Dead twigs of Aquilaria sinensis(Thymelaeaceae)with fungal fruiting bodies were collected from Xishuangbanna,Yunnan Province,China.After initial morphological observations,an interesting fungus whose morphologically r...Dead twigs of Aquilaria sinensis(Thymelaeaceae)with fungal fruiting bodies were collected from Xishuangbanna,Yunnan Province,China.After initial morphological observations,an interesting fungus whose morphologically resembled Peroneutypa was isolated.Molecular phylogeny of combined ITS and tub2 showed our fungal collection is phylogenetically closely related to P.mackenziei.However,in morphology,our fungal collection is distinct from P.mackenziei in having an ostiolar canal without periphyses and the absence of paraphyses.Based on unique morphological characteristics and multigene phylogenetic analyses results,our fungal isolate is described in this paper as Peroneutypa aquilariae sp.nov.In addition,this is the first report of the genus Peroneutypa from the host A.sinensis.Full description,illustrations,and a phylogenetic tree to show the placement of the new species are provided.A synoptic table of morphological characteristics in Peroneutypa reported worldwide is also provided.展开更多
All extant species in the rodent family Spalacidae are subterranean and have evolved various traits for underground life.However,the phylogenomic relationships among its three subfamilies(Myospalacinae,Spalacinae,and ...All extant species in the rodent family Spalacidae are subterranean and have evolved various traits for underground life.However,the phylogenomic relationships among its three subfamilies(Myospalacinae,Spalacinae,and Rhizomyinae)and the molecular basis underlying their adaptations to underground life remain poorly understood.Here,we inferred the phylogenomic relationships among these subfamilies based on de novo sequencing the genome of the hoary bamboo rat(Rhizomys pruinosus).Analyses showed that 50%of the identified 11028 one-to-one orthologous protein-coding genes and the concatenated sequences of these orthologous genes strongly supported a sister relationship between Myospalacinae and Rhizomyinae.展开更多
HXK(Hexokinase)gene family and the role of JcHXK1 in Jatropha curcas L.were explored.Totally 4 HXK genes JcHXK1,JcHXK2,JcHXK3 and JcHKL1 were identified and complete ORF of JcHXK1 was cloned.Functional domain,phylogen...HXK(Hexokinase)gene family and the role of JcHXK1 in Jatropha curcas L.were explored.Totally 4 HXK genes JcHXK1,JcHXK2,JcHXK3 and JcHKL1 were identified and complete ORF of JcHXK1 was cloned.Functional domain,phylogenetic evolution and low-temperature expression characteristics were analyzed.Results showed that full-length JcHXK1 cDNA was 1497 bp,encoding 498 amino acids with molecular weight of 53.81 kDa and pI of 5.03.Further phylogenetic evolutionary analysis demonstrated HXK1 protein was clustered into 6 small branches and 2 large branches.Sequence alignment showed that HXK1 contained several conserved glycine residues and hydrophobic channels.Prokaryotic expression vector of JcHXK1 was constructed and 12%SDS-PAGE detection showed that it was highly expressed in E.coli.These research was expected to lay a foundation for further gene functional verification and cold signal transduction mechanism for HXK1 in Jatropha curcas L.展开更多
This article is the 17th in the Fungal Diversity Notes series which allows the researchers to publish fungal collections with updated reports of fungus-host and fungus-geography.Herein we report 97 taxa with four new ...This article is the 17th in the Fungal Diversity Notes series which allows the researchers to publish fungal collections with updated reports of fungus-host and fungus-geography.Herein we report 97 taxa with four new genera distributed in three phyla(Ascomycota,Glomeromycota and Mucoromycota),11 classes,38 orders and 62 families collected from various regions worldwide.This collection is further classified into taxa from 69 genera with four novel genera namely Jinshana,Lithophyllospora,Parapolyplosphaeria and Stegonsporiicola.Furthermore,71 new species,21 new records,one new combination and four novel phylogenetic placements are provided.The new species comprise Acrocalymma estuarinum,Aggregatorygma isidiatum,Alleppeysporonites elsikii,Amphibambusa aquatica,Apiospora hongheensis,Arthrobotrys tachengensis,Calonectria potisiana,Collariella hongheensis,Colletotrichum squamosae,Corynespora chengduensis,Diaporthe beijingensis,Dicellaesporites plicatus,Dicellaesporites verrucatus,Dictyoarthrinium endophyticum,Distoseptispora chiangraiensis,Dothiora eucalypti,Epicoccum indicum,Exesisporites chandrae,Fitzroyomyces pseudopandanicola,Fomitiporia exigua,Fomitiporia rondonii,Fulvifomes subthailandicus,Gigaspora siqueirae,Gymnopus ailaoensis,Hyalorbilia yunnanensis,Hygrocybe minimiholatra,H.mitsinjoensis,H.parviholatra,H.solis,H.vintsy,Helicogermslita kunmingensis,Jinshana tangtangiae,Kirschsteiniothelia dujuanhuensis,Lamproderma subcristatum,Leucoagaricus madagascarensis,Leucocoprinus mantadiaensis,Lithophyllospora australis,Marasmius qujingensis,Melomastia aquilariae,Monoporisporites jansoniusii,M.pattersonii,Monoporisporites valdiyae,Mucispora maesotensis,Mucor soli,Muyocopron yunnanensis,Nigrospora tomentosae,Ocellularia psorirregularis,Ophiocordyceps duyunensis,Oxneriaria nigrodisca,Oxydothis aquatica,O.filiforme,Phacidiella xishuangbannaensis,Phlebiopsis subgriseofuscescens,Pleurothecium takense,Pleurotus tuber-regium,Pseudochaetosphaeronema puerensis,Pseudodactylaria guttulate,Racheliella chinensis,Rhexoacrodictys fangensis,Roussoella neoaquatica,Rubroboletus pruinosus,Sanghuangporus subzonatus,Scytalidium assmuthi,Shrungabeeja kudremukhensis,Spirographa skorinae,Stanjehughesia bambusicola,Stegonsporiicola aurantiaca,Umbelopsis hingganensis,Vararia tenuata,Verruconis pakchongensis,Wongia bandungensis,and Zygosporium cymodoceae.The new combination is Parapolyplosphaeria thailandica(≡Polyplosphaeria thailandica).The 21 new hosts,geographical and habitat records comprise Acrocalymma fici,Apiculospora spartii,Aspergillus subramanianii,Camposporium ramosum,Clonostachys rogersoniana,Colletotrichum brevisporum,C.plurivorum,Collybiopsis gibbosa,Dictyosporium tratense,Distoseptispora adscendens,Exosporium livistonae,Ganoderma gibbosum,Graphis mikuraensis,Gymnosporangium paraphysatum,Lasiodiplodia thailandica,Moesziomyces bullatus,Penicillium cremeogriseum,P.echinulonalgiovense,P.javanicum,P.lanosocoeruleum,P.polonicum,and Pleurotus tuber-regium.Graphis chlorotica,G.panhalensis and G.parilis are given as novel phylogenetic placements.In addition,we provide the morphology of Tarzetta tibetensis which was missing in the previous Fungal Diversity Notes 1611–1716.Identification of characterization of all these taxa are supported by morphological and multigene phylogenetic analyses.展开更多
This article is the 18th contribution to the Fungal Diversity Notes series,in which we document 98 taxa across two phyla,eight classes,21 orders,46 families,and 59 genera.The represent samples of taxa were collected f...This article is the 18th contribution to the Fungal Diversity Notes series,in which we document 98 taxa across two phyla,eight classes,21 orders,46 families,and 59 genera.The represent samples of taxa were collected from a diverse range of regions,including Australia,Benin,Bolivia,Burkina Faso,Cameroon,Canada,China,Czechia,India,Japan,Madagascar,Mexico,New Zealand,Sri Lanka,Thailand,Togo,USA,Uzbekistan and Venezuela.Among these,we introduce one new genus,59 new species,13 new combinations,one new name and 24 new records,along with information on their hosts and geographic distributions.The newly introduced genus is Fusicastoreum,and the newly described species include:Acrogenospora guangxiensis,Agaricus longistipitatus,A.sunanensis,Anthosulcatispora sichuanensis,Anthracoidea siccatae,Bjerkandera meridionalis,Camarophyllopsis brunnea,Candolleomyces analalavaensis,C.kely,C.macrosporus,Ceriporia yunnanensis,Choiromyces mongolicus,Colletotrichum duohuaense,Coprinus variicolor,Cystoderma alticola,C.microspore,C.yadongense,Cytospora lhaluensis,Diaporthe amberina,D.mangiferae,Elsinoe fuzhouensis,Epicocum maxima,Fulvifomes shailashikhara,Fusarium tuberculatum,Fusicastoreum arenarium,F.occidentale,F.pisiglareum,F.trappei,Gyalidea lluxitensis,Gymnopilus rimopileus,Hohenbuehelia triloba,Hymenagaricus ruber,Hypholoma darjeelingensis,Laccaria guizhouensis,Lactifluus aureoelephanti,L.croceivillus,Leucoagaricus ankarafantsikaensis,L.rutilus,Micropsalliota squamulosa,M.vinacea,Neomyrmecridium triseptatum,Niesslia wurfbainiae,Nigropunctata conspicosa,Ophiocordyceps jilinensis,Oxydothis dehongensis,Panaeolus ranwuensis,Pestalotiopsis buxicola,Pleurocordyceps puerensis,Pseudocercospora cunninghamia,Psilocybe zhushanensis,Remotididymella tachibana,Russula gaoligongensis,R.guilinensis,R.pseudovirescens,Sarocladium solani,Septoriella saviya-ramazanovaii,Seriascoma oblonga,Talaromyces pseudorugulosus and Tricholosporum madagascariense.Additionally,species newly transferred from Psilocybe include Deconica caespitosa,D.californica,D.goniospora,D.josecastilloi,D.latispora,D.novozoncuantlensis,D.oregonensis,D.venezuelana and D.vialis.Russula afroscrobiculata is newly transferred from Lactarius afroscrobiculatus,and Puccinia hamamelidis,P.hydrangeicola,P.philadelphi are newly transferred from Aecidium.Furthermore,the new name Puccinia shojiana is proposed as a replacement for Aecidium akebiae.The 24 new records of hosts and geographical distributions include:Agaricus pallidobrunneus,Bovista cretacea,Candolleomyces subsingeri,Clitopilus chichawatniensis,Collybiopsis gibbosa,C.subumbilicata,Curvularia geniculate,Cystoderma japonicum,Cytospora diatrypelloidea,C.schulzeri,Elsinoe leucospermi,Fulvifomes aurantiacus,Laccaria macrobasidia,Menisporopsis pandanicola,M.pirozynskii,Multifurca pseudofurcata,Musicillium elettariae,Myrmecridium pulvericola,Ophiocordyceps asiana,O.campes,Phellinus resupinatus,Phylloporia afrospathulata,Tropicoporus linteus and Typhula incarnate.All taxa are supported by both morphological and phylogenetic analyses.展开更多
Yunnan Province is located in southwestern China,at the core and intersection of the“Himalaya”,“Indo-Burma”and“Mountains of Southwest China”biodiversity hotspots.It is the most biodiverse province in China,actin...Yunnan Province is located in southwestern China,at the core and intersection of the“Himalaya”,“Indo-Burma”and“Mountains of Southwest China”biodiversity hotspots.It is the most biodiverse province in China,acting as a major center for the origin and diversification of numerous species,and of which lignicolous freshwater fungi are one of the rich bioresources.As a part of our ongoing studies on freshwater fungi in Yunnan Province China,we collected lignicolous freshwater ascomycetes from Yunnan plateau lakes,combining morphological characteristics and multi-gene phylogenetic analysis(including,ITS,LSU,SSU,tef1-α,tub2 and rpb2)to identify the species and reveal their phylogenetic placement.A total of 293 freshwater ascomycetes were collected,and through rigorous analysis,126 species were identified,spanning three classes,24 orders,39 families,and 70 genera.Most of these fungi belong to Dothideomycetes and Sordariomycetes,with a few of Eurotiomycetes.Based on morphological and phylogenetic analyses,we introduce two new genera,Neomoromyces and Rostraeuseptisporum,and 40 new species,viz.,Apiospora fuxianhuensis,A.lacustris,Atractospora hydei,Chaetopsina hydei,C.septata,Chloridium hydei,Ch.yunnanense,Dematiosporium hydei,D.muriforme,Dictyocheirospora yunnanensis,Distoseptispora dujuanhuensis,Di.hongheensis,Di.jingdongensis,Halobyssothecium hydei,Hongkongmyces hydei,Kirschsteiniothelia hydei,Mytilinidion hydei,Neomoromyces hydei,Obliquifusoideum hydei,Ophioceras yunnanense,Plagiascoma hydei,Pseudodactylaria lacustris,Pseudostanjehughesia hydei,Rostraeuseptisporum hydei,Sporidesmiella dujuanhuensis,S.guttulata,S.hongheensis,S.hydei,S.lacustris,Sporidesmium dianchiense,Sp.distoseptatum,Sp.dujuanhuense,Sp.hongheense,Sp.lacustris,Sp.kunmingense,Sp.yangzonghaiense,Sp.yilonghuense,Thysanorea hydei,Tetraploa verrucosa,Xylolentia hydei.Detailed morphological descriptions and illustrations of these species are provided,along with a discussion of their phylogenetic relationships and distinctive morphological characters.Furthermore,five new combinations are introduced,viz.,Pseudodactylaria flammulicornuta(≡Dodactylaria flammulicornuta),P.palmae(≡Do.palmae),P.tunicata(≡Do.tunicata),P.uliginicola(≡Do.uliginicola)and Pseudostanjehughesia verrucosa(≡Ceratosporium verrucosum).Based on molecular sequence data and morphological characteristics,Dictyocheirospora aquadulcis and Dic.lithocarpi have been synonymized with Dic.heptaspora,Dic.alangii synonymized with Dic.appendiculata;Dictyosporium lakefuxianense synonymized with Pseudodictyosporium wauense,Distoseptispora nanchangensis synonymized with Distoseptispora aquatica,Chaetopsina beijingensis synonymized with Ch.fulva.Ten new geographical records are reported in China and 10 species are first reported from freshwater habitats,and 6 species are newly reported both from China and from freshwater habitats.This study fills a gap in the research on fungal diversity in Yunnan Province,and improves our understanding of their ecological roles in freshwater ecosystems.Phylogenetic analysis provides a reliable molecular framework for the classification of lignicolous freshwater fungi,supporting the reassessment of fungal taxonomy and ensuring a more objective and evolutionarily natural classification of species.This work is dedicated to Professor Kevin D.Hyde on his 70th birthday,in recognition of his lifetime contributions to mycology and his extensive research and training of students.His wide-ranging work on freshwater fungi is highlighted in this paper.展开更多
The global diversity of fungi has been estimated using several different approaches.There is somewhere between 2–11 million estimated species,but the number of formally described taxa is around 150,000,a tiny fractio...The global diversity of fungi has been estimated using several different approaches.There is somewhere between 2–11 million estimated species,but the number of formally described taxa is around 150,000,a tiny fraction of the total.In this paper,we examine 12 ascomycete genera as case studies to establish trends in fungal species descriptions,and introduce new species in each genus.To highlight the importance of traditional morpho-molecular methods in publishing new species,we introduce novel taxa in 12 genera that are considered to have low species discovery.We discuss whether the species are likely to be rare or due to a lack of extensive sampling and classification.The genera are Apiospora,Bambusicola,Beltrania,Capronia,Distoseptispora,Endocalyx,Neocatenulostroma,Neodeightonia,Paraconiothyrium,Peroneutypa,Phaeoacremonium and Vanakripa.We discuss host-specificity in selected genera and compare the number of species epithets in each genus with the number of ITS(barcode)sequences deposited in GenBank and UNITE.We furthermore discuss the relationship between the divergence times of these genera with those of their hosts.We hypothesize whether there might be more species in these genera and discuss hosts and habitats that should be investigated for novel species discovery.展开更多
Coelomycete is a general term used for asexual fungi which produce conidia in fruiting bodies:pycnidial,acervular,cupulate,pycnothyria or stromatic conidiomata.The group contains numerous plant pathogenic,saprobic and...Coelomycete is a general term used for asexual fungi which produce conidia in fruiting bodies:pycnidial,acervular,cupulate,pycnothyria or stromatic conidiomata.The group contains numerous plant pathogenic,saprobic and endophytic species associated with a wide range of hosts.Traditionally,morphological characters and host associations have been used as criteria to identify and classify coelomycetes,and this has resulted in a poor understanding of their generic and species boundaries.DNA based taxonomic studies have provided a better outlook of the phylogenetic and evolutionary trends in coelomycetes.However,the present outcomes represent only a preliminary step towards the understanding of coelomycetes.Many genera have not been revisited since they were first described.The present study revises the classification of the hyaline-spored coelomycetes and provides a modern taxonomic framework based on both morphology and phylogeny.In total,248 genera were investigated,of which less than 100 are known to have sequence data.Multi-locus sequence data analyses of 28S nrDNA,18S nrDNA,ITS,RNA polymerase II second largest subunit(rpb2),and part of the translation elongation factor 1-alpha gene(tef1)andβ-tubulin(tub2)gene regions were analysed.As a result,three new genera and 23 new species are introduced.In addition,three new links between sexual and asexual genera are provided.There are 138 genera that lack sequence data,and these are treated as Ascomycota,genera incertae sedis.Line drawings and descriptions are provided based on the examination of types and fresh collections and on the literature.展开更多
Hypocreomycetidae is a highly diverse group with species from various habitats. This subclass has been reported as pathogenic,endophytic, parasitic, saprobic, fungicolous, lichenicolous, algicolous, coprophilous and i...Hypocreomycetidae is a highly diverse group with species from various habitats. This subclass has been reported as pathogenic,endophytic, parasitic, saprobic, fungicolous, lichenicolous, algicolous, coprophilous and insect fungi from aquatic andterrestrial habitats. In this study, we focused on freshwater fungi of Hypocreomycetidae which resulted 41 fresh collectionsfrom China and Thailand. Based on morphological and phylogenetic analyses, we identified 26 species that belong to twoorders (Hypocreales and Microascales) and six families (Bionectriaceae, Halosphaeriaceae, Microascaceae, Nectriaceae,Sarocladiaceae and Stachybotryaceae). Ten new species are introduced and 13 new habitats and geographic records arereported. Mariannaea superimposita, Stachybotrys chartarum and S. chlorohalonatus are recollected from freshwater habitatsin China. Based on phylogenetic analysis of combined LSU, ITS, SSU, rpb2 and tef1-α sequences data, Emericellopsisis transferred to Hypocreales genera incertae sedis;Pseudoacremonium is transferred to Bionectriaceae;Sedecimiella isplaced in Nectriaceae;Nautosphaeria and Tubakiella are excluded from Halosphaeriaceae and placed in Microascalesgenera incertae sedis;and Faurelina is excluded from Hypocreomycetidae. Varicosporella is placed under Atractium as asynonym of Atractium. In addition, phylogenetic analysis and divergence time estimates showed that Ascocodina, Campylospora,Cornuvesica and Xenodactylariaceae form distinct lineages in Hypocreomycetidae and they evolved in the family/order time frame. Hence, a new order (Xenodactylariales) and three new families (Ascocodinaceae, Campylosporaceae andCornuvesicaceae) are introduced based on phylogenetic analysis, divergence time estimations and morphological characters.Ancestral character state analysis is performed for different habitats of Hypocreomycetidae including freshwater, marineand terrestrial taxa. The result indicates that marine and freshwater fungi evolved independently from terrestrial ancestors.The results further support those early diverging clades of this subclass, mostly comprising terrestrial taxa and freshwaterand marine taxa have been secondarily derived, while the crown clade (Nectriaceae) is represented in all three habitats. Theevolution of various morphological adaptations towards their habitual changes are also discussed.展开更多
This article is the ninth in the series of Fungal Diversity Notes,where 107 taxa distributed in three phyla,nine classes,31 orders and 57 families are described and illustrated.Taxa described in the present study incl...This article is the ninth in the series of Fungal Diversity Notes,where 107 taxa distributed in three phyla,nine classes,31 orders and 57 families are described and illustrated.Taxa described in the present study include 12 new genera,74 new species,three new combinations,two reference specimens,a re-circumscription of the epitype,and 15 records of sexualasexual morph connections,new hosts and new geographical distributions.Twelve new genera comprise Brunneofusispora,Brunneomurispora,Liua,Lonicericola,Neoeutypella,Paratrimmatostroma,Parazalerion,Proliferophorum,Pseudoastrosphaeriellopsis,Septomelanconiella,Velebitea and Vicosamyces.Seventy-four new species are Agaricus memnonius,A.langensis,Aleurodiscus patagonicus,Amanita flavoalba,A.subtropicana,Amphisphaeria mangrovei,Baorangia major,Bartalinia kunmingensis,Brunneofusispora sinensis,Brunneomurispora lonicerae,Capronia camelliaeyunnanensis,Clavulina thindii,Coniochaeta simbalensis,Conlarium thailandense,Coprinus trigonosporus,Liua muriformis,Cyphellophora filicis,Cytospora ulmicola,Dacrymyces invisibilis,Dictyocheirospora metroxylonis,Distoseptispora thysanolaenae,Emericellopsis koreana,Galiicola baoshanensis,Hygrocybe lucida,Hypoxylon teeravasati,Hyweljonesia indica,Keissleriella caraganae,Lactarius olivaceopallidus,Lactifluus midnapurensis,Lembosia brigadeirensis,Leptosphaeria urticae,Lonicericola hyaloseptispora,Lophiotrema mucilaginosis,Marasmiellus bicoloripes,Marasmius indojasminodorus,Micropeltis phetchaburiensis,Mucor orantomantidis,Murilentithecium lonicerae,Neobambusicola brunnea,Neoeutypella baoshanensis,Neoroussoella heveae,Neosetophoma lonicerae,Ophiobolus malleolus,Parabambusicola thysanolaenae,Paratrimmatostroma kunmingensis,Parazalerion indica,Penicillium dokdoense,Peroneutypa mangrovei,Phaeosphaeria cycadis,Phanerochaete australosanguinea,Plectosphaerella kunmingensis,Plenodomus artemisiae,P.lijiangensis,Proliferophorum thailandicum,Pseudoastrosphaeriellopsis kaveriana,Pseudohelicomyces menglunicus,Pseudoplagiostoma mangiferae,Robillarda mangiferae,Roussoella elaeicola,Russula choptae,R.uttarakhandia,Septomelanconiella thailandica,Spencermartinsia acericola,Sphaerellopsis isthmospora,Thozetella lithocarpi,Trechispora echinospora,Tremellochaete atlantica,Trichoderma koreanum,T.pinicola,T.rugulosum,Velebitea chrysotexta,Vicosamyces venturisporus,Wojnowiciella kunmingensis and Zopfiella indica.Three new combinations are Baorangia rufomaculata,Lanmaoa pallidorosea and Wojnowiciella rosicola.The reference specimens of Canalisporium kenyense and Tamsiniella labiosa are designated.The epitype of Sarcopeziza sicula is re-circumscribed based on cyto-and histochemical analyses.The sexual-asexual morph connection of Plenodomus sinensis is reported from ferns and Cirsium for the first time.In addition,the new host records and country records are Amanita altipes,A.melleialba,Amarenomyces dactylidis,Chaetosphaeria panamensis,Coniella vitis,Coprinopsis kubickae,Dothiorella sarmentorum,Leptobacillium leptobactrum var.calidus,Muyocopron lithocarpi,Neoroussoella solani,Periconia cortaderiae,Phragmocamarosporium hederae,Sphaerellopsis paraphysata and Sphaeropsis eucalypticola.展开更多
Numerous new taxa and classifications of Dothideomycetes have been published following the last monograph of families of Dothideomycetes in 2013.A recent publication by Honsanan et al.in 2020 expanded information of f...Numerous new taxa and classifications of Dothideomycetes have been published following the last monograph of families of Dothideomycetes in 2013.A recent publication by Honsanan et al.in 2020 expanded information of families in Dothideo-mycetidae and Pleosporomycetidae with modern classifications.In this paper,we provide a refined updated document on orders and families incertae sedis of Dothideomycetes.Each family is provided with an updated description,notes,including figures to represent the morphology,a list of accepted genera,and economic and ecological significances.We also provide phylogenetic trees for each order.In this study,31 orders which consist 50 families are assigned as orders incertae sedis in Dothideomycetes,and 41 families are treated as families incertae sedis due to lack of molecular or morphological evidence.The new order,Catinellales,and four new families,Catinellaceae,Morenoinaceae Neobuelliellaceae and Thyrinulaceae are introduced.Seven genera(Neobuelliella,Pseudomicrothyrium,Flagellostrigula,Swinscowia,Macroconstrictolumina,Pseudobogoriella,and Schummia)are introduced.Seven new species(Acrospermum urticae,Bogoriella complexoluminata,Dothiorella ostryae,Dyfrolomyces distoseptatus,Macroconstrictolumina megalateralis,Patellaria microspora,and Pseu-domicrothyrium thailandicum)are introduced base on morphology and phylogeny,together with two new records/reports and five new collections from different families.Ninety new combinations are also provided in this paper.展开更多
Knowledge of the relationships and thus the classification of fungi,has developed rapidly with increasingly widespread use of molecular techniques,over the past 10–15 years,and continues to accelerate.Several genera ...Knowledge of the relationships and thus the classification of fungi,has developed rapidly with increasingly widespread use of molecular techniques,over the past 10–15 years,and continues to accelerate.Several genera have been found to be polyphyletic,and their generic concepts have subsequently been emended.New names have thus been introduced for species which are phylogenetically distinct from the type species of particular genera.The ending of the separate naming of morphs of the same species in 2011,has also caused changes in fungal generic names.In order to facilitate access to all important changes,it was desirable to compile these in a single document.The present article provides a list of generic names of Ascomycota(approximately 6500 accepted names published to the end of 2016),including those which are lichen-forming.Notes and summaries of the changes since the last edition of‘Ainsworth&Bisby’s Dictionary of the Fungi’in 2008 are provided.The notes include the number of accepted species,classification,type species(with location of the type material),culture availability,life-styles,distribution,and selected publications that have appeared since 2008.This work is intended to provide the foundation for updating the ascomycete component of the"Without prejudice list of generic names of Fungi"published in 2013,which will be developed into a list of protected generic names.This will be subjected to the XIXth International Botanical Congress in Shenzhen in July 2017 agreeing to a modification in the rules relating to protected lists,and scrutiny by procedures determined by the Nomenclature Committee for Fungi(NCF).The previously invalidly published generic names Barriopsis,Collophora(as Collophorina),Cryomyces,Dematiopleospora,Heterospora(as Heterosporicola),Lithophila,Palmomyces(as Palmaria)and Saxomyces are validated,as are two previously invalid family names,Bartaliniaceae and Wiesneriomycetaceae.Four species of Lalaria,which were invalidly published are transferred to Taphrina and validated as new combinations.Catenomycopsis Tibell&Constant.is reduced under Chaenothecopsis Vain.,while Dichomera Cooke is reduced under Botryosphaeria Ces.&De Not.(Art.59).展开更多
This article is the 14th in the Fungal Diversity Notes series,wherein we report 98 taxa distributed in two phyla,seven classes,26 orders and 50 families which are described and illustrated.Taxa in this study were coll...This article is the 14th in the Fungal Diversity Notes series,wherein we report 98 taxa distributed in two phyla,seven classes,26 orders and 50 families which are described and illustrated.Taxa in this study were collected from Australia,Brazil,Burkina Faso,Chile,China,Cyprus,Egypt,France,French Guiana,India,Indonesia,Italy,Laos,Mexico,Russia,Sri Lanka,Thailand,and Vietnam.There are 59 new taxa,39 new hosts and new geographical distributions with one new combination.The 59 new species comprise Angustimassarina kunmingense,Asterina lopi,Asterina brigadeirensis,Bartalinia bidenticola,Bartalinia caryotae,Buellia pruinocalcarea,Coltricia insularis,Colletotrichum fexuosum,Colletotrichum thasutense,Coniochaeta caraganae,Coniothyrium yuccicola,Dematipyriforma aquatic,Dematipyriforma globispora,Dematipyriforma nilotica,Distoseptispora bambusicola,Fulvifomes jawadhuvensis,Fulvifomes malaiyanurensis,Fulvifomes thiruvannamalaiensis,Fusarium purpurea,Gerronema atrovirens,Gerronema favum,Gerronema keralense,Gerronema kuruvense,Grammothele taiwanensis,Hongkongmyces changchunensis,Hypoxylon inaequale,Kirschsteiniothelia acutisporum,Kirschsteiniothelia crustaceum,Kirschsteiniothelia extensum,Kirschsteiniothelia septemseptatum,Kirschsteiniothelia spatiosum,Lecanora immersocalcarea,Lepiota subthailandica,Lindgomyces guizhouensis,Marthe asmius pallidoaurantiacus,Marasmius tangerinus,Neovaginatispora mangiferae,Pararamichloridium aquisubtropicum,Pestalotiopsis piraubensis,Phacidium chinaum,Phaeoisaria goiasensis,Phaeoseptum thailandicum,Pleurothecium aquisubtropicum,Pseudocercospora vernoniae,Pyrenophora verruculosa,Rhachomyces cruralis,Rhachomyces hyperommae,Rhachomyces magrinii,Rhachomyces platyprosophi,Rhizomarasmius cunninghamietorum,Skeletocutis cangshanensis,Skeletocutis subchrysella,Sporisorium anadelphiae-leptocomae,Tetraploa dashaoensis,Tomentella exiguelata,Tomentella fuscoaraneosa,Tricholomopsis lechatii,Vaginatispora favispora and Wetmoreana blastidiocalcarea.The new combination is Torula sundara.The 39 new records on hosts and geographical distribution comprise Apiospora guiyangensis,Aplosporella artocarpi,Ascochyta medicaginicola,Astrocystis bambusicola,Athelia rolfsii,Bambusicola bambusae,Bipolaris luttrellii,Botryosphaeria dothidea,Chlorophyllum squamulosum,Colletotrichum aeschynomenes,Colletotrichum pandanicola,Coprinopsis cinerea,Corylicola italica,Curvularia alcornii,Curvularia senegalensis,Diaporthe foeniculina,Diaporthe longicolla,Diaporthe phaseolorum,Diatrypella quercina,Fusarium brachygibbosum,Helicoma aquaticum,Lepiota metulispora,Lepiota pongduadensis,Lepiota subvenenata,Melanconiella meridionalis,Monotosporella erecta,Nodulosphaeria digitalis,Palmiascoma gregariascomum,Periconia byssoides,Periconia cortaderiae,Pleopunctum ellipsoideum,Psilocybe keralensis,Scedosporium apiospermum,Scedosporium dehoogii,Scedosporium marina,Spegazzinia deightonii,Torula fci,Wiesneriomyces laurinus and Xylaria venosula.All these taxa are supported by morphological and multigene phylogenetic analyses.This article allows the researchers to publish fungal collections which areimportant for future studies.An updated,accurate and timely report of fungus-host and fungus-geography is important.We also provide an updated list of fungal taxa published in the previous fungal diversity notes.In this list,erroneous taxa and synonyms are marked and corrected accordingly.展开更多
Basidiomycota is one of the major phyla in the fungal tree of life.The outline of Basidiomycota provides essential taxonomic information for researchers and workers in mycology.In this study,we present a time-framed p...Basidiomycota is one of the major phyla in the fungal tree of life.The outline of Basidiomycota provides essential taxonomic information for researchers and workers in mycology.In this study,we present a time-framed phylogenomic tree with 487 species of Basidiomycota from 127 families,47 orders,14 classes and four subphyla;we update the outline of Basidiomycota based on the phylogenomic relationships and the taxonomic studies since 2019;and we provide notes for each order and discuss the history,defining characteristics,evolution,justification of orders,problems,significance,and plates.Our phylogenomic analysis suggests that the subphyla diverged in a time range of 443-490 Myr(million years),classes in a time range of 312-412 Myr,and orders in a time range of 102-361 Myr.Families diverged in a time range of 50-289 Myr,76-224 Myr,and 62-156 Myr in Agaricomycotina,Pucciniomycotina,and Ustilaginomycotina,respectively.Based on the phylogenomic relationships and divergence times,we propose a new suborder Mycenineae in Agaricales to accommodate Mycenaceae.In the current outline of Basidiomycota,there are four subphyla,20 classes,77 orders,297 families,and 2134 genera accepted.When building a robust taxonomy of Basidiomycota in the genomic era,the generation of molecular phylogenetic data has become relatively easier.Finding phenotypical characters,especially those that can be applied for identification and classification,however,has become increasingly challenging.展开更多
Fungi are highly important biotic components of terrestrial ecosystems,but we still have a very limited understanding about their diversity and distribution.This data article releases a global soil fungal dataset of t...Fungi are highly important biotic components of terrestrial ecosystems,but we still have a very limited understanding about their diversity and distribution.This data article releases a global soil fungal dataset of the Global Soil Mycobiome consortium(GSMc)to boost further research in fungal diversity,biogeography and macroecology.The dataset comprises 722,682 fungal operational taxonomic units(OTUs)derived from PacBio sequencing of full-length ITS and 18S-V9 variable regions from 3200 plots in 108 countries on all continents.The plots are supplied with geographical and edaphic metadata.The OTUs are taxonomically and functionally assigned to guilds and other functional groups.The entire dataset has been corrected by excluding chimeras,index-switch artefacts and potential contamination.The dataset is more inclusive in terms of geographical breadth and phylogenetic diversity of fungi than previously published data.The GSMc dataset is available over the PlutoF repository.展开更多
Helicosporous hyphomycetes are a fungal group with similar coiled or spiral conidial morphology but significant differences in genetic information,resulting in them being distributed in different phyla,classes,orders,...Helicosporous hyphomycetes are a fungal group with similar coiled or spiral conidial morphology but significant differences in genetic information,resulting in them being distributed in different phyla,classes,orders,and families.However,there are no comprehensive studies for this group.In this study,we have systematically organized the helicosporous taxa,revised their classification and provided a modern taxonomic framework based on morphology and phylogeny.This group encompasses 112 genera and 474 species distributed in three phyla,ten classes,20 orders and 25 families,while some taxa are classified as incertae sedis within Ascomycota.The illustrations and notes for all helicosporous genera and the drawings of the type or representative species that have not been collected and examined are provided.Additionally,a phylogenetic taxonomic distribution of helicosporous families based on maximum likelihood analysis of LSU,ITS,SSU,tef1-α,and rpb2 sequence data is provided.In addition,we obtained 160 new collections from China and Thailand.Based on molecular evidence and morphological characteristics,six new helicosporous genera viz.Acrohelicosporium,Hyalohelicoon,Hyalohelisphora,Hyalotubeufia,Pseudocirrenalia,and Pseudohelicosporium and 53 new species,viz.Acrohelicosporium abundatum,A.aquaticum,A.guizhouense,A.viridisporum,Berkleasmium hainanense,Helicoma brunneum,H.astrictum,H.dipterocarpi,H.guizhouense,H.sclerotiferum,H.tropicum,H.yinggelingense,Helicoma yunnanense,Helicosporium acropleurogenum,H.brunneisporum,H.changjiangense,H.jiangkouense,H.latisporum,H.ramosiphorum,Helicotubeufia laxisporum,Hya-lohelicoon multiseptatum,Hyalohelisphora lignicola,Neohelicomyces acropleurogenus,N.aseptatus,N.edgeworthiae,N.guttulatus,N.lignicola,N.macrosporus,N.qixingyaensis,N.xiayadongensis,N.yunnanensis,N.baihualingense,Neoheli-cosporium hainanense,N.jianfenglingense,N.latisporum,Parahelicomyces latisporus,Pa.laxisporus,Pa.parvisporus,Paratrimmatostroma helicosporum,Pleurohelicosporium brunneisporum,Pl.hyalosporum,Pl.multiseptatum,Pseudocir-renalia aquialpina,Pseudohelicosporium irregular,Ps.laxisporum,Pseudotubeufia dematiolaxispora,Sclerococcum astric-tum,Tubeufia acropleurogena,T.baomeilingensis,T.denticulate,T.subrenispora,T.tropica,and Troposporella guttulata are introduced.Additionally,37 new records and 22 known species are reported.Furthermore,we synonymize 30 species and provide 30 new combinations.Complete descriptions,illustrations,notes,and phylogenetic trees based on maximum likelihood and Bayesian analyses of LSU,ITS,mtSSU,SSU,tef1-α,and rpb2 sequence data are also provided for the new taxa,new combinations,new records,and known species.A worldwide checklist comprising the distribution,habitat,and availability of molecular data for the accepted helicosporous species is also provided.展开更多
Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2–3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics s...Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2–3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics since Hibbett et al.,and the definition and the higher ranks(e.g.,phyla)of the‘true fungi’have been revised in several subsequent publications.Rapid accumulation of novel genomic data and the advancements in phylogenetics now facilitate a robust and precise foundation for the higher-level classification within the kingdom.This study provides an updated classification of the kingdom Fungi,drawing upon a comprehensive phylogenomic analysis of Holomycota,with which we outline well-supported nodes of the fungal tree and explore more contentious groupings.We accept 19 phyla of Fungi,viz.Aphelidiomycota,Ascomycota,Basidiobolomycota,Basidiomycota,Blastocladiomycota,Calcarisporiellomycota,Chytridiomycota,Entomophthoromycota,Entorrhizomycota,Glomeromycota,Kickxellomycota,Monoblepharomycota,Mortierellomycota,Mucoromycota,Neocallimastigomycota,Olpidiomycota,Rozellomycota,Sanchytriomycota,and Zoopagomycota.In the phylogenies,Caulochytriomycota resides in Chytridiomycota;thus,the former is regarded as a synonym of the latter,while Caulochytriomycetes is viewed as a class in Chytridiomycota.We provide a description of each phylum followed by its classes.A new subphylum,Sanchytriomycotina Karpov is introduced as the only subphylum in Sanchytriomycota.The subclass Pneumocystomycetidae Kirk et al.in Pneumocystomycetes,Ascomycota is invalid and thus validated.Placements of fossil fungi in phyla and classes are also discussed,providing examples.展开更多
Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2-3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics si...Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2-3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics since Hibbett et al.,and the definition and the higher ranks(e.g.,phyla)of the‘true fungi’have been revised in several subsequent publications.Rapid accumulation of novel genomic data and the advancements in phylogenetics now facilitate a robust and precise foundation for the higher-level classification within the kingdom.This study provides an updated classification of the kingdom Fungi,drawing upon a comprehensive phylogenomic analysis of Holomycota,with which we outline well-supported nodes of the fungal tree and explore more contentious groupings.We accept 19 phyla of Fungi,viz.Aphelidiomycota,Ascomycota,Basidiobolomycota,Basidiomycota,Blastocladiomycota,Calcarisporiellomycota,Chytridiomycota,Entomophthoromycota,Entorrhizomycota,Glomeromycota,Kickxellomycota,Monoblepharomycota,Mortierellomycota,Mucoromycota,Neocal-limastigomycota,Olpidiomycota,Rozellomycota,Sanchytriomycota,and Zoopagomycota.In the phylogenies,Caulochy-triomycota resides in Chytridiomycota;thus,the former is regarded as a synonym of the latter,while Caulochytriomycetes is viewed as a class in Chytridiomycota.We provide a description of each phylum followed by its classes.A new subphylum,Sanchytriomycotina Karpov is introduced as the only subphylum in Sanchytriomycota.The subclass Pneumocystomycetidae Kirk et al.in Pneumocystomycetes,Ascomycota is invalid and thus validated.Placements of fossil fungi in phyla and classes are also discussed,providing examples.展开更多
基金supported by the National Natural Science Foundation of China(No.NSFC 31760013,31950410558,32260004)High-Level Talent Recruitment Plan of Yunnan Provinces('Young Talents'Program)Tian-Ye Du thanks Mae Fah Luang University for the award of fee-less scholarship.Ausana Mapook thanks the Mae Fah Luang University Fund(Grant No.651A16029)。
文摘Dead twigs of Aquilaria sinensis(Thymelaeaceae)with fungal fruiting bodies were collected from Xishuangbanna,Yunnan Province,China.After initial morphological observations,an interesting fungus whose morphologically resembled Peroneutypa was isolated.Molecular phylogeny of combined ITS and tub2 showed our fungal collection is phylogenetically closely related to P.mackenziei.However,in morphology,our fungal collection is distinct from P.mackenziei in having an ostiolar canal without periphyses and the absence of paraphyses.Based on unique morphological characteristics and multigene phylogenetic analyses results,our fungal isolate is described in this paper as Peroneutypa aquilariae sp.nov.In addition,this is the first report of the genus Peroneutypa from the host A.sinensis.Full description,illustrations,and a phylogenetic tree to show the placement of the new species are provided.A synoptic table of morphological characteristics in Peroneutypa reported worldwide is also provided.
基金supported by the National Natural Science Foundation of China(31922010,31871270,31260087,31460561)China National Center for Biotechnology Development(2020YFC0847000)+3 种基金Key Research Program of the Chinese Academy of Sciences(KJZD-SW-L11)Yunnan Provincial Science and Technology Department(2019FI008)Yunnan Applied Basic Research Projects(2018FB050)Training Funds of Ten-thousand Talents Program of Yunnan Province(to L.Z.T.)。
文摘All extant species in the rodent family Spalacidae are subterranean and have evolved various traits for underground life.However,the phylogenomic relationships among its three subfamilies(Myospalacinae,Spalacinae,and Rhizomyinae)and the molecular basis underlying their adaptations to underground life remain poorly understood.Here,we inferred the phylogenomic relationships among these subfamilies based on de novo sequencing the genome of the hoary bamboo rat(Rhizomys pruinosus).Analyses showed that 50%of the identified 11028 one-to-one orthologous protein-coding genes and the concatenated sequences of these orthologous genes strongly supported a sister relationship between Myospalacinae and Rhizomyinae.
基金supported by the National Natural Science Foundation of China(31460179,2017FG001-51)。
文摘HXK(Hexokinase)gene family and the role of JcHXK1 in Jatropha curcas L.were explored.Totally 4 HXK genes JcHXK1,JcHXK2,JcHXK3 and JcHKL1 were identified and complete ORF of JcHXK1 was cloned.Functional domain,phylogenetic evolution and low-temperature expression characteristics were analyzed.Results showed that full-length JcHXK1 cDNA was 1497 bp,encoding 498 amino acids with molecular weight of 53.81 kDa and pI of 5.03.Further phylogenetic evolutionary analysis demonstrated HXK1 protein was clustered into 6 small branches and 2 large branches.Sequence alignment showed that HXK1 contained several conserved glycine residues and hydrophobic channels.Prokaryotic expression vector of JcHXK1 was constructed and 12%SDS-PAGE detection showed that it was highly expressed in E.coli.These research was expected to lay a foundation for further gene functional verification and cold signal transduction mechanism for HXK1 in Jatropha curcas L.
基金National Natural Science Foundation of China(Nos.32370021 and 31860008)the Innovative team program of the Department of Education of Guangdong Province(Nos.2022KCXTD015 and 2022ZDJS020)+75 种基金the Project of Fungi Investigation in Tomur Mountains National Nature Reserve(2021-01-139-2)the National Natural Science Foundation of China(No.32100012)the Science and Technology Bureau of Guangzhou City(202201011618)to acknowledge Zhongkai University of Agriculture and Engineering,talent funding(Grant number KA210319288)the Guangzhou Science and Technology Plan Project(2023A04J1427)the Key Laboratory of Green Prevention and Control on Fruits and Vegetables in South China,Guangdong(KA21031C502)Zhongkai University of Agriculture and Engineering,Guangzhou,Guangdong,China(KA22016B746)for financial research supportthe UP System Balik PhD Program(OVPAA-BPhD-2022-02)Yunnan Department of Sciences and Technology of China(Grant No:202101AS070045,202205AM070007,202302AE090023,202303AP140001)the financial support provided by the Distinguished Scientist Fellowship Program(DSFP)at King Saud University in Riyadh,Saudi ArabiaScience&Engineering Research Board(SERB),Department of Science&Technology(DST)Govt.of India(Scheme No.CRG/2020/006053)Institution of Eminence(IoE)Scheme,Ministry of Human Resource and Development(MHRD),Govt.of India(No.R/Dev/D/IoE/Incentive/2021-22/32387)for providing financial supportGenivaldo Alves-Silva,Elisandro R.Drechsler-Santos,Rosa M.B.da Silveira,and Aristóteles Góes-Neto are supported by Conselho Nacional de Desenvolvimento Científico e Tecnológico(CNPq)(Grant No.153025/2022-0,310150/2022-1,308122/2019-4,308880/2022-6,respectively)the CNPq and FAPESC under the PROTAX program(Grant No.FAPESC 2021TR390,Grant No.CNPq 441821/2020-0)and M.E.Engels for collectionsde Desenvolvimento Científico e Tecnológico(CNPq),Brazil,that provided research grants to B.T.Goto(proc.306632/2022-5)support from the National Science and Technology Council is acknowledged(101-2621-B-019-001-MY3)supported by Prof.Dr.M.Schnittler(University of Greifswald,Germany),through the DFG project RESPONSE(RTG2010)study by Ralaiveloarisoa Asupported by the Today’s Flora for Tomorrow project funded by a generous donor through the Kew Foundation,and by a grant from the Bentham-Moxon Trustsupported by the Bulgarian National Science Fund(Grant no.KP-06-N51/10/16.11.2021)the herbarium at the Botanic Garden and Botanical Museum Berlin received support from the SYNTHESYS Plus Project http://www.synthesys.info,which is financed by the H2020 Research Infrastructures Programme(Grant no.DE-TAF-8193)providing tuition fee scholarship.The Center for Yunnan Plateau Biological Resources Protection and Utilization,College of Biological Resource and Food Engineering,Qujing Normal University is thanked for the facilities provided for the research worksupported by the National Natural Science Foundation of China(No.32060012)Muhammad Usman and Abdul Nasir Khalid would like to thank Dr.Kamran Habib,Dr.Muhammad Ali,Mr.Mohammad Aijaz Ahmad and Mr.Muhammad Shafiq for accompanying during the collection surveythe Science and Engineering Research Board(SERB)the Department of Science and Technology,Government of India,for their financial support through CRG/2020/000668 projectthe MACS Agharkar Research Institute in Pune,for providing the lab resources and motivating us in our research workFunding Scheme for Research and Innovation grant for the project“Discovery of new antivirals using cultures of filamentous fungi collected in Europe and Thailand as compound sources(JFS20ST-127 Antiviralfun,P2150844)”BIOTEC-Novartis collaboration for microbial bioprospecting project(P20-52031)to CSIR-HRDG,India,for providing her with financial assistance as part of the JRF fellowship(09/0670(13602)/2022-EMR-I)to Javier Etayo(Pamplona)for his valuable suggestionsNational Science Foundation of China(No.31870528)support from Iran National Science Foundation(INSF,no.4000655)Coordenação de Aperfeiçoamento de Pessoal de Nível Superior-Brasil(CAPES)-Finance Code 001 who provided a visiting professorship to the first authorsupporting this work with a PhD’s scholarship to LAS(140847/2019-7)a research grant to MESC(307569/2019-5)and for financial support in the Universal project(Process:437097/2018-8ERDF-A way of making Europe(Grant PID2021-128068NB-100)the Department of Biotechnology(DBT),Government of India(Grant no.BT/PR/0054/NDB/52/94/2007)support under the project‘Establishment of Microbial Culture Collection(NCMR-NCCS).’Gajanan Mane is thankful to the University Grants Commission,Delhi(India)for the senior research fellowship(File No.16-6(Dec.2017)/2018(NET/CSIR)Rohit Sharma thanks the Department of Biotechnology(DBT),Government of India(Grant no.BT/PR25490/NER/95/1220/2017 dated 28.06.2018),for financial supportthe grant from the Guangdong Rural Science and Technology Commissioner project(KTP20210313)the Key Laboratory of Green Prevention and Control on Fruits and Vegetables in South China,Guangdong(KA21031C501)the Innovative Team program of the Department of Education of Guangdong Province(2023KCXTD018/2022KCXTD015)Extramural Research-SERB,DST(EMR/2016/003078)Government of India for the financial assistanceto‘The PCCF’of the Tamil Nadu Forest Department for providing permission(E2/20458/2017)assistance and support during field visit in the Eastern Ghats.Malarvizhi Kaliyaperumal and Kezhocuyi Kezo thank RUSA 2.0(Theme-1,Group-1/2021/49)for providing grantthe Tamil Nadu State Council for Higher Education,Chennai(RGP/2019-20/MU/HECP-0040)for financial assistancethe National Science Foundation of China(No.31870528)support under statutory funds from the W.Szafer Institute of Botany,Polish Academy of Sciencesto ICMBio(Instituto Chico Mendes de Conservação da Biodiversidade)and IF(Instituto Florestal)for the collecting permits#38466-2 and#260108-001.102/2015,respectivelyinanced in part by Coordination of Improvement of Higher Education Personnel-Brazil(CAPES)-Finance Code 001 and by the National Council for Scientific and Technological Development(to LFPG and Proc.305269/2018-6 to AR)to LFPG and Proc.305269/2018-6 to AR)the Program CAPES-PrInt,process number 88887.310463/2018-00Mobility numbers#88887.468939/2019-00 and#88887.571230/2020-00the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior CAPES(processes numbers CAPES 88887.360774/2019-00)Conselho Nacional Desenvolvimento Científico e Tecnológico CNPq(ONDACBC:465764/2014-2 and NEXUS:441305/2017-2)the Fundação de AmparoàCiência e Tecnologia de Pernambuco-FACEPE(BFP-0046-5.01/20,APQ-0350-2.12/19 and APQ 1527-5.01/22)the Conselho Nacional de Desenvolvimento Científico e Tecnológico-CNPq(Proc.312606/2022-2)the National Natural Science Foundation of China(Project ID:32060005)and the Yunnan Fundamental Research Project(202201AW070001)the National Natural Science Foundation of China(No.32260004)Yunnan Revitalization Talents Support Plan(High-End Foreign Experts Program)the Key Laboratory of Yunnan Provincial Department of Education of the Deep-Time Evolution on Biodiversity from the Origin of the Pearl River for their support.Xing-Can Peng and Ting-Chi Wen acknowledge the support by the National Natural Science Foundation of China(No.32060012)Department of Sciences and Technology of China(No.202202AE090091)the National Natural Science Foundation of China(Grant No.32200015)the foundation of the Guangzhou bureau of science and technology(Grant No.2023A04J1425)Thailand Science Research and Innovation(TSRI)for the grant“Biodiversity,taxonomy,phylogeny and evolution of Colletotrichum on Avocado,Citrus,Durian and Mango in northern Thailand”(Grant no.652A01003)the National Natural Science Foundation of China(No.NSFC 32260004)and the Yunnan Revitalization Talents Support Plan(Young Talents Program and High-End Foreign Experts Program)The Center for Yunnan Plateau Biological Resources Protection and Utilization,College of Biological Resource and Food Engineering,Qujing Normal University for the facilities provided for the research workthe National Natural Science Foundation of China(Grant no.31600019)the Modern Agricultural Industry Technology System Flower Innovation Team of Guangdong Province(Grant no.2023KJ121)the Project of Educational Commission of Guangdong Province of China(Grant no.2021KTSCX045)the research productivity fellowship(Grant No.303834/2020-0)the Eminent scholar offered by Kyun Hee Universitythe Chinese Research Fund,Grant number E1644111K1,titled“Flexible introduction of the high-level expert program,Kunming Institute of Botany,Chinese Academy of Sciences”for financial supportthe Italian National Antarctic Research Program for funding Antarctic campaingssupport to the Mycological Section of the MNA and the Culture Collection of Antarctic fungi(MNA-CCFEE),University of Tuscia,Italy.
文摘This article is the 17th in the Fungal Diversity Notes series which allows the researchers to publish fungal collections with updated reports of fungus-host and fungus-geography.Herein we report 97 taxa with four new genera distributed in three phyla(Ascomycota,Glomeromycota and Mucoromycota),11 classes,38 orders and 62 families collected from various regions worldwide.This collection is further classified into taxa from 69 genera with four novel genera namely Jinshana,Lithophyllospora,Parapolyplosphaeria and Stegonsporiicola.Furthermore,71 new species,21 new records,one new combination and four novel phylogenetic placements are provided.The new species comprise Acrocalymma estuarinum,Aggregatorygma isidiatum,Alleppeysporonites elsikii,Amphibambusa aquatica,Apiospora hongheensis,Arthrobotrys tachengensis,Calonectria potisiana,Collariella hongheensis,Colletotrichum squamosae,Corynespora chengduensis,Diaporthe beijingensis,Dicellaesporites plicatus,Dicellaesporites verrucatus,Dictyoarthrinium endophyticum,Distoseptispora chiangraiensis,Dothiora eucalypti,Epicoccum indicum,Exesisporites chandrae,Fitzroyomyces pseudopandanicola,Fomitiporia exigua,Fomitiporia rondonii,Fulvifomes subthailandicus,Gigaspora siqueirae,Gymnopus ailaoensis,Hyalorbilia yunnanensis,Hygrocybe minimiholatra,H.mitsinjoensis,H.parviholatra,H.solis,H.vintsy,Helicogermslita kunmingensis,Jinshana tangtangiae,Kirschsteiniothelia dujuanhuensis,Lamproderma subcristatum,Leucoagaricus madagascarensis,Leucocoprinus mantadiaensis,Lithophyllospora australis,Marasmius qujingensis,Melomastia aquilariae,Monoporisporites jansoniusii,M.pattersonii,Monoporisporites valdiyae,Mucispora maesotensis,Mucor soli,Muyocopron yunnanensis,Nigrospora tomentosae,Ocellularia psorirregularis,Ophiocordyceps duyunensis,Oxneriaria nigrodisca,Oxydothis aquatica,O.filiforme,Phacidiella xishuangbannaensis,Phlebiopsis subgriseofuscescens,Pleurothecium takense,Pleurotus tuber-regium,Pseudochaetosphaeronema puerensis,Pseudodactylaria guttulate,Racheliella chinensis,Rhexoacrodictys fangensis,Roussoella neoaquatica,Rubroboletus pruinosus,Sanghuangporus subzonatus,Scytalidium assmuthi,Shrungabeeja kudremukhensis,Spirographa skorinae,Stanjehughesia bambusicola,Stegonsporiicola aurantiaca,Umbelopsis hingganensis,Vararia tenuata,Verruconis pakchongensis,Wongia bandungensis,and Zygosporium cymodoceae.The new combination is Parapolyplosphaeria thailandica(≡Polyplosphaeria thailandica).The 21 new hosts,geographical and habitat records comprise Acrocalymma fici,Apiculospora spartii,Aspergillus subramanianii,Camposporium ramosum,Clonostachys rogersoniana,Colletotrichum brevisporum,C.plurivorum,Collybiopsis gibbosa,Dictyosporium tratense,Distoseptispora adscendens,Exosporium livistonae,Ganoderma gibbosum,Graphis mikuraensis,Gymnosporangium paraphysatum,Lasiodiplodia thailandica,Moesziomyces bullatus,Penicillium cremeogriseum,P.echinulonalgiovense,P.javanicum,P.lanosocoeruleum,P.polonicum,and Pleurotus tuber-regium.Graphis chlorotica,G.panhalensis and G.parilis are given as novel phylogenetic placements.In addition,we provide the morphology of Tarzetta tibetensis which was missing in the previous Fungal Diversity Notes 1611–1716.Identification of characterization of all these taxa are supported by morphological and multigene phylogenetic analyses.
基金Supported by the Project of Background Resources Survey in Shennongjia National Park(SNJNP2022004)the Open Project Fund of Hubei Provincial Key Laboratory for Conservation Biology of Shennongjia Snub-nosed Monkeys(SNJGKL2022004)+5 种基金the Science and Technology Projects of Xizang Autonomous Region,China(XZ202501ZY0019)the Science and Technology Fundamental Resources Investigation Program,Ministry of Science and Technology of China(2023FY101303)the Biological Resources Programme,Chinese Academy of Sciences(KFJ-BRP-009)the Projects of Science and Technology Programs of Xizang(XZ202202YD0031C)the Survey of Wildlife Resources in Key Areas of Xizang(ZL202203601)the National Natural Science Foundation of China(31961143010,31970010).
文摘This article is the 18th contribution to the Fungal Diversity Notes series,in which we document 98 taxa across two phyla,eight classes,21 orders,46 families,and 59 genera.The represent samples of taxa were collected from a diverse range of regions,including Australia,Benin,Bolivia,Burkina Faso,Cameroon,Canada,China,Czechia,India,Japan,Madagascar,Mexico,New Zealand,Sri Lanka,Thailand,Togo,USA,Uzbekistan and Venezuela.Among these,we introduce one new genus,59 new species,13 new combinations,one new name and 24 new records,along with information on their hosts and geographic distributions.The newly introduced genus is Fusicastoreum,and the newly described species include:Acrogenospora guangxiensis,Agaricus longistipitatus,A.sunanensis,Anthosulcatispora sichuanensis,Anthracoidea siccatae,Bjerkandera meridionalis,Camarophyllopsis brunnea,Candolleomyces analalavaensis,C.kely,C.macrosporus,Ceriporia yunnanensis,Choiromyces mongolicus,Colletotrichum duohuaense,Coprinus variicolor,Cystoderma alticola,C.microspore,C.yadongense,Cytospora lhaluensis,Diaporthe amberina,D.mangiferae,Elsinoe fuzhouensis,Epicocum maxima,Fulvifomes shailashikhara,Fusarium tuberculatum,Fusicastoreum arenarium,F.occidentale,F.pisiglareum,F.trappei,Gyalidea lluxitensis,Gymnopilus rimopileus,Hohenbuehelia triloba,Hymenagaricus ruber,Hypholoma darjeelingensis,Laccaria guizhouensis,Lactifluus aureoelephanti,L.croceivillus,Leucoagaricus ankarafantsikaensis,L.rutilus,Micropsalliota squamulosa,M.vinacea,Neomyrmecridium triseptatum,Niesslia wurfbainiae,Nigropunctata conspicosa,Ophiocordyceps jilinensis,Oxydothis dehongensis,Panaeolus ranwuensis,Pestalotiopsis buxicola,Pleurocordyceps puerensis,Pseudocercospora cunninghamia,Psilocybe zhushanensis,Remotididymella tachibana,Russula gaoligongensis,R.guilinensis,R.pseudovirescens,Sarocladium solani,Septoriella saviya-ramazanovaii,Seriascoma oblonga,Talaromyces pseudorugulosus and Tricholosporum madagascariense.Additionally,species newly transferred from Psilocybe include Deconica caespitosa,D.californica,D.goniospora,D.josecastilloi,D.latispora,D.novozoncuantlensis,D.oregonensis,D.venezuelana and D.vialis.Russula afroscrobiculata is newly transferred from Lactarius afroscrobiculatus,and Puccinia hamamelidis,P.hydrangeicola,P.philadelphi are newly transferred from Aecidium.Furthermore,the new name Puccinia shojiana is proposed as a replacement for Aecidium akebiae.The 24 new records of hosts and geographical distributions include:Agaricus pallidobrunneus,Bovista cretacea,Candolleomyces subsingeri,Clitopilus chichawatniensis,Collybiopsis gibbosa,C.subumbilicata,Curvularia geniculate,Cystoderma japonicum,Cytospora diatrypelloidea,C.schulzeri,Elsinoe leucospermi,Fulvifomes aurantiacus,Laccaria macrobasidia,Menisporopsis pandanicola,M.pirozynskii,Multifurca pseudofurcata,Musicillium elettariae,Myrmecridium pulvericola,Ophiocordyceps asiana,O.campes,Phellinus resupinatus,Phylloporia afrospathulata,Tropicoporus linteus and Typhula incarnate.All taxa are supported by both morphological and phylogenetic analyses.
基金the National Natural Science Foundation of China(Project ID:32060005,U2002203)National Science and Technology Fundamental Resources Investigation Program of China(2021FY100900)+4 种基金the Yunnan Fundamental Research Project(202201AW070001)High-Level Talents Program of Yunnan Province(YNQR-QNRC-2020-113)Foundation of Yunnan Province Science and Technology Department(202305AM070003)Second Tibetan Plateau Scientific Expedition and Research Program(Grant No.2024QZKK02010303)Distinguished Scientist Fellowship Programme(DSFP)of King Saud University.
文摘Yunnan Province is located in southwestern China,at the core and intersection of the“Himalaya”,“Indo-Burma”and“Mountains of Southwest China”biodiversity hotspots.It is the most biodiverse province in China,acting as a major center for the origin and diversification of numerous species,and of which lignicolous freshwater fungi are one of the rich bioresources.As a part of our ongoing studies on freshwater fungi in Yunnan Province China,we collected lignicolous freshwater ascomycetes from Yunnan plateau lakes,combining morphological characteristics and multi-gene phylogenetic analysis(including,ITS,LSU,SSU,tef1-α,tub2 and rpb2)to identify the species and reveal their phylogenetic placement.A total of 293 freshwater ascomycetes were collected,and through rigorous analysis,126 species were identified,spanning three classes,24 orders,39 families,and 70 genera.Most of these fungi belong to Dothideomycetes and Sordariomycetes,with a few of Eurotiomycetes.Based on morphological and phylogenetic analyses,we introduce two new genera,Neomoromyces and Rostraeuseptisporum,and 40 new species,viz.,Apiospora fuxianhuensis,A.lacustris,Atractospora hydei,Chaetopsina hydei,C.septata,Chloridium hydei,Ch.yunnanense,Dematiosporium hydei,D.muriforme,Dictyocheirospora yunnanensis,Distoseptispora dujuanhuensis,Di.hongheensis,Di.jingdongensis,Halobyssothecium hydei,Hongkongmyces hydei,Kirschsteiniothelia hydei,Mytilinidion hydei,Neomoromyces hydei,Obliquifusoideum hydei,Ophioceras yunnanense,Plagiascoma hydei,Pseudodactylaria lacustris,Pseudostanjehughesia hydei,Rostraeuseptisporum hydei,Sporidesmiella dujuanhuensis,S.guttulata,S.hongheensis,S.hydei,S.lacustris,Sporidesmium dianchiense,Sp.distoseptatum,Sp.dujuanhuense,Sp.hongheense,Sp.lacustris,Sp.kunmingense,Sp.yangzonghaiense,Sp.yilonghuense,Thysanorea hydei,Tetraploa verrucosa,Xylolentia hydei.Detailed morphological descriptions and illustrations of these species are provided,along with a discussion of their phylogenetic relationships and distinctive morphological characters.Furthermore,five new combinations are introduced,viz.,Pseudodactylaria flammulicornuta(≡Dodactylaria flammulicornuta),P.palmae(≡Do.palmae),P.tunicata(≡Do.tunicata),P.uliginicola(≡Do.uliginicola)and Pseudostanjehughesia verrucosa(≡Ceratosporium verrucosum).Based on molecular sequence data and morphological characteristics,Dictyocheirospora aquadulcis and Dic.lithocarpi have been synonymized with Dic.heptaspora,Dic.alangii synonymized with Dic.appendiculata;Dictyosporium lakefuxianense synonymized with Pseudodictyosporium wauense,Distoseptispora nanchangensis synonymized with Distoseptispora aquatica,Chaetopsina beijingensis synonymized with Ch.fulva.Ten new geographical records are reported in China and 10 species are first reported from freshwater habitats,and 6 species are newly reported both from China and from freshwater habitats.This study fills a gap in the research on fungal diversity in Yunnan Province,and improves our understanding of their ecological roles in freshwater ecosystems.Phylogenetic analysis provides a reliable molecular framework for the classification of lignicolous freshwater fungi,supporting the reassessment of fungal taxonomy and ensuring a more objective and evolutionarily natural classification of species.This work is dedicated to Professor Kevin D.Hyde on his 70th birthday,in recognition of his lifetime contributions to mycology and his extensive research and training of students.His wide-ranging work on freshwater fungi is highlighted in this paper.
基金Chayanard Phukhamsakda(Postdoctoral number 271007)would like to thank Jilin Agricultural University,National Natural Science Foundation of China(NSFC)for granting a Youth Science Fund Project(number 32100007)the National Science and Technology Fundamental Resources Investigation Program of China(number 2021FY100900)+5 种基金the Program of Creation and Utilization of Germplasm of Mushroom Crop of“111”Project(No.D17014)the National Natural Science Foundation of China(Project ID:31970021,32060005)Yunnan Fundamental Research Project(grant NO.202101AU070137)for the financial and laboratory supportInternational 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.This research was partially supported by Chiang Mai University.Mubashar Raza thanks CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Grant No.2020PB0115)and the National Science Foundation of China(NSFC,project code 32050410295).Samantha C.Karunarathna thanks CAS President’s International Fellowship Initiative(PIFI)young staff under the grant number:2020FYC0002 for funding his postdoctoral research and the NationalScience Foundation of China(NSFC)for funding this research work under project code 31750110478.
文摘The global diversity of fungi has been estimated using several different approaches.There is somewhere between 2–11 million estimated species,but the number of formally described taxa is around 150,000,a tiny fraction of the total.In this paper,we examine 12 ascomycete genera as case studies to establish trends in fungal species descriptions,and introduce new species in each genus.To highlight the importance of traditional morpho-molecular methods in publishing new species,we introduce novel taxa in 12 genera that are considered to have low species discovery.We discuss whether the species are likely to be rare or due to a lack of extensive sampling and classification.The genera are Apiospora,Bambusicola,Beltrania,Capronia,Distoseptispora,Endocalyx,Neocatenulostroma,Neodeightonia,Paraconiothyrium,Peroneutypa,Phaeoacremonium and Vanakripa.We discuss host-specificity in selected genera and compare the number of species epithets in each genus with the number of ITS(barcode)sequences deposited in GenBank and UNITE.We furthermore discuss the relationship between the divergence times of these genera with those of their hosts.We hypothesize whether there might be more species in these genera and discuss hosts and habitats that should be investigated for novel species discovery.
基金Kevin D.Hyde thanks the 2019 high-end foreign expert introduction plan(granted by the Ministry of Science and Technology of the People’s Republic of China,Grant Number G20190139006)the Thailand Research Fund entitled“Impact of climate Change on fungal diversity and biogeography in the greater Mekong subregion”(RDG6130001)+3 种基金Wen-Jing Li,Qing Tian,Qiu-Ju Shang thank the Mushroom Research Foundation(MRF),Chiang Rai Province,Thailand for providing Postgraduate Scholarships.Wen-Jing Li would like to thank Ya-Ting Li,Li-Han Sheng for help re-drawing part of photos.Wen-Jing Li is also grateful to Assistant Prof.Huang Zhang,Dr.Putarak Chomnunti for images of Aquasubmersa mircensis,Clohesyomyces aquaticus,Neopyrenochaeta annellidica and Scorias spongiosa,and Prof.Alan J.L.Phillips,Xiao-Ya Ma,Yuan-Pin Xiao,Sheng-Nan Zhang,Jing Yang,Ming Zeng,Yong-Zhong Lu for assistance and valuable suggestions.Wen-Jing Li would like to thank the Molecular Biology Experimental Center at Kunming Institute of Botany for facilities of molecular work.We would like to thank the curators of the herbarium CUP,DAOM,FH,HAL,HHUF,IMI,K,and PREM for loaning herbarium specimens and for being very helpful in locating specimens.Without their help this work would not have been possible.The abbreviations of herbarium are those listed in Index Herbariorum(2019).We also wish to acknowledge Saranyaphat Boonmee,curator of MFLU(Mae Fah Luang University)and Liu Ende,Assistant Curator,Herbarium,Kunming Institute of Botany,Chinese Academy of Sciences(KUN),Kunming,for arranging the loan of specimens from various herbaria.We also thank the technical staff of Center of Excellence in Fungal Research,Sornram Sukpisit and Wilawan Punyaboon for their invaluable assistance.We also would like to thank Shaun Pennycook for assistance in checking the name of new taxa.We would like to thank Prof.Crous for providing culture from CBS(Westerdijk Fungal Biodiversity Institute).Erio Camporesi is grateful to Giancarlo Lombardi,Sergio Montanari and Gigi Stagioni for their help in identifying host plants of fresh collections.Dong-Qin Dai would like to thank the National Natural Science Foundation of China(No.NSFC 31760013)the Scientific Research Foundation of Yunnan Provincial Department of Education(2017ZZX186)the Thousand Talents Plan,Youth Project of Yunnan Provinces for finance support.Samantha C.Kaunarathna thanks CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(No.2018PC0006)the National Science Foundation of China(NSFC)for funding this work under the project code 31851110759.
文摘Coelomycete is a general term used for asexual fungi which produce conidia in fruiting bodies:pycnidial,acervular,cupulate,pycnothyria or stromatic conidiomata.The group contains numerous plant pathogenic,saprobic and endophytic species associated with a wide range of hosts.Traditionally,morphological characters and host associations have been used as criteria to identify and classify coelomycetes,and this has resulted in a poor understanding of their generic and species boundaries.DNA based taxonomic studies have provided a better outlook of the phylogenetic and evolutionary trends in coelomycetes.However,the present outcomes represent only a preliminary step towards the understanding of coelomycetes.Many genera have not been revisited since they were first described.The present study revises the classification of the hyaline-spored coelomycetes and provides a modern taxonomic framework based on both morphology and phylogeny.In total,248 genera were investigated,of which less than 100 are known to have sequence data.Multi-locus sequence data analyses of 28S nrDNA,18S nrDNA,ITS,RNA polymerase II second largest subunit(rpb2),and part of the translation elongation factor 1-alpha gene(tef1)andβ-tubulin(tub2)gene regions were analysed.As a result,three new genera and 23 new species are introduced.In addition,three new links between sexual and asexual genera are provided.There are 138 genera that lack sequence data,and these are treated as Ascomycota,genera incertae sedis.Line drawings and descriptions are provided based on the examination of types and fresh collections and on the literature.
文摘Hypocreomycetidae is a highly diverse group with species from various habitats. This subclass has been reported as pathogenic,endophytic, parasitic, saprobic, fungicolous, lichenicolous, algicolous, coprophilous and insect fungi from aquatic andterrestrial habitats. In this study, we focused on freshwater fungi of Hypocreomycetidae which resulted 41 fresh collectionsfrom China and Thailand. Based on morphological and phylogenetic analyses, we identified 26 species that belong to twoorders (Hypocreales and Microascales) and six families (Bionectriaceae, Halosphaeriaceae, Microascaceae, Nectriaceae,Sarocladiaceae and Stachybotryaceae). Ten new species are introduced and 13 new habitats and geographic records arereported. Mariannaea superimposita, Stachybotrys chartarum and S. chlorohalonatus are recollected from freshwater habitatsin China. Based on phylogenetic analysis of combined LSU, ITS, SSU, rpb2 and tef1-α sequences data, Emericellopsisis transferred to Hypocreales genera incertae sedis;Pseudoacremonium is transferred to Bionectriaceae;Sedecimiella isplaced in Nectriaceae;Nautosphaeria and Tubakiella are excluded from Halosphaeriaceae and placed in Microascalesgenera incertae sedis;and Faurelina is excluded from Hypocreomycetidae. Varicosporella is placed under Atractium as asynonym of Atractium. In addition, phylogenetic analysis and divergence time estimates showed that Ascocodina, Campylospora,Cornuvesica and Xenodactylariaceae form distinct lineages in Hypocreomycetidae and they evolved in the family/order time frame. Hence, a new order (Xenodactylariales) and three new families (Ascocodinaceae, Campylosporaceae andCornuvesicaceae) are introduced based on phylogenetic analysis, divergence time estimations and morphological characters.Ancestral character state analysis is performed for different habitats of Hypocreomycetidae including freshwater, marineand terrestrial taxa. The result indicates that marine and freshwater fungi evolved independently from terrestrial ancestors.The results further support those early diverging clades of this subclass, mostly comprising terrestrial taxa and freshwaterand marine taxa have been secondarily derived, while the crown clade (Nectriaceae) is represented in all three habitats. Theevolution of various morphological adaptations towards their habitual changes are also discussed.
基金CAS President’s International Fellowship Initiative(PIFI)for Young Staff 2019-2021(grant number 2019FY0003)the Research Fund from China Postdoctoral Science Foundation(Grant No.Y71B283261)+45 种基金the Yunnan Provincial Department of Human Resources and Social Security(Grant No.Y836181261)National Science Foundation of China(NSFC)project code 31850410489 for financial research supportthe Foreign Experts Bureau of Yunnan Province,Foreign Talents Program(2018,Grant No.YNZ2018002)Thailand Research grants entitled Biodiversity,phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans(Grant No:RSA5980068)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)the Key Research Program of Frontier Sciences of the Chinese Academy of Sciences(Grant No.QYZDY-SSW-SMC014)the National Science Foundation of China and the Chinese Academy of Sciences for financial support under the following grants:41761144055,41771063 and Y4ZK111B01the Fonds de la Recherche Scientifique-FNRS(Belgium)for travel grantsCAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Grant No.2018PC0006)the National Science Foundation of China(NSFC,project code 31750110478)CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Grant No.2019PC0008)supported under the Distinguished Scientist Fellowship Program(DSFP),King Saud University,Kingdom of Saudi Arabia.the Kerala State Council for Science,Technology and Environment(KSCSTE)in the form of a PhD fellowship(Grant No.001/FSHP/2011/CSTE)the Principal Chief Conservator of forests,Kerala State,for granting permission(No.WL10-4937/2012,dated 03-10-2013)to collect agarics from the forests of Keralathe Council of Scientific&Industrial Research(CSIR),New Delhi,India,in the form of an award of CSIR Research Associateship(09/043(0178)2K17 dated:31/03/2017)the National Natural Science Foundation of China(Project ID:31470152 and 31360014)the Foundation of Innovative Group of Edible Mushrooms Industry of Beijing(Project ID:BAIC05-2017)the 5th batch of Postdoctoral Orientation Training Personnel in Yunnan Province and the 64th batch of China Postdoctoral Science FoundationCNPq for the Ph.D scholarship of RLMA(140283/2016-1)Pos-Graduacao em Biologia de Fungos(UFPE,Brazil)Capes(Capes-SIU 008/13)CNPq(PQ 307601/2015-3)FACEPE(APQ 0375-2.03/15)for funding the researchfinancial support from the Agreement ENDESA and San Ignacio de Huinay Foundations and Consejo Superior de Investigaciones Cientificas,CSIC(Projects No.2011HUIN10,2013CL0012,2014CL0011)the AECID(Agencia Espanola de Cooperacion Internacional para el Desarrollo)and Plan Nacional I+D+i project no.CGL2015-67459-Psupported by a Predoctoral Grant from the Ministerio de Economıa y Competitividad(Spain)(BES-2016-077793)Croatian Science Foundation for their partial support under the project HRZZ-IP-2018-01-1736(ForFungiDNA)supported by the Graduate Program for the Undiscovered Taxa of Koreathe Project on Survey and Discovery of Indigenous Fungal Species of Korea funded by NIBR and Project on Discovery of Fungi from Freshwater and Collection of Fungarium funded by NNIBR of the Ministry of Environment(MOE)in part carried out with the support of Cooperative Research Program for Agriculture Science and Technology Development(PJ013744)Rural Development Administration,and BK21 PLUS program funded by Ministry of Education,Republic of Koreathe CASTWAS for the PhD Fellowship.Sanjay K.Singh,Paras Nath Singh,Shiwali Rana and Frank Kwekucher Ackah thank Director,MACS,Agharkar Research Institute,Pune,India for providing facilities.Shiwali Rana and Frank Kwekucher Ackah thank UGC(Junior Research Fellowship)and DST,Govt.of India(CV Raman Fellowship for African Researchers),respectively.Gen-Nuo Wang,Huang Zhang,Wei Dong and Xian-Dong Yu thank the National Natural Science Foundation of China(Project ID:NSF 31500017).Bandarupalli Devadatha and V.Venkateswara Sarma thank The Ministry of Earth sciences,Govt.of India(Sanction order:MOES/36/OO1S/Extra/40/2014/PC-IV dt.14.1.2015)for a funding of the project,T,District Forest Office,Tiruvarur,Tamil Nadu and PCCF(Head of Forest Force),Chennai,Tamil Nadu Forest Department for providing permission to collect samples from Muthupet mangroves,and Department of Biotechnology,Pondicherry University is thanked for providing the facilities.Myung Soo Park,Seung-Yoon Oh and Young Woon Lim thank the Marine Bio Resource Bank Program of the Ministry of Ocean&Fisheries,Korea.Olinto Pereira thanks the CAPES,CNPq and FAPEMIG for financial support.Neven Matocˇec,Ivana Kusˇan and Margita Jadan express their gratitude to Livio Lorenzon,Enrico Bizio and Raffaella Trabucco(MCVE)for their kind help with loan of Sarcopeziza sicula type materialparts of their research were financed by Public Institutions Sjeverni Velebit National Park and Paklenica National Parkthe National Natural Science Foundation of China(No.NSFC 31760013,NSFC 31260087,NSFC 31460561)the Scientific Research Foundation of Yunnan Provincial Department of Education(2017ZZX186)utilization of endophytes and the Thousand Talents Plan,Youth Project of Yunnan Provincesthe National Natural Science Foundation of China(No.31760014)and the Science and Technology Foundation of Guizhou Province(No.[2017]5788)Thailand Research Fund(TRF)Grant No MRG6080089 for financial research supportThe Royal Golden Jubilee Ph.D.Program(PHD60K0147)under Thailand Research Fund,for financial research supports on project entitle"Fungi on limestone outcrops from southern Thailand to lower himalyas"the National Research Council of Thailand(Grant No.61215320023,61215320013)the Thailand Research Fund(Grant No.TRG6180001)for research financial supportthe Thailand Research Fund(RTA 5880006)Chiang Mai University for partially support this research workChina-Thailand Joint Lab on Microbial Biotechnology(Most KY201701011)for financial supportthe Mushroom Research Foundation for research financial support and PhD Fellowships.
文摘This article is the ninth in the series of Fungal Diversity Notes,where 107 taxa distributed in three phyla,nine classes,31 orders and 57 families are described and illustrated.Taxa described in the present study include 12 new genera,74 new species,three new combinations,two reference specimens,a re-circumscription of the epitype,and 15 records of sexualasexual morph connections,new hosts and new geographical distributions.Twelve new genera comprise Brunneofusispora,Brunneomurispora,Liua,Lonicericola,Neoeutypella,Paratrimmatostroma,Parazalerion,Proliferophorum,Pseudoastrosphaeriellopsis,Septomelanconiella,Velebitea and Vicosamyces.Seventy-four new species are Agaricus memnonius,A.langensis,Aleurodiscus patagonicus,Amanita flavoalba,A.subtropicana,Amphisphaeria mangrovei,Baorangia major,Bartalinia kunmingensis,Brunneofusispora sinensis,Brunneomurispora lonicerae,Capronia camelliaeyunnanensis,Clavulina thindii,Coniochaeta simbalensis,Conlarium thailandense,Coprinus trigonosporus,Liua muriformis,Cyphellophora filicis,Cytospora ulmicola,Dacrymyces invisibilis,Dictyocheirospora metroxylonis,Distoseptispora thysanolaenae,Emericellopsis koreana,Galiicola baoshanensis,Hygrocybe lucida,Hypoxylon teeravasati,Hyweljonesia indica,Keissleriella caraganae,Lactarius olivaceopallidus,Lactifluus midnapurensis,Lembosia brigadeirensis,Leptosphaeria urticae,Lonicericola hyaloseptispora,Lophiotrema mucilaginosis,Marasmiellus bicoloripes,Marasmius indojasminodorus,Micropeltis phetchaburiensis,Mucor orantomantidis,Murilentithecium lonicerae,Neobambusicola brunnea,Neoeutypella baoshanensis,Neoroussoella heveae,Neosetophoma lonicerae,Ophiobolus malleolus,Parabambusicola thysanolaenae,Paratrimmatostroma kunmingensis,Parazalerion indica,Penicillium dokdoense,Peroneutypa mangrovei,Phaeosphaeria cycadis,Phanerochaete australosanguinea,Plectosphaerella kunmingensis,Plenodomus artemisiae,P.lijiangensis,Proliferophorum thailandicum,Pseudoastrosphaeriellopsis kaveriana,Pseudohelicomyces menglunicus,Pseudoplagiostoma mangiferae,Robillarda mangiferae,Roussoella elaeicola,Russula choptae,R.uttarakhandia,Septomelanconiella thailandica,Spencermartinsia acericola,Sphaerellopsis isthmospora,Thozetella lithocarpi,Trechispora echinospora,Tremellochaete atlantica,Trichoderma koreanum,T.pinicola,T.rugulosum,Velebitea chrysotexta,Vicosamyces venturisporus,Wojnowiciella kunmingensis and Zopfiella indica.Three new combinations are Baorangia rufomaculata,Lanmaoa pallidorosea and Wojnowiciella rosicola.The reference specimens of Canalisporium kenyense and Tamsiniella labiosa are designated.The epitype of Sarcopeziza sicula is re-circumscribed based on cyto-and histochemical analyses.The sexual-asexual morph connection of Plenodomus sinensis is reported from ferns and Cirsium for the first time.In addition,the new host records and country records are Amanita altipes,A.melleialba,Amarenomyces dactylidis,Chaetosphaeria panamensis,Coniella vitis,Coprinopsis kubickae,Dothiorella sarmentorum,Leptobacillium leptobactrum var.calidus,Muyocopron lithocarpi,Neoroussoella solani,Periconia cortaderiae,Phragmocamarosporium hederae,Sphaerellopsis paraphysata and Sphaeropsis eucalypticola.
基金National Natural Science Foundation of China for supporting the project Biodiversity,Taxonomy,Phylogeny,Evolution and Phytogeography of phytopathogens in Dothideomycetes from Southern China(Grant No.31950410548)for funding this research.Ning Xie would like to thank Project of DEGP(2019KTSCX150)+29 种基金.Kevin D Hyde thanks the Thailand Research Fund for the grant RDG6130001 entitled“Impact of climate change on fungal diversity and biogeography in the Greater Mekong Subregion”.Rungtiwa Phookamsak thanks CAS President’s International Fellowship Initiative(PIFI)for young staff(Grant No.Y9215811Q1)the Yunnan Provincial Department of Human Resources and Social Security(Grant No.Y836181261)National Science Foundation of China(NSFC)project code 31850410489(Grant No.Y81I982211)for financial supportDhanushka Wanasinghe would like to thank CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(number 2019PC0008)the 64th batch of China Postdoctoral Science Foundation(Grant No.Y913083271).Vemuri V.Sarma would like to thank SERB,Department of Science and Technology,Government of India,for funding a project(SERB/SB/SO/PS/18/2014 dt.19.5.2015)Ministry of Earth Sciences(MOES),Govt.of India for funding a project(Sanction order:MOES/36/OO1S/Extra/40/2014/PC-IV dt.14.01.2015)the Department of Biotechnology,Pondicherry University for facilitiesthe National Research Council of Thailand(projects no.61215320013 and No.61215320023)the Thailand Research Fund(project no.TRG6180001)Plant Genetic Conservation Project under the Royal Initiation of Her Royal High-ness Princess Maha Chakri Sirindhorn-Mae Fah Luang University.Alan JL Phillips acknowledges the support from UIDB/04046/2020 and UIDP/04046/2020 Centre grants from FCT,Portugal(to Bio-ISI).Saowaluck Tibpromma would like to thank the International Postdoctoral Exchange Fellowship Program(number Y9180822S1)CAS President’s International Fellowship Initiative(PIFI)(number 2020PC0009)the National Natural Science Foundation of China(Project Nos.31800010 and 31750001)for financial support.the National Natural Science Foundation of China(No.NSFC 31950410558)Guizhou Medical University(grant number FAMP201906K)tthe National Nat-ural Science Foundation of China(No.NSFC 31760013)the Scientific Research Foundation of Yunnan Provincial Department of Education(2017ZZX186)the Thousand Talents Plan,Youth Project of Yun-nan Provinces for finance supportthe 5th batch of Postdoctoral Orientation Training Personnel in Yunnan Province(Grant No.Y934283261)the 64th batch of China Postdoctoral Science Foundation(Grant No.Y913082271)M Niranjan thanks SERB,Govt.of India for a fellow-ship.Huang Zhang would like to thank Natural Science Foundation of China(NSF 31500017).Jadson DP Bezerra thanks the Conselho Nacional de Desenvolvimento Científico e Tecnológico(CNPq),the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior(CAPES,Finance Code 001)the Fundação de AmparoàCiência e Tecnologia de Pernambuco(FACEPE)for fellowship.B.Devadatha thanks MOES,Govt.of India for a fellowship.Hai-Xia Wu would like to the Fundamental Research Funds for the Central Non-profit Research Institution of CAF(Grant No.CAFYBB2019QB005)the Ten Thousand Talents Plan,Youth Top Project of Yunnan Provinces for finance support.Ausana Mapook thanks to Research and Research-ers for Industries(RRI)under Thailand Research Fund for a personal grant(PHD57I0012)Putarak Chomnunti would like to thank Mae Fah Luang University(Grant No.DR256201012003)Diversity-Based Economy Development Office and National Research Council of Thailand Research(Grant No.T2561022)for the financial support.Satinee Suetrong thanks the collaborative project between BIOTEC and Department of Marine and Coastal Resources(DMCR),Ministry of Natural Resources and Environmentunder a project:Marine Microbes for National Reserves:Alternative Ways of State Property.N.Chai-wan would like to thank the Thailand Research Fund(PHD60K0147).
文摘Numerous new taxa and classifications of Dothideomycetes have been published following the last monograph of families of Dothideomycetes in 2013.A recent publication by Honsanan et al.in 2020 expanded information of families in Dothideo-mycetidae and Pleosporomycetidae with modern classifications.In this paper,we provide a refined updated document on orders and families incertae sedis of Dothideomycetes.Each family is provided with an updated description,notes,including figures to represent the morphology,a list of accepted genera,and economic and ecological significances.We also provide phylogenetic trees for each order.In this study,31 orders which consist 50 families are assigned as orders incertae sedis in Dothideomycetes,and 41 families are treated as families incertae sedis due to lack of molecular or morphological evidence.The new order,Catinellales,and four new families,Catinellaceae,Morenoinaceae Neobuelliellaceae and Thyrinulaceae are introduced.Seven genera(Neobuelliella,Pseudomicrothyrium,Flagellostrigula,Swinscowia,Macroconstrictolumina,Pseudobogoriella,and Schummia)are introduced.Seven new species(Acrospermum urticae,Bogoriella complexoluminata,Dothiorella ostryae,Dyfrolomyces distoseptatus,Macroconstrictolumina megalateralis,Patellaria microspora,and Pseu-domicrothyrium thailandicum)are introduced base on morphology and phylogeny,together with two new records/reports and five new collections from different families.Ninety new combinations are also provided in this paper.
基金Acknowledgements Nalin Wijayawardene would like to thank Lechat Christian,Yuanpin Xiao,Danushka Sandaruwan,Paul Mungai,Huang Zhang,Ishani Goonasekara,Chada Norphanphoun,Ishara Manawasingha,Rajesh Jeewon,Thilini Chethana and Hasini Ekanayaka for their assistances and suggestions.We would like to thank Mark Stadler for his help to check names in Xylariales.Nalin Wijayawardene and Pedro Crous thank Ulrike Damm for her comments and suggestions for validating several names.K.D.Hyde thanks The Chinese Academy of Sciences,for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.K.D.Hyde and Monika C.Dayarathne would like to thank the Thailand Research Fund(TRF)grant no RSA5980068 entitled Biodiversity,phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans,National Research Council of Thailand(NRCT)entitled Diseases of mangrove trees and maintenance of good forestry practice(Grant number:60201000201)Mae Fah Luang University grant"Biodiversity,phylogeny and role of fungal endophytes of Pandanaceae"(Grant number:592010200112)+9 种基金Hugo Madrid was funded by Comisio´n Nacional de Investigacio´n Cientı´fica y Tecnolo´gica(CONICYT)Fondo Nacional de Desarrollo Cientı´fico y Tecnolo´gico(FONDECYT),Chile,project no.11140562."Rafael F.Castan˜eda-Ruiz is grateful to the Organizacio´n Superior de Direccio´n Empresarial,Grupo Agrı´cola,(OSDE)from the Cuban Ministry of Agriculture and"Programa de Salud Animal y Vegetal",project P131LH003033.Dong Qin Dai would like to thank the Key Laboratory of Yunnan Province Universities of the Diversity and Ecological Adaptive Evolution for Animals and plants on Yun-Gui Plateau for the support.Ka-Lai Pang thanks Ministry of Science and Technology,Taiwan for financial support(105-2621-B-019-002-)Guo Zhu Zhao was funded by the National Natural Science Foundation of China(No.31570019)Mingkwan Doilom acknowledges the Royal Golden Jubilee Ph.D.Program(PHD./0072/2553 in 4.S.M.F./53/A.2.K.Tanaka would like to thank the Japan Society for the Promotion of Science(JSPS26291084 and 16K07474)Walter P.Pfliegler was supported through the U´NKP-16-4-IV New National Excellence Program of the Hungarian Ministry of Human Capacities.Samantha C.Karunarathna thanks Yunnan Provincial Department of Human Resources and Social Security funded postdoctoral project(number 179122)for supporting his postdoctoral research study.The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089.KC Rajeshkumar thanks SERB,DST,Government of India for providing financial support under the project YSS/2015/001590Dr.K.M.Paknikar,Director,ARI for providing the facility.Mats Wedin thanks the Swedish Research Council,grants VR 621-2012-3990VR 2016-03589.Alan JL Phillips acknowledges the support from Biosystems and Integrative Sciences Institute(BioISI,FCT/UID/Multi/04046/2013)L.Selbmann,L.Zucconi and S.Onofri thank the Italian National Program for Antarctic Researches(PNRA)for the financial support.The Italian National Antarctic Museum(MNA)is acknowledged for supporting the Mycological Section and the Culture Collection of Fungi from Extreme Environments(CCFEE).
文摘Knowledge of the relationships and thus the classification of fungi,has developed rapidly with increasingly widespread use of molecular techniques,over the past 10–15 years,and continues to accelerate.Several genera have been found to be polyphyletic,and their generic concepts have subsequently been emended.New names have thus been introduced for species which are phylogenetically distinct from the type species of particular genera.The ending of the separate naming of morphs of the same species in 2011,has also caused changes in fungal generic names.In order to facilitate access to all important changes,it was desirable to compile these in a single document.The present article provides a list of generic names of Ascomycota(approximately 6500 accepted names published to the end of 2016),including those which are lichen-forming.Notes and summaries of the changes since the last edition of‘Ainsworth&Bisby’s Dictionary of the Fungi’in 2008 are provided.The notes include the number of accepted species,classification,type species(with location of the type material),culture availability,life-styles,distribution,and selected publications that have appeared since 2008.This work is intended to provide the foundation for updating the ascomycete component of the"Without prejudice list of generic names of Fungi"published in 2013,which will be developed into a list of protected generic names.This will be subjected to the XIXth International Botanical Congress in Shenzhen in July 2017 agreeing to a modification in the rules relating to protected lists,and scrutiny by procedures determined by the Nomenclature Committee for Fungi(NCF).The previously invalidly published generic names Barriopsis,Collophora(as Collophorina),Cryomyces,Dematiopleospora,Heterospora(as Heterosporicola),Lithophila,Palmomyces(as Palmaria)and Saxomyces are validated,as are two previously invalid family names,Bartaliniaceae and Wiesneriomycetaceae.Four species of Lalaria,which were invalidly published are transferred to Taphrina and validated as new combinations.Catenomycopsis Tibell&Constant.is reduced under Chaenothecopsis Vain.,while Dichomera Cooke is reduced under Botryosphaeria Ces.&De Not.(Art.59).
文摘This article is the 14th in the Fungal Diversity Notes series,wherein we report 98 taxa distributed in two phyla,seven classes,26 orders and 50 families which are described and illustrated.Taxa in this study were collected from Australia,Brazil,Burkina Faso,Chile,China,Cyprus,Egypt,France,French Guiana,India,Indonesia,Italy,Laos,Mexico,Russia,Sri Lanka,Thailand,and Vietnam.There are 59 new taxa,39 new hosts and new geographical distributions with one new combination.The 59 new species comprise Angustimassarina kunmingense,Asterina lopi,Asterina brigadeirensis,Bartalinia bidenticola,Bartalinia caryotae,Buellia pruinocalcarea,Coltricia insularis,Colletotrichum fexuosum,Colletotrichum thasutense,Coniochaeta caraganae,Coniothyrium yuccicola,Dematipyriforma aquatic,Dematipyriforma globispora,Dematipyriforma nilotica,Distoseptispora bambusicola,Fulvifomes jawadhuvensis,Fulvifomes malaiyanurensis,Fulvifomes thiruvannamalaiensis,Fusarium purpurea,Gerronema atrovirens,Gerronema favum,Gerronema keralense,Gerronema kuruvense,Grammothele taiwanensis,Hongkongmyces changchunensis,Hypoxylon inaequale,Kirschsteiniothelia acutisporum,Kirschsteiniothelia crustaceum,Kirschsteiniothelia extensum,Kirschsteiniothelia septemseptatum,Kirschsteiniothelia spatiosum,Lecanora immersocalcarea,Lepiota subthailandica,Lindgomyces guizhouensis,Marthe asmius pallidoaurantiacus,Marasmius tangerinus,Neovaginatispora mangiferae,Pararamichloridium aquisubtropicum,Pestalotiopsis piraubensis,Phacidium chinaum,Phaeoisaria goiasensis,Phaeoseptum thailandicum,Pleurothecium aquisubtropicum,Pseudocercospora vernoniae,Pyrenophora verruculosa,Rhachomyces cruralis,Rhachomyces hyperommae,Rhachomyces magrinii,Rhachomyces platyprosophi,Rhizomarasmius cunninghamietorum,Skeletocutis cangshanensis,Skeletocutis subchrysella,Sporisorium anadelphiae-leptocomae,Tetraploa dashaoensis,Tomentella exiguelata,Tomentella fuscoaraneosa,Tricholomopsis lechatii,Vaginatispora favispora and Wetmoreana blastidiocalcarea.The new combination is Torula sundara.The 39 new records on hosts and geographical distribution comprise Apiospora guiyangensis,Aplosporella artocarpi,Ascochyta medicaginicola,Astrocystis bambusicola,Athelia rolfsii,Bambusicola bambusae,Bipolaris luttrellii,Botryosphaeria dothidea,Chlorophyllum squamulosum,Colletotrichum aeschynomenes,Colletotrichum pandanicola,Coprinopsis cinerea,Corylicola italica,Curvularia alcornii,Curvularia senegalensis,Diaporthe foeniculina,Diaporthe longicolla,Diaporthe phaseolorum,Diatrypella quercina,Fusarium brachygibbosum,Helicoma aquaticum,Lepiota metulispora,Lepiota pongduadensis,Lepiota subvenenata,Melanconiella meridionalis,Monotosporella erecta,Nodulosphaeria digitalis,Palmiascoma gregariascomum,Periconia byssoides,Periconia cortaderiae,Pleopunctum ellipsoideum,Psilocybe keralensis,Scedosporium apiospermum,Scedosporium dehoogii,Scedosporium marina,Spegazzinia deightonii,Torula fci,Wiesneriomyces laurinus and Xylaria venosula.All these taxa are supported by morphological and multigene phylogenetic analyses.This article allows the researchers to publish fungal collections which areimportant for future studies.An updated,accurate and timely report of fungus-host and fungus-geography is important.We also provide an updated list of fungal taxa published in the previous fungal diversity notes.In this list,erroneous taxa and synonyms are marked and corrected accordingly.
基金provided by National Natural Science Foundation of China(Grant nos.32100011,31961143010,31970010,31470152)China Postdoctoral Science Foundation(Grant no.2021M693361)+3 种基金National Key R&D Program of China project”Accurate identification and innovative utilization of germplasm resources of edible mushrooms suitable for factory cultivation(Grant no.2022YFD1200605)Beijing Innovation Consortium of Agriculture Research System(Grant no.BAIC03-01)Biological Resources Programme,Chinese Academy of Sciences(Grant no.KFJ-BRP-009-003)Survey of Wildlife Resources in Key Areas of Tibet(Grant no.ZL202203601).
文摘Basidiomycota is one of the major phyla in the fungal tree of life.The outline of Basidiomycota provides essential taxonomic information for researchers and workers in mycology.In this study,we present a time-framed phylogenomic tree with 487 species of Basidiomycota from 127 families,47 orders,14 classes and four subphyla;we update the outline of Basidiomycota based on the phylogenomic relationships and the taxonomic studies since 2019;and we provide notes for each order and discuss the history,defining characteristics,evolution,justification of orders,problems,significance,and plates.Our phylogenomic analysis suggests that the subphyla diverged in a time range of 443-490 Myr(million years),classes in a time range of 312-412 Myr,and orders in a time range of 102-361 Myr.Families diverged in a time range of 50-289 Myr,76-224 Myr,and 62-156 Myr in Agaricomycotina,Pucciniomycotina,and Ustilaginomycotina,respectively.Based on the phylogenomic relationships and divergence times,we propose a new suborder Mycenineae in Agaricales to accommodate Mycenaceae.In the current outline of Basidiomycota,there are four subphyla,20 classes,77 orders,297 families,and 2134 genera accepted.When building a robust taxonomy of Basidiomycota in the genomic era,the generation of molecular phylogenetic data has become relatively easier.Finding phenotypical characters,especially those that can be applied for identification and classification,however,has become increasingly challenging.
基金the Estonian Science Foundation(Grant Nos.PRG632,PSG136,MOBTP198,PUT1170)Norway-Baltic EEA financial mechanism(Grant No.EMP442)RSF19-14-00038,DSFP-2021 and Novo Nordisk Fonden(Silva Nova).
文摘Fungi are highly important biotic components of terrestrial ecosystems,but we still have a very limited understanding about their diversity and distribution.This data article releases a global soil fungal dataset of the Global Soil Mycobiome consortium(GSMc)to boost further research in fungal diversity,biogeography and macroecology.The dataset comprises 722,682 fungal operational taxonomic units(OTUs)derived from PacBio sequencing of full-length ITS and 18S-V9 variable regions from 3200 plots in 108 countries on all continents.The plots are supplied with geographical and edaphic metadata.The OTUs are taxonomically and functionally assigned to guilds and other functional groups.The entire dataset has been corrected by excluding chimeras,index-switch artefacts and potential contamination.The dataset is more inclusive in terms of geographical breadth and phylogenetic diversity of fungi than previously published data.The GSMc dataset is available over the PlutoF repository.
基金funded by the National Natural Science Foundation of China(NSFC 32360011)the Second Qinghai-Tibet Plateau Scientific Investigation and Research Program(STEP)Program(Grant No.2019QZKK0503)Guizhou Institute of Technology High-Level Talent Research Start-up Project(2023GCC069).
文摘Helicosporous hyphomycetes are a fungal group with similar coiled or spiral conidial morphology but significant differences in genetic information,resulting in them being distributed in different phyla,classes,orders,and families.However,there are no comprehensive studies for this group.In this study,we have systematically organized the helicosporous taxa,revised their classification and provided a modern taxonomic framework based on morphology and phylogeny.This group encompasses 112 genera and 474 species distributed in three phyla,ten classes,20 orders and 25 families,while some taxa are classified as incertae sedis within Ascomycota.The illustrations and notes for all helicosporous genera and the drawings of the type or representative species that have not been collected and examined are provided.Additionally,a phylogenetic taxonomic distribution of helicosporous families based on maximum likelihood analysis of LSU,ITS,SSU,tef1-α,and rpb2 sequence data is provided.In addition,we obtained 160 new collections from China and Thailand.Based on molecular evidence and morphological characteristics,six new helicosporous genera viz.Acrohelicosporium,Hyalohelicoon,Hyalohelisphora,Hyalotubeufia,Pseudocirrenalia,and Pseudohelicosporium and 53 new species,viz.Acrohelicosporium abundatum,A.aquaticum,A.guizhouense,A.viridisporum,Berkleasmium hainanense,Helicoma brunneum,H.astrictum,H.dipterocarpi,H.guizhouense,H.sclerotiferum,H.tropicum,H.yinggelingense,Helicoma yunnanense,Helicosporium acropleurogenum,H.brunneisporum,H.changjiangense,H.jiangkouense,H.latisporum,H.ramosiphorum,Helicotubeufia laxisporum,Hya-lohelicoon multiseptatum,Hyalohelisphora lignicola,Neohelicomyces acropleurogenus,N.aseptatus,N.edgeworthiae,N.guttulatus,N.lignicola,N.macrosporus,N.qixingyaensis,N.xiayadongensis,N.yunnanensis,N.baihualingense,Neoheli-cosporium hainanense,N.jianfenglingense,N.latisporum,Parahelicomyces latisporus,Pa.laxisporus,Pa.parvisporus,Paratrimmatostroma helicosporum,Pleurohelicosporium brunneisporum,Pl.hyalosporum,Pl.multiseptatum,Pseudocir-renalia aquialpina,Pseudohelicosporium irregular,Ps.laxisporum,Pseudotubeufia dematiolaxispora,Sclerococcum astric-tum,Tubeufia acropleurogena,T.baomeilingensis,T.denticulate,T.subrenispora,T.tropica,and Troposporella guttulata are introduced.Additionally,37 new records and 22 known species are reported.Furthermore,we synonymize 30 species and provide 30 new combinations.Complete descriptions,illustrations,notes,and phylogenetic trees based on maximum likelihood and Bayesian analyses of LSU,ITS,mtSSU,SSU,tef1-α,and rpb2 sequence data are also provided for the new taxa,new combinations,new records,and known species.A worldwide checklist comprising the distribution,habitat,and availability of molecular data for the accepted helicosporous species is also provided.
基金provide by National Natural Science Foundation of China(Nos.32460002,31960005,32000009,32170019,NSFC 32260004)ussian Science Foundation(Nos.24-44-00099,23-74-00071,24-44-00099)+14 种基金National Research Council of Thailand(No.N42A650547)National Institute of Nursing Research(1P20GM152333-01)National Science Foundation(2029478)Japan Society for the Promotion of Science(JSPS,23K05900)National Science Foundation of China(32150410362)Croatian Science Foundation(HRZZIP-2022-10-5219)RSF(21-74-20089)ZIN RAS(122031100260-0)Science and Technology Human Resource Development Project(R3RJ2)Asian Development Bank,Conselho Naional de Desenvolvimento Científico e Tecnológico(306632/2022-5),zygosporic fungi in the Atlantic Forest of Pernambuco and Paraiba,Brazil(FACEPE–APQ-1346-2.12/22),Agriculture Sci-Tech Renovation(XJNKYWDZC–2022004)Research Foundation—Flanders(1206024N),FWF(P31038)Talent Recruitment Plan of Yunnan Province“High-End Foreign Experts,National Centre for Research and Development,Poland”(Tango-IV-C/0005/2019)CAS President’s International Fellowship Initiative(2021FYB0005)Smart Yunnan Project(E13K281261)High-Level Talent Recruitment Plan of Yunnan Provinces.
文摘Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2–3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics since Hibbett et al.,and the definition and the higher ranks(e.g.,phyla)of the‘true fungi’have been revised in several subsequent publications.Rapid accumulation of novel genomic data and the advancements in phylogenetics now facilitate a robust and precise foundation for the higher-level classification within the kingdom.This study provides an updated classification of the kingdom Fungi,drawing upon a comprehensive phylogenomic analysis of Holomycota,with which we outline well-supported nodes of the fungal tree and explore more contentious groupings.We accept 19 phyla of Fungi,viz.Aphelidiomycota,Ascomycota,Basidiobolomycota,Basidiomycota,Blastocladiomycota,Calcarisporiellomycota,Chytridiomycota,Entomophthoromycota,Entorrhizomycota,Glomeromycota,Kickxellomycota,Monoblepharomycota,Mortierellomycota,Mucoromycota,Neocallimastigomycota,Olpidiomycota,Rozellomycota,Sanchytriomycota,and Zoopagomycota.In the phylogenies,Caulochytriomycota resides in Chytridiomycota;thus,the former is regarded as a synonym of the latter,while Caulochytriomycetes is viewed as a class in Chytridiomycota.We provide a description of each phylum followed by its classes.A new subphylum,Sanchytriomycotina Karpov is introduced as the only subphylum in Sanchytriomycota.The subclass Pneumocystomycetidae Kirk et al.in Pneumocystomycetes,Ascomycota is invalid and thus validated.Placements of fossil fungi in phyla and classes are also discussed,providing examples.
基金provide by National Natural Science Foundation of China(Nos.32460002,31960005,32000009,32170019,NSFC 32260004)Russian Science Foundation(Nos.24-44-00099,23-74-00071,24-44-00099)+17 种基金National Research Council of Thailand(No.N42A650547)National Institute of Nursing Research(1P20GM152333-01)National Science Foundation(2029478)Japan Society for the Promotion of Science(JSPS,23K05900)National Science Foundation of China(32150410362)Croatian Science Foundation(HRZZ-IP-2022-10-5219)RSF(21-74-20089)ZIN RAS(122031100260-0)Science and Technology Human Resource Development Project(R3RJ2)Asian Development Bank,Conselho Naional de Desenvolvimento Científico e Tecnológico(306632/2022-5)zygosporic fungi in the Atlantic Forest of Pernambuco and Paraíba,Brazil(FACEPE-APQ-1346-2.12/22)Agriculture Sci-Tech Renovation(XJNKYWDZC-2022004)Research Foundation-Flanders(1206024N)FWF(P31038)Talent Recruitment Plan of Yunnan Province“High-End Foreign Experts”,National Centre for Research and Development,Poland(Tango-Ⅳ-C/0005/2019)CAS President’s International Fellowship Initiative(2021FYB0005)Smart Yunnan Project(E13K281261)High-Level Talent Recruitment Plan of Yunnan Provinces.
文摘Fungi are one of the most diverse groups of organisms with an estimated number of species in the range of 2-3 million.The higher-level ranking of fungi has been discussed in the framework of molecular phylogenetics since Hibbett et al.,and the definition and the higher ranks(e.g.,phyla)of the‘true fungi’have been revised in several subsequent publications.Rapid accumulation of novel genomic data and the advancements in phylogenetics now facilitate a robust and precise foundation for the higher-level classification within the kingdom.This study provides an updated classification of the kingdom Fungi,drawing upon a comprehensive phylogenomic analysis of Holomycota,with which we outline well-supported nodes of the fungal tree and explore more contentious groupings.We accept 19 phyla of Fungi,viz.Aphelidiomycota,Ascomycota,Basidiobolomycota,Basidiomycota,Blastocladiomycota,Calcarisporiellomycota,Chytridiomycota,Entomophthoromycota,Entorrhizomycota,Glomeromycota,Kickxellomycota,Monoblepharomycota,Mortierellomycota,Mucoromycota,Neocal-limastigomycota,Olpidiomycota,Rozellomycota,Sanchytriomycota,and Zoopagomycota.In the phylogenies,Caulochy-triomycota resides in Chytridiomycota;thus,the former is regarded as a synonym of the latter,while Caulochytriomycetes is viewed as a class in Chytridiomycota.We provide a description of each phylum followed by its classes.A new subphylum,Sanchytriomycotina Karpov is introduced as the only subphylum in Sanchytriomycota.The subclass Pneumocystomycetidae Kirk et al.in Pneumocystomycetes,Ascomycota is invalid and thus validated.Placements of fossil fungi in phyla and classes are also discussed,providing examples.
