa and taxa incertae sedis,as well as known taxa which are established as reference specimens or epitypes,are presented with phylogenetic tree analyses,habitat,known distribution,material examined,full descriptions,notes and figures.Information is also provided for known taxa to add to the body of knowledge and to assist those wishing to study fungi occurring on T.grandis in future.展开更多
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 ide...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,Heli-cohyalinum,Helicotruncatum,Neochlamydotubeufia,Neohelicoma,Pleurohelicosporium,Pseudohelicomyces and Pseu-dohelicoon;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,Neochlamydo-tubeufia 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 eli-norae,H.gigasporum,H.hongkongense,H.linderi,H.nematosporum,H.pannosum,H.serpentinum,Helicomyces chiayiensis,Helicotruncatum palmigenum,Neochlamydotubeufia khunkornensis,Neohelicoma fagacearum,Neoheli-comyces pallidus,Neohelicosporium abuense,N.aurantiellum,N.griseum,N.morganii,N.myrtacearum,N.nizam-abadense,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.ectonae.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 TEF1a 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.展开更多
During a north–south latitudinal survey of aquatic fungi on submerged wood and herbaceous material in streams in the Asian region,we collected several hyphomycetous taxa.This paper is part of a series where we provid...During a north–south latitudinal survey of aquatic fungi on submerged wood and herbaceous material in streams in the Asian region,we collected several hyphomycetous taxa.This paper is part of a series where we provide illustrated accounts of these taxa and place them in a natural classification in the fungi.DNA sequence based phylogenies in recent literature have shown that Dendryphion,Sporidesmium and Torula-like species are polyphyletic in the phylum Ascomycota and their taxonomyhas been problematic due to a lack of understanding of the importance of morphological characters used to delimit taxa,as well as the lack of ex-type or reference strains.Based on multi-locus phylogenies together with morphology,we propose the novel family Distoseptisporaceae(Sordariomycetes)and three novel genera Neotorula(Pleosporales,Dothideomycetes),Distoseptispora(Sordariomycetes)and Pseudosporidesmium(Sordariomycetes).In addition,Dendryphion aquaticum,D.submersum,Distoseptispora fluminicola,D.aquatica,Kirschsteiniothelia submersa,Neotorula aquatica,Sporidesmium aquaticum,S.submersum and S.fluminicola are introduced as new species.Pseudosporidesmium knawiae comb.nov.is proposed to accommodate Sporidesmium knawiae in Sordariomycetes.The polyphyletic nature of Dendryphion,Sporidesmium and Torula-like species are partially resolved,but further sampling with fresh collections and molecular data of species are needed to obtain a natural classification.展开更多
Astrosphaeriella sensu lato is a common genus occurring on bamboo,palms and stout grasses.Species of Astrosphaeriella have been collected from various countries in tropical,subtropical or temperate regions.In Asia,spe...Astrosphaeriella sensu lato is a common genus occurring on bamboo,palms and stout grasses.Species of Astrosphaeriella have been collected from various countries in tropical,subtropical or temperate regions.In Asia,species have been collected in Brunei,China,Indonesia,Japan,Philippines and Vietnam.There have been several morphological studies on Astrosphaeriella,but molecular work and phylogenetic analyses are generally lacking.Taxa included in Astrosphaeriella were characterized in three main groups 1)typical Astrosphaeriella species(sensu stricto)having carbonaceous,erumpent,conical ascostromata 2)atypical Astrosphaeriella species(sensu lato)having immersed,coriaceous ascostromata with short to long papilla and 3)lophiostoma-like species having immersed ascostromata with slit-like openings.Some of the latter Astrosphaeriella species,having slit-like openings,have been transferred to Fissuroma and Rimora in Aigialaceae.In this study five type specimens of Astrosphaeriella were loaned from herbaria worldwide and re-examined and are re-described and illustrated.Collections of Astrosphaeriella were also made in Thailand and morphologically examined.Pure cultures were obtained from single spores and used in molecular studies.The asexual morph was induced on sterile bamboo pieces placed on water agar.Phylogenetic analyses of combined LSU,SSU and TEF1 sequence data of astrosphaeriella-like species using Bayesian,Maximum parsimony(MP)and Randomized Accelerated Maximum Likelihood(RAxML)analyses were carried out.Phylogenetic analyses show that species of Astrosphaeriella can be distinguished in at least three families.Species of Astrosphaeriella sensu stricto with erumpent,carbonaceous ascostromata,form a strongly supported clade with Pteridiospora species and a new family,Astrosphaeriellaceae,is introduced to accommodate these taxa.The genera are revised and Astrosphaeriella bambusae,A.neofusispora,A.neostellata,A.thailandica,A.thysanolaenae and Pteridiospora chiangraiensis are introduced as new species.Astrosphaeriella exorrhiza is reported on a dead stem of Thysanolaena maxima and is the first record for Thailand.Reference specimens for A.fusispora and A.tornata are designated to stabilize the taxonomy of Astrosphaeriella.The coelomycetous asexual morph of A.bambusae is reported and forms hyaline,globose to subglobose,aseptate conidia.Species of Astrosphaeriella sensu lato with immersed,coriaceous ascostromata,with short to long papilla and striate ascospores,form a sister clade with Tetraplosphaeriaceae.The genus Pseudoastrosphaeriella is introduced to accommodate some of these taxa with three new species and three new combinations,viz.P.aequatoriensis,P.africana,P.bambusae,P.longicolla,P.papillata and P.thailandensis.A new family Pseudoastrosphaeriellaceae is introduced to accommodate this presently monotypic lineage comprising Pseudoastrosphaeriella.The asexual morph of P.thailandensis is described.Astrosphaeriella bakeriana forms a distinct clade basal to Aigialaceae.Astrosphaeriella bakeriana is excluded from Astrosphaeriella and a new genus Astrosphaeriellopsis,placed in Dothideomycetes genera incertae sedis,is introduced to accommodate this taxon.Fissuroma aggregata(Aigialaceae)is re-visited and is shown to be a cryptic species.Three new species of Fissuroma and a new combination are introduced based on morphology and phylogeny viz.F.bambusae,F.fissuristoma,F.neoaggregata and F.thailandicum.The asexual morph of Fissuroma bambusae is also reported.展开更多
Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi characterized mainly by perithecial ascomata and inoperculate unitunicate asci.The class includes many importa...Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi characterized mainly by perithecial ascomata and inoperculate unitunicate asci.The class includes many important plant pathogens,as well as endophytes,saprobes,epiphytes,coprophilous and fungicolous,lichenized or lichenicolous taxa.They occur in terrestrial,freshwater and marine habitats worldwide.This paper reviews the 107 families of the class Sordariomycetes and provides a modified backbone tree based on phylogenetic analysis of four combined loci,with a maximum five representative taxa from each family,where available.This paper brings together for the first time,since Barrs’1990 Prodromus,descriptions,notes on the history,and plates or illustrations of type or representative taxa of each family,a list of accepted genera,including asexual genera and a key to these taxa of Sordariomycetes.Delineation of taxa is supported where possible by molecular data.The outline is based on literature to the end of 2015 and the Sordariomycetes now comprises six subclasses,32 orders,105 families and 1331 genera.The family Obryzaceae and Pleurotremataceae are excluded from the class.展开更多
Tamarix species are small trees that grow in various natural habitats and have a wide geographic distribution.Microfungal species previously found on Tamarix and recently collected in Italy and Russia were identified ...Tamarix species are small trees that grow in various natural habitats and have a wide geographic distribution.Microfungal species previously found on Tamarix and recently collected in Italy and Russia were identified based on morphological characters and analyses of gene sequence data.The sexual morph of the coelomycetous genus Homortomyces was collected for the first time and is described and illustrated.A new family,Homortomycetaceae(Dothideomycetes,families incertae sedis)is introduced to accommodate Homortomyces.Two new genera Neomicrosphaeropsis(Didymellaceae)and Tamaricicola(Pleosporaceae)are introduced in this paper.Phoma tamaricicola was recollected and is placed in Neomicrosphaeropsis based on morphology and molecular data.Ten new species,Cytospora italica,C.unilocularis,Diaporthe ravennica,Eutypella tamaricis,Neomicrosphaeropsis italica,N.novorossica,N.rossica,Keissleriella tamaricicola,Paracamarosporium tamaricis and Tamaricicola muriformis are introduced,while Alternaria tenuissima,Dothiorella sarmentorum,Neofusicoccum luteum,Paraepicoccum amazonense,Pleospora herbarum and Pseudocamarosporium propinquum are reported for the first time on Tamarix spp.with descriptions and illustrations.Multi-gene analyses show that Paraepicoccum amazonense should be placed in Pleosporineae,Pleosporales,where it is closely related to Camarosporium sensu stricto.Several herbarium specimens were studied to illustrate other fungal species recorded on Tamarix species.A comprehensive account of microfungi on Tamarix is provided,which includes a list with data from the literature,as well as those identified in the present study.The taxonomic placement of most taxa discussed in this study is based on a modern taxonomic framework based on analysis of multi-gene sequence data.展开更多
This paper provides illustrated descriptions of micro-fungi newly found on Pandanaceae in China and Thailand.The fungi are accommodated in 31 families.New taxa described include a new family,seven new genera,65 new sp...This paper provides illustrated descriptions of micro-fungi newly found on Pandanaceae in China and Thailand.The fungi are accommodated in 31 families.New taxa described include a new family,seven new genera,65 new species,16 previously known species.A new family:Malaysiascaceae(Glomerellales).New genera are Acremoniisimulans(Plec-tosphaerellaceae),Pandanaceomyces,Pseudoachroiostachy(Nectriaceae),Pseudohyaloseta(Niessliaceae),Pseudoor-natispora(Stachybotriaceae)and Yunnanomyces(Sympoventuriaceae).New species are Acremoniisimulans thailandensis,Beltrania krabiensis,Beltraniella pandanicola,B.thailandicus,Canalisporium krabiense,C.thailandensis,Clonostachys krabiensis,Curvularia chonburiensis,C.pandanicola,C.thailandicum,C.xishuangbannaensis,Cylindrocladiella xishuangbannaensis,Dictyochaeta pandanicola,Dictyocheirospora nabanheensis,D.pandanicola,D.xishuangbannaen-sis,Dictyosporium appendiculatum,Di.guttulatum,Di.hongkongensis,Di.krabiense,Di.pandanicola,Distoseptispora thailandica,D.xishuangbannaensis,Helicoma freycinetiae,Hermatomyces biconisporus,Lasiodiplodia chonburiensis,L.pandanicola,Lasionectria krabiense,Menisporopsis pandanicola,Montagnula krabiensis,Musicillium pandanicola,Neofusicoccum pandanicola,Neohelicomyces pandanicola,Neooccultibambusa thailandensis,Neopestalotiopsis chiang-maiensis,N.pandanicola,N.phangngaensis,Pandanaceomyces krabiensis,Paracylindrocarpon nabanheensis,P.pan-danicola,P.xishuangbannaensis,Parasarcopodium hongkongensis,Pestalotiopsis krabiensis,P.pandanicola,Polyplosphaeria nabanheensis,P.pandanicola,P.xishuangbannaensis,Pseudoachroiostachys krabiense,Pseu-doberkleasmium pandanicola,Pseudochaetosphaeronema pandanicola,Pseudohyaloseta pandanicola,Pseudoornatispora krabiense,Pseudopithomyces pandanicola,Rostriconidium pandanicola,Sirastachys phangngaensis,Stictis pandanicola,Terriera pandanicola,Thozetella pandanicola,Tubeufia freycinetiae,T.parvispora,T.pandanicola,Vermiculariopsiella hongkongensis,Volutella krabiense,V.thailandensis and Yunnanomyces pandanicola.Previous studies of micro-fungi on Pandanaceae have not included phylogenetic support.Inspiration for this study came from the book Fungi Associated with Pandanaceae by Whitton,McKenzie and Hyde in 2012.Both studies reveal that the micro-fungi on Pandanaceae is particularly rich in hyphomycetes.All data presented herein are based on morphological examination of specimens,coupled with phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolu-tionary relationships.展开更多
The classification of subclass Xylariomycetidae is revisited with additional collections and phylogeny based on novel rDNA sequence data.Phylogenetic inferences are provided and are based on analysis of 115 sequence d...The classification of subclass Xylariomycetidae is revisited with additional collections and phylogeny based on novel rDNA sequence data.Phylogenetic inferences are provided and are based on analysis of 115 sequence data,including new data for 27 strains.An updated outline to the subclass is presented based on the phylogenies and comprises two orders,18 families and 222 genera.An account of each order,family and genus in the subclass is given.We accept the orders Amphisphaeriales and Xylariales based on morphological and phylogenetic evidence.Amphisphaeriales comprises Amphisphaeriaceae,Bartaliniaceae fam.nov.,Clypeosphaeriaceae,Discosiaceae fam.nov.,Pestalotiopsidaceae fam.nov.and Phlogicylindriaceae fam.nov.Xylariales comprises Apiosporaceae,Cainiaceae,Coniocessiaceae,Diatrypaceae,Graphostromataceae(doubtful),Hyponectriaceae,Iodosphaeriaceae,Lopadostomaceae fam.nov.,Melogrammataceae,Pseudomassariaceae fam.nov.,Vialaeaceae and Xylariaceae.The new genera and species introduced are Arthrinium hyphopodii,A.subglobosa,Cainia anthoxanthis,Ciferriascosea gen.nov.,C.fluctamurum,C.rectamurum,Discosia neofraxinea,D.pseudopleurochaeta,Hyalotiella rubi,Seimatosporium cornii,S.ficeae,S.vitis and Truncatella spartii.展开更多
Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi mainly characterized by perithecial ascomata and inoperculate unitunicate asci.Freshwater Sordariomycetes play...Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi mainly characterized by perithecial ascomata and inoperculate unitunicate asci.Freshwater Sordariomycetes play an important role in ecosystems and some of them have the potential to produce bioactive compounds.This study documents and reviews the freshwater Sordariomycetes,which is one of the largest and important groups of fungi in aquatic habitats.Based on evidence from DNA sequence data and morphology,we introduce a new order Distoseptisporales,two new families,viz.Ceratosphaeriaceae and Triadelphiaceae,three new genera,viz.Aquafiliformis,Dematiosporium and Neospadicoides,47 new species,viz.Acrodictys fluminicola,Aquafiliformis lignicola,Aquapteridospora fusiformis,Arthrinium aquaticum,Ascosacculus fusiformis,Atractospora aquatica,Barbatosphaeria lignicola,Ceratosphaeria aquatica,C.lignicola,Chaetosphaeria aquatica,Ch.catenulata,Ch.guttulata,Ch.submersa,Codinaea yunnanensis,Conioscypha aquatica,C.submersa,Cordana aquatica,C.lignicola,Cosmospora aquatica,Cylindrotrichum submersum,Dematiosporium aquaticum,Dictyochaeta cangshanensis,D.ellipsoidea,D.lignicola,D.submersa,Distoseptispora appendiculata,D.lignicola,D.neorostrata,D.obclavata,Hypoxylon lignicola,Lepteutypa aquatica,Myrmecridium aquaticum,Neospadicoides aquatica,N.lignicola,N.yunnanensis,Ophioceras submersum,Peroneutypa lignicola,Phaeoisaria filiformis,Pseudostanjehughesia lignicola,Rhodoveronaea aquatica,Seiridium aquaticum,Sporidesmiella aquatica,Sporidesmium lageniforme,S.lignicola,Tainosphaeria lunata,T.obclavata,Wongia aquatica,two new combinations,viz.Acrodictys aquatica,Cylindrotrichum aquaticum,and 9 new records,viz.Chaetomium globosum,Chaetosphaeria cubensis,Ch.myriocarpa,Cordana abramovii,Co.terrestris,Cuspidatispora xiphiago,Sporidesmiella hyalosperma,Stachybotrys chartarum,S.chlorohalonata.A comprehensive classification of the freshwater Sordariomycetes is presented based on updated literature.Phylogenetic inferences based on DNA sequence analyses of a combined LSU,SSU,RPB2 and TEF1a dataset comprising species of freshwater Sordariomycetes are provided.Detailed information including their habitats distribution,diversity,holotype,specimens collected and classification are provided.展开更多
The family Melanommataceae is widespread in temperate and subtropical regions and species invariably occur on twigs or bark of various woody plants in terrestrial,marine or freshwater habitats.In this paper,the type s...The family Melanommataceae is widespread in temperate and subtropical regions and species invariably occur on twigs or bark of various woody plants in terrestrial,marine or freshwater habitats.In this paper,the type species of 26 genera of the family are re-described and illustrated.A multi-gene phylogeny based on maximum likelihood and Bayesian analyses of LSU,SSU,RPB2 and EF-1αsequence data of species of Melanommataceae is provided.The new genera,Muriformistrickeria,Pseudostrickeria and Thysanolaenae are introduced.Anomalemma is synonymized under Exosporiella.Acrocordiopsis,Astrosphaeriella,Beverwykella,Caryosporella,Sporidesmiella and Pseudotrichia are excluded from Melanommataceae based on molecular phylogenetic analyses.Presently,20 genera are accepted in Melanommataceae.Based on the phylogenetic data,five new species,Byssosphaeria siamensis,Herpotrichia vaginatispora,Pseudostrickeria muriformis,Pseudostrickeria ononidis and Muriformistrickeria rubi,are introduced.展开更多
Dictyosporiaceae fam.nov.is introduced to accommodate a holomorphic group of Dothideomycetes that are saprobes on decaying wood and plant debris in terrestrial and freshwater habitats.The sexual morph comprises Dictyo...Dictyosporiaceae fam.nov.is introduced to accommodate a holomorphic group of Dothideomycetes that are saprobes on decaying wood and plant debris in terrestrial and freshwater habitats.The sexual morph comprises Dictyosporium meiosporum,D.sexualis,Gregarithecium curvisporum,Pseudocoleophoma calamagrostidis and P.polygonicola.The sexual morphs are characterized by immersed to erumpent,superficial,globose to subglobose,dark brown to black ascomata,bitunicate asci,and septate,hyaline,sheathed ascospores.The asexual morphs are hyphomycetous with brown,multi-septate,cheirosporous conidia,produced from holoblastic conidiogenous cells,on micronematous conidiophores.Phylogenetic analyses of LSU,SSU and TEF1 sequence data place the genera with cheirospores in a monophyletic clade in the order Pleosporales.Phylogenetic analyses based on ITS sequence data show the family to comprise 44 distinct lineages that correspond to ten genera and an undetermined genus.Four new genera Dictyocheirospora,Dictyopalmispora,Jalapriya and Vikalpa,and eight new species Dictyocheirospora bannica,D.rotunda,D.vinaya,Dictyopalmispora palmae,Dictyosporium olivaceosporum,D.sexualis,Jalapriya pulchra,and Vikalpa lignicola,are introduced in the family.展开更多
The cosmopolitan plant genus Clematis contains many climbing species that can be found worldwide.The genus occurs in the wild and is grown commercially for horticulture.Microfungi on Clematis were collected from Belgi...The cosmopolitan plant genus Clematis contains many climbing species that can be found worldwide.The genus occurs in the wild and is grown commercially for horticulture.Microfungi on Clematis were collected from Belgium,China,Italy,Thailand and the UK.They are characterized by morphology and analyses of gene sequence data using an integrated species concept to validate identifications.The study revealed two new families,12 new genera,50 new species,26 new host records with one dimorphic character report,and ten species are transferred to other genera.The new families revealed by multigene phylogeny are Longiostiolaceae and Pseudomassarinaceae in Pleosporales(Dothideomycetes).New genera are Anthodidymella(Didymellaceae),Anthosulcatispora and Parasulcatispora(Sulcatisporaceae),Fusiformispora(Amniculicolaceae),Longispora(Phaeosphaeriaceae),Neobyssosphaeria(Melanommataceae),Neoleptosporella(Chaetosphaeriales,genera incertae sedis),Neostictis(Stictidaceae),Pseudohelminthosporium(Neomassarinaceae),Pseudomassarina(Pseudomassarinaceae),Sclerenchymomyces(Leptosphaeriaceae)and Xenoplectosphaerella(Plectosphaerellaceae).The newly described species are Alloleptosphaeria clematidis,Anthodidymella ranunculacearum,Anthosulcatispora subglobosa,Aquadictyospora clematidis,Brunneofusispora clematidis,Chaetosphaeronema clematidicola,C.clematidis,Chromolaenicola clematidis,Diaporthe clematidina,Dictyocheirospora clematidis,Distoseptispora clematidis,Floricola clematidis,Fusiformispora clematidis,Hermatomyces clematidis,Leptospora clematidis,Longispora clematidis,Massariosphaeria clematidis,Melomastia clematidis,M.fulvicomae,Neobyssosphaeria clematidis,Neoleptosporella clematidis,Neoroussoella clematidis,N.fulvicomae,Neostictis nigricans,Neovaginatispora clematidis,Parasulcatispora clematidis,Parathyridaria clematidis,P.serratifoliae,P.virginianae,Periconia verrucose,Phomatospora uniseriata,Pleopunctum clematidis,Pseudocapulatispora clematidis,Pseudocoleophoma clematidis,Pseudohelminthosporium clematidis,Pseudolophiostoma chiangraiense,P.clematidis,Pseudomassarina clematidis,Ramusculicola clematidis,Sarocladium clematidis,Sclerenchymomyces clematidis,Sigarispora clematidicola,S.clematidis,S.montanae,Sordaria clematidis,Stemphylium clematidis,Wojnowiciella clematidis,Xenodidymella clematidis,Xenomassariosphaeria clematidis and Xenoplectosphaerella clematidis.The following fungi are recorded on Clematis species for the first time:Angustimassarina rosarum,Dendryphion europaeum,Dermatiopleospora mariae,Diaporthe ravennica,D.rudis,Dichotomopilus ramosissimum,Dictyocheirospora xishuangbannaensis,Didymosphaeria rubi-ulmifolii,Fitzroyomyces cyperacearum,Fusarium celtidicola,Leptospora thailandica,Memnoniella oblongispora,Neodidymelliopsis longicolla,Neoeutypella baoshanensis,Neoroussoella heveae,Nigrograna chromolaenae,N.obliqua,Pestalotiopsis verruculosa,Pseudoberkleasmium chiangmaiense,Pseudoophiobolus rosae,Pseudoroussoella chromolaenae,P.elaeicola,Ramusculicola thailandica,Stemphylium vesicarium and Torula chromolaenae.The new combinations are Anthodidymella clematidis(≡Didymella clematidis),A.vitalbina(≡Didymella vitalbina),Anthosulcatispora brunnea(≡Neobambusicola brunnea),Fuscohypha kunmingensis(≡Plectosphaerella kunmingensis),Magnibotryascoma rubriostiolata(≡Teichospora rubriostiolata),Pararoussoella mangrovei(≡Roussoella mangrovei),Pseudoneoconiothyrium euonymi(≡Roussoella euonymi),Sclerenchymomyces jonesii(≡Neoleptosphaeria jonesii),Stemphylium rosae(≡Pleospora rosae),and S.rosae-caninae(≡Pleospora rosae-caninae).The microfungi on Clematis is distributed in several classes of Ascomycota.The analyses are based on morphological examination of specimens,coupled with phylogenetic sequence data.To the best of our knowledge,the consolidated species concept approach is recommended in validating species.展开更多
t Coelomycetous fungi are an artificial taxonomic group which produce conidia inside a cavity i.e.conidiomata.Coelomycetes comprise about,1000 genera and 7000 species,which can be endophytic,pathogenic or saprobic.Tra...t Coelomycetous fungi are an artificial taxonomic group which produce conidia inside a cavity i.e.conidiomata.Coelomycetes comprise about,1000 genera and 7000 species,which can be endophytic,pathogenic or saprobic.Traditional classification of coelomycetes was previously based on morphology,such as the shape of conidiomata and mode of conidiogenesis,while it was treated as a distinct group i.e.Deuteromycotina.Sequence based taxonomic studies has been used to accommodate asexual fungi in a natural classification system,resolve generic boundaries of polyphyletic genera and species complexes,as well as establish asexual-sexual links.Nevertheless,most of genera lack sequence data,thus,morphology based identification is still important when introducing new genera or species.In this paper we illustrate,describe,and provide taxonomic notes for 235 dematiaceous coelomycetous genera,including five new genera viz.Apiculospora,Didymellocamarosporium,Melanocamarosporium,Melnikia and Paulkirkia.Phylogenetic analyses of combined sequence data are provided to show placements of dematiaceous coelomycetes in Dothideomycetes,Leotiomycetes and Sordariomycetes.One-hundred and fifty-two(65%)of genera have sequence data,thus,their taxonomic placement in a natural classification system,is listed as an outline.However,83 genera still lack sequence data,hence,they are treated as Ascomycota,genera incertae sedis.In addition,separate analyses are provided where better taxonomic resolution is needed.展开更多
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...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.展开更多
Taxonomic names are key links between various databases that store information on different organisms.Several global fungal nomenclural and taxonomic databases(notably Index Fungorum,Species Fungorum and MycoBank)can ...Taxonomic names are key links between various databases that store information on different organisms.Several global fungal nomenclural and taxonomic databases(notably Index Fungorum,Species Fungorum and MycoBank)can be sourced to find taxonomic details about fungi,while DNA sequence data can be sourced from NCBI,EBI and UNITE databases.Although the sequence data may be linked to a name,the quality of the metadata is variable and generally there is no corresponding link to images,descriptions or herbarium material.There is generally no way to establish the accuracy of the names in these genomic databases,other than whether the submission is from a reputable source.To tackle this problem,a new database(FacesofFungi),accessible at www.facesoffungi.org(FoF)has been established.This fungal database allows deposition of taxonomic data,phenotypic details and other useful data,which will enhance our current taxonomic understanding and ultimately enable mycologists to gain better and updated insights into the current fungal classification system.In addition,the database will also allow access to comprehensive metadata including descriptions of voucher and type specimens.This database is user-friendly,providing links and easy access between taxonomic ranks,with the classification system based primarily on molecular data(from the literature and via updated web-based phylogenetic trees),and to a lesser extent on morphological data when molecular data are unavailable.In FoF species are not only linked to the closest phylogenetic representatives,but also relevant data is provided,wherever available,on various applied aspects,such as ecological,industrial,quarantine and chemical uses.The data include the three main fungal groups(Ascomycota,Basidiomycota,Basal fungi)and fungus-like organisms.The FoF webpage is an output funded by the Mushroom Research Foundation which is an NGO with seven directors with mycological expertise.The webpage has 76 curators,and with the help of these specialists,FoF will provide an updated natural classification of the fungi,with illustrated accounts of species linked to molecular data.The present paper introduces the FoF database to the scientific community and briefly reviews some of the problems associated with classification and identification of the main fungal groups.The structure and use of the database is then explained.We would like to invite all mycologists to contribute to these web pages.展开更多
Dothideomycetes comprise a highly diverse range of fungi characterized mainly by asci with two wall layers(bitunicate asci)and often with fissitunicate dehiscence.Many species are saprobes,with many asexual states com...Dothideomycetes comprise a highly diverse range of fungi characterized mainly by asci with two wall layers(bitunicate asci)and often with fissitunicate dehiscence.Many species are saprobes,with many asexual states comprising important plant pathogens.They are also endophytes,epiphytes,fungicolous,lichenized,or lichenicolous fungi.They occur in terrestrial,freshwater and marine habitats in almost every part of the world.We accept 105 families in Dothideomycetes with the new families Anteagloniaceae,Bambusicolaceae,Biatriosporaceae,Lichenoconiaceae,Muyocopronaceae,Paranectriellaceae,Roussoellaceae,Salsugineaceae,Seynesiopeltidaceae and Thyridariaceae introduced in this paper.Each family is provided with a description and notes,including asexual and asexual states,and if more than one genus is included,the type genus is also characterized.Each family is provided with at least one figure-plate,usually illustrating the type genus,a list of accepted genera,including asexual genera,and a key to these genera.A phylogenetic tree based on four gene combined analysis add support for 64 of the families and 22 orders,including the novel orders,Dyfrolomycetales,Lichenoconiales,Lichenotheliales,Monoblastiales,Natipusillales,Phaeotrichales and Strigulales.The paper is expected to provide a working document on Dothideomycetes which can be modified as new data comes to light.It is hoped that by illustrating types we provide stimulation and interest so that more work is carried out in this remarkable group of fungi.展开更多
基金National Research Council of Thailand(NRCT)for a grant entitled Diseases of mangrove trees and maintenance of good forestry practice(Grant number:60201000201)Thailand Research Fund(TRF)grant no MRG6080089.
文摘During our survey on marine-based ascomycetes of southern Thailand,fallen mangrove twigs were collected from the intertidal zones.Those specimens yielded a novel asexual morph of Jattaea(Calosphaeriaceae,Calosphaeriales),Jattaea bruguierae,which is confirmed as a new species by morphological characteristics such as nature and measurements of conidia and conidiophores,as well as a multigene analysis based on combined LSU,SSU,ITS andβ-tubulin sequence data.Jattaea species are abundantly found from wood in terrestrial environments,while the asexual morphs are mostly reported from axenic cultures.Jattaea bruguierae is the first documentation of an asexual morph species from marine-habitats.
文摘Bamboos not only provide socio-economic benefits to communities within the region,but also provide ecosystem services such as soil-water conservation,stabilization of sandy soils and restoration of soil nutrients.Bambusicolous ascomycetes refer to ascomycetous fungi living on any substrate of bamboo.As the largest group of fungi on bamboo,they play a significant ecological value in species composition and the structure of the fungal community,circulation of materials and energy flow of nutritional elements.In an effort to document the bambusicolous Ascomycota found in China,we assessed all major sources of academic literature,journal papers,and the USDA database(https://nt.ars-grin.gov/fungaldatabases/fungushost/fungushost.cfm)for reports of these fungi from China.As a result,we produced a systematic and comprehensive checklist of bambusicolous Ascomycota in China.Current names of fungi,bamboo host name,bamboo substrate,details of collected localities,references and latest classification for every bambusicolous ascomycete in China are also provided.In addition,we focused on the species richness of bambusicolous Ascomycota in China with an emphasis on southwest China.
基金supported by the Key Laboratory of Yunnan Province Universities of the Diversity and Ecological Adaptive Evolution for Animals and plants on YunGui Plateau.Dong Qin Dai,Nalin N.Wijayawardene and Wen Jing Li thank to Mushroom Research Foundation(MRF),Chiang Rai Province,Thailand for providing Postgraduate Scholarships.Mae Fah Luang University,Chiang Rai Province,Thailand is acknowledged for the financial support to Dong Qin Dai.Kevin D.Hyde is grateful to the Chinese Academy of Sciences,project number 2013T2S0030the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany,research grant from the Biodiversity Research and Training Program(BRT R253012)+5 种基金The Thailand Research Fund(BRG 5280002)We would like to thank Jun Bo Yang,Germplasm Bank of Wild Species in Southwest China,Kunming Institute of Botany,Chinese Academy of Science,Kunming 650201,Yunnan,ChinaMolecular Biology Center in Germplasm Bank of Wild Species,for the help of molecular workRungtiwa Phookamsak expresses sincere appreciations to The Royal Golden Jubilee Ph.D.Program(PHD/0090/2551)underThailand Research Fund for financial support.Dong Qin Dai is grateful to Alan J.L.PhillipsEric H.C.McKenzie for their valuable suggestions.
文摘Fourty-three species of microfungi from bamboo are treated,including one new family,Occultibambusaceae,three new genera,Neoanthostomella,Occultibambusa and Seriascoma,27 new species,one renamed species and 15 redescribed or re-illustrated species,and four designated reference specimens are treated in this paper,the majority of which are saprobic on dead culms.To determine species identification,separate phylogenetical analyses for each group are carried out,based on molecular data from this study and sequences downloaded from GenBank.Morphologically similar species and phylogenetically close taxa are compared and discussed.In addition a list of bambusicolous fungi published since Hyde and colleagues in 2002 is provided.
基金supported by National Natural Science Foundation of China(Project ID:NSF 31500017 to Huang Zhang)Scientific Foundation of Kunming University of Science and Technology(Project ID:14118899 to Huang Zhang)Thanks are extended to Saranyaphat Boonmee for their assistance in microscope use.
文摘Species with relatively small,membraneous,black ascomata,with or without long necks,unitunicate,cylindrical asci with apical rings and fusiform,hyaline ascospores with or without mucilaginous sheaths are common in freshwater habitats in tropical and temperate regions.Many of these taxa have originally been recorded as Annulatascaceae-like taxa.Twenty genera have been included in the family Annulatascaceae,mostly based on morphological characters,while molecular work and phylogenetic analyses are lacking for many genera.In this study,nine new Annulatascaceae-like taxa collected from Thailand were morphologically examined.Pure cultures obtained from single ascospores were used in molecular studies.The nine new strains and several other strains of Annulatascaceae-like Sordariomycetes species were used to establish phylogenetic and evolution relationships among the taxa,based on combined LSU,SSU,ITS and RPB2 sequence data.Phylogenetic analyses provide evidence to introduce one new order and six new families,to accommodate taxa excluded from Annulatascaceae sensu stricto.A new order Atractosporales is established based on the molecular study,including three new introduced families Conlariaceae,Pseudoproboscisporaceae and Atractosporaceae.Conlariaceae is introduced for the genus Conlarium which comprises two species,Conlarium duplumascosporun and a new Hyphomycetous asexual morph taxon Conlarium aquaticum which has subglobose or irregular,brown,clathrate,muriform conidia.Pseudoproboscisporaceae includes Pseudoproboscispora and Diluviicola,while Atractosporaceae includes the genera Rubellisphaeria and Atractospora.Barbatosphaeria,Xylomelasma and Ceratostomella form a distinct stable lineage which is introduced as a new family Barbatosphaeriaceae in Diaporthomycetidae families incertae sedis.A new family Lentomitellaceae is introduced in Diaporthomycetidae families incertae sedis,to accommodate the genus Lentomitella.Woswasiaceae is introduced to accommodate Woswasia,Xylochrysis and Cyanoannulus in Diaporthomycetidae families incertae sedis.Three new species of Fluminicola viz.F.saprophytica,F.thailandensis and F.aquatica are introduced.A new sexual morph,Dictyosporella thailandensis,is reported and Dictyosporella is excluded from Annulatascaceae and placed in Diaporthomycetidae genera incertae sedis.The first sexual morph of Sporidesmium,S.thailandense is also described.The new species Atractospora thailandensis,Diluviicola aquatica and Pseudoproboscispora thailandensis are also introduced.Platytrachelon is added to Papulosaceae based on phylogenetic analysis and morphological characters.Aquaticola,Fusoidispora and Pseudoannulatascus are excluded from Annulatascaceae and placed in Diaporthomycetidae genera incertae sedis.Mirannulata is accommodated in Sordariomycetes,genera incertae sedis.
基金supported by the Thailand Research Fund through the Royal Golden Jubilee Ph.D.Program grant(No.Ph.D./0072/2553 in 4.S.M.F./53/A.2)Mae Fah Luang University(grant for study Dothideomycetes No.56101020032)+2 种基金also thanked for funding laboratory workWe gratefully thank the Molecular Biology Center in Germplasm Bank of Wild Species,Kunming Institute of Botany,China and the Tree Pathology Cooperative Programme(TPCP),Forestry and Agricultural Biotechnology Institute,University of Pretoria,and the National Research Foundation(NRF)of South Africa for funding to undertake the molecular work.Mingkwan Doilom is grateful to Miss Haswipa Maimon who is a technician of Scientific&Technological Instruments Center at Mae Fah Luang University for helping to carry out the Scanning Electron Microscopy(SEM),Kasun Thambugala(Mae Fah Luang University,Thailand)is acknowledged for providing sequence dataset of Rhytidhysteron species,Dr.Shaun Pennycook(Landcare Research,New Zealand)for assistance in new species epithets and Professor Alan J.L.Phillips(Universidade Nova de Lisboa,Portugal)for kind suggestions on the research.K.D.Hyde acknowledges The Chinese Academy of Sciences,project number 2013T2S0030the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany(KIB).
文摘To date there is virtually no information available concerning the fungi associated with Tectona grandis(teak)(Lamiaceae)in Thailand.In this study,samples of microfungi were collected from both asymptomatic stems and dead wood,and symptomatic branches,stem and leaves of T.grandisfrom 27 sites in six provinces(Chiang Mai,Chiang Rai,Phayao,Phitsanulok,Phrae and Uttaradit Provinces).Morphology and combined multi-gene phylogeny(CAL,GAPDH,ITS,LSU,RPB2,SSU,TEF1 and TUB)were used to identify taxa.A total of 270 collections,representing 28 fungal species residing in 12 families,7 orders and 21 genera,with three species of uncertain taxonomic placement were identified.Of these,one family,three genera and 14 species are new to science.The new family,Pseudocoleodictyosporaceae is introduced based on its distinct lineage in the Dothideomycetes and its unique morphology as compared to Roussoellaceae and Torulaceae.The new genera are Neooccultibambusa,Pseudocoleodictyospora and Subglobosporium.The newly described species are Diaporthe neoraonikayaporum,D.tectonendophytica,D.tectonae,D.tectonigena,Hermatomyces tectonae,H.thailandica,Manoharachariella tectonae,Neooccultibambusa chiangraiensis,Pseudocoleodictyospora sukhothaiensis,Ps.tectonae,Ps.thailandica,Rhytidhysteron tectonae,Subglobosporium tectonae and Tubeufia tectonae.Fourteen species are known published taxa including Alternaria tillandsiae,Berkleasmium talaumae,Boerlagiomyces macrospora,Ceratocladium purpureogriseum,Fusarium solani,Helicoma siamense,Lasiodiplodia theobromae,Macrovalsaria megalospora,Paradictyoarthrinium diffractum,Phaeoacremonium italicum,Sphaeropsis eucalypticola,Stachybotrys levispora,St.renispora and Thaxteriellopsis lignicola.Epitypifications or reference specimens are designated for Boerlagiomyces macrospora and Macrovalsaria megalospora.Macrovalsaria megalospora is transferred from Botryosphaeriaceae to Dothideomycetes genus,incertae sedis based on taxonomy and phylogenetic analysis,which indicate it is distinct from Botryosphaeriaceae.All fungal species represent first reports on T.grandisin Thailand.New taxa and taxa incertae sedis,as well as known taxa which are established as reference specimens or epitypes,are presented with phylogenetic tree analyses,habitat,known distribution,material examined,full descriptions,notes and figures.Information is also provided for known taxa to add to the body of knowledge and to assist those wishing to study fungi occurring on T.grandis in future.
基金funded by the grants of the National Natural Science Foundation of China(NSFC Grants Nos.31670027,31460011,30870009)Dr.Shaun Pennycook(Landcare Research Manaaki Whenua,New Zealand)for advising on the fungal names.JK Liu would like to thank the Science and Technology Foundation of Guizhou Province(LH[2015]7061)+2 种基金National Natural Science Foundation of China(NSFC 31600032)the Thailand Research Fund(Grants Nos.DBG6080013,RDG6130001)MFU and University of Mauritius for research support.S Boonmee would like to thank the Thailand Research Fund(Project No.TRG5880152).
文摘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,Heli-cohyalinum,Helicotruncatum,Neochlamydotubeufia,Neohelicoma,Pleurohelicosporium,Pseudohelicomyces and Pseu-dohelicoon;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,Neochlamydo-tubeufia 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 eli-norae,H.gigasporum,H.hongkongense,H.linderi,H.nematosporum,H.pannosum,H.serpentinum,Helicomyces chiayiensis,Helicotruncatum palmigenum,Neochlamydotubeufia khunkornensis,Neohelicoma fagacearum,Neoheli-comyces pallidus,Neohelicosporium abuense,N.aurantiellum,N.griseum,N.morganii,N.myrtacearum,N.nizam-abadense,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.ectonae.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 TEF1a 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.
基金HY Su thanks the National Natural Science Foundation of China(Project ID:31460015,31360013)Middleyounger academic leaders of candidate’s projects in Yunnan Province 2012HB-042 for the financial support to study freshwater fungi.DQ Zhou thanks the National Natural Science Foundation of China(Project ID:31160160)for financial support.K.D.Hyde is Visiting Professor at King Saud University.
文摘During a north–south latitudinal survey of aquatic fungi on submerged wood and herbaceous material in streams in the Asian region,we collected several hyphomycetous taxa.This paper is part of a series where we provide illustrated accounts of these taxa and place them in a natural classification in the fungi.DNA sequence based phylogenies in recent literature have shown that Dendryphion,Sporidesmium and Torula-like species are polyphyletic in the phylum Ascomycota and their taxonomyhas been problematic due to a lack of understanding of the importance of morphological characters used to delimit taxa,as well as the lack of ex-type or reference strains.Based on multi-locus phylogenies together with morphology,we propose the novel family Distoseptisporaceae(Sordariomycetes)and three novel genera Neotorula(Pleosporales,Dothideomycetes),Distoseptispora(Sordariomycetes)and Pseudosporidesmium(Sordariomycetes).In addition,Dendryphion aquaticum,D.submersum,Distoseptispora fluminicola,D.aquatica,Kirschsteiniothelia submersa,Neotorula aquatica,Sporidesmium aquaticum,S.submersum and S.fluminicola are introduced as new species.Pseudosporidesmium knawiae comb.nov.is proposed to accommodate Sporidesmium knawiae in Sordariomycetes.The polyphyletic nature of Dendryphion,Sporidesmium and Torula-like species are partially resolved,but further sampling with fresh collections and molecular data of species are needed to obtain a natural classification.
文摘Astrosphaeriella sensu lato is a common genus occurring on bamboo,palms and stout grasses.Species of Astrosphaeriella have been collected from various countries in tropical,subtropical or temperate regions.In Asia,species have been collected in Brunei,China,Indonesia,Japan,Philippines and Vietnam.There have been several morphological studies on Astrosphaeriella,but molecular work and phylogenetic analyses are generally lacking.Taxa included in Astrosphaeriella were characterized in three main groups 1)typical Astrosphaeriella species(sensu stricto)having carbonaceous,erumpent,conical ascostromata 2)atypical Astrosphaeriella species(sensu lato)having immersed,coriaceous ascostromata with short to long papilla and 3)lophiostoma-like species having immersed ascostromata with slit-like openings.Some of the latter Astrosphaeriella species,having slit-like openings,have been transferred to Fissuroma and Rimora in Aigialaceae.In this study five type specimens of Astrosphaeriella were loaned from herbaria worldwide and re-examined and are re-described and illustrated.Collections of Astrosphaeriella were also made in Thailand and morphologically examined.Pure cultures were obtained from single spores and used in molecular studies.The asexual morph was induced on sterile bamboo pieces placed on water agar.Phylogenetic analyses of combined LSU,SSU and TEF1 sequence data of astrosphaeriella-like species using Bayesian,Maximum parsimony(MP)and Randomized Accelerated Maximum Likelihood(RAxML)analyses were carried out.Phylogenetic analyses show that species of Astrosphaeriella can be distinguished in at least three families.Species of Astrosphaeriella sensu stricto with erumpent,carbonaceous ascostromata,form a strongly supported clade with Pteridiospora species and a new family,Astrosphaeriellaceae,is introduced to accommodate these taxa.The genera are revised and Astrosphaeriella bambusae,A.neofusispora,A.neostellata,A.thailandica,A.thysanolaenae and Pteridiospora chiangraiensis are introduced as new species.Astrosphaeriella exorrhiza is reported on a dead stem of Thysanolaena maxima and is the first record for Thailand.Reference specimens for A.fusispora and A.tornata are designated to stabilize the taxonomy of Astrosphaeriella.The coelomycetous asexual morph of A.bambusae is reported and forms hyaline,globose to subglobose,aseptate conidia.Species of Astrosphaeriella sensu lato with immersed,coriaceous ascostromata,with short to long papilla and striate ascospores,form a sister clade with Tetraplosphaeriaceae.The genus Pseudoastrosphaeriella is introduced to accommodate some of these taxa with three new species and three new combinations,viz.P.aequatoriensis,P.africana,P.bambusae,P.longicolla,P.papillata and P.thailandensis.A new family Pseudoastrosphaeriellaceae is introduced to accommodate this presently monotypic lineage comprising Pseudoastrosphaeriella.The asexual morph of P.thailandensis is described.Astrosphaeriella bakeriana forms a distinct clade basal to Aigialaceae.Astrosphaeriella bakeriana is excluded from Astrosphaeriella and a new genus Astrosphaeriellopsis,placed in Dothideomycetes genera incertae sedis,is introduced to accommodate this taxon.Fissuroma aggregata(Aigialaceae)is re-visited and is shown to be a cryptic species.Three new species of Fissuroma and a new combination are introduced based on morphology and phylogeny viz.F.bambusae,F.fissuristoma,F.neoaggregata and F.thailandicum.The asexual morph of Fissuroma bambusae is also reported.
基金the featured microbial resources and diversity investigation in Southwest Karst area(2014FY120100).The Biodiversity and Training Program(BRT R_251006,BRT R_351004,BRT_R352015)+3 种基金National Center for Genetic Engineering and Biotechnology(BIOTEC)Khlong Luang,Pathum Thani 12120,ThailandNational Natural Science Foundation of China(NSFC,No.30870009&31460011)the International Collaboration Plan of Guizhou Province(No.G[2012]7006)Ka-Lai Pang thanks the Ministry of Science and Technology,Taiwan(grant no.101-2621-B-019-001-MY3)for financial support.
文摘Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi characterized mainly by perithecial ascomata and inoperculate unitunicate asci.The class includes many important plant pathogens,as well as endophytes,saprobes,epiphytes,coprophilous and fungicolous,lichenized or lichenicolous taxa.They occur in terrestrial,freshwater and marine habitats worldwide.This paper reviews the 107 families of the class Sordariomycetes and provides a modified backbone tree based on phylogenetic analysis of four combined loci,with a maximum five representative taxa from each family,where available.This paper brings together for the first time,since Barrs’1990 Prodromus,descriptions,notes on the history,and plates or illustrations of type or representative taxa of each family,a list of accepted genera,including asexual genera and a key to these taxa of Sordariomycetes.Delineation of taxa is supported where possible by molecular data.The outline is based on literature to the end of 2015 and the Sordariomycetes now comprises six subclasses,32 orders,105 families and 1331 genera.The family Obryzaceae and Pleurotremataceae are excluded from the class.
基金support and providing postgraduate scholarship support to Kasun M.Thambugala.Kevin D.Hyde thanks the Chinese Academy of Sciences(project number 2013T2S0030)the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.The authors extend their sincere appreciations to the Deanship of Scientific Research at King Saud University for its funding this Prolific Research Group(PRG-1436-09)The authors would like to thank the featured microbial resources and diversity investigation in Southwest Karst area(2014FY120100)。
文摘Tamarix species are small trees that grow in various natural habitats and have a wide geographic distribution.Microfungal species previously found on Tamarix and recently collected in Italy and Russia were identified based on morphological characters and analyses of gene sequence data.The sexual morph of the coelomycetous genus Homortomyces was collected for the first time and is described and illustrated.A new family,Homortomycetaceae(Dothideomycetes,families incertae sedis)is introduced to accommodate Homortomyces.Two new genera Neomicrosphaeropsis(Didymellaceae)and Tamaricicola(Pleosporaceae)are introduced in this paper.Phoma tamaricicola was recollected and is placed in Neomicrosphaeropsis based on morphology and molecular data.Ten new species,Cytospora italica,C.unilocularis,Diaporthe ravennica,Eutypella tamaricis,Neomicrosphaeropsis italica,N.novorossica,N.rossica,Keissleriella tamaricicola,Paracamarosporium tamaricis and Tamaricicola muriformis are introduced,while Alternaria tenuissima,Dothiorella sarmentorum,Neofusicoccum luteum,Paraepicoccum amazonense,Pleospora herbarum and Pseudocamarosporium propinquum are reported for the first time on Tamarix spp.with descriptions and illustrations.Multi-gene analyses show that Paraepicoccum amazonense should be placed in Pleosporineae,Pleosporales,where it is closely related to Camarosporium sensu stricto.Several herbarium specimens were studied to illustrate other fungal species recorded on Tamarix species.A comprehensive account of microfungi on Tamarix is provided,which includes a list with data from the literature,as well as those identified in the present study.The taxonomic placement of most taxa discussed in this study is based on a modern taxonomic framework based on analysis of multi-gene sequence data.
文摘This paper provides illustrated descriptions of micro-fungi newly found on Pandanaceae in China and Thailand.The fungi are accommodated in 31 families.New taxa described include a new family,seven new genera,65 new species,16 previously known species.A new family:Malaysiascaceae(Glomerellales).New genera are Acremoniisimulans(Plec-tosphaerellaceae),Pandanaceomyces,Pseudoachroiostachy(Nectriaceae),Pseudohyaloseta(Niessliaceae),Pseudoor-natispora(Stachybotriaceae)and Yunnanomyces(Sympoventuriaceae).New species are Acremoniisimulans thailandensis,Beltrania krabiensis,Beltraniella pandanicola,B.thailandicus,Canalisporium krabiense,C.thailandensis,Clonostachys krabiensis,Curvularia chonburiensis,C.pandanicola,C.thailandicum,C.xishuangbannaensis,Cylindrocladiella xishuangbannaensis,Dictyochaeta pandanicola,Dictyocheirospora nabanheensis,D.pandanicola,D.xishuangbannaen-sis,Dictyosporium appendiculatum,Di.guttulatum,Di.hongkongensis,Di.krabiense,Di.pandanicola,Distoseptispora thailandica,D.xishuangbannaensis,Helicoma freycinetiae,Hermatomyces biconisporus,Lasiodiplodia chonburiensis,L.pandanicola,Lasionectria krabiense,Menisporopsis pandanicola,Montagnula krabiensis,Musicillium pandanicola,Neofusicoccum pandanicola,Neohelicomyces pandanicola,Neooccultibambusa thailandensis,Neopestalotiopsis chiang-maiensis,N.pandanicola,N.phangngaensis,Pandanaceomyces krabiensis,Paracylindrocarpon nabanheensis,P.pan-danicola,P.xishuangbannaensis,Parasarcopodium hongkongensis,Pestalotiopsis krabiensis,P.pandanicola,Polyplosphaeria nabanheensis,P.pandanicola,P.xishuangbannaensis,Pseudoachroiostachys krabiense,Pseu-doberkleasmium pandanicola,Pseudochaetosphaeronema pandanicola,Pseudohyaloseta pandanicola,Pseudoornatispora krabiense,Pseudopithomyces pandanicola,Rostriconidium pandanicola,Sirastachys phangngaensis,Stictis pandanicola,Terriera pandanicola,Thozetella pandanicola,Tubeufia freycinetiae,T.parvispora,T.pandanicola,Vermiculariopsiella hongkongensis,Volutella krabiense,V.thailandensis and Yunnanomyces pandanicola.Previous studies of micro-fungi on Pandanaceae have not included phylogenetic support.Inspiration for this study came from the book Fungi Associated with Pandanaceae by Whitton,McKenzie and Hyde in 2012.Both studies reveal that the micro-fungi on Pandanaceae is particularly rich in hyphomycetes.All data presented herein are based on morphological examination of specimens,coupled with phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolu-tionary relationships.
基金S.Maharachchikumbura thanks the Featured microbial resources and diversity investigation in Southwest Karst area(2014FY120100)for funding.The authors extend their sincere appreciations to the Deanship of Scientific Research at King Saud University for its funding this Prolific Research Group(PRG-1436-09).Kevin D.Hyde thanks the Chinese Academy of Sciences,project number 2013T2S0030,for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.Y.P.Xiao and T.C.Wen are grateful to The National Natural Science Foundation of China(No.31460012&No.31200016).Shi-Ke Huang and J.C.Kang are grateful to the Agricultural Science and Technology Foundation of Guizhou Province Nos.NY[2013]3042),the International Collaboration Plan of Guizhou Province(No.G[2012]7006)and the Innovation Team Construction for Science And Technology of Guizhou Province(No.[2012]4007)from the Science and Technology Department of Guizhou Province,China.
文摘The classification of subclass Xylariomycetidae is revisited with additional collections and phylogeny based on novel rDNA sequence data.Phylogenetic inferences are provided and are based on analysis of 115 sequence data,including new data for 27 strains.An updated outline to the subclass is presented based on the phylogenies and comprises two orders,18 families and 222 genera.An account of each order,family and genus in the subclass is given.We accept the orders Amphisphaeriales and Xylariales based on morphological and phylogenetic evidence.Amphisphaeriales comprises Amphisphaeriaceae,Bartaliniaceae fam.nov.,Clypeosphaeriaceae,Discosiaceae fam.nov.,Pestalotiopsidaceae fam.nov.and Phlogicylindriaceae fam.nov.Xylariales comprises Apiosporaceae,Cainiaceae,Coniocessiaceae,Diatrypaceae,Graphostromataceae(doubtful),Hyponectriaceae,Iodosphaeriaceae,Lopadostomaceae fam.nov.,Melogrammataceae,Pseudomassariaceae fam.nov.,Vialaeaceae and Xylariaceae.The new genera and species introduced are Arthrinium hyphopodii,A.subglobosa,Cainia anthoxanthis,Ciferriascosea gen.nov.,C.fluctamurum,C.rectamurum,Discosia neofraxinea,D.pseudopleurochaeta,Hyalotiella rubi,Seimatosporium cornii,S.ficeae,S.vitis and Truncatella spartii.
基金funded by the grants of the National Natural Science Foundation of China(NSFC 31660008,31860006)Fungal diversity conservation and utilization innovation team of Dali University(ZKLX2019213)+1 种基金the National Natural Science Foundation of China(NSFC 31600032)Thailand Research Funds for the grant entitled Impact of climate change on fungal diversity and biogeography in the Greater Mekong Subregion,grant number:RDG6130001.
文摘Sordariomycetes is one of the largest classes of Ascomycota that comprises a highly diverse range of fungi mainly characterized by perithecial ascomata and inoperculate unitunicate asci.Freshwater Sordariomycetes play an important role in ecosystems and some of them have the potential to produce bioactive compounds.This study documents and reviews the freshwater Sordariomycetes,which is one of the largest and important groups of fungi in aquatic habitats.Based on evidence from DNA sequence data and morphology,we introduce a new order Distoseptisporales,two new families,viz.Ceratosphaeriaceae and Triadelphiaceae,three new genera,viz.Aquafiliformis,Dematiosporium and Neospadicoides,47 new species,viz.Acrodictys fluminicola,Aquafiliformis lignicola,Aquapteridospora fusiformis,Arthrinium aquaticum,Ascosacculus fusiformis,Atractospora aquatica,Barbatosphaeria lignicola,Ceratosphaeria aquatica,C.lignicola,Chaetosphaeria aquatica,Ch.catenulata,Ch.guttulata,Ch.submersa,Codinaea yunnanensis,Conioscypha aquatica,C.submersa,Cordana aquatica,C.lignicola,Cosmospora aquatica,Cylindrotrichum submersum,Dematiosporium aquaticum,Dictyochaeta cangshanensis,D.ellipsoidea,D.lignicola,D.submersa,Distoseptispora appendiculata,D.lignicola,D.neorostrata,D.obclavata,Hypoxylon lignicola,Lepteutypa aquatica,Myrmecridium aquaticum,Neospadicoides aquatica,N.lignicola,N.yunnanensis,Ophioceras submersum,Peroneutypa lignicola,Phaeoisaria filiformis,Pseudostanjehughesia lignicola,Rhodoveronaea aquatica,Seiridium aquaticum,Sporidesmiella aquatica,Sporidesmium lageniforme,S.lignicola,Tainosphaeria lunata,T.obclavata,Wongia aquatica,two new combinations,viz.Acrodictys aquatica,Cylindrotrichum aquaticum,and 9 new records,viz.Chaetomium globosum,Chaetosphaeria cubensis,Ch.myriocarpa,Cordana abramovii,Co.terrestris,Cuspidatispora xiphiago,Sporidesmiella hyalosperma,Stachybotrys chartarum,S.chlorohalonata.A comprehensive classification of the freshwater Sordariomycetes is presented based on updated literature.Phylogenetic inferences based on DNA sequence analyses of a combined LSU,SSU,RPB2 and TEF1a dataset comprising species of freshwater Sordariomycetes are provided.Detailed information including their habitats distribution,diversity,holotype,specimens collected and classification are provided.
文摘The family Melanommataceae is widespread in temperate and subtropical regions and species invariably occur on twigs or bark of various woody plants in terrestrial,marine or freshwater habitats.In this paper,the type species of 26 genera of the family are re-described and illustrated.A multi-gene phylogeny based on maximum likelihood and Bayesian analyses of LSU,SSU,RPB2 and EF-1αsequence data of species of Melanommataceae is provided.The new genera,Muriformistrickeria,Pseudostrickeria and Thysanolaenae are introduced.Anomalemma is synonymized under Exosporiella.Acrocordiopsis,Astrosphaeriella,Beverwykella,Caryosporella,Sporidesmiella and Pseudotrichia are excluded from Melanommataceae based on molecular phylogenetic analyses.Presently,20 genera are accepted in Melanommataceae.Based on the phylogenetic data,five new species,Byssosphaeria siamensis,Herpotrichia vaginatispora,Pseudostrickeria muriformis,Pseudostrickeria ononidis and Muriformistrickeria rubi,are introduced.
基金The authors thank the Training Grant BRT R_251181,BRT R_253012the Mushroom Research Foundation(MRF),Chiang Rai,Thailand and the Thailand Research Fund TRG5880152 for partially supporting this study.Kevin D.Hyde thanks the Chinese Academy of Sciences,project number 2013T2S0030+2 种基金for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.Further,K.Tanaka would like to thank the Japan Society for the Promotion of Science(JSPS 25440199 and 26291084)Hirosaki University Grant for Exploratory Research by Young Scientists and Newly appointed Scientists for financial supportThis work was supported by the International Research Group Program(IRG-14-27),Deanship of Scientific Research,King Saud University,Saudi Arabia.
文摘Dictyosporiaceae fam.nov.is introduced to accommodate a holomorphic group of Dothideomycetes that are saprobes on decaying wood and plant debris in terrestrial and freshwater habitats.The sexual morph comprises Dictyosporium meiosporum,D.sexualis,Gregarithecium curvisporum,Pseudocoleophoma calamagrostidis and P.polygonicola.The sexual morphs are characterized by immersed to erumpent,superficial,globose to subglobose,dark brown to black ascomata,bitunicate asci,and septate,hyaline,sheathed ascospores.The asexual morphs are hyphomycetous with brown,multi-septate,cheirosporous conidia,produced from holoblastic conidiogenous cells,on micronematous conidiophores.Phylogenetic analyses of LSU,SSU and TEF1 sequence data place the genera with cheirospores in a monophyletic clade in the order Pleosporales.Phylogenetic analyses based on ITS sequence data show the family to comprise 44 distinct lineages that correspond to ten genera and an undetermined genus.Four new genera Dictyocheirospora,Dictyopalmispora,Jalapriya and Vikalpa,and eight new species Dictyocheirospora bannica,D.rotunda,D.vinaya,Dictyopalmispora palmae,Dictyosporium olivaceosporum,D.sexualis,Jalapriya pulchra,and Vikalpa lignicola,are introduced in the family.
基金Chayanard Phukhamsakda would like to thank the Royal Golden Jubilee PhD Program under Thailand Research Fund(RGJ)and the German Academic Exchange Service(DAAD)for a joint TRF-DAAD(PPP 2017-2018)academic exchange Grant to K.D.Hyde and M.Stadler and the RGJ for a personal grant to C.Phukhamsakda(The scholarship no.PHD/0020/2557 to study towards a PhD).Dr.Shaun Pennycook is thanked for checking and suggesting Latin names of the new taxa.Dr.Olivier Raspé,Dr.Rajesh Jeewon,Sirinapa Konta,Milan Samarakoon,Indunil C.Senanayake,Dr.Sinang Hongsanan,Chuan-Gen Lin,Qiu-Ju Shang and Pranami D.Abeywickrama are thanked for their valuable suggestions on the phylogenetic analysis and for sequencing.Mr.Martin van de Bult,Cyrille Gerstmans,Prof.Hong-Yan Su,Tian Qing,Dr.Zong-Long Luo are gratefully acknowledged for sample collection guidance in China and Thailand.Kevin D.Hyde thanks the future of specialist fungi in a changing climate:baseline data for generalist and specialist fungi associated with ants,Rhododendron species and Dracaena species(Grant No:DBG6080013)Impact of climate change on fungal diversity and biogeography in the Greater Mekong Subregion(Grant No:RDG6130001)+6 种基金Alan J.L.Phillips acknowledges the support from UID/MULTI/04046/2019 Research Unit grant from FCT,Portugal to BioISI.E.B.Gareth Jones is supported under the Distinguished Scientist Fellowship Program(DSFP),King Saud University,Kingdom of Saudi Arabia.D.N.Wanasinghe would like to thank the CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Number 2019PC0008)the National Science Foundation of China and the Chinese Academy of Sciences for financial support under the following Grants:41761144055,41771063 and Y4ZK111B01Wanasinghe also thanks the 64th batch of China Postdoctoral Science Foundation(Grant No.:Y913083271)Saowaluck Tibpromma would like to thanks the International Postdoctoral Exchange Fellowship Program(Number Y9180822S1)CAS President’s International Fellowship Initiative(PIFI)(Number 2020PC0009)China Postdoctoral Science Foundation and the Yunnan Human Resources,and Social Security Department Foundation for funding her postdoctoral research.Mingkwan Doilom would like to thank the 5th batch of Postdoctoral Orientation Training Personnel in Yunnan Province(Grant No.:Y934283261)the 64th batch of China Postdoctoral Science Foundation(Grant No.:Y913082271).
文摘The cosmopolitan plant genus Clematis contains many climbing species that can be found worldwide.The genus occurs in the wild and is grown commercially for horticulture.Microfungi on Clematis were collected from Belgium,China,Italy,Thailand and the UK.They are characterized by morphology and analyses of gene sequence data using an integrated species concept to validate identifications.The study revealed two new families,12 new genera,50 new species,26 new host records with one dimorphic character report,and ten species are transferred to other genera.The new families revealed by multigene phylogeny are Longiostiolaceae and Pseudomassarinaceae in Pleosporales(Dothideomycetes).New genera are Anthodidymella(Didymellaceae),Anthosulcatispora and Parasulcatispora(Sulcatisporaceae),Fusiformispora(Amniculicolaceae),Longispora(Phaeosphaeriaceae),Neobyssosphaeria(Melanommataceae),Neoleptosporella(Chaetosphaeriales,genera incertae sedis),Neostictis(Stictidaceae),Pseudohelminthosporium(Neomassarinaceae),Pseudomassarina(Pseudomassarinaceae),Sclerenchymomyces(Leptosphaeriaceae)and Xenoplectosphaerella(Plectosphaerellaceae).The newly described species are Alloleptosphaeria clematidis,Anthodidymella ranunculacearum,Anthosulcatispora subglobosa,Aquadictyospora clematidis,Brunneofusispora clematidis,Chaetosphaeronema clematidicola,C.clematidis,Chromolaenicola clematidis,Diaporthe clematidina,Dictyocheirospora clematidis,Distoseptispora clematidis,Floricola clematidis,Fusiformispora clematidis,Hermatomyces clematidis,Leptospora clematidis,Longispora clematidis,Massariosphaeria clematidis,Melomastia clematidis,M.fulvicomae,Neobyssosphaeria clematidis,Neoleptosporella clematidis,Neoroussoella clematidis,N.fulvicomae,Neostictis nigricans,Neovaginatispora clematidis,Parasulcatispora clematidis,Parathyridaria clematidis,P.serratifoliae,P.virginianae,Periconia verrucose,Phomatospora uniseriata,Pleopunctum clematidis,Pseudocapulatispora clematidis,Pseudocoleophoma clematidis,Pseudohelminthosporium clematidis,Pseudolophiostoma chiangraiense,P.clematidis,Pseudomassarina clematidis,Ramusculicola clematidis,Sarocladium clematidis,Sclerenchymomyces clematidis,Sigarispora clematidicola,S.clematidis,S.montanae,Sordaria clematidis,Stemphylium clematidis,Wojnowiciella clematidis,Xenodidymella clematidis,Xenomassariosphaeria clematidis and Xenoplectosphaerella clematidis.The following fungi are recorded on Clematis species for the first time:Angustimassarina rosarum,Dendryphion europaeum,Dermatiopleospora mariae,Diaporthe ravennica,D.rudis,Dichotomopilus ramosissimum,Dictyocheirospora xishuangbannaensis,Didymosphaeria rubi-ulmifolii,Fitzroyomyces cyperacearum,Fusarium celtidicola,Leptospora thailandica,Memnoniella oblongispora,Neodidymelliopsis longicolla,Neoeutypella baoshanensis,Neoroussoella heveae,Nigrograna chromolaenae,N.obliqua,Pestalotiopsis verruculosa,Pseudoberkleasmium chiangmaiense,Pseudoophiobolus rosae,Pseudoroussoella chromolaenae,P.elaeicola,Ramusculicola thailandica,Stemphylium vesicarium and Torula chromolaenae.The new combinations are Anthodidymella clematidis(≡Didymella clematidis),A.vitalbina(≡Didymella vitalbina),Anthosulcatispora brunnea(≡Neobambusicola brunnea),Fuscohypha kunmingensis(≡Plectosphaerella kunmingensis),Magnibotryascoma rubriostiolata(≡Teichospora rubriostiolata),Pararoussoella mangrovei(≡Roussoella mangrovei),Pseudoneoconiothyrium euonymi(≡Roussoella euonymi),Sclerenchymomyces jonesii(≡Neoleptosphaeria jonesii),Stemphylium rosae(≡Pleospora rosae),and S.rosae-caninae(≡Pleospora rosae-caninae).The microfungi on Clematis is distributed in several classes of Ascomycota.The analyses are based on morphological examination of specimens,coupled with phylogenetic sequence data.To the best of our knowledge,the consolidated species concept approach is recommended in validating species.
基金the International Highly Cited Research Group(IHCRRGP#14-205)Nalin N.Wijayawardene would like to thank P.M.Kirk,V.A.Mel’nik,Buddhika Dilhan,Dmitrii Shabunin,Manjari Dissanayake and Lesley Ragab for being helpful to gather old literature.Kevin D.Hyde is grateful to the Chinese Academy of Sciences,project number 2013T2S0030+6 种基金for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany,research grant from the Biodiversity Research and Training Program(BRT R253012)The Thailand Research Fund(BRG 5280002).Alan J.L.Phillips thanks Mae Fah Luang University for a Visiting Professorship during the tenure of which this paper was finalised.Yong Wang would like to thank The International Scientific Cooperated Project of Guizhou Province(No[2013]7004).Rungtiwa Phookamsak thanks the Royal Golden Jubilee Ph.D.Program(PHD/0090/2551).Erio Camporesi is grateful to Giancarlo Lombardi,Sergio Montanari and Gigi Stagioni for their help in identifying host plants of fresh collections.K.Tanaka would like to thank the Japan Society for the Promotion of Science(JSPS,25440199 and 26291084)Hirosaki University Grant for Exploratory Research by Young Scientists and Newly-appointed Scientists for financial support.Yong Wang thanks Yong-Cheng Long,Prof.De-Gang Zhao and Prof.Zhuo Chen for their help in sequencing and suggestions in molecular experiments.We would like to thank MFU grant No.56101020032 for funding to study the taxonomy and phylogeny of Dothideomycetes.The authors also wish to acknowledge Saranyaphat Boonmee,Chayanard Phukhamsakda and Qing Tian.Ishani D.Goonasekara wishes to acknowledge Liu Ende,Assistant Curator,Herbarium,Kunming Institute of Botany,Chinese Academy of Sciences(KUN),Kunming,China,Wu HaiXia and staff of International Fungal Research and Development Centre(IFRD),Key Laboratory of Resource Insect Cultivation&Utilization State Forestry Administration,The Research Institute of Resource Insects,Chinese Academy of Forestry Kunming 650224,PR China and Danushka S.Tennakoon for their assistance with herbarium material.
文摘t Coelomycetous fungi are an artificial taxonomic group which produce conidia inside a cavity i.e.conidiomata.Coelomycetes comprise about,1000 genera and 7000 species,which can be endophytic,pathogenic or saprobic.Traditional classification of coelomycetes was previously based on morphology,such as the shape of conidiomata and mode of conidiogenesis,while it was treated as a distinct group i.e.Deuteromycotina.Sequence based taxonomic studies has been used to accommodate asexual fungi in a natural classification system,resolve generic boundaries of polyphyletic genera and species complexes,as well as establish asexual-sexual links.Nevertheless,most of genera lack sequence data,thus,morphology based identification is still important when introducing new genera or species.In this paper we illustrate,describe,and provide taxonomic notes for 235 dematiaceous coelomycetous genera,including five new genera viz.Apiculospora,Didymellocamarosporium,Melanocamarosporium,Melnikia and Paulkirkia.Phylogenetic analyses of combined sequence data are provided to show placements of dematiaceous coelomycetes in Dothideomycetes,Leotiomycetes and Sordariomycetes.One-hundred and fifty-two(65%)of genera have sequence data,thus,their taxonomic placement in a natural classification system,is listed as an outline.However,83 genera still lack sequence data,hence,they are treated as Ascomycota,genera incertae sedis.In addition,separate analyses are provided where better taxonomic resolution is needed.
基金The research was supported by 1)Chinese Academy of Sciences(Project No.KSCX2-EW-Z-9).K.Tanaka would like to thank the Japan Society for the Promotion of Science(JSPS,25440199)for financial support.This project was supported by the Distinguished Scientist Fellowship Program(DSFP),King Saud University,Saudi Arabia.This project was also supported by NSTIP strategic technologies program,number(12-BIO2840-02)in the Kingdom of Saudi Arabia.B.Buyck and V.Hofstetter acknowledge the ATM“Emergences”(Dirs.P.Janvier&S.Peigné)from the National museum of natural history,Paris,for financial support related to sequencing as well as travel expenses in Madagascar.Overseas travel of B.Buyck was funded by the ATM research program“Etat et structure phylogénétique de la biodiversitéactuelle et fossile”of the Paris’Museum.(director Ph.Janvier)S.Adamčík acknowledges funding by his national Slovak Project VEGA 02/0075/14.B.D.Shenoy acknowledges funding to visit Mae Fah Luang University,Chiang Rai under Indo-Thailand bilateral programme(THAI-1205).The Lewis family is warmly thanked for their generous hospitality,offering excellent and very agreeable working and field condition.K.Wisitrassameewong and A.Verbeken were financially supported by the joint doctorate program of the“Bijzonder Onderzoeksfonds Gent University”(BOF),Gent University.This research was also financial supported by The Biodiversity and Training Program(BRT R 149009)and Interaction Laboratory(BMIT),National Center for Genetic Engineering and Biotechnology(BIOTEC)Khlong Luang,Pathum Thani 12120,Thailand.Thanks are extended to the Thailand Research Fund grant(BRG 5580009)under the research grant entitled“Taxonomy,Phylogeny and Biochemistry of Thai Basidiomycetes”for financial support.J.Chen and R.L.Zhao would like to thank the National Natural Science Foundation of China(Project ID:31000013,31360014 and 31470152).Uwe Braun,Walter Jaklitsch,Tom May,Marc Stadler and Jo Taylor,are thanks for commenting on some parts of the manuscript.Shaun Pennycook is thanked for checking and suggesting corrections to most of the Latin names.
文摘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.
基金Wen are grateful to The National Natural Science Foundation of China(No.31460012,No.31200016).
文摘Taxonomic names are key links between various databases that store information on different organisms.Several global fungal nomenclural and taxonomic databases(notably Index Fungorum,Species Fungorum and MycoBank)can be sourced to find taxonomic details about fungi,while DNA sequence data can be sourced from NCBI,EBI and UNITE databases.Although the sequence data may be linked to a name,the quality of the metadata is variable and generally there is no corresponding link to images,descriptions or herbarium material.There is generally no way to establish the accuracy of the names in these genomic databases,other than whether the submission is from a reputable source.To tackle this problem,a new database(FacesofFungi),accessible at www.facesoffungi.org(FoF)has been established.This fungal database allows deposition of taxonomic data,phenotypic details and other useful data,which will enhance our current taxonomic understanding and ultimately enable mycologists to gain better and updated insights into the current fungal classification system.In addition,the database will also allow access to comprehensive metadata including descriptions of voucher and type specimens.This database is user-friendly,providing links and easy access between taxonomic ranks,with the classification system based primarily on molecular data(from the literature and via updated web-based phylogenetic trees),and to a lesser extent on morphological data when molecular data are unavailable.In FoF species are not only linked to the closest phylogenetic representatives,but also relevant data is provided,wherever available,on various applied aspects,such as ecological,industrial,quarantine and chemical uses.The data include the three main fungal groups(Ascomycota,Basidiomycota,Basal fungi)and fungus-like organisms.The FoF webpage is an output funded by the Mushroom Research Foundation which is an NGO with seven directors with mycological expertise.The webpage has 76 curators,and with the help of these specialists,FoF will provide an updated natural classification of the fungi,with illustrated accounts of species linked to molecular data.The present paper introduces the FoF database to the scientific community and briefly reviews some of the problems associated with classification and identification of the main fungal groups.The structure and use of the database is then explained.We would like to invite all mycologists to contribute to these web pages.
基金We also thank Siriporn Luesuwan for arranging the loan of specimens from various herbaria.A.Ariyawansa and J.C Kang are grateful to the International collaboration plan of Science and Technology at Guizhou Province(contract No.[2012]7006)the construction of innovation talent team of Science and Technology at Guizhou Province(contract No.[2012]4007)+19 种基金China.D.J.Bhat is thankful to MFU for a Visiting Professorship during the tenure of which this paper was finalized.D.L.Hawksworth contributed to this work while in receipt of support from the Spanish Ministerio de Ciencia e Innovación(CGL2011-25003)Haixia Wu would like to thank the Grant for Essential Scientific Research of National Non-profit Institute to funds for research(No.CAFYBB2007002)thanks Xiaoming Chen,Ying Feng and Chen Hang(The Research Institute of Resource Insects,Chinese Academy of Forestry,China)for their valuable help.Jian-Kui Liu would like to thank Manfred Binder for providing valuable suggestions and kind assistance on phylogenetic analysisWe would like to thank MFU grant No.56101020032 for funding to study taxonomy and phylogeny of selected families of DothideomycetesJiye Yan and Xinghong Li would like to thank CARS-30 for funds.K.Tanaka would like to thank the Japan Society for the Promotion of Science(JSPS,25440199)for financial supportK.L.Pang would like to thank National Science Council of Taiwan for financial support(NSC101-2621-B-019-001-MY3).L.Muggia is grateful to the Austrian Science Foundation for financial support(FWF,P24114-B16 and Herta-Firnberg Project T481-B20)M.Doilom would like to thank the Thailand Research Fund through the Royal Golden Jubilee(RGJ)Ph.D.Program grant No.Ph.D./0072/2553 in 4.S.M.F./53/A.2MP Nelsen and R Lücking are grateful to the NSF(DEB 0715660“Neotropical Epiphytic Microlichens-An Innovative Inventory of a Highly Diverse yet Little Known Group of Symbiotic Organisms”DEB 0717476“Systematics of Dothideomycetes”)MP Nelsen also acknowledges a Brown Family Fellowship through the Field Museum,a William Harper Rainey Fellowship through the University of Chicago,and support through the Committee on Evolutionary Biology at the University of Chicago.R.Phookamsak would like to thank the Royal Golden Jubilee Ph.D.Program(PHD/0090/2551)under the Thailand Research Fund for scholarship supportS.A.Alias would like to thank Program Rakan University Malaya(PRPUM)-Phylogeny,Taxonomy,Relationships and Biotechnological Potential of Sooty Moulds.S.Boonmee also thanks Amy Y.Rossman and the U.S.Department of Agriculture Agricultural Research Service,Systematic Mycology and Microbiology Lab(SMML)USA for laboratory,funding support and advice on her work.S.Boonmee and P.Chomnunti would like to thank TRF/BIOTEC program Biodiversity Research and Training Grant BRT R_251181,BRT R_253012the Mushroom Research Foundation,Chiang Rai Province for funding support.S.Wikee would like to thank the Thailand Research Fund through the Royal Golden Jubilee Ph.D.Program agreement No PhD/0198/2552S.Wikee and JK Liu would like to thank The National Research Council of Thailand(NRCT)for the award of grant No 55201020002 to study the genus Phyllosticta in ThailandS.Suetrong acknowledges the financial support by TRF/BIOTEC program Biodiversity Research and Training Grant BRT R_351004 and BRT R_325015 to study marine fungi of ThailandSuetrong also thanks Morakot Tanticharoen,Kanyawim Kirtikara and Lily Eurwilaichitr,BIOTEC,Bangkok for their continued interest and support.Supalak Yacharoen,J.Monkai and K.D.Hyde would like to thank the Thailand Research Fund(BRG5280002)for financial supportGareth Jones is supported by the Distinguished Scientist Fellowship Program(DSFP),King Saud University,Saudi Arabia.Y.Wang would like to thank The International Scientific Cooperated Project of Guizhou Province(No[2013]7004)Yongxiang Liu would like to thank the Guizhou Research Fund(QKHZYZ[2010]5031 and QNKYYZX[2012]010)for financial supportHarrie Sipman is thanked for comments on part of the manuscript.
文摘Dothideomycetes comprise a highly diverse range of fungi characterized mainly by asci with two wall layers(bitunicate asci)and often with fissitunicate dehiscence.Many species are saprobes,with many asexual states comprising important plant pathogens.They are also endophytes,epiphytes,fungicolous,lichenized,or lichenicolous fungi.They occur in terrestrial,freshwater and marine habitats in almost every part of the world.We accept 105 families in Dothideomycetes with the new families Anteagloniaceae,Bambusicolaceae,Biatriosporaceae,Lichenoconiaceae,Muyocopronaceae,Paranectriellaceae,Roussoellaceae,Salsugineaceae,Seynesiopeltidaceae and Thyridariaceae introduced in this paper.Each family is provided with a description and notes,including asexual and asexual states,and if more than one genus is included,the type genus is also characterized.Each family is provided with at least one figure-plate,usually illustrating the type genus,a list of accepted genera,including asexual genera,and a key to these genera.A phylogenetic tree based on four gene combined analysis add support for 64 of the families and 22 orders,including the novel orders,Dyfrolomycetales,Lichenoconiales,Lichenotheliales,Monoblastiales,Natipusillales,Phaeotrichales and Strigulales.The paper is expected to provide a working document on Dothideomycetes which can be modified as new data comes to light.It is hoped that by illustrating types we provide stimulation and interest so that more work is carried out in this remarkable group of fungi.