Since the initial description, the name Musa aurantiaca Baker (1893) has been unclear to most botanists. The aim of this study is to settle its true identity and to update the description. The plant is distributed in ...Since the initial description, the name Musa aurantiaca Baker (1893) has been unclear to most botanists. The aim of this study is to settle its true identity and to update the description. The plant is distributed in the regions of Upper Assam and Arunachal Pradesh, India, Northern Myanmar and Tibet, China where it occurs commonly but it is not mentioned in Chinese literature at all. In this paper, the authors also review the description and the literature history of M. aurantiaca from 1893 to the present. Musa aurantiaca Baker is typified here.展开更多
Since the initial description, the name Musa dasycarpa Kurz (1867) has been unclear to most botanists. It has usually been synonymized with M. velutina H. Wendl. & Drude (1875). However, although the original diag...Since the initial description, the name Musa dasycarpa Kurz (1867) has been unclear to most botanists. It has usually been synonymized with M. velutina H. Wendl. & Drude (1875). However, although the original diagnosis was very short, 'fruits hairy', it is adequate. Thus, according to Vienna Codes, M. dasycarpa Kurz has priority over M. velutina H. Wendl. & Drude. The aim of this study is to settle the true identity and to update the description of M. dasycarpa Kurz. For that purpose the names M. dasycarpa and M. velutina are typified. In addi-tion, critical notes regarding M. assamica Bull. are given; it is neotypified here, and considered as conspecific with M. sanguinea Hook. f.展开更多
Family Cortinariaceae currently includes only one genus,Cortinarius,which is the largest Agaricales genus,with thousands of species worldwide.The species are important ectomycorrhizal fungi and form associations with ...Family Cortinariaceae currently includes only one genus,Cortinarius,which is the largest Agaricales genus,with thousands of species worldwide.The species are important ectomycorrhizal fungi and form associations with many vascular plant gen-era from tropicals to arctic regions.Genus Cortinarius contains a lot of morphological variation,and its complexity has led many taxonomists to specialize in particular on infrageneric groups.The previous attempts to divide Cortinarius have been shown to be unnatural and the phylogenetic studies done to date have not been able to resolve the higher-level classification of the group above section level.Genomic approaches have revolutionized our view on fungal relationships and provide a way to tackle difficult groups.We used both targeted capture sequencing and shallow whole genome sequencing to produce data and to perform phylogenomic analyses of 75 single-copy genes from 19 species.In addition,a wider 5-locus analysis of 245 species,from the Northern and Southern Hemispheres,was also done.Based on our results,a classification of the family Cortinariaceae into ten genera-Cortinarius,Phlegmacium,Thaxterogaster,Calonarius,Aureonarius,Cystinarius,Volvanarius,Hygronarius,Mystinarius,and Austrocortinarius-is proposed.Seven genera,10 subgenera,and four sec-tions are described as new to science and five subgenera are introduced as new combinations in a new rank.In addition,41 section names and 514 species names are combined in new genera and four lecto-and epitypes designated.The position of Stephanopus in suborder Agaricineae remains to be studied.Targeted capture sequencing is used for the first time in fungal taxonomy in Basidiomycetes.It provides a cost-efficient way to produce-omics data in species-rich groups.The-omics data was produced from fungarium specimens up to 21 years old,demonstrating the value of museum specimens in the study of the fungal tree of life.This study is the first family revision in Agaricales based on genomics data and hopefully many others will soon follow.展开更多
So far approximately 144,000 species of fungi have been named but sequences of the majority of them do not exist in the public databases.Therefore,the quality and coverage of public barcode databases is a bottleneck t...So far approximately 144,000 species of fungi have been named but sequences of the majority of them do not exist in the public databases.Therefore,the quality and coverage of public barcode databases is a bottleneck that hinders the study of fungi.Cortinarius is the largest genus of Agaricales with thousands of species world-wide.The most diverse subgenus in Cortinarius is Telamonia and its species have been considered one of the most taxonomically challenging in the Agaricales.Its high diversity combined with convergent,similar appearing taxa have earned it a reputation of being an impossible group to study.In this study a total of 746 specimens,including 482 type specimens representing 184 species were sequenced.Also,a significant number of old types were successfully sequenced,105 type specimens were over 50 years old and 18 type specimens over 100 years old.Altogether,20 epi-or neotypes are proposed for recently commonly used older names.Our study doubles the number of reliable DNA-barcodes of species of C.subgenus Telamonia in the public sequence data-bases.This is also the first extensive phylogenetic study of the subgenus.A majority of the sections and species are shown in a phylogenetic context for the first time.Our study shows that nomenclatural problems,even in difficult groups like C.subgenus Telamonia,can be solved and consequently identification of species based on ITS barcodes becomes an easy task even for non-experts of the genus.展开更多
From mid-elevation pine forest on the Aegean Sea island of Thasos 8 additional Cladonia species for the lichen mycota of Greece are reported.Most have a wide distribution in Europe and reach their southern limit in Gr...From mid-elevation pine forest on the Aegean Sea island of Thasos 8 additional Cladonia species for the lichen mycota of Greece are reported.Most have a wide distribution in Europe and reach their southern limit in Greece.From schistose rock in the same area and on Evvia a new species is described,Cladonia graeca,which is probably related to C.macrophylla and C.decorticata but contains fumarprotocetraric acid instead of psoromic or perlatolic acid.展开更多
We assess the composition of corticioid fungi in the Caucasus region for the first time.The Caucasian corticioids were compared with those of well-documented areas in the Northern Hemisphere using the Tripartite simil...We assess the composition of corticioid fungi in the Caucasus region for the first time.The Caucasian corticioids were compared with those of well-documented areas in the Northern Hemisphere using the Tripartite similarity index and cluster analysis.To investigate the significance of the Caucasus region as a possible contributor to the colonization of wood-inhabiting basidiomycetes in Europe,DNA sequences of nuclear ribosomal internal transcribed spacers(ITS1 and ITS2)belonging to the corticioid fungus Peniophorella praetermissa were analysed for comparisons of genetic diversity within and differentiation between geographical regions.Putative species endemism and disjunction of corticioids in the Caucasus region is also discussed.The composition of corticioid fungi in the Caucasus region was found to be distinctly more similar to Europe and North America than to East Asia and India.Similarity tests and molecular Fsts both point to a strong connection between the Caucasus and Europe.The highest molecular diversity in P.praetermissa was in the Caucasus and East Asia as compared with other regions studied.The Caucasus and East Asia were significantly differentiated from each other,and unlike Caucasian samples,East Asian sequences were highly divergent from the European ones.This result suggests that the Caucasus might have been a source of colonization for Europe.Endemism is very low,possibly a common feature for wood-inhabiting saprotrophic fungi.展开更多
This study is a re-assessment of basidiolichen diversity in the Galapagos Islands.We present a molecular phylogenetic analysis,based on 92 specimens from Galapagos,using two nuclear ribosomal DNA markers(ITS and nuLSU...This study is a re-assessment of basidiolichen diversity in the Galapagos Islands.We present a molecular phylogenetic analysis,based on 92 specimens from Galapagos,using two nuclear ribosomal DNA markers(ITS and nuLSU).We also re-examined the morphology and anatomy of all sequenced material.The molecular results confirm our previous assessment that all Galapagos basidiolichens belong to the Dictyonema clade,which in Galapagos is represented by four genera:Acantholichen,Cora,Cyphellostereum,and Dictyonema.Most species previously reported from Galapagos in these genera were at the time believed to represent widely distributed taxa.This conclusion,however,has changed with the inclusion of molecular data.Although almost the same number of species is distinguished,the phylogenetic data now suggest that all are restricted to the Galapagos Islands.Among them,six species are proposed here as new to science,namely Cora galapagoensis,Cyphellostereum unoquinoum,Dictyonema barbatum,D.darwinianum,D.ramificans,and D.subobscuratum;and four species have already been described previously,namely Acantholichen galapagoensis,Cora santacruzensis,Dictyonema pectinatum,and D.galapagoense,here recombined as Cyphellostereum galapagoense.Our analysis is set on a very broad phylogenetic framework,which includes a large number of specimens(N=826)mainly from Central and South America,and therefore strongly suggests an unusually high level of endemism previously not recognized.This analysis also shows that the closest relatives of half of the basidiolichens now found in Galapagos are from mainland Ecuador,implying that they reached the islands through the shortest route,with all species arriving on the islands through independent colonization events.展开更多
This paper is a compilation of notes on 142 fungal taxa,including five new families,20 new genera,and 100 new species,representing a wide taxonomic and geographic range.The new families,Ascocylindricaceae,Caryosporace...This paper is a compilation of notes on 142 fungal taxa,including five new families,20 new genera,and 100 new species,representing a wide taxonomic and geographic range.The new families,Ascocylindricaceae,Caryosporaceae and Wicklowiaceae(Ascomycota)are introduced based on their distinct lineages and unique morphology.The new Dothideomycete genera Pseudomassariosphaeria(Amniculicolaceae),Heracleicola,Neodidymella and Pseudomicrosphaeriopsis(Didymellaceae),Pseudopithomyces(Didymosphaeriaceae),Brunneoclavispora,Neolophiostoma and Sulcosporium(Halotthiaceae),Lophiohelichrysum(Lophiostomataceae),Galliicola,Populocrescentia and Vagicola(Phaeosphaeriaceae),Ascocylindrica(Ascocylindricaceae),Elongatopedicellata(Roussoellaceae),Pseudoasteromassaria(Latoruaceae)and Pseudomonodictys(Macrodiplodiopsidaceae)are introduced.The newly described species of Dothideomycetes(Ascomycota)are Pseudomassariosphaeria bromicola(Amniculicolaceae),Flammeascoma lignicola(Anteagloniaceae),Ascocylindrica marina(Ascocylindricaceae),Lembosia xyliae(Asterinaceae),Diplodia crataegicola and Diplodia galiicola(Botryosphaeriaceae),Caryospora aquatica(Caryosporaceae),Heracleicola premilcurensis and Neodidymella thailandicum(Didymellaceae),Pseudopithomyces palmicola(Didymosphaeriaceae),Floricola viticola(Floricolaceae),Brunneoclavispora bambusae,Neolophiostoma pigmentatum and Sulcosporium thailandica(Halotthiaceae),Pseudoasteromassaria fagi(Latoruaceae),Keissleriella dactylidicola(Lentitheciaceae),Lophiohelichrysum helichrysi(Lophiostomataceae),Aquasubmersa japonica(Lophiotremataceae),Pseudomonodictys tectonae(Macrodiplodiopsidaceae),Microthyrium buxicola and Tumidispora shoreae(Microthyriaceae),Alloleptosphaeria clematidis,Allophaeosphaeria cytisi,Allophaeosphaeria subcylindrospora,Dematiopleospora luzulae,Entodesmium artemisiae,Galiicola pseudophaeosphaeria,Loratospora luzulae,Nodulosphaeria senecionis,Ophiosphaerella aquaticus,Populocrescentia forlicesenensis and Vagicola vagans(Phaeosphaeriaceae),Elongatopedicellata lignicola,Roussoella magnatum and Roussoella angustior(Roussoellaceae)and Shrungabeeja longiappendiculata(Tetraploasphaeriaceae).The new combinations Pseudomassariosphaeria grandispora,Austropleospora archidendri,Pseudopithomyces chartarum,Pseudopithomyces maydicus,Pseudopithomyces sacchari,Vagicola vagans,Punctulariopsis cremeoalbida and Punctulariopsis efibulata Dothideomycetes.The new genera Dictyosporella(Annulatascaceae),and Tinhaudeus(Halosphaeriaceae)are introduced in Sordariomycetes(Ascomycota)while Dictyosporella aquatica(Annulatascaceae),Chaetosphaeria rivularia(Chaetosphaeriaceae),Beauveria gryllotalpidicola and Beauveria loeiensis(Cordycipitaceae),Seimatosporium sorbi and Seimatosporium pseudorosarum(Discosiaceae),Colletotrichum aciculare,Colletotrichum fusiforme and Colletotrichum hymenocallidicola(Glomerellaceae),Tinhaudeus formosanus(Halosphaeriaceae),Pestalotiopsis subshorea and Pestalotiopsis dracaenea(Pestalotiopsiceae),Phaeoacremonium tectonae(Togniniaceae),Cytospora parasitica and Cytospora tanaitica(Valsaceae),Annulohypoxylon palmicola,Biscogniauxia effusae and Nemania fusoideis(Xylariaceae)are introduced as novel species to order Sordariomycetes.The newly described species of Eurotiomycetes are Mycocalicium hyaloparvicellulum(Mycocaliciaceae).Acarospora septentrionalis and Acarospora castaneocarpa(Acarosporaceae),Chapsa multicarpa and Fissurina carassensis(Graphidaceae),Sticta fuscotomentosa and Sticta subfilicinella(Lobariaceae)are newly introduced in class Lecanoromycetes.In class Pezizomycetes,Helvella pseudolacunosa and Helvella rugosa(Helvellaceae)are introduced as new species.The new families,Dendrominiaceae and Neoantrodiellaceae(Basidiomycota)are introduced together with a new genus Neoantrodiella(Neoantrodiellaceae),here based on both morphology coupled with molecular data.In the class Agaricomycetes,Agaricus pseudolangei,Agaricus haematinus,Agaricus atrodiscus and Agaricus exilissimus(Agaricaceae),Amanita melleialba,Amanita pseudosychnopyramis and Amanita subparvipantherina(Amanitaceae),Entoloma calabrum,Cora barbulata,Dictyonema gomezianum and Inocybe granulosa(Inocybaceae),Xerocomellus sarnarii(Boletaceae),Cantharellus eucalyptorum,Cantharellus nigrescens,Cantharellus tricolor and Cantharellus variabilicolor(Cantharellaceae),Cortinarius alboamarescens,Cortinarius brunneoalbus,Cortinarius ochroamarus,Cortinarius putorius and Cortinarius seidlii(Cortinariaceae),Hymenochaete micropora and Hymenochaete subporioides(Hymenochaetaceae),Xylodon ramicida(Schizoporaceae),Colospora andalasii(Polyporaceae),Russula guangxiensis and Russula hakkae(Russulaceae),Tremella dirinariae,Tremella graphidis and Tremella pyrenulae(Tremellaceae)are introduced.Four new combinations Neoantrodiella gypsea,Neoantrodiella thujae(Neoantrodiellaceae),Punctulariopsis cremeoalbida,Punctulariopsis efibulata(Punctulariaceae)are also introduced here for the division Basidiomycota.Furthermore Absidia caatinguensis,Absidia koreana and Gongronella koreana(Cunninghamellaceae),Mortierella pisiformis and Mortierella formosana(Mortierellaceae)are newly introduced in the Zygomycota,while Neocallimastix cameroonii and Piromyces irregularis(Neocallimastigaceae)are introduced in the Neocallimastigomycota.Reference specimens or changes in classification and notes are provided for Alternaria ethzedia,Cucurbitaria ephedricola,Austropleospora,Austropleospora archidendri,Byssosphaeria rhodomphala,Lophiostoma caulium,Pseudopithomyces maydicus,Massariosphaeria,Neomassariosphaeria and Pestalotiopsis montellica.展开更多
This is a continuity of a series of taxonomic papers where materials are examined,described and novel combinations are proposed where necessary to improve our traditional species concepts and provide updates on their ...This is a continuity of a series of taxonomic papers where materials are examined,described and novel combinations are proposed where necessary to improve our traditional species concepts and provide updates on their classification.In addition to extensive morphological descriptions and appropriate asexual and sexual connections,DNA sequence data are also analysed from concatenated datasets(rDNA,TEF-a,RBP2 and b-Tubulin)to infer phylogenetic relationships and substantiate systematic position of taxa within appropriate ranks.Wherever new species or combinations are being proposed,we apply an integrative approach(morphological and molecular data as well as ecological features wherever applicable).Notes on 125 fungal taxa are compiled in this paper,including eight new genera,101 new species,two new combinations,one neotype,four reference specimens,new host or distribution records for eight species and one alternative morphs.The new genera introduced in this paper are Alloarthopyrenia,Arundellina,Camarosporioides,Neomassaria,Neomassarina,Neotruncatella,Paracapsulospora and Pseudophaeosphaeria.The new species are Alfaria spartii,Alloarthopyrenia italica,Anthostomella ravenna,An.thailandica,Arthrinium paraphaeospermum,Arundellina typhae,Aspergillus koreanus,Asterina cynometrae,Bertiella ellipsoidea,Blastophorum aquaticum,Cainia globosa,Camarosporioides phragmitis,Ceramothyrium menglunense,Chaetosphaeronema achilleae,Chlamydotubeufia helicospora,Ciliochorella phanericola,Clavulinopsis aurantiaca,Colletotrichum insertae,Comoclathris italica,Coronophora myricoides,Cortinarius fulvescentoideus,Co.nymphatus,Co.pseudobulliardioides,Co.tenuifulvescens,Cunninghamella gigacellularis,Cyathus pyristriatus,Cytospora cotini,Dematiopleospora alliariae,De.cirsii,Diaporthe aseana,Di.garethjonesii,Distoseptispora multiseptata,Dis.tectonae,Dis.tectonigena,Dothiora buxi,Emericellopsis persica,Gloniopsis calami,Helicoma guttulatum,Helvella floriforma,H.oblongispora,Hermatomyces subiculosa,Juncaceicola italica,Lactarius dirkii,Lentithecium unicellulare,Le.voraginesporum,Leptosphaeria cirsii,Leptosphaeria irregularis,Leptospora galii,Le.thailandica,Lindgomyces pseudomadisonensis,Lophiotrema bambusae,Lo.fallopiae,Meliola citri-maximae,Minimelanolocus submersus,Montagnula cirsii,Mortierella fluviae,Muriphaeosphaeria ambrosiae,Neodidymelliopsis ranunculi,Neomassaria fabacearum,Neomassarina thailandica,Neomicrosphaeropsis cytisi,Neo.cytisinus,Neo.minima,Neopestalotiopsis cocoe¨s,Neopestalotiopsis musae,Neoroussoella lenispora,Neotorula submersa,Neotruncatella endophytica,Nodulosphaeria italica,Occultibambusa aquatica,Oc.chiangraiensis,Ophiocordyceps hemisphaerica,Op.lacrimoidis,Paracapsulospora metroxyli,Pestalotiopsis sequoiae,Peziza fruticosa,Pleurotrema thailandica,Poaceicola arundinis,Polyporus mangshanensis,Pseudocoleophoma typhicola,Pseudodictyosporium thailandica,Pseudophaeosphaeria rubi,Purpureocillium sodanum,Ramariopsis atlantica,Rhodocybe griseoaurantia,Rh.indica,Rh.luteobrunnea,Russula indoalba,Ru.pseudoamoenicolor,Sporidesmium aquaticivaginatum,Sp.olivaceoconidium,Sp.pyriformatum,Stagonospora forlicesenensis,Stagonosporopsis centaureae,Terriera thailandica,Tremateia arundicola,Tr.guiyangensis,Trichomerium bambusae,Tubeufia hyalospora,Tu.roseohelicospora and Wojnowicia italica.New combinations are given for Hermatomyces mirum and Pallidocercospora thailandica.A neotype is proposed for Cortinarius fulvescens.Reference specimens are given for Aquaphila albicans,Leptospora rubella,Platychora ulmi and Meliola pseudosasae,while new host or distribution records are provided for Diaporthe eres,Di.siamensis,Di.foeniculina,Dothiorella iranica,Do.sarmentorum,Do.vidmadera,Helvella tinta and Vaginatispora fuckelii,with full taxonomic details.An asexual state is also reported for the first time in Neoacanthostigma septoconstrictum.This paper contributes to a more comprehensive update and improved identification of many ascomycetes and basiodiomycetes.展开更多
Following a large-scale phylogenetic study of the lichenized genus Cora(Basidiomycota:Agaricales:Hygrophoraceae),we formally describe 70 new species,honouring the seventieth birthday of David Leslie Hawksworth,one of ...Following a large-scale phylogenetic study of the lichenized genus Cora(Basidiomycota:Agaricales:Hygrophoraceae),we formally describe 70 new species,honouring the seventieth birthday of David Leslie Hawksworth,one of the preeminent figures in mycology and lichenology in the past 50 years.Based on an updated phylogeny using the ITS fungal barcoding locus,we now recognize 189 taxa in a genus that until recently was considered to represent a single species;including this contribution,92 of these are formally recognized,including five taxa based on historical names or collections that have not been sequenced.Species of Cora can be recognized by a combination of morphological(size,colour,lobe configuration,surface hairs,hymenophore size and shape),anatomical(thallus thickness,cortex structure,photobiont type,hyphal papillae),and ecogeographical features(substrate,habitat,distribution),and a keytable allowing the identification of all accepted taxa is provided.The new species are:Cora accipiter Moncada,Madrin˜a´n&Lücking spec.nov.,C.applanata Moncada,Soto-Medina&Lücking spec.nov.,C.arachnodavidea Moncada,Dal Forno&Lücking spec.nov.,C.arborescens Dal Forno,Chaves&Lücking spec.nov.,C.arcabucana Moncada,C.Rodrı´guez&Lücking spec.nov.,C.aturucoa Lücking,Moncada&C.Vargas spec.nov.,C.auriculeslia Moncada,Ya´nez-Ayabaca&Lücking spec.nov.,C.barbifera Moncada,Patin˜o&Lücking spec.nov.,C.boleslia Lücking,E.Morales&Dal Forno spec.nov.,C.caliginosa Holgado,Rivas Plata&Perlmutter spec.nov.,C.campestris Dal Forno,Eliasaro&Spielmann spec.nov.,C.canari Nugra,Dal Forno&Lücking spec.nov.,C.caraana Lücking,Martins&Lucheta spec.nov.,C.casasolana Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.caucensis Moncada,M.Gut.&Lücking spec.nov.,C.celestinoa Moncada,CabreraAmaya&Lücking spec.nov.,C.comaltepeca Moncada,R.-E.Pe´rez&Herrera-Camp.spec.nov.,C.corani Lücking,E.Morales&Dal Forno spec.nov.,C.corelleslia Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.crispoleslia Moncada,J.Molina&Lücking spec.nov.,C.cuzcoensis Holgado,Rivas Plata&Perlmutter spec.nov.,C.dalehana Moncada,Madrin˜a´n&Lücking spec.nov.,C.davibogotana Lücking,Moncada&Coca spec.nov.,C.davicrinita Moncada,Madrin˜a´n&Lücking spec.nov.,C.davidia Moncada,L.Vargas&Lücking spec.nov.,C.dewisanti Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.dulcis Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.elephas Lücking,Moncada&L.Vargas spec.nov.,C.fuscodavidiana Lücking,Moncada&L.Vargas spec.nov.,C.garagoa Simijaca,Moncada&Lücking spec.nov.,C.gigantea Lücking,Moncada&Coca spec.nov.,C.gomeziana Dal Forno,Chaves&Lücking spec.nov.,C.guajalitensis Lücking,Robayo&Dal Forno spec.nov.,C.hafecesweorthensis Moncada,Lücking&R.Pela´ez spec.nov.,C.haledana Dal Forno,Chaves&Lücking spec.nov.,C.hawksworthiana Dal Forno,P.Nelson&Lücking spec.nov.,C.hochesuordensis Lücking,E.Morales&Dal Forno spec.nov.,C.hymenocarpa Lücking,Chaves&Lawrey spec.nov.,C.imi Lücking,Chaves&Lawrey spec.nov.,C.itabaiana Dal Forno,Aptroot&M.Ca´ceres spec.nov.,C.leslactuca nov.,C.maxima Wilk,Dal Forno&Lücking spec.nov.,C.minutula Lücking,Moncada&Ya´nez-Ayabaca spec.nov.,C.palaeotropica Weerakoon,Aptroot&Lücking spec.nov.,C.palustris Dal Forno,Chaves&Lücking spec.nov.,C.parabovei Dal Forno,Kukwa&Lücking spec.nov.,C.paraciferrii Lücking,Moncada&J.E.Hern.spec.nov.,C.paraminor Dal Forno,Chaves&Lücking spec.nov.,C.pastorum Moncada,Patin˜o&Lücking spec.nov.,C.pichinchensis Paredes,Jonitz&Dal Forno spec.nov.,C.pikynasa J.-M.Torres,Moncada&Lücking spec.nov.,C.pseudobovei Wilk,Dal Forno&Lücking spec.nov.,C.pseudocorani Lücking,E.Morales&Dal Forno spec.nov.,C.putumayensis L.J.Arias,Moncada&Lücking spec.nov.,C.quillacinga Moncada,F.Ortega&Lücking spec.nov.,C.rothesiorum Moncada,Madrin˜a´n&Lücking spec.nov.,C.rubrosanguinea Nugra,Moncada&Lücking spec.nov.,C.santacruzensis Dal Forno,Bungartz&Ya´nezAyabaca,spec.nov.,C.schizophylloides Moncada,C.Rodrı´guez&Lücking spec.nov.,C.smaragdina Lücking,Rivas Plata&Chaves spec.nov.,C.soredavidia Dal Forno,Marcelli&Lücking spec.nov.,C.subdavicrinita Moncada,J.Molina&Lücking spec.nov.,C.suturifera Nugra,Besal&Lücking spec.nov.,C.terrestris Dal Forno,Chaves&Lücking spec.nov.,C.terricoleslia Wilk,Dal Forno&Lücking spec.nov.,C.udebeceana Moncada,R.Pela´ez&Lücking,Moncada&R.Pela´ez spec.Lücking spec.nov.,C.urceolata Moncada,Coca&Lücking spec.nov.,C.verjonensis Lücking,Moncada&Dal Forno spec.nov.,C.viliewoa Lücking,Chaves&Soto-Medina spec.nov.,and C.yukiboa Mercado-Dı´az,Moncada&Lücking spec.nov.Furthermore,the taxonomic status of the recently described or recognized species C.arachnoidea,C.aspera,C.ciferrii,and C.reticulifera,is revised.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
文摘Since the initial description, the name Musa aurantiaca Baker (1893) has been unclear to most botanists. The aim of this study is to settle its true identity and to update the description. The plant is distributed in the regions of Upper Assam and Arunachal Pradesh, India, Northern Myanmar and Tibet, China where it occurs commonly but it is not mentioned in Chinese literature at all. In this paper, the authors also review the description and the literature history of M. aurantiaca from 1893 to the present. Musa aurantiaca Baker is typified here.
文摘Since the initial description, the name Musa dasycarpa Kurz (1867) has been unclear to most botanists. It has usually been synonymized with M. velutina H. Wendl. & Drude (1875). However, although the original diagnosis was very short, 'fruits hairy', it is adequate. Thus, according to Vienna Codes, M. dasycarpa Kurz has priority over M. velutina H. Wendl. & Drude. The aim of this study is to settle the true identity and to update the description of M. dasycarpa Kurz. For that purpose the names M. dasycarpa and M. velutina are typified. In addi-tion, critical notes regarding M. assamica Bull. are given; it is neotypified here, and considered as conspecific with M. sanguinea Hook. f.
基金Supported by National Natural Science Foundation of China(31270066&31750001) the fund of Shandong Provincial Education Association for International Exchanges
文摘Family Cortinariaceae currently includes only one genus,Cortinarius,which is the largest Agaricales genus,with thousands of species worldwide.The species are important ectomycorrhizal fungi and form associations with many vascular plant gen-era from tropicals to arctic regions.Genus Cortinarius contains a lot of morphological variation,and its complexity has led many taxonomists to specialize in particular on infrageneric groups.The previous attempts to divide Cortinarius have been shown to be unnatural and the phylogenetic studies done to date have not been able to resolve the higher-level classification of the group above section level.Genomic approaches have revolutionized our view on fungal relationships and provide a way to tackle difficult groups.We used both targeted capture sequencing and shallow whole genome sequencing to produce data and to perform phylogenomic analyses of 75 single-copy genes from 19 species.In addition,a wider 5-locus analysis of 245 species,from the Northern and Southern Hemispheres,was also done.Based on our results,a classification of the family Cortinariaceae into ten genera-Cortinarius,Phlegmacium,Thaxterogaster,Calonarius,Aureonarius,Cystinarius,Volvanarius,Hygronarius,Mystinarius,and Austrocortinarius-is proposed.Seven genera,10 subgenera,and four sec-tions are described as new to science and five subgenera are introduced as new combinations in a new rank.In addition,41 section names and 514 species names are combined in new genera and four lecto-and epitypes designated.The position of Stephanopus in suborder Agaricineae remains to be studied.Targeted capture sequencing is used for the first time in fungal taxonomy in Basidiomycetes.It provides a cost-efficient way to produce-omics data in species-rich groups.The-omics data was produced from fungarium specimens up to 21 years old,demonstrating the value of museum specimens in the study of the fungal tree of life.This study is the first family revision in Agaricales based on genomics data and hopefully many others will soon follow.
基金the Ministry of Environment,Finland(YM38/5512/2009)The Finnish Cultural Foundation,Daniel E.Stuntz Memorial Foundation(Univ.of Washington,USA),Swedish taxonomy Initiative-project(University of Gothenburg),Kone Foundation(FinBOL project)and the ELTE Insti-tutional Excellence Program by the National Research,Development and Innovation Office of Hungary(NKFIH-1157-8/2019-DT)。
文摘So far approximately 144,000 species of fungi have been named but sequences of the majority of them do not exist in the public databases.Therefore,the quality and coverage of public barcode databases is a bottleneck that hinders the study of fungi.Cortinarius is the largest genus of Agaricales with thousands of species world-wide.The most diverse subgenus in Cortinarius is Telamonia and its species have been considered one of the most taxonomically challenging in the Agaricales.Its high diversity combined with convergent,similar appearing taxa have earned it a reputation of being an impossible group to study.In this study a total of 746 specimens,including 482 type specimens representing 184 species were sequenced.Also,a significant number of old types were successfully sequenced,105 type specimens were over 50 years old and 18 type specimens over 100 years old.Altogether,20 epi-or neotypes are proposed for recently commonly used older names.Our study doubles the number of reliable DNA-barcodes of species of C.subgenus Telamonia in the public sequence data-bases.This is also the first extensive phylogenetic study of the subgenus.A majority of the sections and species are shown in a phylogenetic context for the first time.Our study shows that nomenclatural problems,even in difficult groups like C.subgenus Telamonia,can be solved and consequently identification of species based on ITS barcodes becomes an easy task even for non-experts of the genus.
基金Supported by The German Research Association (DFG)
文摘From mid-elevation pine forest on the Aegean Sea island of Thasos 8 additional Cladonia species for the lichen mycota of Greece are reported.Most have a wide distribution in Europe and reach their southern limit in Greece.From schistose rock in the same area and on Evvia a new species is described,Cladonia graeca,which is probably related to C.macrophylla and C.decorticata but contains fumarprotocetraric acid instead of psoromic or perlatolic acid.
文摘We assess the composition of corticioid fungi in the Caucasus region for the first time.The Caucasian corticioids were compared with those of well-documented areas in the Northern Hemisphere using the Tripartite similarity index and cluster analysis.To investigate the significance of the Caucasus region as a possible contributor to the colonization of wood-inhabiting basidiomycetes in Europe,DNA sequences of nuclear ribosomal internal transcribed spacers(ITS1 and ITS2)belonging to the corticioid fungus Peniophorella praetermissa were analysed for comparisons of genetic diversity within and differentiation between geographical regions.Putative species endemism and disjunction of corticioids in the Caucasus region is also discussed.The composition of corticioid fungi in the Caucasus region was found to be distinctly more similar to Europe and North America than to East Asia and India.Similarity tests and molecular Fsts both point to a strong connection between the Caucasus and Europe.The highest molecular diversity in P.praetermissa was in the Caucasus and East Asia as compared with other regions studied.The Caucasus and East Asia were significantly differentiated from each other,and unlike Caucasian samples,East Asian sequences were highly divergent from the European ones.This result suggests that the Caucasus might have been a source of colonization for Europe.Endemism is very low,possibly a common feature for wood-inhabiting saprotrophic fungi.
基金thank National Science Foundation for financial support through a Division of Environmental Biology grant(DEB 0841405,PI:J.LawreyCoPIs:R.Lücking,P.Gillevet)+1 种基金a Postdoctoral Research Fellowship in Biology(PRFB 1609022,PI:M.Dal Forno)supported by the Mohamed bin Zayed Species Conservation Fund,Project 152510692。
文摘This study is a re-assessment of basidiolichen diversity in the Galapagos Islands.We present a molecular phylogenetic analysis,based on 92 specimens from Galapagos,using two nuclear ribosomal DNA markers(ITS and nuLSU).We also re-examined the morphology and anatomy of all sequenced material.The molecular results confirm our previous assessment that all Galapagos basidiolichens belong to the Dictyonema clade,which in Galapagos is represented by four genera:Acantholichen,Cora,Cyphellostereum,and Dictyonema.Most species previously reported from Galapagos in these genera were at the time believed to represent widely distributed taxa.This conclusion,however,has changed with the inclusion of molecular data.Although almost the same number of species is distinguished,the phylogenetic data now suggest that all are restricted to the Galapagos Islands.Among them,six species are proposed here as new to science,namely Cora galapagoensis,Cyphellostereum unoquinoum,Dictyonema barbatum,D.darwinianum,D.ramificans,and D.subobscuratum;and four species have already been described previously,namely Acantholichen galapagoensis,Cora santacruzensis,Dictyonema pectinatum,and D.galapagoense,here recombined as Cyphellostereum galapagoense.Our analysis is set on a very broad phylogenetic framework,which includes a large number of specimens(N=826)mainly from Central and South America,and therefore strongly suggests an unusually high level of endemism previously not recognized.This analysis also shows that the closest relatives of half of the basidiolichens now found in Galapagos are from mainland Ecuador,implying that they reached the islands through the shortest route,with all species arriving on the islands through independent colonization events.
文摘This paper is a compilation of notes on 142 fungal taxa,including five new families,20 new genera,and 100 new species,representing a wide taxonomic and geographic range.The new families,Ascocylindricaceae,Caryosporaceae and Wicklowiaceae(Ascomycota)are introduced based on their distinct lineages and unique morphology.The new Dothideomycete genera Pseudomassariosphaeria(Amniculicolaceae),Heracleicola,Neodidymella and Pseudomicrosphaeriopsis(Didymellaceae),Pseudopithomyces(Didymosphaeriaceae),Brunneoclavispora,Neolophiostoma and Sulcosporium(Halotthiaceae),Lophiohelichrysum(Lophiostomataceae),Galliicola,Populocrescentia and Vagicola(Phaeosphaeriaceae),Ascocylindrica(Ascocylindricaceae),Elongatopedicellata(Roussoellaceae),Pseudoasteromassaria(Latoruaceae)and Pseudomonodictys(Macrodiplodiopsidaceae)are introduced.The newly described species of Dothideomycetes(Ascomycota)are Pseudomassariosphaeria bromicola(Amniculicolaceae),Flammeascoma lignicola(Anteagloniaceae),Ascocylindrica marina(Ascocylindricaceae),Lembosia xyliae(Asterinaceae),Diplodia crataegicola and Diplodia galiicola(Botryosphaeriaceae),Caryospora aquatica(Caryosporaceae),Heracleicola premilcurensis and Neodidymella thailandicum(Didymellaceae),Pseudopithomyces palmicola(Didymosphaeriaceae),Floricola viticola(Floricolaceae),Brunneoclavispora bambusae,Neolophiostoma pigmentatum and Sulcosporium thailandica(Halotthiaceae),Pseudoasteromassaria fagi(Latoruaceae),Keissleriella dactylidicola(Lentitheciaceae),Lophiohelichrysum helichrysi(Lophiostomataceae),Aquasubmersa japonica(Lophiotremataceae),Pseudomonodictys tectonae(Macrodiplodiopsidaceae),Microthyrium buxicola and Tumidispora shoreae(Microthyriaceae),Alloleptosphaeria clematidis,Allophaeosphaeria cytisi,Allophaeosphaeria subcylindrospora,Dematiopleospora luzulae,Entodesmium artemisiae,Galiicola pseudophaeosphaeria,Loratospora luzulae,Nodulosphaeria senecionis,Ophiosphaerella aquaticus,Populocrescentia forlicesenensis and Vagicola vagans(Phaeosphaeriaceae),Elongatopedicellata lignicola,Roussoella magnatum and Roussoella angustior(Roussoellaceae)and Shrungabeeja longiappendiculata(Tetraploasphaeriaceae).The new combinations Pseudomassariosphaeria grandispora,Austropleospora archidendri,Pseudopithomyces chartarum,Pseudopithomyces maydicus,Pseudopithomyces sacchari,Vagicola vagans,Punctulariopsis cremeoalbida and Punctulariopsis efibulata Dothideomycetes.The new genera Dictyosporella(Annulatascaceae),and Tinhaudeus(Halosphaeriaceae)are introduced in Sordariomycetes(Ascomycota)while Dictyosporella aquatica(Annulatascaceae),Chaetosphaeria rivularia(Chaetosphaeriaceae),Beauveria gryllotalpidicola and Beauveria loeiensis(Cordycipitaceae),Seimatosporium sorbi and Seimatosporium pseudorosarum(Discosiaceae),Colletotrichum aciculare,Colletotrichum fusiforme and Colletotrichum hymenocallidicola(Glomerellaceae),Tinhaudeus formosanus(Halosphaeriaceae),Pestalotiopsis subshorea and Pestalotiopsis dracaenea(Pestalotiopsiceae),Phaeoacremonium tectonae(Togniniaceae),Cytospora parasitica and Cytospora tanaitica(Valsaceae),Annulohypoxylon palmicola,Biscogniauxia effusae and Nemania fusoideis(Xylariaceae)are introduced as novel species to order Sordariomycetes.The newly described species of Eurotiomycetes are Mycocalicium hyaloparvicellulum(Mycocaliciaceae).Acarospora septentrionalis and Acarospora castaneocarpa(Acarosporaceae),Chapsa multicarpa and Fissurina carassensis(Graphidaceae),Sticta fuscotomentosa and Sticta subfilicinella(Lobariaceae)are newly introduced in class Lecanoromycetes.In class Pezizomycetes,Helvella pseudolacunosa and Helvella rugosa(Helvellaceae)are introduced as new species.The new families,Dendrominiaceae and Neoantrodiellaceae(Basidiomycota)are introduced together with a new genus Neoantrodiella(Neoantrodiellaceae),here based on both morphology coupled with molecular data.In the class Agaricomycetes,Agaricus pseudolangei,Agaricus haematinus,Agaricus atrodiscus and Agaricus exilissimus(Agaricaceae),Amanita melleialba,Amanita pseudosychnopyramis and Amanita subparvipantherina(Amanitaceae),Entoloma calabrum,Cora barbulata,Dictyonema gomezianum and Inocybe granulosa(Inocybaceae),Xerocomellus sarnarii(Boletaceae),Cantharellus eucalyptorum,Cantharellus nigrescens,Cantharellus tricolor and Cantharellus variabilicolor(Cantharellaceae),Cortinarius alboamarescens,Cortinarius brunneoalbus,Cortinarius ochroamarus,Cortinarius putorius and Cortinarius seidlii(Cortinariaceae),Hymenochaete micropora and Hymenochaete subporioides(Hymenochaetaceae),Xylodon ramicida(Schizoporaceae),Colospora andalasii(Polyporaceae),Russula guangxiensis and Russula hakkae(Russulaceae),Tremella dirinariae,Tremella graphidis and Tremella pyrenulae(Tremellaceae)are introduced.Four new combinations Neoantrodiella gypsea,Neoantrodiella thujae(Neoantrodiellaceae),Punctulariopsis cremeoalbida,Punctulariopsis efibulata(Punctulariaceae)are also introduced here for the division Basidiomycota.Furthermore Absidia caatinguensis,Absidia koreana and Gongronella koreana(Cunninghamellaceae),Mortierella pisiformis and Mortierella formosana(Mortierellaceae)are newly introduced in the Zygomycota,while Neocallimastix cameroonii and Piromyces irregularis(Neocallimastigaceae)are introduced in the Neocallimastigomycota.Reference specimens or changes in classification and notes are provided for Alternaria ethzedia,Cucurbitaria ephedricola,Austropleospora,Austropleospora archidendri,Byssosphaeria rhodomphala,Lophiostoma caulium,Pseudopithomyces maydicus,Massariosphaeria,Neomassariosphaeria and Pestalotiopsis montellica.
基金K.D.Hyde would like to thank the Thailand Research Fund grant no RSA5980068 entitled Biodiversity,phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans and the Chinese Academy of Sciences,Project Number 2013T2S0030,for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.Financial support by the German Academic Exchange Service(DAAD)and the Thai Royal Golden Ph.D.Jubilee-Industry program(RGJ)for a joint TRF-DAAD PPP(2012-2014)academic exchange grant to K.D.Hyde and M.Stadler,and the RGJ for a personal grant to B.Thongbai(No.Ph.D/0138/2553 in 4.S.MF/53/A.3)is gratefully acknowledged.Chayanard Phukhamsakda(PHD/0020/2557)acknowledges the The Royal Golden Jubilee Ph.D.Program under the Thailand Research Fund.Mingkwan Doilom acknowledges the Royal Golden Jubilee Ph.D.Program(PHD./0072/2553 in 4.S.M.F./53/A.2)under the Thailand Research Fund.Ausana Mapook is grateful to Research and Researchers for Industries(RRI)PHD57I0012.Rungtiwa Phookamsak sincerely appreciates The Royal Golden Jubilee Ph.D.Program(PHD/0090/2551 in 4.S.MF/51/A.1)under the Thailand Research Fund for financial support.Qi Zhao thanks the National Natural Science Foundation of China(No.31360015)the CAS/SAFEA International Partnership Program for Creative Research Teams,and the Knowledge Innovation Program of the Chinese Academy of Sciences(No.KSCX2-EW-Z-9 and KIB2016002)+11 种基金KNAR acknowledges support from the University Grants Commission(UGC),India,in the form of a Rajiv Gandhi National Fellowship(Grant No.F.14-2(SC)/2009(SA-III)(and the permissions given to him for collecting agaric specimens from the forests of Kerala by the Principal Chief Conservator of Forests,Government of Kerala(WL12-4042/2009 dated 05-08-2009)This Project was funded by the National Plan for Science,Technology and Innovation(MAARIFAH),King Abdulaziz City for Science and Technology,Kingdom of Saudi Arabia,Award Number(12-BIO2840-02)B.K.Cui thanked for the finance by the Fundamental Research Funds for the Central Universities(No.2016ZCQ04)and the National Natural Science Foundation of China(Project No.31422001)We would like to thank Dr.Marcela E.S.Cáceres for translating the German description of Clavulinopsis,the Conselho Nacional de Desenvolvimento Cientí-fico(CNPq)for the master scholarship of LSAN,the PósGraduac¸ǎo em Biologia de Fungos(UFPE,Brazil),CNPq(Protax 562106/2010-3,Sisbiota 563342/2010-2,Universal 472792/2011-3)FACEPE(APQ-0788-2.03/12)for financing this research.H.B.Lee was supported by the Graduate Program for the Undiscovered Taxa of Korea,and by the Project on Survey and Discovery of Indigenous Fungal Species of Korea,funded by NIBR and NNIBR of the Ministry of Environment(MOE),and in part by a fund from National Institute of Animal Science under Rural Development Administration,Republic of Korea.Aniket Ghosh,Priyanka Uniyal and R.P.Bhatt are grateful to the Head,Department of Botany&Microbiology,HNB Garhwal University,Srinagar Garhwal for providing all kinds of facilities during the present study.Kanad Das and Abhishek Baghela are thankful to the Director,Botanical Survey of India,Kolkata and Director,MACS’Agharkar Research Institute,Pune respectively for providing facilities.UGC provided fellowship to Aniket Ghosh and Priyanka Unial.Field assistance rendered by Mr.Tahir Mehmood and Mr.Upendra Singh(HNBGU)are also duly acknowledged.Tuula Niskanen,Kare Liimatainen,Ilkka Kytövuori,Joe Ammirati,Ba´lint Dima,and Dimitar Bojantchev would like to acknowledge Heino Vänskäfor the help with nomenclature.We are grateful to the curators of H and S.This work was partially supported by the Ministry of Environment,Finland(YM38/5512/2009)and OskarÖflunds Stiftelse.The authors thanks Dr.Kerstin Voigt for the inestimable help in critical reviewing the lower fungi entries,the Coordenac¸ǎo de Aperfeic¸oamento de Pessoal de Nı´vel Superior(CAPES)and Fundac¸ǎo de AmparoàCiência e Tecnologia do Estado de Pernambuco(FACEPE)for the postgraduate scholarships to Diogo X.Lima and Carlos A.F.de Souza,respectively.We also thank Conselho Nacional de Desenvolvimento Científico e Tecnológico(CNPq)and FACEPE for financial support through the projects:‘Mucoromycotina in upland forests from the semi-arid of Pernambuco’(CNPq-458391/2014-0),and‘Diversity of Mucoromycotina in different ecosystems of the Pernambuco’s Atlantic Rainforest’(FACEPE-APQ 0842-2.12/14).Z.L Luo and H.Y Su would like to thank the National Natural Science Foundation of China(Project ID:31460015)for financial support on Study of the distribution pattern and driving factors of aquatic fungal diversity in the region of Three Parallel Rivers.C.Phukhamsakda would like to thank Dr.Matthew P.Nelsen for his valuable suggestions.Saranyaphat Boonmee thanks to the Thailand Research Fund,project number TRG5880152 and Mae Fah Luang University for a Grant Number 2559A30702006C.G.Lin and Y.Wang thank for the finance by the National Natural Science Foundation of China(No.NSFC 31560489)Fundamental Research on Science and Technology,Ministry of Science and Technology of China(2014FY120100)Haixia Wu would like to thank Dr.Shaun Pennycook for his kindly nomenclatural review and thanked for the finance by the National Natural Science Foundation of China(Project No.31300019)S.C.Karunarathna,P.E.Mortimer and J.C.Xu would like to thank the World Agroforestry Centre,East and Central Asia OfficeKey Laboratory for Plant Diversity and Biogeography of East Asia,Kunming Institute of Botany,Chinese Academy of Sciencethe ChineseMinistry of Science and Technology,under the 12th 5-year National Key Technology Support Program(NKTSP)2013 BAB07B06 integration and comprehensive demonstration of key technologies on Green Phosphate-mountaion Construction and the CGIAR Research Program 6:Forest,Trees and Agroforestry for partial funding.The National Research Council of Thailand(NRCT),projects-Taxonomy,phylogeny and cultivation of Lentinus species in northern Thailand(NRCT/55201020007)is also thanked.K.Tanaka and A.Hashimoto would like to thank the Japan Society for the Promotion of Science(JSPS,26291084,16K07474,16J07243).
文摘This is a continuity of a series of taxonomic papers where materials are examined,described and novel combinations are proposed where necessary to improve our traditional species concepts and provide updates on their classification.In addition to extensive morphological descriptions and appropriate asexual and sexual connections,DNA sequence data are also analysed from concatenated datasets(rDNA,TEF-a,RBP2 and b-Tubulin)to infer phylogenetic relationships and substantiate systematic position of taxa within appropriate ranks.Wherever new species or combinations are being proposed,we apply an integrative approach(morphological and molecular data as well as ecological features wherever applicable).Notes on 125 fungal taxa are compiled in this paper,including eight new genera,101 new species,two new combinations,one neotype,four reference specimens,new host or distribution records for eight species and one alternative morphs.The new genera introduced in this paper are Alloarthopyrenia,Arundellina,Camarosporioides,Neomassaria,Neomassarina,Neotruncatella,Paracapsulospora and Pseudophaeosphaeria.The new species are Alfaria spartii,Alloarthopyrenia italica,Anthostomella ravenna,An.thailandica,Arthrinium paraphaeospermum,Arundellina typhae,Aspergillus koreanus,Asterina cynometrae,Bertiella ellipsoidea,Blastophorum aquaticum,Cainia globosa,Camarosporioides phragmitis,Ceramothyrium menglunense,Chaetosphaeronema achilleae,Chlamydotubeufia helicospora,Ciliochorella phanericola,Clavulinopsis aurantiaca,Colletotrichum insertae,Comoclathris italica,Coronophora myricoides,Cortinarius fulvescentoideus,Co.nymphatus,Co.pseudobulliardioides,Co.tenuifulvescens,Cunninghamella gigacellularis,Cyathus pyristriatus,Cytospora cotini,Dematiopleospora alliariae,De.cirsii,Diaporthe aseana,Di.garethjonesii,Distoseptispora multiseptata,Dis.tectonae,Dis.tectonigena,Dothiora buxi,Emericellopsis persica,Gloniopsis calami,Helicoma guttulatum,Helvella floriforma,H.oblongispora,Hermatomyces subiculosa,Juncaceicola italica,Lactarius dirkii,Lentithecium unicellulare,Le.voraginesporum,Leptosphaeria cirsii,Leptosphaeria irregularis,Leptospora galii,Le.thailandica,Lindgomyces pseudomadisonensis,Lophiotrema bambusae,Lo.fallopiae,Meliola citri-maximae,Minimelanolocus submersus,Montagnula cirsii,Mortierella fluviae,Muriphaeosphaeria ambrosiae,Neodidymelliopsis ranunculi,Neomassaria fabacearum,Neomassarina thailandica,Neomicrosphaeropsis cytisi,Neo.cytisinus,Neo.minima,Neopestalotiopsis cocoe¨s,Neopestalotiopsis musae,Neoroussoella lenispora,Neotorula submersa,Neotruncatella endophytica,Nodulosphaeria italica,Occultibambusa aquatica,Oc.chiangraiensis,Ophiocordyceps hemisphaerica,Op.lacrimoidis,Paracapsulospora metroxyli,Pestalotiopsis sequoiae,Peziza fruticosa,Pleurotrema thailandica,Poaceicola arundinis,Polyporus mangshanensis,Pseudocoleophoma typhicola,Pseudodictyosporium thailandica,Pseudophaeosphaeria rubi,Purpureocillium sodanum,Ramariopsis atlantica,Rhodocybe griseoaurantia,Rh.indica,Rh.luteobrunnea,Russula indoalba,Ru.pseudoamoenicolor,Sporidesmium aquaticivaginatum,Sp.olivaceoconidium,Sp.pyriformatum,Stagonospora forlicesenensis,Stagonosporopsis centaureae,Terriera thailandica,Tremateia arundicola,Tr.guiyangensis,Trichomerium bambusae,Tubeufia hyalospora,Tu.roseohelicospora and Wojnowicia italica.New combinations are given for Hermatomyces mirum and Pallidocercospora thailandica.A neotype is proposed for Cortinarius fulvescens.Reference specimens are given for Aquaphila albicans,Leptospora rubella,Platychora ulmi and Meliola pseudosasae,while new host or distribution records are provided for Diaporthe eres,Di.siamensis,Di.foeniculina,Dothiorella iranica,Do.sarmentorum,Do.vidmadera,Helvella tinta and Vaginatispora fuckelii,with full taxonomic details.An asexual state is also reported for the first time in Neoacanthostigma septoconstrictum.This paper contributes to a more comprehensive update and improved identification of many ascomycetes and basiodiomycetes.
基金This study was partially supported by three grants from the National Science Foundation:TICOLICHEN-The Costa Rican Lichen Biodiversity Inventory(DEB 0206125 to The Field MuseumPI Robert Lücking)+12 种基金Neotropical Epiphytic Microlichens-An Innovative Inventory of a Highly Diverse yet Little Known Group of Symbiotic Organisms(DEB 0715660 to The Field MuseumPI R.Lücking)Phylogenetic Diversity of Mycobionts and Photobionts in the Cyanolichen Genus Dictyonema,with Emphasis on the Neotropics and the Galapagos Islands(DEB 0841405 to George Mason UniversityPI J.LawreyCo-PIs:R.Lücking,P.Gillevet).The Verein der Freunde des Botanischen Gartens und Botanischen Museums Berlin-Dahlem e.V.(https://www.bgbm.org/de/BGBM/freunde/index.html)supported molecular sequencing work for specimens collected as part of the Pilotprojekt Kooperation mit dem Botanischen Garten Bogotá(BMBF,see below).The Universidad Distrital Francisco Jose´de Caldas,Bogota´,is thanked for the support to the lichen herbarium and the curatorial work of the UDBC collections.The Jardı´n Bota´nico de Bogota´Jose´Celestino Mutis organized field trips to Sumapaz,Pen˜a Blanca,and Pasquilla(Bogota´),by agreement with the Botanical Garden and Botanical Museum Berlin,partially financed through the German Federal Ministry of Education and Research(BMBFPilotprojekt Kooperation mit dem Botanischen Garten BogotáForderkennzeichen:01DN13030).The Universidad de los Andes,Bogota´,provided logistic support for field work in Chingaza.Fe´lix Fernandez,owner of El Secreto Private Reserve in Garagoa,Colombia,is thanked for providing access to the area.The Galapagos Lichen Inventory acknowledges support by successive science directors of the Charles Darwin Foundation(Alan Tye,Mark Gardener,Rodolfo Martinez,Ulf Hardter,and Noemi d’Ozouville)executive director Arturo Izurieta.Frank Bungartz and collaborators are further indebted to the Directorate of the Galapagos National Park(particular Galo Quezada and Victor Carrio´n,granting specimen export permits)This publication is contribution no.2145 of the Charles Darwin Foundation for the Galapagos Islands.The Conselho Nacional de Desenvolvimento Cientı´fico e Tecnolo´gico(CNPq)is thanked for research grants and field trip fundings(Processos 311706/2012-6,401186/2014-8CNPq-Sisbiota 563342/2010-2)M.Ca´ceresPVE grant(Processo 314570/2014-4)M.Ca´ceres and R.Lücking.Research by G.Weerakoon was funded by the National Geographic Society and Dilmah Conservation,and G.Weerakoon would like to thank Thorsten Lumbsch,Pat Wolseley,Omal Arachchige,Dushantha Wasala and Dulan Vidanapathirana for further support.Research by K.Wilk was funded by the W.Szafer Institute of Botany,Polish Academy of Sciences,through a statutory fund.We are indebted to the Gala´pagos National Park,especially its technical director,Washington Tapia,for support and specimen export permits.Material from Costa Rica was also collected during two lichen courses of the Organization for Tropical Studies(OTS).Paul M.Kirk assisted with batch registration of the new species on Index Fungorum and Subashini C.Jayasiri with batch registration on Faces of Fungi.
文摘Following a large-scale phylogenetic study of the lichenized genus Cora(Basidiomycota:Agaricales:Hygrophoraceae),we formally describe 70 new species,honouring the seventieth birthday of David Leslie Hawksworth,one of the preeminent figures in mycology and lichenology in the past 50 years.Based on an updated phylogeny using the ITS fungal barcoding locus,we now recognize 189 taxa in a genus that until recently was considered to represent a single species;including this contribution,92 of these are formally recognized,including five taxa based on historical names or collections that have not been sequenced.Species of Cora can be recognized by a combination of morphological(size,colour,lobe configuration,surface hairs,hymenophore size and shape),anatomical(thallus thickness,cortex structure,photobiont type,hyphal papillae),and ecogeographical features(substrate,habitat,distribution),and a keytable allowing the identification of all accepted taxa is provided.The new species are:Cora accipiter Moncada,Madrin˜a´n&Lücking spec.nov.,C.applanata Moncada,Soto-Medina&Lücking spec.nov.,C.arachnodavidea Moncada,Dal Forno&Lücking spec.nov.,C.arborescens Dal Forno,Chaves&Lücking spec.nov.,C.arcabucana Moncada,C.Rodrı´guez&Lücking spec.nov.,C.aturucoa Lücking,Moncada&C.Vargas spec.nov.,C.auriculeslia Moncada,Ya´nez-Ayabaca&Lücking spec.nov.,C.barbifera Moncada,Patin˜o&Lücking spec.nov.,C.boleslia Lücking,E.Morales&Dal Forno spec.nov.,C.caliginosa Holgado,Rivas Plata&Perlmutter spec.nov.,C.campestris Dal Forno,Eliasaro&Spielmann spec.nov.,C.canari Nugra,Dal Forno&Lücking spec.nov.,C.caraana Lücking,Martins&Lucheta spec.nov.,C.casasolana Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.caucensis Moncada,M.Gut.&Lücking spec.nov.,C.celestinoa Moncada,CabreraAmaya&Lücking spec.nov.,C.comaltepeca Moncada,R.-E.Pe´rez&Herrera-Camp.spec.nov.,C.corani Lücking,E.Morales&Dal Forno spec.nov.,C.corelleslia Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.crispoleslia Moncada,J.Molina&Lücking spec.nov.,C.cuzcoensis Holgado,Rivas Plata&Perlmutter spec.nov.,C.dalehana Moncada,Madrin˜a´n&Lücking spec.nov.,C.davibogotana Lücking,Moncada&Coca spec.nov.,C.davicrinita Moncada,Madrin˜a´n&Lücking spec.nov.,C.davidia Moncada,L.Vargas&Lücking spec.nov.,C.dewisanti Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.dulcis Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.elephas Lücking,Moncada&L.Vargas spec.nov.,C.fuscodavidiana Lücking,Moncada&L.Vargas spec.nov.,C.garagoa Simijaca,Moncada&Lücking spec.nov.,C.gigantea Lücking,Moncada&Coca spec.nov.,C.gomeziana Dal Forno,Chaves&Lücking spec.nov.,C.guajalitensis Lücking,Robayo&Dal Forno spec.nov.,C.hafecesweorthensis Moncada,Lücking&R.Pela´ez spec.nov.,C.haledana Dal Forno,Chaves&Lücking spec.nov.,C.hawksworthiana Dal Forno,P.Nelson&Lücking spec.nov.,C.hochesuordensis Lücking,E.Morales&Dal Forno spec.nov.,C.hymenocarpa Lücking,Chaves&Lawrey spec.nov.,C.imi Lücking,Chaves&Lawrey spec.nov.,C.itabaiana Dal Forno,Aptroot&M.Ca´ceres spec.nov.,C.leslactuca nov.,C.maxima Wilk,Dal Forno&Lücking spec.nov.,C.minutula Lücking,Moncada&Ya´nez-Ayabaca spec.nov.,C.palaeotropica Weerakoon,Aptroot&Lücking spec.nov.,C.palustris Dal Forno,Chaves&Lücking spec.nov.,C.parabovei Dal Forno,Kukwa&Lücking spec.nov.,C.paraciferrii Lücking,Moncada&J.E.Hern.spec.nov.,C.paraminor Dal Forno,Chaves&Lücking spec.nov.,C.pastorum Moncada,Patin˜o&Lücking spec.nov.,C.pichinchensis Paredes,Jonitz&Dal Forno spec.nov.,C.pikynasa J.-M.Torres,Moncada&Lücking spec.nov.,C.pseudobovei Wilk,Dal Forno&Lücking spec.nov.,C.pseudocorani Lücking,E.Morales&Dal Forno spec.nov.,C.putumayensis L.J.Arias,Moncada&Lücking spec.nov.,C.quillacinga Moncada,F.Ortega&Lücking spec.nov.,C.rothesiorum Moncada,Madrin˜a´n&Lücking spec.nov.,C.rubrosanguinea Nugra,Moncada&Lücking spec.nov.,C.santacruzensis Dal Forno,Bungartz&Ya´nezAyabaca,spec.nov.,C.schizophylloides Moncada,C.Rodrı´guez&Lücking spec.nov.,C.smaragdina Lücking,Rivas Plata&Chaves spec.nov.,C.soredavidia Dal Forno,Marcelli&Lücking spec.nov.,C.subdavicrinita Moncada,J.Molina&Lücking spec.nov.,C.suturifera Nugra,Besal&Lücking spec.nov.,C.terrestris Dal Forno,Chaves&Lücking spec.nov.,C.terricoleslia Wilk,Dal Forno&Lücking spec.nov.,C.udebeceana Moncada,R.Pela´ez&Lücking,Moncada&R.Pela´ez spec.Lücking spec.nov.,C.urceolata Moncada,Coca&Lücking spec.nov.,C.verjonensis Lücking,Moncada&Dal Forno spec.nov.,C.viliewoa Lücking,Chaves&Soto-Medina spec.nov.,and C.yukiboa Mercado-Dı´az,Moncada&Lücking spec.nov.Furthermore,the taxonomic status of the recently described or recognized species C.arachnoidea,C.aspera,C.ciferrii,and C.reticulifera,is revised.
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).