A1 Refereed original research article in a scientific journal
Fungal Planet description sheets: 1781‐1866
Authors: Crous, P.W.; Catcheside, D.E.A.; Catcheside, P.S.; Alfenas, A.C.; Alfenas, R.F.; Barreto, R.W.; Lebel, T.; Balashov, S.; Broadbridge, J.; Jurjević, Ž.; Peña-Lastra, S. De la; Hoffmann, R.; Mateos, A.; Riebesehl, J.; Shivas, R.G.; Soliz-Santander, F.F.; Tan, Y.P.; Altés, A.; Bandini, D.; Carriconde, F.; Cazabonne, J.; Czachura, P.; Gryta, H.; Eyssartier, G.; Larsson, E.; Pereira, O.L.; Rigueiro-Rodríguez, A.; Wingfield, M.J.; Ahmad, W.; Bibi, S.; Denman, S.; Esteve-Raventós, F.; Hussain, S.; Illescas, T.; Luangsa-ard, J.J.; Möller, L.; Mombert, A.; Noisripoom, W.; Olariaga, I.; Pancorbo, F.; Paz A.; Piątek, M.; Polman-Short, C.; Suárez, E.; Afshan, N.S.; Ali, H.; Arzanlou, M.; Ayer, F.; Barratt, J.; Bellanger, J.‐M.; Bidaud, A.; Bishop-Hurley, S.L.; Bohm, M.; Bose, T.; Campo, E.; Chau, N.B.; Çolak, Ö.F.; Cordeiro, T.R.L.; Cruz, M.O.; Custódio, F.A.; Couceiro, A.; Darmostuk, V.; Dearnaley, J.D.W.; de Azevedo Santiago, A.L.C.M.; de Freitas, L.W.S.; Yáñez-Morales, M. de J.; Domnauer, C.; Dentinger, B.; Dhileepan, K.; De Souza, J.T.; Dovana, F.; Eberhardt, U.; Eisvand, P.; Erhard, A.; Fachada, V.; García-Martín, A.; Groenewald, M.; Hammerbacher, A.; Harms, K.; Haroon, S.; Haqnawaz, M.; Henriques, S.; Hernández, A.J.; Jacobus, L.M.; Jaen-Contreras, D.; Jangsantear, P.; Kaygusuz, O.; Knoppersen, R.; Kumar, T.K.A.; Lynch, M.J.; Mahiques, R.; Maraia, G.L.; Marbach, P.A.S.; Mehrabi-Koushki, M.; Miller, P.R.; Mongkolsamrit, S.; Moreau, P.‐A.; Oberlies, N.H.; Oliveira, J.A.; Orlovich, D.; Pérez-Méndez, A.S.; Pinto, A.; Raja, H.A.; Ramírez, G.H.; Raphael, B.; Rodrigues, A.; Rodrigues, H.; Ramos, D.O.; Safi, A.; Sarwar, S.; Saar, I.; Sánchez, R.M.; Santana, J.S.; Scrace, J.; Sales, L.S.; Silva, L.N.P.; Stryjak-Bogacka, M.; Tacconi, A.; Thanh, V.N.; Thomas, A.; Thuy, N.T.; Toome, M.; Valdez-Carrazco, J.M.; van Vuuren, N.I.; Vasey, J.; Vauras, J.; Vila-Viçosa, C.; Villarreal, M.; Visagie, C.M.; Vizzini, A.; Whiteside, E.J.; Groenewald, J.Z.
Publisher: Rijksherbarium
Publication year: 2025
Journal: Persoonia
Journal name in source: Persoonia - Molecular Phylogeny and Evolution of Fungi
Volume: 54
Issue: 1
First page : 327
Last page: 587
ISSN: 0031-5850
eISSN: 1878-9080
DOI: https://doi.org/10.3114/persoonia.2025.54.10
Web address : https://doi.org/10.3114/persoonia.2025.54.10
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/499932943
Novel species of fungi described in this study include those from various countries as follows: Argentina, Septoria reinamora on leaf spots of Mutisia spinosa. Australia, Cortinarius albofolliculus on mossy soil, Cortinarius descensoriformis among leaf litter, Cortinarius kaki among leaf litter, Cortinarius lissosporus in leaf litter, Cortinarius malogranatus in leaf litter, Cortinarius meletlac on soil in mixed forest, Cortinarius sebosioides in long decayed wood litter, Helicogermslita australiensis as an endophyte from healthy leaves of Archontophoenix cunninghamiana, Puccinia clemensiorum on culms of Eleocharis ochrostachys, Puccinia geethae on leaves of Cyperus brevifolius, Puccinia marjaniae on leaves of Nymphoides indica, Puccinia scleriae-rugosae on leaves of Scleria rugosa. Brazil, Dactylaria calliandrae on living leaf of Calliandra tweediei, Mucor cerradoensis from soil, Musicillium palmae on living leaves of unidentified palm species, Neodendryphiella agapanthi from stalks of Agapanthus praecox, Parafusicladium riodejaneiroanum on living leaves of native bamboo, Parapenidiella melastomatis on living leaves of unidentified Melastomataceae, Pararamichloridium ouropretoense on living leaves of unidentified Poaceae, Pentagonomyces endophyticus (incl. Pentagonomyces gen. nov.) as endophytic from roots of Musa acuminata, Polyschema endophytica from healthy roots of coffee plant, Purimyces endophyticus as root endophyte of Cattleya locatellii, Ramularia rhododendri on living leaves of Rhododendron sp., Staphylotrichum soli from soil, Trichoderma sexdentis from leaves inside a nest of the leaf-cutting ant Atta sexdens rubropilosa, Wiesneriomyces soli from soil. France, Cosmospora nemaniae on dead or effete stromata of Nemania cf. colliculosa, Inocybe alnobetulae in subalpine green alder stands, Stylonectria hygrophila on dead twigs of Betula pubescens. Germany, Coniochaeta corticalis from bark humus, Coniochaeta fermentaria from fermentation residues from biogas plants, Coniochaeta fibricola from softwood fibres, Coniochaeta weberae from bark humus, Inocybe canicularis on calcareous to more acidic soil with conifers. Iceland, Inocybe islandica associated with Dryas octopetala. India, Vishniacozyma indica on dead twigs. Iran, Botryotrichum lycii on rotten leaf of Lycium depressum. Italy, Cuphophyllus dolomiticus among Salix retusa, Salix reticulata and Dryas octopetala, Inocybe subentolomospora on moss with the presence of Alnus incana, Populus nigra and Salix spp. Malaysia, Catenulostroma pellitae on leaf spots of Eucalyptus pellita. Mexico, Colletotrichum mexicanus from fruit of Persea americana cv. Hass. New Caledonia (France), Cortinarius caeloculus, Cortinarius luteigemellus and Cortinarius perpensus on soil under Nothofagus aequilateralis. New Zealand, Cytospora braithwaitei on branch of Malus domestica. Pakistan, Callistosporium khalidii on humus soil, Entoloma lilacinum on litter in conifer forest, Laccaria decolorans on litter in broad-leaved subtropical forest. Poland, Pseudoneoconiothyrium modrzynanum from resin of Larix decidua ssp. polonica, Tuberculiforma enigmatica isolated from sooty mould community on Quercus robur leaves. Portugal, Clavulus hemisphaericus (incl. Clavulus gen. nov.) on mossy slopes and under Laurus leaf litter, Entoloma daegae on sandy, granitic soil, Hygrocybe aurantiocitrina under laurel forest, Hygrocybe sanguineolutea gregarious in laurel forest, Hygrocybe vulcanica on mossy areas of laurel forest areas, Pachyphlodes algarvensis on sandy soil under Cistus salvifolius, Quercus suber and Pinus pinea. South Africa, Amycosphaerella podalyriae on leaf of Podalyria calyptrata, Erythrobasidium eucalypti from the gut of Gonipterus sp., Letendraea goniomae on leaves of Gonioma kamassi, Pezicula brabeji and Sphaerulina brabeji on twigs of Brabejum stellatifolium, Stachybotrys conicosiae on dead flower head of Conicosia elongata, Talaromyces ignescens from soil. Spain, Cortinarius phaeobrunneus on soil under Quercus ilex and Q. faginea, Inocybe pini-halepensis among grass and fallen leaves of Pinus halepensis, Inocybe subporcorum in sandy soils under Quercus ilex subsp. ballota and Pinus pinaster, Mycena morenoi on dead leaves of Betula pubescens and Salix atrocinerea, Pachyphlodes iberica on clayey and loamy soil under Quercus ilex and Quercus rotundifolia, Ramariopsis coronata in laurel forest. Switzerland, Inocybe minata in a bog on very wet acidic soil with Salix spp. and Betula spp. Thailand, Hypocrella khonsanitii on scale insects (Coccidae), Petchiella hymenopterorum on hymenopteran pupae in the nest (Hymenoptera). Trinidad and Tobago, Neodevriesia maravalensis from office swab. Türkiye, Russula anatolica under Quercus vulcanica. UK, Paracylindrosporium dactylorhizae (incl. Paracylindrosporium gen. nov.) on leaf spots of Dactylorhiza sp., Niesslia hepworthiae and Niesslia libertiae on living leaves of Libertia grandiflora. Ukraine, Lichenohendersonia cetrariae on thallus of terricolous Cetraria aculeata. USA, Atromagnispora indianensis (incl. Atromagnispora gen. nov.) on submerged wood in a freshwater stream, Cytospora michiganensis from utility room (settle plate), Exophiala aeris from air (settle plate), Hongoboletus americanus from mixed pine-hardwood forest, Lorrainsmithia pennsylvanica from bedroom, air, Superstratomyces massachusettsanus from lyse buffer. Vietnam, Aspergillus halopiscium on dry marine anchovy Stolephorus commersonnii. Morphological and culture characteristics are supported by DNA barcodes.
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Funding information in the publication:
The work of P.W. Crous and colleagues benefitted from funding by the European Union’s Horizon 2020 research and innovation program (RISE) under the Marie Skłodowska-Curie grant agreement No. 101008129, project acronym “Mycobiomics”, and the Dutch NWO Roadmap grant agreement No. 2020/ENW/00901156, project “Netherlands Infrastructure for Ecosystem and Biodiversity Analysis – Authoritative and Rapid Identification System for Essential biodiversity information” (acronym NIEBA-ARISE). V.N. Thanh and colleagues acknowledge funding from the Vietnam Ministry of Industry and Trade (2025.QuyGen.BO). H.A. Raja is grateful to the Indianapolis Zoo for a species conservation grant for the study of freshwater ascomycetes; N.H. Oberlies is grateful to the National Institute of Health via the National Cancer Institute (P01 CA125066). The study of A. Safi and colleagues was financially supported by a grant (SCU.AP1403.294) from the Research Council of Shahid Chamran University of Ahvaz. A.S. Pérez-Méndez is grateful to Secihti (CONAHCYT) and Colegio de Postgraduados Funders in México for providing the funds for this research. M. Vázquez-Sánchez at the Botanic Department at the Colegio de Postgraduados, is also thanked for her advice. F.F. Soliz Santander and colleagues are grateful to the German Federal Ministry of Food and Agriculture (BMEL) and the Fachagentur Nachwachsende Rohstoffe e. V. (FNR) by funding the project “Entwicklung und Bewertung von torfreduzierten Produktionssystemen im Gartenbau (ToPGa)” (funding number 2220MT006A) and to A. Zaiser, K. Löhr and H. Gottfried for laboratory assistance. Floragard Vertriebs-GmbH (Oldenburg, Germany) and Klasmann-Deilmann Service GmbH (Geeste, Germany) are gratefully acknowledged for providing substrates for this study. J. Cazabonne and colleagues would like to thank M. Gardes for her involvement and invaluable help throughout the project, P. Jargeat for sequencing samples and carrying out the initial phylogenetic analyses, K. Dinh for her assistance in extracting and sequencing samples, and P. Vincenot for the line drawings of their new species. The authors would also like to thank P. Pirot for coining the name Cortinarius caeloculus. R. Mahiques and colleagues thank G. Corriol for providing information about an additional collection of C. phaeobrunneus. T. Lebel and co-authors acknowledge and respect the traditional custodians of Karta Pintingga (Kangaroo Island) and the Peramangk and Kaurna nations (Adelaide Hills), the land on which these specimens were collected, and recognize their deep spiritual connection and relationship to Country. They are grateful to the Australian Biological Resources Study for funding support (NTRGI000057), the Botanic Gardens & State Herbarium of South Australia for support of undergraduate interns (C. Polman-Short; J. Broadbridge 2024), fieldwork and access to laboratories for microscopy, and Flinders University for support of molecular data generation. Thank you to curation staff at MEL, AD, PERTH and OTA for their assistance. E. Larsson acknowledges the Swedish Taxonomy Initiative, SLU Artdatabanken, Uppsala, Sweden. S. Hussain and co-authors would like to express their sincere gratitude to colleagues at the Centre for Plant Sciences and Biodiversity, and staff of the Laboratory of Mycology and Plant Pathology, University of Swat. They also extend our thanks to Higher Education Commission, Islamabad, Govt. Pakistan for promoting and supporting research in the country. V. Fachada and colleagues are grateful to R. Iltanen for the precious help with the photographic plate layout. R. Knoppersen and colleagues thank Forestry South Africa for funding this study, with additional funding from the Forestry and Agricultural Biotechnology Institute and the University of Pretoria. S. De la Peña-Lastra and colleagues thank the Instituto das Florestas e Conservação da Natureza authorities and guards (Licence 01/IFCN/2021 – BIO MAD). The authors also thank E.B. Tejera and L. Quijada for the locations of some of the sampling areas. T. Illescas would like to thank to C. Morente for her help in researching documentation on the genus and compiling data. The Atlantic Islands National Maritime-Terrestrial Park authorities and guards are also acknowledged. A. Mateos and colleagues thank the Instituto das Florestas e Conservação da Natureza authorities and guards (Licence 01/IFCN/2021 – BIO MAD). The authors would like to thank E.B. Tejera and L. Quijada for the locations of some of the sampling areas. T. Illescas would like to thank C. Morente for her help in researching documentation on the genus and compiling data. They also thank the Secretaria Regional do Ambiente e Alterações Climáticas Açores for the permission granted for the sampling (Licença No. 16/2021/DRAAC). To the ECOTOX group for co-funding the trip. T. Illescas would like to thank to C. Morente for her help in researching documentation on the genus and compiling data. The study of W. Noisripoom and J.J. Luangsa-ard was financially supported by the National Science and Technology Development Agency (NSTDA), and the National Science, Research and Innovation Fund, Thailand Science Research and Innovation (TSRI) (Grant no. P2351531). M. Durand and various participants of the Journées Mycologiques de Beaufort contributed to the discovery of Inocybe alnobetulae on several spots of the French locality. G. Moreno and E. Horak contributed to the sample collection of I. alnobetulae in the green alder stands in Switzerland. D. Bandini and U. Eberhardt are grateful to A. Bond and L. Davis for the loan of type material of Inocybe margaritispora and to the Staatliches Museum f. Naturkunde Stuttgart and H. Thüs for their support. D. Bandini thanks F.-X. Boutard for the gift of a collection of I. canicularis. I. Saar was supported by the Estonian Research Council (grant PRG1170) and the Estonian Ministry of Education and Research (Centre of Excellence AgroCropFuture “Agroecology and new crops in future climates”, TK200). F. Esteve-Raventós and colleagues acknowledge J.L. Siquier, J.C. Salom and J. Llistosella for their help in the collection of many samples in the Balearic Islands, and L. Parra for his nomenclatural advice. Furthermore, V. González, A. Caballero and G. Muñoz are thanked for handling collections and photographic material, while M. Cervini and E. Larsson are thanked for sharing some of their molecular data. J. Vauras acknowledges the FinBOL project of Finland and the association Kuopion Luonnon Ystäväin Yhdistys. F. Dovana and colleagues thank L. Setti for the microscopy pictures and L. Poli for the collections and macro photos of Inocybe subentolomospora. The study of V. Darmostuk was supported by The National Scholarship Programme of the Slovak Republic and statutory funds from the W. Szafer Institute of Botany, Polish Academy of Sciences. L.W.S. de Freitas and co-authors express their gratitude to Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) for the scholarship provided to L.W.S. de Freitas and for the research grant (CNPq 313401/2023-3) provided to A.L.C.M. de Azevedo Santiago. This manuscript was financed by the project “Morphological and molecular approaches to the knowledge of zygosporic fungal communities in the Atlantic Forest of Pernambuco and Paraíba, Brazil” (FACEPE APQ-1346-2.12/22). M.O. Cruz thanks Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) for a scholarship (# 2022/16087-7). DNA sequencing was funded by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP grant # 2019/03746-0). The authors are grateful to T.B. Gibertoni for providing soil samples. M. Villarreal and A. Couceiro thank H. Naviera, J.M Traba and A. Vila-Sanjurjo from Vicerrectorado de Política Científica, Investigación y Transferencia, Universidade da Coruña (UDC) for extracting and sequencing the M. morenoi samples. J.S. Santana and colleagues were supported by the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brazil (CAPES) - Finance Code 001. They are also grateful to the Universidade Federal de Viçosa (UFV) for providing additional resources for this study and Sítio Barreiras Fruticultura LTDA for support in field works, transit and use of facilities. K. Bensch is acknowledged for help with the Latin name of the new taxa. S. Mongkolsamrit and colleagues were financially supported by the National Science and Technology Development Agency (NSTDA) the National Science, Research and Innovation Fund, Thailand Science Research and Innovation (TSRI) Grant no. P-2351531. They also thank A. Khonsanit for the photo illustration and N. Sawangkaew for identifying the insect hosts. J.A. Oliveira and colleagues were financially supported by the Brazilian Coffee Research and Development Consortium (Consórcio Pesquisa Café, CBP&D/Café), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior–Brasil (CAPES)–Finance Code 001, Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG), and Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq). The study of P. Czachura was funded by the National Science Centre, Poland, under the project 2019/35/N/NZ9/04173. D.O. Ramos & O.L. Pereira are thankful to the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brasil (CAPES) - Finance Code 001, Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG) for their financial support and the Núcleo de Pesquisa e Conservação de Orquídeas da UFV (NPCO) for the use of facilities. O. Kaygusuz thanks the Scientific and Technical Research Council of Türkiye (TUBITAK) in the 2219 International Postdoctoral Research Fellowship Programme (Grant No. 1059B192202880). G.H. Ramírez and R.M. Sánchez are grateful to the GENeTyC laboratory team (CERZOS–CONICET, Bahía Blanca) for their collaboration with molecular analyses of Septoria reinamora. The study of M. Piątek and co-authors was funded by the National Science Centre, Poland, under the project 2017/27/B/NZ9/02902. A. Thomas acknowledges financial support from Kerala State Council for Science Technology and Environment (KSCSTE) in the form of a research fellowship. A. Thomas & T.K.A. Kumar also thank the Chief Conservator of Forests & Chief Wildlife Warden, Kerala, for giving permission to conduct field work in the forest areas of Kerala State. A. Mombert thank J. Fournier for advice and a review of the descriptions, C. Vernillet for introducing him to the bois d’Apremont, and A. Greset for the background photo of Stylonectria hygrophila.
