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Persistent hamathecial threads in the Nectriaceae, Hypocreales: Thyronectria revisited and re-instated (2014)

Jaklitsch, W.M. ; Voglmayr, H. (Hermann)

In: Persoonia - Molecular Phylogeny and Evolution of Fungi vol. 33 no. 1, pp. 182-211

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Publication Date: 2024-01-12

Description: Based on type studies and freshly collected material we here re-instate the genus Thyronectria (Nectriaceae, Hypocreales). Species of this genus were recently for the most part classi\xef\xac\x81ed in the genera Pleonectria (Nectriaceae) or Mattirolia (Thyridiaceae), because Thyronectria and other genera had been identi\xef\xac\x81ed as members of the Thyridiaceae due to the presence of paraphyses. Molecular phylogenies based on several markers (act, ITS, LSU rDNA, rpb1, rpb2, tef1, tub) revealed that the Nectriaceae contain members whose ascomata are characterised by long, more or less persistent, apical paraphyses. All of these belong to a single genus, Thyronectria, which thus has representatives with hyaline, rosy, green or even dark brown and sometimes distoseptate ascospores. The type species of Thyronectria, T. rhodochlora, syn. T. patavina, syn. T. pyrrhochlora is re-described and illustrated. Within the Nectriaceae persistent, apical paraphyses are common in Thyronectria and rarely also occur in Nectria. The genus Mattirolia is revised and merged with Thyronectria and also Thyronectroidea is regarded as a synonym of Thyronectria. The three new species T. asturiensis, T. caudata and T. obscura are added to the genus. Species recently described in Pleonectria as well as some species of Mattirolia are combined in the genus, and a key to Thyronectria is provided. Five species are epitypi\xef\xac\x81ed. The type species of the genus Thyridium (Thyridiaceae), T. vestitum, is included in phylogenetic analyses to illustrate the phylogenetic distance of Thyronectria from the Thyridiaceae.

Keywords: act ; Ascomycota ; Hypocreales ; Mattirolia ; Nectriaceae ; new species ; Pleonectria ; pyrenomycetes ; rpb1 ; rpb2 ; tef1 ; tub ; Thyridiaceae ; Thyridium ; Thyronectroidea

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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Disentangling the Trichoderma viridescens complex (2013)

Jaklitsch, W.M. ; Samuels, G.J. ; Ismail, A.M. ; [et al.]

In: Persoonia - Molecular Phylogeny and Evolution of Fungi vol. 31 no. 1, pp. 112-146

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Publication Date: 2024-01-12

Description: Trichoderma viridescens is recognised as a species complex. Multigene analyses based on the translation elongation factor 1-alpha encoding gene (tef1), a part of the rpb2 gene, encoding the second largest \nRNA \npolymerase subunit and the larger subunit of ATP citrate lyase (acl1) reveals 13 phylogenetic species with little or no phenotypic differentiation. This is the first use of acl1 in Trichoderma phylogenetics. The typification of T. viridescens s.str. is clarified and Hypocrea viridescens is replaced by the new name T. paraviridescens. Besides these two species, eleven are phylogenetically recognised and T. olivascens, T. viridarium, T. virilente, T. trixiae, T. viridialbum, T. appalachiense, T. neosinense, T. composticola, T. nothescens and T. sempervirentis are formally described and illustrated. Several species produce yellow diffusing pigment on cornmeal dextrose agar, particularly after storage at 15 \xc2\xb0C, while T. olivascens is characterised by the formation of an olivaceous pigment. The results are compared with earlier publications on this group of species.

Keywords: Acl1 ; Hypocrea ; Hypocreaceae ; phylogenetic analysis ; rpb2 ; systematics ; tef1

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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Stilbosporaceae resurrected: generic reclassification and speciation (2014)

Voglmayr, H. (Hermann) ; Jaklitsch, W.M.

In: Persoonia - Molecular Phylogeny and Evolution of Fungi vol. 33 no. 1, pp. 61-82

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Publication Date: 2024-01-12

Description: Following the abolishment of dual nomenclature, Stilbospora is recognised as having priority over Prosthecium. The type species of Stilbospora, S. macrosperma, is the correct name for P. ellipsosporum, the type species of Prosthecium. The closely related genus Stegonsporium is maintained as distinct from Stilbospora based on molecular phylogeny, morphology and host range. Stilbospora longicornuta and S. orientalis are described as new species from Carpinus betulus and C. orientalis, respectively. They differ from the closely related Stilbospora macrosperma, which also occurs on Carpinus, by longer, tapering gelatinous ascospore appendages and by distinct LSU, ITS rDNA, rpb2 and tef1 sequences. The asexual morphs of Stilbospora macrosperma, S. longicornuta and S. orientalis are morphologically indistinguishable; the connection to their sexual morphs is demonstrated by morphology and DNA sequences of single spore cultures derived from both ascospores and conidia. Both morphs of the three Stilbospora species on Carpinus are described and illustrated. Other species previously recognised in Prosthecium, speci\xef\xac\x81cally P. acerophilum, P. galeatum and P. opalus, are determined to belong to and are formally transferred to Stegonsporium. Isolates previously recognised as Stegonsporium pyriforme (syn. Prosthecium pyriforme) are determined to consist of three phylogenetically distinct lineages by rpb2 and tef1 sequence data, two of which are described as new species (S. protopyriforme, S. pseudopyriforme). Stegonsporium pyriforme is lectotypi\xef\xac\x81ed and this species and Stilbospora macrosperma are epitypi\xef\xac\x81ed. Based on DNA sequence data, the North American Stegonsporium acerophilum is recorded from Europe for the \xef\xac\x81rst time, and new hosts from Acer sect. Acer are reported for S. opalus and S. pyriforme. Stilbospora and Stegonsporium are classi\xef\xac\x81ed within the revived family Stilbosporaceae. Prosthecium appendiculatum, P. auctum and P. innesii are shown to be unrelated to the Stilbosporaceae and are recognised in three distinct genera, Phaeodiaporthe appendiculata, Alnecium auctum n. gen. and Calosporella innesii within Diaporthaceae, Gnomoniaceae and Sydowiellaceae, respectively. The generic types of these three monotypic genera are briefly described, illustrated and lecto- and epityp\xef\xac\x81ed.

Keywords: Alnecium ; Calospora ; Calosporella ; ITS ; LSU ; molecular phylogeny ; Phaeodiaporthe ; rpb2 ; systematics ; tef1

Repository Name: National Museum of Natural History, Netherlands

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Phylogenetic and taxonomic revision of Lopadostoma (2014)

Jaklitsch, W.M. ; Fournier, J. ; Rogers, J.D. ; [et al.]

In: Persoonia - Molecular Phylogeny and Evolution of Fungi vol. 32 no. 1, pp. 52-82

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Publication Date: 2024-01-12

Description: The genus Lopadostoma (Xylariaceae, Xylariales) is revised. Most species formerly assigned to Lopadostoma do not belong to the genus. Twelve species are herein recognised, of which two are only known from morphology.\nTen species, of which six (L. americanum, L. fagi, L. insulare, L. lechatii, L. meridionale and L. quercicola) are newly described, are characterised by both morphology and DNA phylogeny using LSU, ITS and rpb2 sequences.\nMorphologically, ecologically and phylogenetically Lopadostoma is a well-defined genus comprising exclusively species with pustular pseudostroma development in bark of angiospermous trees. Phaeosperma ailanthi, Phaeosperma dryophilum and Sphaeria linosperma are combined in Lopadostoma. Lopadostoma gastrinum is neotypified and L. turgidum is lecto- and epitypified. Species with asci and ascospores similar to those of Lopadostoma but having perithecia immersed in wood, particularly those of Lopadostoma subg. Anthostomopsis have been determined to be unrelated to the genus. DNA data confirm that Anthostoma is unrelated to Lopadostoma. Its type and currently only confirmed species Anthostoma decipiens belongs to Diatrypaceae. DNA data also show that L. pouzarii and Barrmaelia macrospora are unrelated to Lopadostoma. A commentary is provided for names in Lopadostoma and those names in Anthostoma that may be putative species of Lopadostoma based on their protologues. Anthostoma insidiosum is an older name for Anthostomella (Diatrype) adusta.

Keywords: Anthostoma ; Anthostomella ; Ascomycota ; Diatrypaceae ; ITS ; LSU ; Phaeosperma ; pyrenomycetes ; rpb2 ; Xylariaceae ; Xylariales

Repository Name: National Museum of Natural History, Netherlands

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