Chayanard Phukhamsakda, Eric H. C. McKenzie, Alan J. L. Phillips, et al.

The cosmopolitan plant genus Clematis contains many climbing species that can be found worldwide. The genus occurs in the wild and is grown commercially for horticulture. Microfungi on Clematis were collected from Belgium, China, Italy, Thailand and the UK. They are characterized by morphology and analyses of gene sequence data using an integrated species concept to validate identifications. The study revealed two new families, 12 new genera, 50 new species, 26 new host records with one dimorphic character report, and ten species are transferred to other genera. The new families revealed by multigene phylogeny are Longiostiolaceae and Pseudomassarinaceae in Pleosporales (Dothideomycetes). New genera are Anthodidymella (Didymellaceae), Anthosulcatispora and Parasulcatispora (Sulcatisporaceae), Fusiformispora (Amniculicolaceae), Longispora (Phaeosphaeriaceae), Neobyssosphaeria (Melanommataceae), Neoleptosporella (Chaetosphaeriales, genera incertae sedis)Neostictis (Stictidaceae), Pseudohelminthosporium (Neomassarinaceae), Pseudomassarina (Pseudomassarinaceae), Sclerenchymomyces (Leptosphaeriaceae) and Xenoplectosphaerella (Plectosphaerellaceae). The newly described species are Alloleptosphaeria clematidisAnthodidymella ranunculacearumAnthosulcatispora subglobosaAquadictyospora clematidisBrunneofusispora clematidisChaetosphaeronema clematidicolaC. clematidisChromolaenicola clematidisDiaporthe clematidinaDictyocheirospora clematidisDistoseptispora clematidisFloricola clematidisFusiformispora clematidisHermatomyces clematidisLeptospora clematidisLongispora clematidisMassariosphaeria clematidisMelomastia clematidisM. fulvicomaeNeobyssosphaeria clematidisNeoleptosporella clematidisNeoroussoella clematidisN. fulvicomaeNeostictis nigricans, Neovaginatispora clematidisParasulcatispora clematidisParathyridaria clematidis, P. serratifoliaeP. virginianaePericonia verrucosePhomatospora uniseriataPleopunctum clematidisPseudocapulatispora clematidisPseudocoleophoma clematidisPseudohelminthosporium clematidisPseudolophiostoma chiangraienseP. clematidisPseudomassarina clematidisRamusculicola clematidisSarocladium clematidisSclerenchymomyces clematidisSigarispora clematidicolaS. clematidisS. montanaeSordaria clematidisStemphylium clematidisWojnowiciella clematidisXenodidymella clematidisXenomassariosphaeria clematidis and Xenoplectosphaerella clematidis. The following fungi are recorded on Clematis species for the first time: Angustimassarina rosarumDendryphion europaeumDermatiopleospora mariaeDiaporthe ravennicaD. rudisDichotomopilus ramosissimumDictyocheirospora xishuangbannaensisDidymosphaeria rubiulmifoliiFitzroyomyces cyperacearumFusarium celtidicolaLeptospora thailandicaMemnoniella oblongisporaNeodidymelliopsis longicollaNeoeutypella baoshanensisNeoroussoella heveaeNigrograna chromolaenaeN. obliquaPestalotiopsis verruculosaPseudoberkleasmium chiangmaiensePseudoophiobolus rosaePseudoroussoella chromolaenaeP. elaeicolaRamusculicola thailandicaStemphylium vesicarium and Torula chromolaenae. The new combinations are Anthodidymella clematidis (≡ Didymella clematidis), A. vitalbina (≡ Didymella vitalbina), Anthosulcatispora brunnea (≡ Neobambusicola brunnea), Fuscohypha kunmingensis (≡ Plectosphaerella kunmingensis), Magnibotryascoma rubriostiolata (≡ Teichospora rubriostiolata), Pararoussoella mangrovei (≡ Roussoella mangrovei), Pseudoneoconiothyrium euonymi (≡ Roussoella euonymi), Sclerenchymomyces jonesii (≡ Neoleptosphaeria jonesii), Stemphylium rosae (≡ Pleospora rosae), and S. rosaecaninae (≡ Pleospora rosaecaninae). The microfungi on Clematis is distributed in several classes of Ascomycota. The analyses are based on morphological examination of specimens, coupled with phylogenetic sequence data. To the best of our knowledge, the consolidated species concept approach is recommended in validating species.
Doi: 10.1007/s13225-020-00448-4

Cited as: Phukhamsakda C, McKenzie EHC, Phillips AJL et al. (2020) Microfungi associated with Clematis (Ranunculaceae) with an integrated approach to delimiting species boundaries. Fungal Diversity 102, 1–203; https://doi.org/10.1007/s13225-020-00448-4.