Kunitz protease inhibitors(KPIs)are ubiquitous in plants and act as crucial compounds in defense responses against insect attack and pathogen infection.However,the influence of gene duplication on the postdivergence o...Kunitz protease inhibitors(KPIs)are ubiquitous in plants and act as crucial compounds in defense responses against insect attack and pathogen infection.However,the influence of gene duplication on the postdivergence of the CsKPI genes involved in biotic stresses in tea plant is not well known.Here,we identified three CsKPI genes from tea plant(Camellia sinensis)and characterized their expression and evolutionary patterns among plant species.We found that CsKPI1,CsKPI2,and CsKPI3 diverged from their common ancestor 72.94 million years ago(MYA),and the tandem duplication of CsKPI2 and CsKPI3 occurred 26.78 MYA.An in vitro protein assay showed that the three CsKPI proteins were functional and inhibited the production of p-nitroanilide(PNA)from an artificial substrate.The three CsKPI-GFP fusion proteins localized to the cytoplasm.We showed that salicylic acid(SA)and transcripts of CsKPI2 and CsKPI3 significantly accumulated after infection with Glomerella cingulata.The application of exogenous SA stimulated the high expression of both CsKPI2 and CsKPI3 by activating cis-elements within their promoters.Under Ectropis oblique attack,CsKPI1 expression and jasmonic acid(JA)levels were more abundant in both insect-damaged leaf tissues and undamaged neighboring leaves.The application of jasmonic acid methyl ester elicited high expression levels of CsKPI1,suggesting that CsKPI1 accumulation requires JA production in tea plant.The overall findings suggest that the transcriptional divergence of KPI genes after duplication led to the specialized role of CsKPI1 in the physiological response to insect stress;the functional conservation between CsKPI2 and CsKPI3 confers resistance to pathogen infection in tea plant.展开更多
The study of the water status and activity of catalase in Chinese tea plants (Camellia sinensis (L.) O. Kuntze) and hazelnut (Corylus pontica C. Koch.). The indicators, which not only describe the physiological state ...The study of the water status and activity of catalase in Chinese tea plants (Camellia sinensis (L.) O. Kuntze) and hazelnut (Corylus pontica C. Koch.). The indicators, which not only describe the physiological state of plants in the stressful period, but also allow it to identify more adaptive varieties within a given area was determined. Analysis of catalase activity data in Chinese tea and hazelnut revealed the presence of similar patterns: there is a change in enzymatic activity in response to hydrothermal factors. It is established that the stable varieties Camellia sinensis (L.) O. Kuntze and Corylus pontica C. Koch. characterized by a more active catalase, which is of particular importance during droughts. The water regime parameters variance scale for Camellia sinensis was developed, which allows differentiating varieties into groups of varying degrees of stability. It is shown that all methods that are used to estimate stability of plant species to extreme environmental conditions are based on several basic principles connected with peculiarities of adaptation mechanisms. The result was a selection of diagnostic indicators proposed for assessing adaptability: the water content of the leaf tissue, water-holding capacity of leaves, and concentration of cellular juice sprouts and activity of catalase.展开更多
Sexual morph of didymellaceous taxa are characterized by their ascomata with relatively thin peridium,cylindric-clavate to clavate,short-pedicellate or apedicellate asci,hyaline to brown,1-septate to muriform ascospor...Sexual morph of didymellaceous taxa are characterized by their ascomata with relatively thin peridium,cylindric-clavate to clavate,short-pedicellate or apedicellate asci,hyaline to brown,1-septate to muriform ascospores.Its asexual morphs are coelomycetous and comprising pycnidial or acervulus conidiomata,phialidic,hyaline conidiogenous cells and hyaline or pale brown,septate or aseptate conidia.The majority of these cosmopolitan species are plant associated fungi which can be pathogens on a wide range of hosts and some species are of particular relevance for quarantine measures.Recent studies have significantly improved the taxonomy and systematics of didymellaceous taxa based on molecular phylogenetics.In contrast to the accurate and detailed studies on the asexual morphs which are common obligate pathogens,information on their usually saprobic sexual morphs is still limited.Among these phenotypically diverse species,spore characteristics are quite unique as most have hyaline spores with 0-1 septum,while only Neomicrosphaeropsis and Didymellocamarosporium are reported as producing pigmented,muriform spores.These dematiaceous muriform spores are characteristic of a considerable number of species that may be quite divergent in other characters.During taxonomic investigations on the diversity of didymellaceous taxa,we have isolated species from Alhagi pseudalhagi,Coronilla emerus,Cytisus sp.,Elaeagnus angustifolia and Spartium junceum in Italy,Russia and Uzbekistan.A comprehensive phylogeny,based on four loci(ITS,LSU,rpb2 and tub2)is used to infer species relationships.Comprehensive morphological descriptions and in-depth phylogenetic investigations of five new species viz.Ascochyta coronillae-emeri,Microsphaeropsis spartii-juncei,Neomicrosphaeropsis alhagi-pseudalhagi,N.cytisicola and N.elaeagni are presented.展开更多
Fungal diversity notes is one of the important journal series of fungal taxonomy that provide detailed descriptions and illustrations of new fungal taxa,as well as providing new information of fungal taxa worldwide.Th...Fungal diversity notes is one of the important journal series of fungal taxonomy that provide detailed descriptions and illustrations of new fungal taxa,as well as providing new information of fungal taxa worldwide.This article is the 11th contribution to the fungal diversity notes series,in which 126 taxa distributed in two phyla,six classes,24 orders and 55 families are described and illustrated.Taxa in this study were mainly collected from Italy by Erio Camporesi and also collected from China,India and Thailand,as well as in some other European,North American and South American countries.Taxa described in the present study include two new families,12 new genera,82 new species,five new combinations and 25 new records on new hosts and new geographical distributions as well as sexual-asexual reports.The two new families are Eriomycetaceae(Dothideomycetes,family incertae sedis)and Fasciatisporaceae(Xylariales,Sordariomycetes).The twelve new genera comprise Bhagirathimyces(Phaeosphaeriaceae),Camporesiomyces(Tubeufiaceae),Eriocamporesia(Cryphonectriaceae),Eriomyces(Eriomycetaceae),Neomonodictys(Pleurotheciaceae),Paraloratospora(Phaeosphaeriaceae),Paramonodictys(Parabambusicolaceae),Pseudoconlarium(Diaporthomycetidae,genus incertae sedis),Pseudomurilentithecium(Lentitheciaceae),Setoapiospora(Muyocopronaceae),Srinivasanomyces(Vibrisseaceae)and Xenoanthostomella(Xylariales,genera incertae sedis).The 82 new species comprise Acremonium chiangraiense,Adustochaete nivea,Angustimassarina camporesii,Bhagirathimyces himalayensis,Brunneoclavispora camporesii,Camarosporidiella camporesii,Camporesiomyces mali,Camposporium appendiculatum,Camposporium multiseptatum,Camposporium septatum,Canalisporium aquaticium,Clonostachys eriocamporesiana,Clonostachys eriocamporesii,Colletotrichum hederiicola,Coniochaeta vineae,Conioscypha verrucosa,Cortinarius ainsworthii,Cortinarius aurae,Cortinarius britannicus,Cortinarius heatherae,Cortinarius scoticus,Cortinarius subsaniosus,Cytospora fusispora,Cytospora rosigena,Diaporthe camporesii,Diaporthe nigra,Diatrypella yunnanensis,Dictyosporium muriformis,Didymella camporesii,Diutina bernali,Diutina sipiczkii,Eriocamporesia aurantia,Eriomyces heveae,Ernakulamia tanakae,Falciformispora uttaraditensis,Fasciatispora cocoes,Foliophoma camporesii,Fuscostagonospora camporesii,Helvella subtinta,Kalmusia erioi,Keissleriella camporesiana,Keissleriella camporesii,Lanspora cylindrospora,Loratospora arezzoensis,Mariannaea atlantica,Melanographium phoenicis,Montagnula camporesii,Neodidymelliopsis camporesii,Neokalmusia kunmingensis,Neoleptosporella camporesiana,Neomonodictys muriformis,Neomyrmecridium guizhouense,Neosetophoma camporesii,Paraloratospora camporesii,Paramonodictys solitarius,Periconia palmicola,Plenodomus triseptatus,Pseudocamarosporium camporesii,Pseudocercospora maetaengensis,Pseudochaetosphaeronema kunmingense,Pseudoconlarium punctiforme,Pseudodactylaria camporesiana,Pseudomurilentithecium camporesii,Pseudotetraploa rajmachiensis,Pseudotruncatella camporesii,Rhexocercosporidium senecionis,Rhytidhysteron camporesii,Rhytidhysteron erioi,Septoriella camporesii,Setoapiospora thailandica,Srinivasanomyces kangrensis,Tetraploa dwibahubeeja,Tetraploa pseudoaristata,Tetraploa thrayabahubeeja,Torula camporesii,Tremateia camporesii,Tremateia lamiacearum,Uzbekistanica pruni,Verruconis mangrovei,Wilcoxina verruculosa,Xenoanthostomella chromolaenae and Xenodidymella camporesii.The five new combinations are Camporesiomyces patagoniensis,Camporesiomyces vaccinia,Camposporium lycopodiellae,Paraloratospora gahniae and Rhexocercosporidium microsporum.The 22 new records on host and geographical distribution comprise Arthrinium marii,Ascochyta medicaginicola,Ascochyta pisi,Astrocystis bambusicola,Camposporium pellucidum,Dendryphiella phitsanulokensis,Diaporthe foeniculina,Didymella macrostoma,Diplodia mutila,Diplodia seriata,Heterosphaeria patella,Hysterobrevium constrictum,Neodidymelliopsis ranunculi,Neovaginatispora fuckelii,Nothophoma quercina,Occultibambusa bambusae,Phaeosphaeria chinensis,Pseudopestalotiopsis theae,Pyxine berteriana,Tetraploa sasicola,Torula gaodangensis and Wojnowiciella dactylidis.In addition,the sexual morphs of Dissoconium eucalypti and Phaeosphaeriopsis pseudoagavacearum are reported from Laurus nobilis and Yucca gloriosa in Italy,respectively.The holomorph of Diaporthe cynaroidis is also reported for the first time.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
Ophiobolus is a large genus of Phaeosphaeriaceae comprising more than 350 possible species,most of which are saprobes on herbaceous plants in Europe and North America.Ophiobolus species are polyphyletic and the type o...Ophiobolus is a large genus of Phaeosphaeriaceae comprising more than 350 possible species,most of which are saprobes on herbaceous plants in Europe and North America.Ophiobolus species are polyphyletic and the type of Ophiobolus is not represented in GenBank.Therefore,an increased taxon sampling of ophiobolus-like taxa and epitypification of the type species,O.disseminans is reported.Multigene phylogenetic analyses of combined LSU,SSU,TEF1-a and ITS sequence data position O.disseminans in a sister clade with O.ponticus and several Entodesmium species in Phaeosphaeriaceae with high support.Therefore,Entodesmium is synonymized under Ophiobolus.Premilcurensis with it type species,P.senecionis also clusters within the Ophiobolus clade and is synonymized under Ophiobolus.Ophiobolus rossicus sp.nov.is introduced and a reference specimen is designated for O.ponticus.Other ophiobolus-like taxa(Ophiobolus sensu lato)can be distinguished as three main groups,which are introduced as new genera.Ophiobolopsis is introduced to accommodate the new species,Ophiobolopsis italica.The new genus Paraophiobolus is introduced to accommodate P.arundinis sp.nov.and P.plantaginis comb.nov.This genus is characterized by hyaline to pale yellowish ascospores,some green-yellowish at maturity,with a swollen cell,terminal appendages and ascospores not separating into part spores.Pseudoophiobolus gen.nov.is introduced to accommodate six new species and two new combinations,viz.Ps.achilleae,Ps.erythrosporus,Ps.galii,Ps.italicus,Ps.mathieui,Ps.rosae,Ps.subhyalinisporus and Ps.urticicola.Pseudoophiobolus is characterized by subhyaline to pale yellowish or yellowish ascospores,with a swollen cell,lack of terminal appendages and ascospores that do not separate into part spores and is related to Nodulosphaeria.An updated tree for Phaeosphaeriaceae based on multigene analysis is also provided.展开更多
This article is the tenth series of the Fungal Diversity Notes,where 114 taxa distributed in three phyla,ten classes,30 orders and 53 families are described and illustrated.Taxa described in the present study include ...This article is the tenth series of the Fungal Diversity Notes,where 114 taxa distributed in three phyla,ten classes,30 orders and 53 families are described and illustrated.Taxa described in the present study include one new family(viz.Pseudoberkleasmiaceae in Dothideomycetes),five new genera(Caatingomyces,Cryptoschizotrema,Neoacladium,Paramassaria and Trochilispora)and 71 new species,(viz.Acrogenospora thailandica,Amniculicola aquatica,A.guttulata,Angustimassarina sylvatica,Blackwellomyces lateris,Boubovia gelatinosa,Buellia viridula,Caatingomyces brasiliensis,Calophoma humuli,Camarosporidiella mori,Canalisporium dehongense,Cantharellus brunneopallidus,C.griseotinctus,Castanediella meliponae,Coprinopsis psammophila,Cordyceps succavus,Cortinarius minusculus,C.subscotoides,Diaporthe italiana,D.rumicicola,Diatrypella delonicis,Dictyocheirospora aquadulcis,D.taiwanense,Digitodesmium chiangmaiense,Distoseptispora dehongensis,D.palmarum,Dothiorella styphnolobii,Ellisembia aurea,Falciformispora aquatic,Fomitiporia carpinea,F.lagerstroemiae,Grammothele aurantiaca,G.micropora,Hermatomyces bauhiniae,Jahnula queenslandica,Kamalomyces mangrovei,Lecidella yunnanensis,Micarea squamulosa,Muriphaeosphaeria angustifoliae,Neoacladium indicum,Neodidymelliopsis sambuci,Neosetophoma miscanthi,N.salicis,Nodulosphaeria aquilegiae,N.thalictri,Paramassaria samaneae,Penicillium circulare,P.geumsanense,P.mali-pumilae,P.psychrotrophicum,P.wandoense,Phaeoisaria siamensis,Phaeopoacea asparagicola,Phaeosphaeria penniseti,Plectocarpon galapagoense,Porina sorediata,Pseudoberkleasmium chiangmaiense,Pyrenochaetopsis sinensis,Rhizophydium koreanum,Russula prasina,Sporoschisma chiangraiense,Stigmatomyces chamaemyiae,S.cocksii,S.papei,S.tschirnhausii,S.vikhrevii,Thysanorea uniseptata,Torula breviconidiophora,T.polyseptata,Trochilispora schefflerae and Vaginatispora palmae).Further,twelve new combinations(viz.Cryptoschizotrema cryptotrema,Prolixandromyces australi,P.elongatus,P.falcatus,P.longispinae,P.microveliae,P.neoalardi,P.polhemorum,P.protuberans,P.pseudoveliae,P.tenuistipitis and P.umbonatus),an epitype is chosen for Cantharellus goossensiae,a reference specimen for Acrogenospora sphaerocephala and new synonym Prolixandromyces are designated.Twenty-four new records on new hosts and new geographical distributions are also reported(i.e.Acrostalagmus annulatus,Cantharellus goossensiae,Coprinopsis villosa,Dothiorella plurivora,Dothiorella rhamni,Dothiorella symphoricarposicola,Dictyocheirospora rotunda,Fasciatispora arengae,Grammothele brasiliensis,Lasiodiplodia iraniensis,Lembosia xyliae,Morenoina palmicola,Murispora cicognanii,Neodidymelliopsis farokhinejadii,Neolinocarpon rachidis,Nothophoma quercina,Peroneutypa scoparia,Pestalotiopsis aggestorum,Pilidium concavum,Plagiostoma salicellum,Protofenestella ulmi,Sarocladium kiliense,Tetraploa nagasakiensis and Vaginatispora armatispora).展开更多
This paper is the seventh in the Fungal Diversity Notes series,where 131 taxa accommodated in 28 families are mainly described from Rosa(Rosaceae)and a few other hosts.Novel fungal taxa are described in the present st...This paper is the seventh in the Fungal Diversity Notes series,where 131 taxa accommodated in 28 families are mainly described from Rosa(Rosaceae)and a few other hosts.Novel fungal taxa are described in the present study,including 17 new genera,93 new species,four combinations,a sexual record for a species and new host records for 16 species.Bhatiellae,Cycasicola,Dactylidina,Embarria,Hawksworthiana,Italica,Melanocucurbitaria,Melanodiplodia,Monoseptella,Uzbekistanica,Neoconiothyrium,Neopaucispora,Pararoussoella,Paraxylaria,Marjia,Sporormurispora and Xenomassariosphaeria are introduced as new ascomycete genera.We also introduce the new species Absidia jindoensis,Alternaria doliconidium,A.hampshirensis,Angustimassarina rosarum,Astragalicola vasilyevae,Backusella locustae,Bartalinia rosicola,Bhatiellae rosae,Broomella rosae,Castanediella camelliae,Coelodictyosporium rosarum,Comoclathris rosae,C.rosarum,Comoclathris rosigena,Coniochaeta baysunika,C.rosae,Cycasicola goaensis,Dactylidina shoemakeri,Dematiopleospora donetzica,D.rosicola,D.salsolae,Diaporthe rosae,D.rosicola,Endoconidioma rosaehissaricae,Epicoccum rosae,Hawksworthiana clematidicola,H.lonicerae,Italica achilleae,Keissleriella phragmiticola,K.rosacearum,K.rosae,K.rosarum,Lophiostoma rosae,Marjia tianschanica,M.uzbekistanica,Melanocucurbitaria uzbekistanica,Melanodiplodia tianschanica,Monoseptella rosae,Mucor fluvius,Muriformistrickeria rosae,Murilentithecium rosae,Neoascochyta rosicola,Neoconiothyrium rosae,Neopaucispora rosaecae,Neosetophoma rosarum,N.rosae,N.rosigena,Neostagonospora artemisiae,Ophiobolus artemisiicola,Paraconiothyrium rosae,Paraphaeosphaeria rosae,P.rosicola,Pararoussoella rosarum,Parathyridaria rosae,Paraxylaria rosacearum,Penicillium acidum,P.aquaticum,Phragmocamarosporium rosae,Pleospora rosae,P.rosae-caninae,Poaceicola agrostina,P.arundinicola,P.rosae,Populocrescentia ammophilae,P.rosae,Pseudocamarosporium pteleae,P.ulmi-minoris,Pseudocercospora rosae,Pseudopithomyces rosae,Pseudostrickeria rosae,Sclerostagonospora lathyri,S.rosae,S.rosicola,Seimatosporium rosigenum,S.rosicola,Seiridium rosarum,Setoseptoria arundelensis,S.englandensis,S.lulworthcovensis,Sigarispora agrostidis,S.caryophyllacearum,S.junci,S.medicaginicola,S.rosicola,S.scrophulariae,S.thymi,Sporormurispora atraphaxidis,S.pruni,Suttonomyces rosae,Umbelopsis sinsidoensis,Uzbekistanica rosaehissaricae,U.yakutkhanika,Wojnowicia rosicola,Xenomassariosphaeria rosae.New host records are provided for Amandinea punctata,Angustimassarina quercicola,Diaporthe rhusicola,D.eres,D.foeniculina,D.rudis,Diplodia seriata,Dothiorella iberica,Lasiodiplodia theobromae,Lecidella elaeochroma,Muriformistrickeria rubi,Neofusicoccum australe,Paraphaeosphaeria michotii,Pleurophoma pleurospora,Sigarispora caulium and Teichospora rubriostiolata.The new combinations are Dactylidina dactylidis(=Allophaeosphaeria dactylidis),Embarria clematidis(=Allophaeosphaeria clematidis),Hawksworthiana alliariae(=Dematiopleospora alliariae)and Italica luzulae(=Dematiopleospora luzulae).This study also provides some insights into the diversity of fungi on Rosa species and especially those on Rosa spines that resulted in the characterisation of eight new genera,45 new species,and nine new host records.We also collected taxa from Rosa stems and there was 31%(20/65)overlap with taxa found on stems with that on spines.Because of the limited and non-targeted sampling for comparison with collections from spines and stems of the same host and location,it is not possible to say that the fungi on spines of Rosa differ from those on stems.The study however,does illustrate how spines are interesting substrates with high fungal biodiversity.This may be because of their hard structure resulting in slow decay and hence are suitable substrates leading to fungal colonisation.All data presented herein are based on morphological examination of specimens,coupled with phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolutionary relationships.展开更多
This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomyc...This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomycetes.We also introduce the new ascomycete genera Acericola,Castellaniomyces,Dictyosporina and Longitudinalis and new species Acericola italica,Alternariaster trigonosporus,Amarenomyces dactylidis,Angustimassarina coryli,Astrocystis bambusicola,Castellaniomyces rosae,Chaetothyrina artocarpi,Chlamydotubeufia krabiensis,Colletotrichum lauri,Collodiscula chiangraiensis,Curvularia palmicola,Cytospora mali-sylvestris,Dictyocheirospora cheirospora,Dictyosporina ferruginea,Dothiora coronillae,Dothiora spartii,Dyfrolomyces phetchaburiensis,Epicoccum cedri,Epicoccum pruni,Fasciatispora calami,Fuscostagonospora cytisi,Grandibotrys hyalinus,Hermatomyces nabanheensis,Hongkongmyces thailandica,Hysterium rhizophorae,Jahnula guttulaspora,Kirschsteiniothelia rostrata,Koorchalomella salmonispora,Longitudinalis nabanheensis,Lophium zalerioides,Magnibotryascoma mali,Meliola clerodendri-infortunati,Microthyrium chinense,Neodidymelliopsis moricola,Neophaeocryptopus spartii,Nigrograna thymi,Ophiocordyceps cossidarum,Ophiocordyceps issidarum,Ophiosimulans plantaginis,Otidea pruinosa,Otidea stipitata,Paucispora kunmingense,Phaeoisaria microspora,Pleurothecium floriforme,Poaceascoma halophila,Periconia aquatica,Periconia submersa,Phaeosphaeria acaciae,Phaeopoacea muriformis,Pseudopithomyces kunmingnensis,Ramgea ozimecii,Sardiniella celtidis,Seimatosporium italicum,Setoseptoria scirpi,Torula gaodangensis and Vamsapriya breviconidiophora.We also provide an amended account of Rhytidhysteron to include apothecial ascomata and a J?hymenium.The type species of Ascotrichella hawksworthii(Xylariales genera incertae sedis),Biciliopsis leptogiicola(Sordariomycetes genera incertae sedis),Brooksia tropicalis(Micropeltidaceae),Bryochiton monascus(Teratosphaeriaceae),Bryomyces scapaniae(Pseudoperisporiaceae),Buelliella minimula(Dothideomycetes genera incertae sedis),Carinispora nypae(Pseudoastrosphaeriellaceae),Cocciscia hammeri(Verrucariaceae),Endoxylina astroidea(Diatrypaceae),Exserohilum turcicum(Pleosporaceae),Immotthia hypoxylon(Roussoellaceae),Licopolia franciscana(Vizellaceae),Murispora rubicunda(Amniculicolaceae)and Doratospora guianensis(synonymized under Rizalia guianensis,Trichosphaeriaceae)were reexamined and descriptions,illustrations and discussion on their familial placement are given based on phylogeny and morphological data.New host records or new country reports are provided for Chlamydotubeufia huaikangplaensis,Colletotrichum fioriniae,Diaporthe subclavata,Diatrypella vulgaris,Immersidiscosia eucalypti,Leptoxyphium glochidion,Stemphylium vesicarium,Tetraploa yakushimensis and Xepicula leucotricha.Diaporthe baccae is synonymized under Diaporthe rhusicola.A reference specimen is provided for Periconia minutissima.Updated phylogenetic trees are provided for most families and genera.We introduce the new basidiomycete species Agaricus purpurlesquameus,Agaricus rufusfibrillosus,Lactifluus holophyllus,Lactifluus luteolamellatus,Lactifluus pseudohygrophoroides,Russula benwooii,Russula hypofragilis,Russula obscurozelleri,Russula parapallens,Russula phoenicea,Russula pseudopelargonia,Russula pseudotsugarum,Russula rhodocephala,Russula salishensis,Steccherinum amapaense,Tephrocybella constrictospora,Tyromyces amazonicus and Tyromyces angulatus and provide updated trees to the genera.We also introduce Mortierella formicae in Mortierellales,Mucoromycota and provide an updated phylogenetic tree.展开更多
This is a continuity of a series of taxonomic and phylogenetic papers on the fungi where materials were collected from many countries,examined and described.In addition to extensive morphological descriptions and appr...This is a continuity of a series of taxonomic and phylogenetic papers on the fungi where materials were collected from many countries,examined and described.In addition to extensive morphological descriptions and appropriate asexual and sexual connections,DNA sequence data are also analysed from concatenated datasets to infer phylogenetic relationships and substantiate systematic positions of taxa within appropriate ranks.Wherever new species or combinations are proposed,we apply an integrative approach using morphological and molecular data as well as ecological features wherever applicable.Notes on 112 fungal taxa are compiled in this paper including Biatriosporaceae and Roussoellaceae,Didysimulans gen.nov.,81 new species,18 new host records and new country records,five reference specimens,two new combinations,and three sexual and asexual morph reports.The new species are Amanita cornelii,A.emodotrygon,Angustimassarina alni,A.arezzoensis,A.italica,A.lonicerae,A.premilcurensis,Ascochyta italica,A.rosae,Austroboletus appendiculatus,Barriopsis thailandica,Berkleasmium ariense,Calophoma petasitis,Camarosporium laburnicola,C.moricola,C.grisea,C.ossea,C.paraincrustata,Colletotrichum sambucicola,Coprinopsis cerkezii,Cytospora gelida,Dacrymyces chiangraiensis,Didysimulans italica,D.mezzanensis,Entodesmium italica,Entoloma magnum,Evlachovaea indica,Exophiala italica,Favolus gracilisporus,Femsjonia monospora,Fomitopsis flabellata,F.roseoalba,Gongronella brasiliensis,Helvella crispoides,Hermatomyces chiangmaiensis,H.chromolaenae,Hysterium centramurum,Inflatispora caryotae,Inocybe brunneosquamulosa,I.luteobrunnea,I.rubrobrunnea,Keissleriella cirsii,Lepiota cylindrocystidia,L.flavocarpa,L.maerimensis,Lophiotrema guttulata,Marasmius luculentus,Morenoina calamicola,Moelleriella thanathonensis,Mucor stercorarius,Myrmecridium fluviae,Myrothecium septentrionale,Neosetophoma garethjonesii,Nigrograna cangshanensis,Nodulosphaeria guttulatum,N.multiseptata,N.sambuci,Panus subfasciatus,Paraleptosphaeria padi,Paraphaeosphaeria viciae,Parathyridaria robiniae,Penicillium punicae,Phaeosphaeria calamicola,Phaeosphaeriopsis yuccae,Pleurophoma italica,Polyporus brevibasidiosus,P.koreanus,P.orientivarius,P.parvovarius,P.subdictyopus,P.ulleungus,Pseudoasteromassaria spadicea,Rosellinia mearnsii,Rubroboletus demonensis,Russula yanheensis,Sigarispora muriformis,Sillia italica,Stagonosporopsis ailanthicola,Strobilomyces longistipitatus,Subplenodomus galicola and Wolfiporia pseudococos.The new combinations are Melanomma populina and Rubroboletus eastwoodiae.The reference specimens are Cookeina tricholoma,Gnomoniopsis sanguisorbae,Helvella costifera,Polythrincium trifolii and Russula virescens.The new host records and country records are Ascochyta medicaginicola,Boletellus emodensis,Cyptotrama asprata,Cytospora ceratosperma,Favolaschia auriscalpium,F.manipularis,Hysterobrevium mori,Lentinus sajor-caju,L.squarrosulus,L.velutinus,Leucocoprinus cretaceus,Lophiotrema vagabundum,Nothophoma quercina,Platystomum rosae,Pseudodidymosphaeria phlei,Tremella fuciformis,Truncatella spartii and Vaginatispora appendiculata and three sexual and asexual morphs are Aposphaeria corallinolutea, Dothiorabuxi and Hypocrella calendulina.展开更多
基金supported by the National Key Research and Development Program of China(2018YFD1000601)the National Natural Science Foundation of China(31171608)+2 种基金the Special Innovative Province Construction in Anhui Province(15czs08032)the Special Project for Central Guiding Science and Technology Innovation of Region in Anhui Province(2016080503B024)the Program for Changjiang Scholars and Innovative Research Team in University(IRT1101).
文摘Kunitz protease inhibitors(KPIs)are ubiquitous in plants and act as crucial compounds in defense responses against insect attack and pathogen infection.However,the influence of gene duplication on the postdivergence of the CsKPI genes involved in biotic stresses in tea plant is not well known.Here,we identified three CsKPI genes from tea plant(Camellia sinensis)and characterized their expression and evolutionary patterns among plant species.We found that CsKPI1,CsKPI2,and CsKPI3 diverged from their common ancestor 72.94 million years ago(MYA),and the tandem duplication of CsKPI2 and CsKPI3 occurred 26.78 MYA.An in vitro protein assay showed that the three CsKPI proteins were functional and inhibited the production of p-nitroanilide(PNA)from an artificial substrate.The three CsKPI-GFP fusion proteins localized to the cytoplasm.We showed that salicylic acid(SA)and transcripts of CsKPI2 and CsKPI3 significantly accumulated after infection with Glomerella cingulata.The application of exogenous SA stimulated the high expression of both CsKPI2 and CsKPI3 by activating cis-elements within their promoters.Under Ectropis oblique attack,CsKPI1 expression and jasmonic acid(JA)levels were more abundant in both insect-damaged leaf tissues and undamaged neighboring leaves.The application of jasmonic acid methyl ester elicited high expression levels of CsKPI1,suggesting that CsKPI1 accumulation requires JA production in tea plant.The overall findings suggest that the transcriptional divergence of KPI genes after duplication led to the specialized role of CsKPI1 in the physiological response to insect stress;the functional conservation between CsKPI2 and CsKPI3 confers resistance to pathogen infection in tea plant.
文摘The study of the water status and activity of catalase in Chinese tea plants (Camellia sinensis (L.) O. Kuntze) and hazelnut (Corylus pontica C. Koch.). The indicators, which not only describe the physiological state of plants in the stressful period, but also allow it to identify more adaptive varieties within a given area was determined. Analysis of catalase activity data in Chinese tea and hazelnut revealed the presence of similar patterns: there is a change in enzymatic activity in response to hydrothermal factors. It is established that the stable varieties Camellia sinensis (L.) O. Kuntze and Corylus pontica C. Koch. characterized by a more active catalase, which is of particular importance during droughts. The water regime parameters variance scale for Camellia sinensis was developed, which allows differentiating varieties into groups of varying degrees of stability. It is shown that all methods that are used to estimate stability of plant species to extreme environmental conditions are based on several basic principles connected with peculiarities of adaptation mechanisms. The result was a selection of diagnostic indicators proposed for assessing adaptability: the water content of the leaf tissue, water-holding capacity of leaves, and concentration of cellular juice sprouts and activity of catalase.
基金the Committee for Coordination Science and Technology Development under the Cabinet of Ministers of Uzbekistan for research support(#P3-2014-0830174425).
文摘Sexual morph of didymellaceous taxa are characterized by their ascomata with relatively thin peridium,cylindric-clavate to clavate,short-pedicellate or apedicellate asci,hyaline to brown,1-septate to muriform ascospores.Its asexual morphs are coelomycetous and comprising pycnidial or acervulus conidiomata,phialidic,hyaline conidiogenous cells and hyaline or pale brown,septate or aseptate conidia.The majority of these cosmopolitan species are plant associated fungi which can be pathogens on a wide range of hosts and some species are of particular relevance for quarantine measures.Recent studies have significantly improved the taxonomy and systematics of didymellaceous taxa based on molecular phylogenetics.In contrast to the accurate and detailed studies on the asexual morphs which are common obligate pathogens,information on their usually saprobic sexual morphs is still limited.Among these phenotypically diverse species,spore characteristics are quite unique as most have hyaline spores with 0-1 septum,while only Neomicrosphaeropsis and Didymellocamarosporium are reported as producing pigmented,muriform spores.These dematiaceous muriform spores are characteristic of a considerable number of species that may be quite divergent in other characters.During taxonomic investigations on the diversity of didymellaceous taxa,we have isolated species from Alhagi pseudalhagi,Coronilla emerus,Cytisus sp.,Elaeagnus angustifolia and Spartium junceum in Italy,Russia and Uzbekistan.A comprehensive phylogeny,based on four loci(ITS,LSU,rpb2 and tub2)is used to infer species relationships.Comprehensive morphological descriptions and in-depth phylogenetic investigations of five new species viz.Ascochyta coronillae-emeri,Microsphaeropsis spartii-juncei,Neomicrosphaeropsis alhagi-pseudalhagi,N.cytisicola and N.elaeagni are presented.
基金The authors would like to thank Yunnan Provincial Key Programs of Yunnan Eco-friendly Food International Cooperation Research Center Project under Grant 2019ZG00908 and Key Research Program of Frontier Sciences“Response of Asian mountain ecosystems to global change”,CAS,Grant No.QYZDY-SSWSMC014We also thank to the director Jun-Bo Yang and Plant Germplasm and Genomics Center in Germplasm Bank of Wild Species,Kunming Institute of Botany for the molecular laboratory support.Kevin D.Hyde thanks the 2019 high-end foreign expert introduction plan to Kunming Institute of Botany(Granted by the Ministry of Science and Technology of the People’s Republic of China,Grant Number G20190139006)+16 种基金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)Kevin D.Hyde also thanks Chiang Mai University for the award of visiting Professor.The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089.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 support.Dr.Shaun Pennycook and Prof Eric H.C.McKenzie are thanked for his essential nomenclatural reviewRajesh Jeewon thanks Mae Fah Luang University for the award of a Visiting Scholar and University of Mauritius for research support.Jian-Kui Liu thanks the National Natural Science Foundation of China(NSFC 31600032)Chaynard Phukhamsakda would like to thank the Royal Golden Jubilee PhD Program under Thailand Research Fund(RGJ)for a personal grant to C.Phukhamsakda(The Scholarship No.PHD/0020/2557 to study towards a Ph.D.).This research work was partially supported by Chiang Mai University.Ausana Mapook thanks to Research and Researchers for Industries(RRI)under Thailand Research Fund for a personal Grant(PHD57I0012)with the German Academic Exchange Service(DAAD)for a joint TRF-DAAD(PPP 2017-2018)academic exchange grant to K.D.Hyde and M.Stadler.Witoon Purahong and Tesfaye Wubet are thanked for funding support of Molecular work and also thanks to Katalee Jariyavidyanont,Maitree Malaithong and Benjawan Tanunchai for their valuable help.Saowaluck Tibpromma would like to thank the International Postdoctoral Exchange Fellowship Program(Number Y9180822S1)CAS President’s International Fellowship Initiative(PIFI)(Number 2020PC0009)China Postdoctoral Science Foundation and Yunnan Human Resources and Social Security Department Foundation for funding her postdoctoral research.V.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)and 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 facilitiesforest departments of Andaman and Nicobar Islands and Tamil Nadu,India are thanked for providing permission to collect samples.M.Niranjan thanks SERB,Govt.of India for a fellowship and B.Devadatha thanks MOES,Govt.of India for a fellowship.Napalai Chaiwan would like to thank the Thailand Research Fund(PHD60K0147)Danushka S.Tennakoon would like to thank Lakmali Dissanayake and Binu Samarakoon for their support.Dhanushka N.Wanasinghe would like to thank CAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Number 2019PC0008)Peter E.Mortimer and Dhanushka N.Wanasinghe thank the National Science Foundation of China and the Chinese Academy of Sciences for financial support under the following Grants:41761144055,41771063 and Y4ZK111B01.Mingkwan Doilom would like to thank the 5th batch of Postdoctoral Orientation Training Personnel in Yunnan Province(grant no.:Y934283261)the 64th batch of China Postdoctoral Science Foundation(grant no.:Y913082271).Amanda Lucia Alves acknowledges scholarships from the Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior(CAPES),Ana Carla da Silva Santos acknowledges scholarships from the Conselho Nacional de Pesquisa(CNPq)and Patricia Vieira Tiago acknowledges financial support from the Pro-Reitoria de Pesquisa e Pos-Graduacao(Propesq).Dan-Feng Bao thanks Dr.Zong-Long Luo and Prof.Dr.Hong-Yan Su for their available suggestions on fungal taxonomy as well as providing partial financial research support.Shi-Ke Huang thanks Prof.Dr.Ting-Chi Wen for partially support on research study.Danny Haelewaters was funded for fieldwork in Panama by the David Rockefeller Center for Latin American Studies(2017 Summer Research Travel Grant),Smithsonian Tropical Research Institute(2017 Short-Term Research Fellowship),Mycological Society of America(2016 Graduate Research Fellowship,2017 Robert W.Lichtwardt Award),and through the Harvard University Herbaria(Fernald Fund).D.Haelewaters thanks W.Owen McMillan(Smithsonian Tropical Research Institute,Panama)and Edilma Gomez(Molecular Multi-User’s Lab,Panama)for providing lab space at STRI.Walter P.Pfliegler and EnikőHorvath are deeply indebted to Matthias Sipiczki(University of Debrecen,Hungary)for his support for generations of yeasts researchers,as well as to Ida Miklos(University of Debrecen,Hungary)for a continuous support for yeast studies and to Anita Csabaine Olah(University of Debrecen,Hungary)for excellent technical support.Alexandra Imre was supported by the UNKP-19-3-I-234 New National Excellence Program of the Ministry of Human Capacities of Hungary.Walter P.Pfliegler,EnikőHorvath,and Alexandra Imre are deeply thankful to Gabor Peter for his comments on yeast taxonomy.Walter P.Pfliegler was supported by the Albert Szent-Gyorgyi Young Investigator Award.Kunhiraman C.Rajeshkumar thanks SERB,Department of Science and Technology,Government of India for providing financial support under the Project YSS/2015/001590 and Dr.Prashant K.Dhakephalkar,Director,Agharkar Research Institute for providing the facility.Sanjay K.Singh and Shiv Mohan Singh thank Dr.Prashant K.Dhakephalkar,Director,Agharkar Research Institute and Head,Department of Botany,Banaras Hindu University(BHU),Varanasi(UP)for providing necessary facilities.Shiwali Rana thanks SP Pune University and UGC New Delhi for Fellowship(JRF).Kunthida Phutthacharoen would like to thank the Royal Golden Jubilee PhD Program under Thailand Research Fund(RGJ)No.PHD/0002/2560.Saranyaphat Boonmee would like to thank the Thailand Research Fund(No.TRG6180001)and Plant Genetic Conservation Project under the Royal Initiation of Her Royal Highness Princess Maha Chakri Sirindhorn-Mae Fah Luang University.Qi Zhao and Ming Zeng are supported by the open research project of“Cross-Cooperative Team”of the Germplasm Bank of Wild Species,Kunming Institute of Botany,Chinese Academy of Science,and The Biodiversity Survey and Assessment Project of the Ministry of Ecology and Environment,China(2019HJ2096001006)Subodini N.Wijesinghe offers her profound gratitude to Dr.Samantha C.Karunarathne for financial support on molecular work under the National Science Foundation of China(NSFC)Project Code:31750110478 as well as Prof.Dr.Yong Wang,Dr.Udeni Jayalal and Achala R.Rathnayaka for their valuable suggestions.Renato Lucio Mendes Alvarenga and Tatiana Baptista Gibertoni acknowledge Ailton Matheus for the specimen,Pos-Graduacao em Biologia de Fungos(UFPE,Brazil)for support,CNPq(PQ 307601/2015-3)for financing this research and CAPES and CNPq for the PhD scholarship of RLM Alvarenga.Wei Dong would like to thank Huang Zhang for supporting this work under the National Natural Science Foundation of China(Project ID:NSF 31500017).Jing Yang would like to thank Prof.Zuoyi Liu for his support and great help on the lab work.
文摘Fungal diversity notes is one of the important journal series of fungal taxonomy that provide detailed descriptions and illustrations of new fungal taxa,as well as providing new information of fungal taxa worldwide.This article is the 11th contribution to the fungal diversity notes series,in which 126 taxa distributed in two phyla,six classes,24 orders and 55 families are described and illustrated.Taxa in this study were mainly collected from Italy by Erio Camporesi and also collected from China,India and Thailand,as well as in some other European,North American and South American countries.Taxa described in the present study include two new families,12 new genera,82 new species,five new combinations and 25 new records on new hosts and new geographical distributions as well as sexual-asexual reports.The two new families are Eriomycetaceae(Dothideomycetes,family incertae sedis)and Fasciatisporaceae(Xylariales,Sordariomycetes).The twelve new genera comprise Bhagirathimyces(Phaeosphaeriaceae),Camporesiomyces(Tubeufiaceae),Eriocamporesia(Cryphonectriaceae),Eriomyces(Eriomycetaceae),Neomonodictys(Pleurotheciaceae),Paraloratospora(Phaeosphaeriaceae),Paramonodictys(Parabambusicolaceae),Pseudoconlarium(Diaporthomycetidae,genus incertae sedis),Pseudomurilentithecium(Lentitheciaceae),Setoapiospora(Muyocopronaceae),Srinivasanomyces(Vibrisseaceae)and Xenoanthostomella(Xylariales,genera incertae sedis).The 82 new species comprise Acremonium chiangraiense,Adustochaete nivea,Angustimassarina camporesii,Bhagirathimyces himalayensis,Brunneoclavispora camporesii,Camarosporidiella camporesii,Camporesiomyces mali,Camposporium appendiculatum,Camposporium multiseptatum,Camposporium septatum,Canalisporium aquaticium,Clonostachys eriocamporesiana,Clonostachys eriocamporesii,Colletotrichum hederiicola,Coniochaeta vineae,Conioscypha verrucosa,Cortinarius ainsworthii,Cortinarius aurae,Cortinarius britannicus,Cortinarius heatherae,Cortinarius scoticus,Cortinarius subsaniosus,Cytospora fusispora,Cytospora rosigena,Diaporthe camporesii,Diaporthe nigra,Diatrypella yunnanensis,Dictyosporium muriformis,Didymella camporesii,Diutina bernali,Diutina sipiczkii,Eriocamporesia aurantia,Eriomyces heveae,Ernakulamia tanakae,Falciformispora uttaraditensis,Fasciatispora cocoes,Foliophoma camporesii,Fuscostagonospora camporesii,Helvella subtinta,Kalmusia erioi,Keissleriella camporesiana,Keissleriella camporesii,Lanspora cylindrospora,Loratospora arezzoensis,Mariannaea atlantica,Melanographium phoenicis,Montagnula camporesii,Neodidymelliopsis camporesii,Neokalmusia kunmingensis,Neoleptosporella camporesiana,Neomonodictys muriformis,Neomyrmecridium guizhouense,Neosetophoma camporesii,Paraloratospora camporesii,Paramonodictys solitarius,Periconia palmicola,Plenodomus triseptatus,Pseudocamarosporium camporesii,Pseudocercospora maetaengensis,Pseudochaetosphaeronema kunmingense,Pseudoconlarium punctiforme,Pseudodactylaria camporesiana,Pseudomurilentithecium camporesii,Pseudotetraploa rajmachiensis,Pseudotruncatella camporesii,Rhexocercosporidium senecionis,Rhytidhysteron camporesii,Rhytidhysteron erioi,Septoriella camporesii,Setoapiospora thailandica,Srinivasanomyces kangrensis,Tetraploa dwibahubeeja,Tetraploa pseudoaristata,Tetraploa thrayabahubeeja,Torula camporesii,Tremateia camporesii,Tremateia lamiacearum,Uzbekistanica pruni,Verruconis mangrovei,Wilcoxina verruculosa,Xenoanthostomella chromolaenae and Xenodidymella camporesii.The five new combinations are Camporesiomyces patagoniensis,Camporesiomyces vaccinia,Camposporium lycopodiellae,Paraloratospora gahniae and Rhexocercosporidium microsporum.The 22 new records on host and geographical distribution comprise Arthrinium marii,Ascochyta medicaginicola,Ascochyta pisi,Astrocystis bambusicola,Camposporium pellucidum,Dendryphiella phitsanulokensis,Diaporthe foeniculina,Didymella macrostoma,Diplodia mutila,Diplodia seriata,Heterosphaeria patella,Hysterobrevium constrictum,Neodidymelliopsis ranunculi,Neovaginatispora fuckelii,Nothophoma quercina,Occultibambusa bambusae,Phaeosphaeria chinensis,Pseudopestalotiopsis theae,Pyxine berteriana,Tetraploa sasicola,Torula gaodangensis and Wojnowiciella dactylidis.In addition,the sexual morphs of Dissoconium eucalypti and Phaeosphaeriopsis pseudoagavacearum are reported from Laurus nobilis and Yucca gloriosa in Italy,respectively.The holomorph of Diaporthe cynaroidis is also reported for the first time.
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Rungtiwa Phookamsak thanks to the CAS President’s International Fellowship for Postdoctoral Researchers(Project No.2017PB0072)the Research Fund from China Postdoctoral Science Foundation(grant no.Y71B283261)+2 种基金Chiang Mai University for financial support.Kevin 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 No.2013T2S0030for 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.Peter E Mortimer thanks to the National Science Foundation of China(NSFC)for funding this work under the project codes 41761144055 and 41771063Chayanard Phukhamsakda(PHD/0020/2557)acknowledges the Royal Golden Jubilee Ph.D.Program under the Thailand Research Fund.Shi-ke Huang is particularly grateful to Dr.Qi Zhao for his support and great help.Qiu Ju Shang,Jun-Fu Li and Nimali I.de Silva and other colleagues from Centre of Excellence in Fungal Research,Mae Fah Luang University,Chiang Rai,Thailand are thanked for their assistance in phylogenetic analyses.Shaun Pennycook is thanked for suggestion on fungal names.
文摘Ophiobolus is a large genus of Phaeosphaeriaceae comprising more than 350 possible species,most of which are saprobes on herbaceous plants in Europe and North America.Ophiobolus species are polyphyletic and the type of Ophiobolus is not represented in GenBank.Therefore,an increased taxon sampling of ophiobolus-like taxa and epitypification of the type species,O.disseminans is reported.Multigene phylogenetic analyses of combined LSU,SSU,TEF1-a and ITS sequence data position O.disseminans in a sister clade with O.ponticus and several Entodesmium species in Phaeosphaeriaceae with high support.Therefore,Entodesmium is synonymized under Ophiobolus.Premilcurensis with it type species,P.senecionis also clusters within the Ophiobolus clade and is synonymized under Ophiobolus.Ophiobolus rossicus sp.nov.is introduced and a reference specimen is designated for O.ponticus.Other ophiobolus-like taxa(Ophiobolus sensu lato)can be distinguished as three main groups,which are introduced as new genera.Ophiobolopsis is introduced to accommodate the new species,Ophiobolopsis italica.The new genus Paraophiobolus is introduced to accommodate P.arundinis sp.nov.and P.plantaginis comb.nov.This genus is characterized by hyaline to pale yellowish ascospores,some green-yellowish at maturity,with a swollen cell,terminal appendages and ascospores not separating into part spores.Pseudoophiobolus gen.nov.is introduced to accommodate six new species and two new combinations,viz.Ps.achilleae,Ps.erythrosporus,Ps.galii,Ps.italicus,Ps.mathieui,Ps.rosae,Ps.subhyalinisporus and Ps.urticicola.Pseudoophiobolus is characterized by subhyaline to pale yellowish or yellowish ascospores,with a swollen cell,lack of terminal appendages and ascospores that do not separate into part spores and is related to Nodulosphaeria.An updated tree for Phaeosphaeriaceae based on multigene analysis is also provided.
基金the 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)+60 种基金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)Chiang Mai University for the award of visiting ProfessorCAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Grant No.2018PC0006)the National Science Foundation of China(NSFC,project code 31750110478)supported by the Graduate Program for the Undiscovered Taxa of Koreain part by the 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,Republic of Koreain part supported by the BK21 plus program through the National Research Foundation(NRF)funded by the Ministry of Education of Korea.Jian-Kui Liu thanks the National Natural Science Foundation of China(NSFC 31600032)the CNPq(Conselho Nacional de Desenvolvimento Cientifico e Tecnologico)for a research grant(309058/2015-5)funding for collecting trips(401186/2014-8)a collaborative project with RL as Special Visiting Professor(314570/2014-4)Funding for phylogenetic work on Graphidaceae was provided by a grant from the National Science Foundation(NSF)to The Field Museum:DEB-1025861"ATM-Assembling a taxonomic monograph:The lichen family Graphidaceae"PI Thorsten Lumbsch,CoPI Robert Luckingthe CAPES,CNPq,and FAPEMIG for financial support and ICMBio/FLONA-Paraopeba for providing facilities and permits for the exploration surveys of the mycodiversity in their protected areasthe Graduate Program for the Biodiversity and Biotechnology Network of the Legal Amazon(UFPA-MPEG,Brazil)the Conselho Nacional de Desenvolvimento Cientifico Programa de Capacitacao for the scholarship to AMSS(Programa de Capacitacao Institucional 303073/2018-7)CNPq(Sisbiota 563342/2010-2,PROTAX 562106/2010-3)FACEPE(APQ 0788-2.03/12)for funding this researchsupport by a long-term research development project No.RVO 67985939 of the Czech Academy of Sciences,Institute of Botanyfinancial support from Conselho Nacional de Pesquisa e Desenvolvimento Cientifico(CNPq)National Natural Science Foundation of China(Project IDs GJL:31500013,RLZ:31470152 and 31360014)for financial supportjoint project of the Charles Darwin Foundation(CDF)and the Galapagos National Park(DPNG),part of a national biodiversity assessment"Biodiversidad Genetica del Ecuador"led by the Instituto Nacional de Biodiversidad del Ecuador(INABIO)Thailand Research Fund(TRF)Grant No.MRG6080089 entitledTaxonomy and phylogeny of foliar fungi from Mangrove and to Dr.Putarak Chomnuntithe Thailand Research Fund(No.TRG6180001)the National Research Council of Thailand(No.61215320023)Plant Genetic Conservation Project under the Royal Initiation of Her Royal Highness Princess Maha Chakri Sirindhorn-Mae Fah Luang Universitygrateful to Croatian Science Foundation for their financial support under the project HRZZ-IP-2018-01-1736(For-FungiDNA)the Royal Golden Jubilee PhD Program under Thailand Research Fund(RGJ)for a personal grant to C.Phukhamsakda(The scholarship no.PHD/0020/2557 to study towards a PhD)China-Thailand Joint Lab on Microbial Biotechnology(Most KY201701011)for financial supportCAS President’s International Fellowship Initiative(PIFI)for young staff(Grant No.2019FYC0003)the Research Fund from China Postdoctoral Science Foundation(Grant No.Y71B283261)the Yunnan Provincial Department of Human Resources and Social Security(Grant No.Y836181261)National Science Foundation of China(NSFC)project code 31850410489 for financial supportthe National Research Council of Thailand(Grant No.256108A3070006)for financial supportthe National Natural Science Foundation of China(No.31760014)the Science and Technology Foundation of Guizhou Province(No.[2016]2863)partially supported by Chiang Mai Universitythe Graduate Program for the Biodiversity and Biotechnology Network of the Legal Amazon(UFPA-MPEG),the Museu Paraense Emilio Goeldi(MPEG),the Universidade do Estado do Amapa and the Universidade Federal de Pernambuco for the logistical support of their laboratories and herbariaCNPq for the scholarship of AMSS(Programa de Capacitacao Institucional 303073/2018-7)CNPq(Sisbiota 563342/2010-2,PROTAX 562106/2010-3)and FACEPE(APQ 0788-2.03/12)for funding this researchthe ATM of the Paris'Museum and"l'Institut Ecologie et Environnement"(CNRS-INEE)for funding the field trip with Shelly Masi to Africaall the practical help and sharing her experiencemade possible through research permit 034/MENESR/DIRCAB/DGESRSTI/DRSTSPI/SSSTI/16 from the"Ministere de l'education nationale,de l’enseignement superieur et de la recherche scientifique"of the Central African Republicfinanced in part by the National Geographic Society(grants 6365-98,7921-05)in more recent years by the ATM-project"Past and present biodiversity"of the Museum national d’histoire naturelle(Dirs.Ph.Janvier and S.Peigne)University of Mauritius for research supportthe Thailand Research Fund(PHD60K0147)contribution number 2248 of the Charles Darwin Foundation for the Galapagos IslandsLakmali Dissanayake and Binu Samarakoon for their supportCAS President’s International Fellowship Initiative(PIFI)for funding his postdoctoral research(Number 2019PC0008)the National Science Foundation of China and the Chinese Academy of Sciences for financial support under the following grants:41761144055,41771063 and Y4ZK111B01CAS President’s International Fellowship Initiative(Grant No.2018VBB0021)German Academic Exchange Service Fellowship(Grant No.57314018)Ministry of innovative development of the Republic of Uzbekistan(Projects No.P3-2014-0830174425 and PP-20170921183)for funding his research projectsthe 5th batch of Postdoctoral Orientation Training Personnel in Yunnan Province(Grant No.Y934283261)the 64th batch of China Postdoctoral Science Foundation(Grant No.Y913082271)their kind support on manuscript writing.Jianchu Xu thanks Key Research Program of Frontier Sciences"Response of Asian mountain ecosystems to global change",CAS(Grant No.QYZDYSSW-SMC014)the 64th batch of China Postdoctoral Science Foundation(Grant No.Y913083271)the support from UID/MULTI/04046/2019 Research Unit grant from FCT,Portugal to BioISI.
文摘This article is the tenth series of the Fungal Diversity Notes,where 114 taxa distributed in three phyla,ten classes,30 orders and 53 families are described and illustrated.Taxa described in the present study include one new family(viz.Pseudoberkleasmiaceae in Dothideomycetes),five new genera(Caatingomyces,Cryptoschizotrema,Neoacladium,Paramassaria and Trochilispora)and 71 new species,(viz.Acrogenospora thailandica,Amniculicola aquatica,A.guttulata,Angustimassarina sylvatica,Blackwellomyces lateris,Boubovia gelatinosa,Buellia viridula,Caatingomyces brasiliensis,Calophoma humuli,Camarosporidiella mori,Canalisporium dehongense,Cantharellus brunneopallidus,C.griseotinctus,Castanediella meliponae,Coprinopsis psammophila,Cordyceps succavus,Cortinarius minusculus,C.subscotoides,Diaporthe italiana,D.rumicicola,Diatrypella delonicis,Dictyocheirospora aquadulcis,D.taiwanense,Digitodesmium chiangmaiense,Distoseptispora dehongensis,D.palmarum,Dothiorella styphnolobii,Ellisembia aurea,Falciformispora aquatic,Fomitiporia carpinea,F.lagerstroemiae,Grammothele aurantiaca,G.micropora,Hermatomyces bauhiniae,Jahnula queenslandica,Kamalomyces mangrovei,Lecidella yunnanensis,Micarea squamulosa,Muriphaeosphaeria angustifoliae,Neoacladium indicum,Neodidymelliopsis sambuci,Neosetophoma miscanthi,N.salicis,Nodulosphaeria aquilegiae,N.thalictri,Paramassaria samaneae,Penicillium circulare,P.geumsanense,P.mali-pumilae,P.psychrotrophicum,P.wandoense,Phaeoisaria siamensis,Phaeopoacea asparagicola,Phaeosphaeria penniseti,Plectocarpon galapagoense,Porina sorediata,Pseudoberkleasmium chiangmaiense,Pyrenochaetopsis sinensis,Rhizophydium koreanum,Russula prasina,Sporoschisma chiangraiense,Stigmatomyces chamaemyiae,S.cocksii,S.papei,S.tschirnhausii,S.vikhrevii,Thysanorea uniseptata,Torula breviconidiophora,T.polyseptata,Trochilispora schefflerae and Vaginatispora palmae).Further,twelve new combinations(viz.Cryptoschizotrema cryptotrema,Prolixandromyces australi,P.elongatus,P.falcatus,P.longispinae,P.microveliae,P.neoalardi,P.polhemorum,P.protuberans,P.pseudoveliae,P.tenuistipitis and P.umbonatus),an epitype is chosen for Cantharellus goossensiae,a reference specimen for Acrogenospora sphaerocephala and new synonym Prolixandromyces are designated.Twenty-four new records on new hosts and new geographical distributions are also reported(i.e.Acrostalagmus annulatus,Cantharellus goossensiae,Coprinopsis villosa,Dothiorella plurivora,Dothiorella rhamni,Dothiorella symphoricarposicola,Dictyocheirospora rotunda,Fasciatispora arengae,Grammothele brasiliensis,Lasiodiplodia iraniensis,Lembosia xyliae,Morenoina palmicola,Murispora cicognanii,Neodidymelliopsis farokhinejadii,Neolinocarpon rachidis,Nothophoma quercina,Peroneutypa scoparia,Pestalotiopsis aggestorum,Pilidium concavum,Plagiostoma salicellum,Protofenestella ulmi,Sarocladium kiliense,Tetraploa nagasakiensis and Vaginatispora armatispora).
基金The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089.We thank the technical staff of Center of Excellence in Fungal Research,Sornram Sukpisit and Wilawan Punyaboon for their invaluable assistance.Dhanushka Wanasinghe would like to thank the Molecular Biology Experimental Center at Kunming Institute of Botany for facilities for molecular work.We are also grateful to Anuruddha Karunarathna,Binu Samarakoon and Digvijayini Bundhun for their valuable assistance.Dhanushka Wanasinghe is also thankful to Hiran Ariyawansa for his valuable suggestions.Hyang Burm Lee was supported by the Graduate Program for the Undiscovered Taxa of Korea,and the Project on Survey and Discovery of Indigenous Fungal Species of Korea funded by NIBR,and the Project on Discovery of Fungi from Freshwater and Collection of Fungarium funded by NNIBR of the Ministry of Environment(MOE),and the Cooperative Research Program for Agriculture Science and Technology Development(PJ012957)Rural Development Administration,Republic of Korea.Chayanard Phukhamsakda would like to thank Royal Golden Jubilee Ph.D.Program under Thailand Research Fund,for the award of a scholarship no.PHD/0020/2557+6 种基金Ausana Mapook is grateful to Research and Researchers for Industries(RRI)PHD57I0012R.Jeewon is grateful to University of Mauritius&Mae Fah Luang University for enabling research collaboration.K.D.Hyde thanks to National Research Council of Thailand(Mae Fah Luang University)for grants‘‘Biodiversity,phylogeny and role of fungal endophytes of Pandanaceae’’(Grant No:592010200112)and 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(Mae Fah Luang University)grant no 60201000201 entitled‘‘Diseases of mangrove trees and maintenance of good forestry practice’’.K.D.Hyde is an Adjunct Professor at Chiang Mai University.Samantha C.Karunarathna thanks Yunnan Provincial Department of Human Resources and Social Security funded postdoctoral project(number 179122)and National Science Foundation of China(NSFC)project code 31750110478Kevin D.Hyde also thanks to the Chinese Academy of Sciences,project number 2013T2S0030for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.Y.S.Gafforov acknowledges the support from Committee for coordination science and technology development under the Cabinet of Ministers of Uzbekistan(Project No.P3-2014-0830174425)Timur Bulgakov appreciates the Alexander Fateryga and T.I.Vyazemsky Karadag Scientific Station(Karadag State Reserve)for the help in expeditions in Crimean Peninsula.Jianchu Xu thanks Key Research Program of Frontier Sciences of the Chinese Academy of Sciences(Grant No.QYZDYSSW-SMC014),Key Research Program of the Ministry of Sciences and Technology(Grant No.2017YFC0505101)CGIAR Research Program 6:Forest,Trees and Agroforestry,the Kunming Institute of Botany,Chinese Academy of Science(CAS)and the Chinese Ministry of Science and Technology,under the 12th 5-year National Key Technology Support Program(NKTSP)2013BAB07B06 integration and comprehensive demonstration of key technologies on Green Phosphate-mountain construction.Peter E.Mortimer thanks the National Science Foundation of China(NSFC)Project Codes 41761144055 and 41771063S.Tibell would like to acknowledge support from the grant‘dha 2016-264.3’from‘The Swedish Taxonomy Initiative’.
文摘This paper is the seventh in the Fungal Diversity Notes series,where 131 taxa accommodated in 28 families are mainly described from Rosa(Rosaceae)and a few other hosts.Novel fungal taxa are described in the present study,including 17 new genera,93 new species,four combinations,a sexual record for a species and new host records for 16 species.Bhatiellae,Cycasicola,Dactylidina,Embarria,Hawksworthiana,Italica,Melanocucurbitaria,Melanodiplodia,Monoseptella,Uzbekistanica,Neoconiothyrium,Neopaucispora,Pararoussoella,Paraxylaria,Marjia,Sporormurispora and Xenomassariosphaeria are introduced as new ascomycete genera.We also introduce the new species Absidia jindoensis,Alternaria doliconidium,A.hampshirensis,Angustimassarina rosarum,Astragalicola vasilyevae,Backusella locustae,Bartalinia rosicola,Bhatiellae rosae,Broomella rosae,Castanediella camelliae,Coelodictyosporium rosarum,Comoclathris rosae,C.rosarum,Comoclathris rosigena,Coniochaeta baysunika,C.rosae,Cycasicola goaensis,Dactylidina shoemakeri,Dematiopleospora donetzica,D.rosicola,D.salsolae,Diaporthe rosae,D.rosicola,Endoconidioma rosaehissaricae,Epicoccum rosae,Hawksworthiana clematidicola,H.lonicerae,Italica achilleae,Keissleriella phragmiticola,K.rosacearum,K.rosae,K.rosarum,Lophiostoma rosae,Marjia tianschanica,M.uzbekistanica,Melanocucurbitaria uzbekistanica,Melanodiplodia tianschanica,Monoseptella rosae,Mucor fluvius,Muriformistrickeria rosae,Murilentithecium rosae,Neoascochyta rosicola,Neoconiothyrium rosae,Neopaucispora rosaecae,Neosetophoma rosarum,N.rosae,N.rosigena,Neostagonospora artemisiae,Ophiobolus artemisiicola,Paraconiothyrium rosae,Paraphaeosphaeria rosae,P.rosicola,Pararoussoella rosarum,Parathyridaria rosae,Paraxylaria rosacearum,Penicillium acidum,P.aquaticum,Phragmocamarosporium rosae,Pleospora rosae,P.rosae-caninae,Poaceicola agrostina,P.arundinicola,P.rosae,Populocrescentia ammophilae,P.rosae,Pseudocamarosporium pteleae,P.ulmi-minoris,Pseudocercospora rosae,Pseudopithomyces rosae,Pseudostrickeria rosae,Sclerostagonospora lathyri,S.rosae,S.rosicola,Seimatosporium rosigenum,S.rosicola,Seiridium rosarum,Setoseptoria arundelensis,S.englandensis,S.lulworthcovensis,Sigarispora agrostidis,S.caryophyllacearum,S.junci,S.medicaginicola,S.rosicola,S.scrophulariae,S.thymi,Sporormurispora atraphaxidis,S.pruni,Suttonomyces rosae,Umbelopsis sinsidoensis,Uzbekistanica rosaehissaricae,U.yakutkhanika,Wojnowicia rosicola,Xenomassariosphaeria rosae.New host records are provided for Amandinea punctata,Angustimassarina quercicola,Diaporthe rhusicola,D.eres,D.foeniculina,D.rudis,Diplodia seriata,Dothiorella iberica,Lasiodiplodia theobromae,Lecidella elaeochroma,Muriformistrickeria rubi,Neofusicoccum australe,Paraphaeosphaeria michotii,Pleurophoma pleurospora,Sigarispora caulium and Teichospora rubriostiolata.The new combinations are Dactylidina dactylidis(=Allophaeosphaeria dactylidis),Embarria clematidis(=Allophaeosphaeria clematidis),Hawksworthiana alliariae(=Dematiopleospora alliariae)and Italica luzulae(=Dematiopleospora luzulae).This study also provides some insights into the diversity of fungi on Rosa species and especially those on Rosa spines that resulted in the characterisation of eight new genera,45 new species,and nine new host records.We also collected taxa from Rosa stems and there was 31%(20/65)overlap with taxa found on stems with that on spines.Because of the limited and non-targeted sampling for comparison with collections from spines and stems of the same host and location,it is not possible to say that the fungi on spines of Rosa differ from those on stems.The study however,does illustrate how spines are interesting substrates with high fungal biodiversity.This may be because of their hard structure resulting in slow decay and hence are suitable substrates leading to fungal colonisation.All data presented herein are based on morphological examination of specimens,coupled with phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolutionary relationships.
基金The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089.Kevin D.Hyde would like to thank the Molecular Biology Experimental Center for the help on molecular work,the Mushroom Research Foundation(MRF),Chiang Rai,Thailand,the Thailand Research Fund grant no RSA5980068 entitled Biodiversity,Phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans,the Chinese Academy of Sciences,Project Number 2013T2S0030for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany and Mae Fah Luang University for a grants“Biodiversity,phylogeny and role of fungal endophytes of Pandanaceae”(Grant number:592010200112)+11 种基金“Diseases of mangrove trees and maintenance of good forestry practice”(Grant number:60201000201 for supporting this study.K.D.Hyde is an Adjunct Professor at Chiang Mai University.Financial support by the German Academic Exchange Service(DAAD)and the Thai Royal Golden Ph.D.Jubilee-Industry program(RGJ)for a joint TRF-DAAD PPP(2012-2014)academic exchange grant to Kevin D.Hyde and Marc Stadler,and the RGJ for a personal grant to Benjarong Thongbai(No.Ph.D/0138/2553 in 4.S.MF/53/A.3)is gratefully acknowledged.Satinee Suetrong thanks to Apilux Loilong for collecting samples.This work was supported by the TRF/BIOTEC program for Biodiversity Research and Training Grant BRT R_352112,R_249001,R_251006.For their continued interest and support we also thank BIOTEC,Prof.Morakot Tanticharoen,Dr.Kanyawim Kirtikara and Dr.Lily Eurwilaichitr.Rungtiwa Phookamsak expresses appreciation to The CAS President’s International Fellowship for Postdoctoral Researchers,project number 2017PB0072the Research Fund from China Postdoctoral Science Foundation(Grant No.Y71B283261)and Chiang Mai University for financial supportWe would like to thank DrsRobert Lucking,AndreAptroot and Cecile Gueidan for available suggestion.Saranyaphat Boonmee would like to thank the National Research Council of Thailand(no.2560A30702021)the Thailand Research Fund(Project No.TRG5880152)Chayanard Phukhamsakda would like to thank Royal Golden Jubilee Ph.D.Program under Thailand Research Fund,for the award of a scholarship no.PHD/0020/2557.Ausana Mapook is grateful to Research and Researchers for Industries(RRI)PHD57I0012.Ting-Chi Wen and Yuan-Pin Xiao are grateful to The National Natural Science Foundation of China(Nos.31460012 and 3161113034)Samantha C.Karunarathna thanks Yunnan Provincial Department of Human Resources and Social Security funded postdoctoral project(Number 179122)for supporting his postdoctoral research study.Ivana Kusan and Zdenko Tkalcec have been partially supported by Croatian Science Foundation under the project HRZZIP-11-2013-2202(ACCTA)We would also like to thank Roman Ozimec and Najla Bakovicfor collecting the samples and partially Oikon Ltd.for financing the fieldwork.We would like to thank Dr.Shaun Pennycook for checking most of the Latin names.Qing Tian and Putarak Chomnunti extend their sincere thanks to the National Research Council of Thailand(grant for Dothideomycetes No.2560A30702014)Putarak Chomnunti would like to thanks for Thailand Research Fund grant no.MRG6080089Dr.Rajesh Jeewon is grateful to University of Mauritius and Mae Fah Luang University for research support.Olinto L.Pereira thank the CAPES,CNPq and FAPEMIG for financial support and ICMBio/FLONA-Paraopeba for providing facilities and permits for the exploration surveys of the mycodiversity in their protected areas.Young Woon Lim and Hyun Lee are grateful to the National Institute of Biological Resources(NIBR 20171104)Republic of Korea.The study was partially supported by the National Science Centre,Poland under grant No.2015/17/D/NZ8/00778 to Julia Pawłowska and UMO-2016/23/B/NZ8/00897 to Marta Wrzosek.Anna Bazzicalupo,Bart Buyck,Daniel Miller and Mary L.Berbee thank WTU and the Burke Museum for scanned images of Benjamin Woo’s datasheets and photographs of Russula specimens and for the loan of Woo’s specimens.Mary L.Berbee acknowledges support by Discovery Grant RGPIN-2016-03746National Science and Engineering Research Council of Canada.Anna Bazzicalupo acknowledges the student grants for field work and study abroad from the NSERC CREATE Training Program in Biodiversity Research,Sonoma County Mycological Association Student Grant,and Daniel E.Stuntz Memorial Foundation Individual Grant.The Key Research Program of Frontier Sciences of the Chinese Academy of Sciences(grant number QYZDY-SSW-SMC014)is also thanked for support.
文摘This is the sixth in a series of papers where we bring collaborating mycologists together to produce a set of notes of several taxa of fungi.In this study we introduce a new family Fuscostagonosporaceae in Dothideomycetes.We also introduce the new ascomycete genera Acericola,Castellaniomyces,Dictyosporina and Longitudinalis and new species Acericola italica,Alternariaster trigonosporus,Amarenomyces dactylidis,Angustimassarina coryli,Astrocystis bambusicola,Castellaniomyces rosae,Chaetothyrina artocarpi,Chlamydotubeufia krabiensis,Colletotrichum lauri,Collodiscula chiangraiensis,Curvularia palmicola,Cytospora mali-sylvestris,Dictyocheirospora cheirospora,Dictyosporina ferruginea,Dothiora coronillae,Dothiora spartii,Dyfrolomyces phetchaburiensis,Epicoccum cedri,Epicoccum pruni,Fasciatispora calami,Fuscostagonospora cytisi,Grandibotrys hyalinus,Hermatomyces nabanheensis,Hongkongmyces thailandica,Hysterium rhizophorae,Jahnula guttulaspora,Kirschsteiniothelia rostrata,Koorchalomella salmonispora,Longitudinalis nabanheensis,Lophium zalerioides,Magnibotryascoma mali,Meliola clerodendri-infortunati,Microthyrium chinense,Neodidymelliopsis moricola,Neophaeocryptopus spartii,Nigrograna thymi,Ophiocordyceps cossidarum,Ophiocordyceps issidarum,Ophiosimulans plantaginis,Otidea pruinosa,Otidea stipitata,Paucispora kunmingense,Phaeoisaria microspora,Pleurothecium floriforme,Poaceascoma halophila,Periconia aquatica,Periconia submersa,Phaeosphaeria acaciae,Phaeopoacea muriformis,Pseudopithomyces kunmingnensis,Ramgea ozimecii,Sardiniella celtidis,Seimatosporium italicum,Setoseptoria scirpi,Torula gaodangensis and Vamsapriya breviconidiophora.We also provide an amended account of Rhytidhysteron to include apothecial ascomata and a J?hymenium.The type species of Ascotrichella hawksworthii(Xylariales genera incertae sedis),Biciliopsis leptogiicola(Sordariomycetes genera incertae sedis),Brooksia tropicalis(Micropeltidaceae),Bryochiton monascus(Teratosphaeriaceae),Bryomyces scapaniae(Pseudoperisporiaceae),Buelliella minimula(Dothideomycetes genera incertae sedis),Carinispora nypae(Pseudoastrosphaeriellaceae),Cocciscia hammeri(Verrucariaceae),Endoxylina astroidea(Diatrypaceae),Exserohilum turcicum(Pleosporaceae),Immotthia hypoxylon(Roussoellaceae),Licopolia franciscana(Vizellaceae),Murispora rubicunda(Amniculicolaceae)and Doratospora guianensis(synonymized under Rizalia guianensis,Trichosphaeriaceae)were reexamined and descriptions,illustrations and discussion on their familial placement are given based on phylogeny and morphological data.New host records or new country reports are provided for Chlamydotubeufia huaikangplaensis,Colletotrichum fioriniae,Diaporthe subclavata,Diatrypella vulgaris,Immersidiscosia eucalypti,Leptoxyphium glochidion,Stemphylium vesicarium,Tetraploa yakushimensis and Xepicula leucotricha.Diaporthe baccae is synonymized under Diaporthe rhusicola.A reference specimen is provided for Periconia minutissima.Updated phylogenetic trees are provided for most families and genera.We introduce the new basidiomycete species Agaricus purpurlesquameus,Agaricus rufusfibrillosus,Lactifluus holophyllus,Lactifluus luteolamellatus,Lactifluus pseudohygrophoroides,Russula benwooii,Russula hypofragilis,Russula obscurozelleri,Russula parapallens,Russula phoenicea,Russula pseudopelargonia,Russula pseudotsugarum,Russula rhodocephala,Russula salishensis,Steccherinum amapaense,Tephrocybella constrictospora,Tyromyces amazonicus and Tyromyces angulatus and provide updated trees to the genera.We also introduce Mortierella formicae in Mortierellales,Mucoromycota and provide an updated phylogenetic tree.
基金Saowaluck Tibpromma would like to thank the Molecular Biology Experimental Center at Kunming Institute of Botany for facilities for molecular work,the Mushroom Research Foundation(MRF)Chiang Rai,Thailand for the financial support of her study and Shaun Pennycook is thanked for nomenclatural advice.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”+21 种基金the Chinese Academy of Sciences,Project Number 2013T2S0030for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany and National Research Council of Thailand(Mae Fah Luang University)for a grants“Biodiversity,phylogeny and role of fungal endophytes of Pandanaceae”(Grant No.:592010200112)“Diseases of mangrove trees and maintenance of good forestry practice”(Grant No.:60201000201)for supporting this study.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 authors would like to extend their sincere appreciation to the Deanship of Scientific Research at King Saud University for funding this research group NO(RG-1436-025)Financial support by the German Academic Exchange Service(DAAD)and the Thai Royal Golden Ph.D.Jubilee-Industry program(RGJ)for a joint TRFDAAD 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 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 expresses sincere appreciation to The CAS President’s International Fellowship for Postdoctoral Researchers(Project No.2017PB0072)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).Andre´Luiz Cabral Monteiro de Azevedo Santiago,Carlos Alberto Fragoso de Souza,Diogo Xavier Lima,Rafael Jose´Vilela de Oliveira and Gladstone Alves da Silva would like to thank the Coordenac¸a˜o de Aperfeic¸oamento de Pessoal de Nı´vel Superior(Coordination for the Improvement of Higher Education Personnel)(CAPES)and the Fundac¸a˜o de Amparo a`Cieˆncia e Tecnologia do Estado de Pernambuco(Foundation for the support of Science and Technology of the state of Pernambuco)(FACEPE)for the postgraduate scholarships awarded to Diogo X.Lima and Carlos A.F.de Souza,respectively.We would also like to thank the Conselho Nacional de Desenvolvimento Cientı´fico e Tecnolo´gico(National Council for Scientific and Technological Development)(CNPq)and FACEPE for financial support through the projects:‘Mucoromycotina in upland forests in the semi-arid region of Pernambuco’(CNPq-458391/2014-0)‘Diversity of Mucoromycotina in different ecosystems of the Pernambuco Atlantic Rainforest’(FACEPE-APQ 0842-2.12/14).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 Project on Discovery of Fungi from Freshwater and Collection of Fungarium funded by 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.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.Saranyaphat Boonmee thanks the National Research Council of Thailand,project number 2560A30702021the Thailand Research Fund,project number TRG5880152 for providing financial support.C.G.Lin and Y.Wang thank the grant from the National Natural Science Foundation of China(No.NSFC 31560489)Fundamental Research on Science and Technology,Ministry of Science and Technology of China(2014FY120100)Mr.Jingzu Sun thank for the National Natural Science Foundations of China(No.31600024)Wei Dong thanks the for National Natural Science Foundation of China(Project ID:NSF 31500017 to Huang Zhang)P.N.Singh,A.Baghela,S.K.Singh,and S.Aamir thank the Director,MACS’Agharkar Research Institute,Pune,India for providing facilities and Rajendra Singh(Department of Zoology,DDU Gorakhpur University,UP,India)for identification of insect-host.Saisamorn Lumyong and Rene K.Schumacher are thanked for valuable suggestions and collecting specimens.K.N.A.Raj 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))K.N.A.Raj also acknowledges 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 5 August 2009).K.P.D.Latha acknowledges the financial support from the Kerala State Council for Science,Technology and Environment(KSCSTE)in the form of a PhD fellowship(Grant No.001/FSHP/2011/CSTE)K.P.D.Latha also acknowledges the permission(No.WL10-4937/2012,dated 3-10-2013)given to her by the Principal Chief Conservator of Forests,Government of Kerala,to collect agaric specimens from the forests of Kerala.Zdenko Tkalcec has been partially supported by Croatian Science Foundation under the project HRZZ-IP-11-2013-2202(ACCTA)is grateful to Milan Cerkez for his great contribution to the study of coprinoid and coprophilous fungi in Croatia.Vladimir Antonı´n thank the Moravian Museum by the Ministry of Culture of the Czech Republic as part of its long-term conceptual development programme for research institutions(DKRVO,ref.MK000094862)T.C.Wen,Y.P.Xiao,C.Norphanphoun and K.K.Hapuarachchi are grateful to the National Natural Science Foundation of China(No.31460012)and the Science and Technology Foundation of Guizhou Province(No.[2016]2863)Y.W.Lim would like to thanks NIBR supporting the Project on Survey and Discovery of Indigenous Fungal Species of Korea.Kanad Das and Dyutiparna Chakraborty are thankful to the Director,Botanical Survey of India(BSI)and Scientist-in-Charge,BSI,Gangtok for providing facilities during this study.Sinchan Adhikari,Joydeep Karmakar and Tapas Kumar Bandyopadhyay would like to acknowledge DST-PURSE and DST-FIST for providing central instrumentation facilities and Alan JL Phillips acknowledges the Biosystems and Integrative Sciences Institute(BioISI,FCT/UID/Multi/04046/2013).
文摘This is a continuity of a series of taxonomic and phylogenetic papers on the fungi where materials were collected from many countries,examined and described.In addition to extensive morphological descriptions and appropriate asexual and sexual connections,DNA sequence data are also analysed from concatenated datasets to infer phylogenetic relationships and substantiate systematic positions of taxa within appropriate ranks.Wherever new species or combinations are proposed,we apply an integrative approach using morphological and molecular data as well as ecological features wherever applicable.Notes on 112 fungal taxa are compiled in this paper including Biatriosporaceae and Roussoellaceae,Didysimulans gen.nov.,81 new species,18 new host records and new country records,five reference specimens,two new combinations,and three sexual and asexual morph reports.The new species are Amanita cornelii,A.emodotrygon,Angustimassarina alni,A.arezzoensis,A.italica,A.lonicerae,A.premilcurensis,Ascochyta italica,A.rosae,Austroboletus appendiculatus,Barriopsis thailandica,Berkleasmium ariense,Calophoma petasitis,Camarosporium laburnicola,C.moricola,C.grisea,C.ossea,C.paraincrustata,Colletotrichum sambucicola,Coprinopsis cerkezii,Cytospora gelida,Dacrymyces chiangraiensis,Didysimulans italica,D.mezzanensis,Entodesmium italica,Entoloma magnum,Evlachovaea indica,Exophiala italica,Favolus gracilisporus,Femsjonia monospora,Fomitopsis flabellata,F.roseoalba,Gongronella brasiliensis,Helvella crispoides,Hermatomyces chiangmaiensis,H.chromolaenae,Hysterium centramurum,Inflatispora caryotae,Inocybe brunneosquamulosa,I.luteobrunnea,I.rubrobrunnea,Keissleriella cirsii,Lepiota cylindrocystidia,L.flavocarpa,L.maerimensis,Lophiotrema guttulata,Marasmius luculentus,Morenoina calamicola,Moelleriella thanathonensis,Mucor stercorarius,Myrmecridium fluviae,Myrothecium septentrionale,Neosetophoma garethjonesii,Nigrograna cangshanensis,Nodulosphaeria guttulatum,N.multiseptata,N.sambuci,Panus subfasciatus,Paraleptosphaeria padi,Paraphaeosphaeria viciae,Parathyridaria robiniae,Penicillium punicae,Phaeosphaeria calamicola,Phaeosphaeriopsis yuccae,Pleurophoma italica,Polyporus brevibasidiosus,P.koreanus,P.orientivarius,P.parvovarius,P.subdictyopus,P.ulleungus,Pseudoasteromassaria spadicea,Rosellinia mearnsii,Rubroboletus demonensis,Russula yanheensis,Sigarispora muriformis,Sillia italica,Stagonosporopsis ailanthicola,Strobilomyces longistipitatus,Subplenodomus galicola and Wolfiporia pseudococos.The new combinations are Melanomma populina and Rubroboletus eastwoodiae.The reference specimens are Cookeina tricholoma,Gnomoniopsis sanguisorbae,Helvella costifera,Polythrincium trifolii and Russula virescens.The new host records and country records are Ascochyta medicaginicola,Boletellus emodensis,Cyptotrama asprata,Cytospora ceratosperma,Favolaschia auriscalpium,F.manipularis,Hysterobrevium mori,Lentinus sajor-caju,L.squarrosulus,L.velutinus,Leucocoprinus cretaceus,Lophiotrema vagabundum,Nothophoma quercina,Platystomum rosae,Pseudodidymosphaeria phlei,Tremella fuciformis,Truncatella spartii and Vaginatispora appendiculata and three sexual and asexual morphs are Aposphaeria corallinolutea, Dothiorabuxi and Hypocrella calendulina.