The type specimens of Auerswaldia,Auerswaldiella,Barriopsis,Botryosphaeria,Leptoguignardia,Melanops,Neodeightonia,Phaeobotryon,Phaeobotryosphaeria,Phyllachorella,Pyrenostigme,Saccharata,Sivanesania,Spencermartinsia an...The type specimens of Auerswaldia,Auerswaldiella,Barriopsis,Botryosphaeria,Leptoguignardia,Melanops,Neodeightonia,Phaeobotryon,Phaeobotryosphaeria,Phyllachorella,Pyrenostigme,Saccharata,Sivanesania,Spencermartinsia and Vestergrenia were examined and fresh specimens of Botryosphaeriales were collected from Thailand.This material is used to provide a systematic treatment of Botryosphaeriales based on morphology and phylogeny.Two new genera,Botryobambusa and Cophinforma are introduced and comparedwith existing genera.Four species newto science,Auerswaldia dothiorella,A.lignicola,Botryosphaeria fusispora and Phaeobotryosphaeria eucalypti,are also described and justified.We accept 29 genera in Botryosphaeriales,with Macrovalsaria being newly placed.In the phylogenetic tree,the 114 strains of Botyrosphaeriales included in the analysis cluster into two major clades with 80%,96%and 1.00(MP,ML and BY)support,with Clade A containing the family type of Botryosphaeriaceae,and Clade B containing Phyllosticta,Saccharata and Melanops species.This group may represent Phyllostictaceae.In Clade A the taxa analyzed cluster in eight sub-clades(Clades A1-8).Clade A1 comprises three distinct subclusters corresponding to the genera Diplodia(Diplodia Clade),Neodeightonia(Neodeightonia Clade)and Lasiodiplodia(Lasiodiplodia Clade).Clade A2 clusters into three groups representing Phaeobotryosphaeria(100%),Phaeobotryon(100%)and Barriopsis(94%).Clade A3 incorporates 17 strains that cluster into three well-supported genera(Dothiorella(86%),Spencermartinsia(100%)and Auerswaldia(63%);the position of Macrophomina is not stable.Clade A4 is a single lineage(100%)representing the new genus Botryobambusa.Clade A5 is a wellsupported subclade incorporating Neofussicoccum.Clade A6 represents the type species of Botryosphaeria,three other Botryosphaeria species and two other genera,Neoscytalidium and Cophinforma gen.nov.Clade A7 comprises two Pseudofusicoccum species and Clade A8 has two Aplosporella species.These sub-clades may eventually require separate families but this requires analysis of a much larger dataset.Our data advances the understanding of Botryosphaeriales,there is,however,still much research to be carried out with resolution of families and genera,linkage of sexual and asexual morphs and differentiation of cryptic species.展开更多
This study deals with an extensive evaluation focusing on phylogenetic and chemotaxonomic infrageneric relationships of the genus Annulohypoxylon(Xylariaceae,Ascomycota),whose species are ubiquitously associated with ...This study deals with an extensive evaluation focusing on phylogenetic and chemotaxonomic infrageneric relationships of the genus Annulohypoxylon(Xylariaceae,Ascomycota),whose species are ubiquitously associated with seed plants as endophytes and saprotrophs in all forested areas of the world.Using evidence from phylogenetic,chemotaxonomic and morphological data,various varieties within the genus are raised to species level,leading to the new combinations for A.areolatum(:A.bovei var.microsporum),A.macrosporum(:A.leptascum var.macrosporum),and A.microdiscum(:A.moriforme var.microdiscum).Annulohypoxylon substygium nom.nov.is applied for A.stygium var.annulatumand the four new tropical and subtropical species A.massivum,A.violaceopigmentum,A.viridistratum and A.yungensis are introduced.Furthermore,A.leucadendri is excluded from the genus as its morphological characters disagree with the generic concept,the recently erected A.palmicola is synonymized with A.leptascum and A.austrobahiense has been reassigned to the genus Hypoxylon.In addition,the key taxa A.annulatum and A.truncatum have been reinvestigated and epitypes have been defined.For the first time,a dichotomous key to the genus is provided.A phylogenetic b-tubulin tree in conjunction with stromatal HPLC profiles clearly shows that Annulohypoxylon comprises two distinct lineages.The A.cohaerens/multiforme group might eventually warrant segregation into a new genus as further molecular data become available.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
Seven new azaphilone pigments named lenormandins A–G were isolated from stromata(fruiting bodies)of the xylariaceous fungus,Hypoxylon lenormandii using preparative High Performance Liquid Chromatography(HPLC)and thei...Seven new azaphilone pigments named lenormandins A–G were isolated from stromata(fruiting bodies)of the xylariaceous fungus,Hypoxylon lenormandii using preparative High Performance Liquid Chromatography(HPLC)and their structures were elucidated by NMR spectroscopy,high resolution mass spectrometry and other spectral methods.Their occurrence in herbarium specimens(including various type materials collected in the 19th and early 20th century)and several fresh collections was studied by analytical HPLC with diode array and mass spectrometric detection(HPLC-DAD/MS),revealing that this group of pigments is specific for Hypoxylon lenormandii from various geographic regions and otherwise only occurs in closely related taxa,i.e.H.sublenormandii and an undescribed fungus from Sri Lanka,for which we propose the name H.jaklitschii.The status of the new species was established by using molecular phylogenetic data based on ITS and partial beta-tubulin sequences,and by detailed morphological studies.展开更多
This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomyc...This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomycetes.We also introduce the new ascomycete genera Acericola,Castellaniomyces,Dictyosporina and Longitudinalis and new species Acericola italica,Alternariaster trigonosporus,Amarenomyces dactylidis,Angustimassarina coryli,Astrocystis bambusicola,Castellaniomyces rosae,Chaetothyrina artocarpi,Chlamydotubeufia krabiensis,Colletotrichum lauri,Collodiscula chiangraiensis,Curvularia palmicola,Cytospora mali-sylvestris,Dictyocheirospora cheirospora,Dictyosporina ferruginea,Dothiora coronillae,Dothiora spartii,Dyfrolomyces phetchaburiensis,Epicoccum cedri,Epicoccum pruni,Fasciatispora calami,Fuscostagonospora cytisi,Grandibotrys hyalinus,Hermatomyces nabanheensis,Hongkongmyces thailandica,Hysterium rhizophorae,Jahnula guttulaspora,Kirschsteiniothelia rostrata,Koorchalomella salmonispora,Longitudinalis nabanheensis,Lophium zalerioides,Magnibotryascoma mali,Meliola clerodendri-infortunati,Microthyrium chinense,Neodidymelliopsis moricola,Neophaeocryptopus spartii,Nigrograna thymi,Ophiocordyceps cossidarum,Ophiocordyceps issidarum,Ophiosimulans plantaginis,Otidea pruinosa,Otidea stipitata,Paucispora kunmingense,Phaeoisaria microspora,Pleurothecium floriforme,Poaceascoma halophila,Periconia aquatica,Periconia submersa,Phaeosphaeria acaciae,Phaeopoacea muriformis,Pseudopithomyces kunmingnensis,Ramgea ozimecii,Sardiniella celtidis,Seimatosporium italicum,Setoseptoria scirpi,Torula gaodangensis and Vamsapriya breviconidiophora.We also provide an amended account of Rhytidhysteron to include apothecial ascomata and a J?hymenium.The type species of Ascotrichella hawksworthii(Xylariales genera incertae sedis),Biciliopsis leptogiicola(Sordariomycetes genera incertae sedis),Brooksia tropicalis(Micropeltidaceae),Bryochiton monascus(Teratosphaeriaceae),Bryomyces scapaniae(Pseudoperisporiaceae),Buelliella minimula(Dothideomycetes genera incertae sedis),Carinispora nypae(Pseudoastrosphaeriellaceae),Cocciscia hammeri(Verrucariaceae),Endoxylina astroidea(Diatrypaceae),Exserohilum turcicum(Pleosporaceae),Immotthia hypoxylon(Roussoellaceae),Licopolia franciscana(Vizellaceae),Murispora rubicunda(Amniculicolaceae)and Doratospora guianensis(synonymized under Rizalia guianensis,Trichosphaeriaceae)were reexamined and descriptions,illustrations and discussion on their familial placement are given based on phylogeny and morphological data.New host records or new country reports are provided for Chlamydotubeufia huaikangplaensis,Colletotrichum fioriniae,Diaporthe subclavata,Diatrypella vulgaris,Immersidiscosia eucalypti,Leptoxyphium glochidion,Stemphylium vesicarium,Tetraploa yakushimensis and Xepicula leucotricha.Diaporthe baccae is synonymized under Diaporthe rhusicola.A reference specimen is provided for Periconia minutissima.Updated phylogenetic trees are provided for most families and genera.We introduce the new basidiomycete species Agaricus purpurlesquameus,Agaricus rufusfibrillosus,Lactifluus holophyllus,Lactifluus luteolamellatus,Lactifluus pseudohygrophoroides,Russula benwooii,Russula hypofragilis,Russula obscurozelleri,Russula parapallens,Russula phoenicea,Russula pseudopelargonia,Russula pseudotsugarum,Russula rhodocephala,Russula salishensis,Steccherinum amapaense,Tephrocybella constrictospora,Tyromyces amazonicus and Tyromyces angulatus and provide updated trees to the genera.We also introduce Mortierella formicae in Mortierellales,Mucoromycota and provide an updated phylogenetic tree.展开更多
基金We are grateful to the Directors and Curators of the following herbaria for the loan of specimens in their keeping:BAFC,BPI,IMI,K(M),LPS,PREM,S and ZT.The Mushroom Research Foundation,Bandoo District,Chiang Rai Province,Thailand is acknowledged for providing postgraduate scholarship support and facilities to JK Liu.Appreciation is extended to the Thailand Research Fund BRG528002 for supporting this work.
文摘The type specimens of Auerswaldia,Auerswaldiella,Barriopsis,Botryosphaeria,Leptoguignardia,Melanops,Neodeightonia,Phaeobotryon,Phaeobotryosphaeria,Phyllachorella,Pyrenostigme,Saccharata,Sivanesania,Spencermartinsia and Vestergrenia were examined and fresh specimens of Botryosphaeriales were collected from Thailand.This material is used to provide a systematic treatment of Botryosphaeriales based on morphology and phylogeny.Two new genera,Botryobambusa and Cophinforma are introduced and comparedwith existing genera.Four species newto science,Auerswaldia dothiorella,A.lignicola,Botryosphaeria fusispora and Phaeobotryosphaeria eucalypti,are also described and justified.We accept 29 genera in Botryosphaeriales,with Macrovalsaria being newly placed.In the phylogenetic tree,the 114 strains of Botyrosphaeriales included in the analysis cluster into two major clades with 80%,96%and 1.00(MP,ML and BY)support,with Clade A containing the family type of Botryosphaeriaceae,and Clade B containing Phyllosticta,Saccharata and Melanops species.This group may represent Phyllostictaceae.In Clade A the taxa analyzed cluster in eight sub-clades(Clades A1-8).Clade A1 comprises three distinct subclusters corresponding to the genera Diplodia(Diplodia Clade),Neodeightonia(Neodeightonia Clade)and Lasiodiplodia(Lasiodiplodia Clade).Clade A2 clusters into three groups representing Phaeobotryosphaeria(100%),Phaeobotryon(100%)and Barriopsis(94%).Clade A3 incorporates 17 strains that cluster into three well-supported genera(Dothiorella(86%),Spencermartinsia(100%)and Auerswaldia(63%);the position of Macrophomina is not stable.Clade A4 is a single lineage(100%)representing the new genus Botryobambusa.Clade A5 is a wellsupported subclade incorporating Neofussicoccum.Clade A6 represents the type species of Botryosphaeria,three other Botryosphaeria species and two other genera,Neoscytalidium and Cophinforma gen.nov.Clade A7 comprises two Pseudofusicoccum species and Clade A8 has two Aplosporella species.These sub-clades may eventually require separate families but this requires analysis of a much larger dataset.Our data advances the understanding of Botryosphaeriales,there is,however,still much research to be carried out with resolution of families and genera,linkage of sexual and asexual morphs and differentiation of cryptic species.
文摘This study deals with an extensive evaluation focusing on phylogenetic and chemotaxonomic infrageneric relationships of the genus Annulohypoxylon(Xylariaceae,Ascomycota),whose species are ubiquitously associated with seed plants as endophytes and saprotrophs in all forested areas of the world.Using evidence from phylogenetic,chemotaxonomic and morphological data,various varieties within the genus are raised to species level,leading to the new combinations for A.areolatum(:A.bovei var.microsporum),A.macrosporum(:A.leptascum var.macrosporum),and A.microdiscum(:A.moriforme var.microdiscum).Annulohypoxylon substygium nom.nov.is applied for A.stygium var.annulatumand the four new tropical and subtropical species A.massivum,A.violaceopigmentum,A.viridistratum and A.yungensis are introduced.Furthermore,A.leucadendri is excluded from the genus as its morphological characters disagree with the generic concept,the recently erected A.palmicola is synonymized with A.leptascum and A.austrobahiense has been reassigned to the genus Hypoxylon.In addition,the key taxa A.annulatum and A.truncatum have been reinvestigated and epitypes have been defined.For the first time,a dichotomous key to the genus is provided.A phylogenetic b-tubulin tree in conjunction with stromatal HPLC profiles clearly shows that Annulohypoxylon comprises two distinct lineages.The A.cohaerens/multiforme group might eventually warrant segregation into a new genus as further molecular data become available.
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.
文摘Seven new azaphilone pigments named lenormandins A–G were isolated from stromata(fruiting bodies)of the xylariaceous fungus,Hypoxylon lenormandii using preparative High Performance Liquid Chromatography(HPLC)and their structures were elucidated by NMR spectroscopy,high resolution mass spectrometry and other spectral methods.Their occurrence in herbarium specimens(including various type materials collected in the 19th and early 20th century)and several fresh collections was studied by analytical HPLC with diode array and mass spectrometric detection(HPLC-DAD/MS),revealing that this group of pigments is specific for Hypoxylon lenormandii from various geographic regions and otherwise only occurs in closely related taxa,i.e.H.sublenormandii and an undescribed fungus from Sri Lanka,for which we propose the name H.jaklitschii.The status of the new species was established by using molecular phylogenetic data based on ITS and partial beta-tubulin sequences,and by detailed morphological studies.
基金The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089.Kevin D.Hyde would like to thank the Molecular Biology Experimental Center for the help on molecular work,the Mushroom Research Foundation(MRF),Chiang Rai,Thailand,the Thailand Research Fund grant no RSA5980068 entitled Biodiversity,Phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans,the Chinese Academy of Sciences,Project Number 2013T2S0030for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany and Mae Fah Luang University for a grants“Biodiversity,phylogeny and role of fungal endophytes of Pandanaceae”(Grant number:592010200112)+11 种基金“Diseases of mangrove trees and maintenance of good forestry practice”(Grant number:60201000201 for supporting this study.K.D.Hyde is an Adjunct Professor at Chiang Mai University.Financial support by the German Academic Exchange Service(DAAD)and the Thai Royal Golden Ph.D.Jubilee-Industry program(RGJ)for a joint TRF-DAAD PPP(2012-2014)academic exchange grant to Kevin D.Hyde and Marc Stadler,and the RGJ for a personal grant to Benjarong Thongbai(No.Ph.D/0138/2553 in 4.S.MF/53/A.3)is gratefully acknowledged.Satinee Suetrong thanks to Apilux Loilong for collecting samples.This work was supported by the TRF/BIOTEC program for Biodiversity Research and Training Grant BRT R_352112,R_249001,R_251006.For their continued interest and support we also thank BIOTEC,Prof.Morakot Tanticharoen,Dr.Kanyawim Kirtikara and Dr.Lily Eurwilaichitr.Rungtiwa Phookamsak expresses appreciation to The CAS President’s International Fellowship for Postdoctoral Researchers,project number 2017PB0072the Research Fund from China Postdoctoral Science Foundation(Grant No.Y71B283261)and Chiang Mai University for financial supportWe would like to thank DrsRobert Lucking,AndreAptroot and Cecile Gueidan for available suggestion.Saranyaphat Boonmee would like to thank the National Research Council of Thailand(no.2560A30702021)the Thailand Research Fund(Project No.TRG5880152)Chayanard Phukhamsakda would like to thank Royal Golden Jubilee Ph.D.Program under Thailand Research Fund,for the award of a scholarship no.PHD/0020/2557.Ausana Mapook is grateful to Research and Researchers for Industries(RRI)PHD57I0012.Ting-Chi Wen and Yuan-Pin Xiao are grateful to The National Natural Science Foundation of China(Nos.31460012 and 3161113034)Samantha C.Karunarathna thanks Yunnan Provincial Department of Human Resources and Social Security funded postdoctoral project(Number 179122)for supporting his postdoctoral research study.Ivana Kusan and Zdenko Tkalcec have been partially supported by Croatian Science Foundation under the project HRZZIP-11-2013-2202(ACCTA)We would also like to thank Roman Ozimec and Najla Bakovicfor collecting the samples and partially Oikon Ltd.for financing the fieldwork.We would like to thank Dr.Shaun Pennycook for checking most of the Latin names.Qing Tian and Putarak Chomnunti extend their sincere thanks to the National Research Council of Thailand(grant for Dothideomycetes No.2560A30702014)Putarak Chomnunti would like to thanks for Thailand Research Fund grant no.MRG6080089Dr.Rajesh Jeewon is grateful to University of Mauritius and Mae Fah Luang University for research support.Olinto L.Pereira thank the CAPES,CNPq and FAPEMIG for financial support and ICMBio/FLONA-Paraopeba for providing facilities and permits for the exploration surveys of the mycodiversity in their protected areas.Young Woon Lim and Hyun Lee are grateful to the National Institute of Biological Resources(NIBR 20171104)Republic of Korea.The study was partially supported by the National Science Centre,Poland under grant No.2015/17/D/NZ8/00778 to Julia Pawłowska and UMO-2016/23/B/NZ8/00897 to Marta Wrzosek.Anna Bazzicalupo,Bart Buyck,Daniel Miller and Mary L.Berbee thank WTU and the Burke Museum for scanned images of Benjamin Woo’s datasheets and photographs of Russula specimens and for the loan of Woo’s specimens.Mary L.Berbee acknowledges support by Discovery Grant RGPIN-2016-03746National Science and Engineering Research Council of Canada.Anna Bazzicalupo acknowledges the student grants for field work and study abroad from the NSERC CREATE Training Program in Biodiversity Research,Sonoma County Mycological Association Student Grant,and Daniel E.Stuntz Memorial Foundation Individual Grant.The Key Research Program of Frontier Sciences of the Chinese Academy of Sciences(grant number QYZDY-SSW-SMC014)is also thanked for support.
文摘This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomycetes.We also introduce the new ascomycete genera Acericola,Castellaniomyces,Dictyosporina and Longitudinalis and new species Acericola italica,Alternariaster trigonosporus,Amarenomyces dactylidis,Angustimassarina coryli,Astrocystis bambusicola,Castellaniomyces rosae,Chaetothyrina artocarpi,Chlamydotubeufia krabiensis,Colletotrichum lauri,Collodiscula chiangraiensis,Curvularia palmicola,Cytospora mali-sylvestris,Dictyocheirospora cheirospora,Dictyosporina ferruginea,Dothiora coronillae,Dothiora spartii,Dyfrolomyces phetchaburiensis,Epicoccum cedri,Epicoccum pruni,Fasciatispora calami,Fuscostagonospora cytisi,Grandibotrys hyalinus,Hermatomyces nabanheensis,Hongkongmyces thailandica,Hysterium rhizophorae,Jahnula guttulaspora,Kirschsteiniothelia rostrata,Koorchalomella salmonispora,Longitudinalis nabanheensis,Lophium zalerioides,Magnibotryascoma mali,Meliola clerodendri-infortunati,Microthyrium chinense,Neodidymelliopsis moricola,Neophaeocryptopus spartii,Nigrograna thymi,Ophiocordyceps cossidarum,Ophiocordyceps issidarum,Ophiosimulans plantaginis,Otidea pruinosa,Otidea stipitata,Paucispora kunmingense,Phaeoisaria microspora,Pleurothecium floriforme,Poaceascoma halophila,Periconia aquatica,Periconia submersa,Phaeosphaeria acaciae,Phaeopoacea muriformis,Pseudopithomyces kunmingnensis,Ramgea ozimecii,Sardiniella celtidis,Seimatosporium italicum,Setoseptoria scirpi,Torula gaodangensis and Vamsapriya breviconidiophora.We also provide an amended account of Rhytidhysteron to include apothecial ascomata and a J?hymenium.The type species of Ascotrichella hawksworthii(Xylariales genera incertae sedis),Biciliopsis leptogiicola(Sordariomycetes genera incertae sedis),Brooksia tropicalis(Micropeltidaceae),Bryochiton monascus(Teratosphaeriaceae),Bryomyces scapaniae(Pseudoperisporiaceae),Buelliella minimula(Dothideomycetes genera incertae sedis),Carinispora nypae(Pseudoastrosphaeriellaceae),Cocciscia hammeri(Verrucariaceae),Endoxylina astroidea(Diatrypaceae),Exserohilum turcicum(Pleosporaceae),Immotthia hypoxylon(Roussoellaceae),Licopolia franciscana(Vizellaceae),Murispora rubicunda(Amniculicolaceae)and Doratospora guianensis(synonymized under Rizalia guianensis,Trichosphaeriaceae)were reexamined and descriptions,illustrations and discussion on their familial placement are given based on phylogeny and morphological data.New host records or new country reports are provided for Chlamydotubeufia huaikangplaensis,Colletotrichum fioriniae,Diaporthe subclavata,Diatrypella vulgaris,Immersidiscosia eucalypti,Leptoxyphium glochidion,Stemphylium vesicarium,Tetraploa yakushimensis and Xepicula leucotricha.Diaporthe baccae is synonymized under Diaporthe rhusicola.A reference specimen is provided for Periconia minutissima.Updated phylogenetic trees are provided for most families and genera.We introduce the new basidiomycete species Agaricus purpurlesquameus,Agaricus rufusfibrillosus,Lactifluus holophyllus,Lactifluus luteolamellatus,Lactifluus pseudohygrophoroides,Russula benwooii,Russula hypofragilis,Russula obscurozelleri,Russula parapallens,Russula phoenicea,Russula pseudopelargonia,Russula pseudotsugarum,Russula rhodocephala,Russula salishensis,Steccherinum amapaense,Tephrocybella constrictospora,Tyromyces amazonicus and Tyromyces angulatus and provide updated trees to the genera.We also introduce Mortierella formicae in Mortierellales,Mucoromycota and provide an updated phylogenetic tree.