Novel species of fungi described in this study include those from various countries as follows: Australia, Baobabopsis sabindy in leaves of Eragrostis spartinoides, Cortinarius magentiguttatus among deep leaf litter, Laurobasidium azarandamiae from uredinium of Puccinia alyxiae on Alyxia buxifolia, Marasmius pseudoelegans on well-rotted twigs and litter in mixed wet sclerophyll and subtropical rainforest. Bolivia, Favolaschia luminosa on twigs of Byttneria hirsuta, Lecanora thorstenii on bark, in savannas with shrubs and trees. Brazil, Asterina costamaiae on leaves of Rourea bahiensis, Purimyces orchidacearum (incl. Purimyces gen. nov.) as root endophyte on Cattleya locatellii. Bulgaria, Monosporascus bulgaricus and Monosporascus europaeus isolated from surface-sterilised, asymptomatic roots of Microthlaspi perfoliatum. Finland, Inocybe undatolacera on a lawn, near Betula pendula. France, Inocybe querciphila in humus of mixed forest. Germany, Arrhenia oblongispora on bare soil attached to debris of herbaceous plants and grasses. Greece, Tuber aereum under Quercus coccifera and Acer sempervirens. India, Alfoldia lenyadriensis from the gut of a Platynotus sp. beetle, Fulvifomes subramanianii on living Albizzia amara, Inosperma pavithrum on soil, Phylloporia parvateya on living Lonicera sp., Tropicoporus maritimus on living Peltophorum pterocarpum. Indonesia, Elsinoe atypica on leaf of Eucalyptus pellita. Italy, Apiotrichum vineum from grape wine, Cuphopyllus praecox among grass. Madagascar, Pisolithus madagascariensis on soil under Intsia bijuga. Netherlands, Cytosporella calamagrostidis and Periconia calamagrostidicola on old leaves of Calamagrostis arenaria, Hyaloscypha caricicola on leaves of Carex sp., Neoniesslia phragmiticola (incl. Neoniesslia gen. nov.) on leaf sheaths of standing dead culms of Phragmites australis, Neptunomyces juncicola on culms of Juncus maritimus, Zenophaeosphaeria calamagrostidis (incl. Zenophaeosphaeria gen. nov.) on culms of Calamagrostis arenaria. Norway, Hausneria geniculata (incl. Hausneria gen. nov.) from a gallery of Dryocoetes alni on Alnus incana. Pakistan, Agrocybe auriolus on leaf litter of Eucalyptus camaldulensis, Rhodophana rubrodisca in nutrient-rich loamy soil with Morus alba. Poland, Cladosporium nubilum from hypersaline brine, Entomortierella ferrotolerans from soil at mines and postmining sites, Pseudopezicula epiphylla from sooty mould community on Quercus robur, Quixadomyces sanctacrucensis from resin of Pinus sylvestris, Szafranskia beskidensis (incl. Szafranskia gen. nov.) from resin of Abies alba. Portugal, Ascocoryne laurisilvae on degraded wood of Laurus nobilis, Hygrocybe madeirensis in laurel forests, Hygrocybula terracocta (incl. Hygrocybula gen. nov.) on mossy areas of laurel forests planted with Cryptomeria japonica. Republic of Kenya, Penicillium gorferi from a sterile chicken feather embedded in a soil sample. Slovakia, Cerinomyces tatrensis on bark of Pinus mugo, Metapochonia simonovicovae from soil. South Africa, Acremonium agapanthi on culms of Agapanthus praecox, Alfaria elegiae on culms of Elegia ebracteata, Beaucarneamyces stellenboschensis (incl. Beaucarneamyces gen. nov.) on dead leaves of Beaucarnea stricta, Gardeniomyces kirstenboschensis (incl. Gardeniomyces gen. nov.) rotting fruit of Gardenia thunbergia, Knufia dianellae on dead leaves of Dianella caerulea, Lomaantha quercina on twigs of Quercus suber. Melanina restionis on dead leaves of Restio duthieae, Microdochium buffelskloofinum on seeds of Eragrostis cf. racemosa, Thamnochortomyces kirstenboschensis (incl. Thamnochortomyces gen. nov.) on culms of Thamnochortus fraternus, Tubeufia hagahagana on leaves of Hypoxis angustifolia, Wingfieldomyces cypericola on dead leaves of Cyperus papyrus. Spain, Geastrum federeri in soil under Quercus suber and Q. canariensis, Geastrum nadalii in calcareous soil under Juniperus, Quercus, Cupressus, Pinus and Robinia, Hygrocybe garajonayensis in laurel forests, Inocybe cistophila on acidic soil under Cistus ladanifer, Inocybe sabuligena in a mixed Quercus ilex subsp. ballota/Juniperus thurifera open forest, Mycena calongei on mossy bark base of Juniperus oxycedrus, Rhodophana ulmaria on soil in Ulmus minor forest, Tuber arriacaense in soil under Populus pyramidalis, Volvariella latispora on grassy soils in a Quercus ilex ssp. rotundifolia stand. Sweden, Inocybe iota in alpine heath on calcareous soil. Thailand, Craterellus maerimensis and Craterellus sanbuakwaiensis on laterite and sandy soil, Helicocollum samlanense on scale insects, Leptosporella cassiae on dead twigs of Cassia fistula, Oxydothis coperniciae on dead leaf of Copernicia alba, Russula mukdahanensis on soil, Trechispora sangria on soil, Trechispora sanpatongensis on soil. Türkiye, Amanita corylophila in a plantation of Corylus avellana. Ukraine, Pararthrophiala adonis (incl. Pararthrophiala gen. nov.) on dead stems of Adonis vernalis. USA, Cladorrhinum carnegieae from Carnegiea gigantea, Dematipyriformia americana on swab from basement wall, Dothiora americana from outside air, Dwiroopa aeria from bedroom air, Lithohypha cladosporioides from hospital swab, Macroconia verruculosa on twig of Ilex montana, associated with black destroyed ascomycetous fungus and Biatora sp., Periconia floridana from outside air, Phytophthora fagacearum from necrotic leaves and shoots of Fagus grandifolia, Queenslandipenidiella californica on wood in crawlspace. Morphological and culture characteristics are supported by DNA barcodes. Citation: Crous PW, Jurjević Z, Balashov S, De la Peña-Lastra S, Mateos A, Pinruan U, Rigueiro-Rodríguez A, Osieck ER, Altés A, Czachura P, Esteve-Raventós F, Gunaseelan S, Kaliyaperumal M, Larsson E, Luangsa-ard JJ, Moreno G, Pancorbo F, Piątek M, Sommai S, Somrithipol S, Asif M, Delgado G, Flakus A, Illescas T, Kezo K, Khamsuntorn P, Kubátová A, Labuda R, Lavoise C, Lebel T, Lueangjaroenkit P, Maciá-Vicente JG, Paz A, Saba M, Shivas RG, Tan YP, Wingfield MJ, Aas T, Abramczyk B, Ainsworth AM, Akulov A, Alvarado P, Armada F, Assyov B, Avchar R, Avesani M, Bezerra JL, Bhat JD, Bilański P, Bily DS, Boccardo F, Bozok F, Campos JC, Chaimongkol S, Chellappan N, Costa MM, Dalecká M, Darmostuk V, Daskalopoulos V, Dearnaley J, Dentinger BTM, De Silva NI, Dhotre D, Carlavilla JR, Doungsa-ard C, Dovana F, Erhard A, Ferro LO, Gallegos SC, Giles CE, Gore G, Gorfer M, Guard FE, Hanson S-A, Haridev P, Jankowiak R, Jeffers SN, Kandemir H, Karich A, Kisło K, Kiss L, Krisai-Greilhuber I, Latha KPD, Lorenzini M, Lumyong S, Manimohan P, Manjón JL, Maula F, Mazur E, Mesquita NLS, Młynek K, Mongkolsamrit S, Morán P, Murugadoss R, Nagarajan M, Nalumpang S, Noisripoom W, Nosalj S, Novaes QS, Nowak M, Pawłowska J, Peiger M, Pereira OL, Pinto A, Plaza M, Polemis E, Polhorský A, Ramos DO, Raza M, Rivas-Ferreiro M, Rodriguez-Flakus P, Ruszkiewicz-Michalska M, Sánchez A, Santos A, Schüller A, Scott PA, Şen İ, Shelke D, Śliwa L, Solheim H, Sonawane H, Strašiftáková D, Stryjak-Bogacka M, Sudsanguan M, Suwannarach N, Suz LM, Syme K, Taşkın H, Tennakoon DS, Tomka P, Vaghefi N, Vasan V, Vauras J, Wiktorowicz D, Villarreal M, Vizzini A, Wrzosek M, Yang X, Yingkunchao W, Zapparoli G, Zervakis GI, Groenewald JZ (2024). Fungal Planet description sheets: 1614-1696. Fungal Systematics and Evolution 13: 183-440. doi: 10.3114/fuse.2024.13.11.

ALVALAB Dr Fernando Bongera st Severo Ochoa bldg S1 04 33006 Oviedo Spain

Aptdo Post Office No 6 17455 Caldes de Malavella Girona Spain

Biodiversity Center Kasetsart University Bangkok Thailand

Bioengineering and Technological Research Centre for Edible and Medicinal Fungi Jiangxi Agricultural University Nanchang 330045 China

Biological and Environmental Sciences University of Gothenburg and Gothenburg Global Biodiversity Centre Box 463 SE40530 Göteborg Sweden

Biological Collections of Åbo Akademi University Herbarium Biodiversity Unit FI 20014 University of Turku Finland

Biology of Microorganisms Students' Society Faculty of Biology University of Warsaw Miecznikowa 1 02 096 Warsaw Poland

Bioresources Center for Health and Bioresources AIT Austrian Institute of Technology GmbH Konrad Lorenz Straße 24 3430 Tulln an der Donau Austria

Birkagatan 49 256 55 Helsingborg Sweden

Botanic Garden Faculty of Biology University of Warsaw Aleje Ujazdowskie 4 00 478 Warsaw Poland

C Buenos Aires 3 bajo 1 14006 Córdoba Spain

c La Angostura 20 11370 Los Barrios Cádiz Spain

Centre for Advanced Studies in Botany University of Madras Chennai Tamil Nadu 600 025 India

Centre for Crop Health University of Southern Queensland Toowoomba 4350 Queensland Australia

Centro de Ciências Biológicas Universidade Federal de Pernambuco Pernambuco Brazil

Centro de Investigación Mariña Universidade de Vigo 36310 Vigo Spain

Departamento de Fitopatologia Universidade Federal de Viçosa 36570 900 Viçosa Minas Gerais Brazil

Departamento de Fitotecnia e Zootecnia Universidade Estadual do Sudoeste da Bahia Bahia Brazil

Department for Farm Animals and Veterinary Public Health Institute of Food Safety Food Technology and Veterinary Public Health; Unit of Food Microbiology University of Veterinary Medicine Vienna Veterinaerplatz 1 1210 Vienna and Core Facility Bioactive Molecules Screening and Analysis and Research Platform Bioactive Microbial Metabolites Konrad Lorenz Strasse 24 3430 Tulln a d Donau Austria

Department of Algology and Mycology Faculty of Biology and Environmental Protection University of Lodz Banacha 12 16 90 237 Lodz Poland

Department of Biochemistry Genetics and Microbiology Forestry and Agricultural Biotechnology Institute Faculty of Natural and Agricultural Sciences University of Pretoria Private Bag X20 Hatfield 0028 Pretoria South Africa

Department of Biology Faculty of Arts and Science Osmaniye Korkut Ata University 80000 Osmaniye Türkiye

Department of Biology Faculty of Science King Mongkut's Institute of Technology Ladkrabang Ladkrabang Bangkok Thailand

Department of Biology Faculty of Science Muğla Sıtkı Koçman University 48000 Muğla Türkiye

Department of Biotechnology University of Verona Strada Le Grazie 15 37134 Verona Italy

Department of Botany Amruteshwar Arts Commerce and Science College Vinzar Pune affiliated to S P P University Pune

Department of Botany and Biodiversity Research University of Vienna Rennweg 14 1030 Wien Austria

Department of Botany and Microbiology College of Science King Saud University P O Box 2455 Riyadh 11451 Saudi Arabia

Department of Botany Faculty of Science Culture Collection of Fungi Charles University Benátská 2 128 00 Prague 2 Czech Republic

Department of Botany University of Calicut Kerala 673 635 India

Department of Crop Science Agricultural University of Athens Iera Odos 75 11855 Athens Greece

Department of Entomology and Plant Pathology Faculty of Agriculture Chiang Mai University Chiang Mai Thailand

Department of Forest Ecosystems Protection University of Agriculture in Krakow Al 29 Listopada 46 31 425 Krakow Poland

Department of Genetics and Microbiology Faculty of Science Charles University Viničná 5 128 44 Prague 2 Czech Republic

Department of Horticulture Faculty of Agriculture Cukurova University 01330 Adana Türkiye

Department of Life Sciences and Systems Biology University of Torino Viale P A Mattioli 25 10125 Turin Italy

Department of Microbial Ecology Netherlands Institute of Ecology Droevendaalsesteeg 10 6708 PB Wageningen The Netherlands

Department of Microbiology Faculty of Science Kasetsart University Bangkok Thailand

Department of Mycology and Plant Resistance 5 N Karazin Kharkiv National University Maidan Svobody 4 61022 Kharkiv Ukraine

Department of Plant and Environmental Sciences 214 Biosystems Research Complex 29631 Clemson South Carolina USA

Department of Plant Industry Clemson University 511 Westinghouse Road 29670 Pendleton South Carolina USA

Department of Plant Sciences Faculty of Biological Sciences Quaid i Azam University 45320 Islamabad Pakistan

Department of Soil Science Faculty of Natural Sciences Comenius University Ilkovičová 6 842 15 Bratislava Slovakia

Dipartimento di Bioscienze Biotecnologie e Ambiente Campus Universitario Ernesto Quagliariello Università degli Studi di Bari Aldo Moro Via Orabona 4 70125 Bari Italy

EMSL Analytical Inc 200 Route 130 North Cinnaminson NJ 08077 USA

Eurofins Built Environment 6110 W 34th St Houston TX 77092 USA

Faculty of Agrobioengineering and Animal Husbandry University of Siedlce Konarskiego 2 08 110 Siedlce Poland

Faculty of Science Department of Biology Chiang Mai University 50200 Chiang Mai Thailand

Friesner Herbarium Department of Biological Sciences Butler University Indianapolis IN 46208 USA

Fungal Genetics and Genomics Laboratory Department of Applied Genetics and Cell Biology Institute of Microbial Genetics University of Natural Resurces and Life Sciences Vienna ; Konrad Lorenz Strasse 24 3430 Tulln a d Donau Austria

Grupo Microscopía Sociedad Micológica Madrid ETSIAAAB Avda Puerta de Hierro 2 28040 Madrid Spain

Herbario Nacional de Bolivia Instituto de Ecología Universidad Mayor de San Andrés Campus Universitario Cota Cota calle 27 La Paz Bolivia

Imaging Methods Core Facility at BIOCEV Faculty of Science Charles University Průmyslová 595 25242 Vestec u Prahy Czech Republic

Institute of Biodiversity and Ecosystem Research Bulgarian Academy of Sciences 2 Gagarin Str 1113 Sofia Bulgaria

Institute of Biology Geobotany and Botanical Garden Martin Luther University Halle Wittenberg Grosse Steinstrasse 79 80 D 06108 Halle Germany

Institute of Evolutionary Biology Faculty of Biology University of Warsaw ul Żwirki i Wigury 101 02 086 Warsaw Poland

Jkvr C M van Asch van Wijcklaan 19 3972 ST Driebergen Rijsenburg The Netherlands

Key Laboratory of Integrated Management on Crops in Northwestern Oasis Ministry of Agriculture and Rural Affairs Institute of Plant Protection Xinjiang Academy of Agricultural Sciences Urumqi Xinjiang 830091 China

Maleny Queensland Australia

montée Saint Mamert le Haut F 38138 Les Côtes d'Arey France

National Centre for Microbial Resource National Centre for Cell Science Pune 411007 Maharashtra India

Natural History Museum of Utah and School of Biological Sciences University of Utah UT 84108 Salt Lake City Utah USA

Norwegian Institute of Bioeconomy Research P O Box 115 1431 Ås Norway

Offer St Denmark Western Australia 6333 Australia

Office of Plant Industry Virginia Department of Agriculture and Consumer Services 102 Governor St 23219 Richmond Virginia USA

Pezinská 14 90301 Senec Slovakia

Plant Microbe Interaction Research Team 111 Thailand Science Park Phahonyothin Road Khlong Nueng Khlong Luang Pathum Thani 12120 Thailand

Plant Protection Research and Development Office Department of Agriculture Bangkok Thailand

Programa de Pós Graduação em Proteção Vegetal Universidade Estadual de Santa Cruz Bahia Brazil

Queensland Plant Pathology Herbarium Department of Agriculture and Fisheries Dutton Park 4102 Queensland Australia

Research Centre in Botany Prof Ramakrishna More Arts Commerce and Science College Akurdi Pune affiliated to S P P University Pune

Research Station and Museum of TANAP Tatra National Park Administration Tatranská Lomnica 14066 059 60 Vysoké Tatry Slovakia

Royal Botanic Gardens Kew TW9 3AE Richmond UK

School of Agriculture and Environmental Science University of Southern Queensland Toowoomba 4350 Queensland Australia

School of Agriculture Food and Ecosystem Sciences University of Melbourne Parkville 3010 Victoria Australia

Slovak National Museum Natural History Museum Vajanského náb 2 P O Box 13 81006 Bratislava Slovakia

Sociedad Micológica de Madrid Real Jardín Botánico C Claudio Moyano 1 28014 Madrid Spain

Sociedad Micológica Extremeña C Sagitario 14 10001 Cáceres Spain

State Herbarium of South Australia Adelaide South Australia 5000 Australia

ul 1 mája 2044 179 03101 Liptovský Mikuláš Slovakia

Unione Italiana Vini Viale del Lavoro 8 37135 Verona Italy

Unit of Bio and Environmental Sciences TU Dresden International Institute Zittau Markt 23 02763 Zittau Germany

Universidad de Alcalá Facultad de Ciencias Departamento de Ciencias de la Vida 28805 Alcalá de Henares Madrid Spain

University of Santiago de Compostela Spain

Via Filippo Bettini 14 11 16162 Genova Italy

W Szafer Institute of Botany Polish Academy of Sciences Lubicz 46 PL 31 512 Kraków Poland

Westerdijk Fungal Biodiversity Institute P O Box 85167 3508 AD Utrecht The Netherlands

Zobrazit více v PubMed

Acharius E. (1810). Lichenographia Universalis. Frid. Danckwerts., Gottingen.

Aïgnon HL, Fan YG, De Kesel A, et al. (2023). A new species of Inosperma, and first record of I. afromelliolens (Inocybaceae, Fungi) from West Africa. PLoS ONE 18: e0290894. PubMed PMC

Aïgnon HL, Jabeen S, Naseer A, et al. (2021). Three new species of Inosperma (Agaricales, Inocybaceae) from Tropical Africa. MycoKeys 77: 97–116. PubMed PMC

Alvarado P, Moreno G, Manjón J. (2012). A new Tuber without spore ornamentation, Tuber melosporum comb. nov. Boletín de la Sociedad Micológica de Madrid 36: 191–196.

Anil Raj KN, Deepna Latja KP, Iyyappan R, et al. (2016). Rhodophana squamulosa - a new species of Entolomataceae from India. Mycoscience 57: 90–95.

Arnold E. (1989). Notes on Hygrophoraceae - XI. Observations on some species of Hygrocybe subgenus Cuphophyllus. Persoonia 14: 43–46.

Arup U, Ekman S, Grube M, et al. (2007). The sister group relation of Parmeliaceae (Lecanorales, Ascomycota). Mycologia 99: 42–49. PubMed

Audrey LCC, Desjardin DE, Tan Y, et al. (2015). Bioluminescent fungi from Peninsular Malaysia a taxonomic and phylogenetic overview. Fungal Diversity 70: 149–187.

Bandini D, Brandrud TE, Dima B. et al. (2022a). Fibre caps across Europe: type studies and 11 new species of Inocybe (Agaricales, Basidiomycota). Integrative Systematics 5: 1–85.

Bandini D, Oertel B, Eberhardt U. (2021). A fresh outlook on the smooth-spored species of Inocybe: type studies and 18 new species. Mycological Progress 20: 1019–1114.

Bandini D, Oertel B, Eberhardt U. (2022b). More smooth-spored species of Inocybe (Agaricales, Basidiomycota): type studies and 12 new species from Europe. Persoonia 48: 91–149. PubMed PMC

Bandini D, Oertel B, Eberhardt U. (2022c). Noch mehr Risspilze (3): Einundzwanzig neue Arten der Familie Inocybaceae. Mycologia Bavarica 22: 31–138.

Bandini D, Oertel B, Eberhardt U. (2023). Noch mehr Risspilze (4): Vierzehn neue Arten der Familie Inocybaceae. Mycologia Bavarica 23: 1–50.

Bandini D, Oertel B, Schüssler C, et al. (2020). Noch mehr Risspilze: Fünzehn neue und zwei wenig bekannte Arten der Gattung Inocybe. Mycologia Bavarica 20: 13–101.

Baroni TJ. (1981). The genus Rhodocybe Maire (Agaricales). Beihefte. Nova Hedwigia 67: 1–194.

Ben Salem I, Correia KC, Boughalleb N, et al. (2013). Monosporascus eutypoides, a cause of root rot and vine decline in Tunisia, and evidence that M. cannonballus and M. eutypoides are distinct species. Plant Disease 97: 737–743. PubMed

Bensch K, Braun U, Groenewald JZ, et al. (2012). The genus Cladosporium. Studies in Mycology 72: 1–401. PubMed PMC

Bensch K, Groenewald JZ, Meijer M, et al. (2018). Cladosporium species in indoor environments. Studies in Mycology 89: 177–301. PubMed PMC

Bijeesh C, Kumar AM, Vrinda KB, et al. (2018). Two new species of Craterellus (Cantharellaceae) from tropical India. Phytotaxa 346: 157–168.

Bisset J. (1983). Notes on Tolypocladium and related genera. CanadiansJournal of Botany 61: 1311–1329.

Bodensteiner P, Binder M, Moncalvo JM, et al. (2004). Phylogenetic relationships of cyphelloid homobasidiomycetes. Molecular Phylogenetics and Evolution 33: 501–515. PubMed

Boekhout T. (1990). Volvariella Speg. In: Flora Agaricina Neerlandica, Vol 2. (Bas C, Kuyper ThW, et al., eds). A.A. Balkema, Rotterdam, the Netherlands: 56–64.

Boertmann D. (2010). The genus Hygrocybe. 2nd revised edition. Fungi of Northern Europe Vol. 1. Copenhagen, Denmark: Svampetryk.

Bon M. 1985. (1984a). Le genre Cuphophyllus (Donk) st. nov. Documents Mycologiques 14: 9–12.

Bon M. (1984b). Macromycetes de la zone maritime picarde (8 ème suppl.). Les Inocybes sabulicoles. Documents Mycologiques 14: 9–40.

Bon M. (1990). Flore mycologique d’Europe: Hygrophoraceae lotsy (No. 1). Association d’ecologie et de mycologie.

Bon M. (1997). Clé monographique du genre Inocybe (Fr.) Fr. (2ème partie: sous-genre Inocybe = Inocybium (Earle) Sing.). Documents Mycologiques 27: 1–69.

Boonmee S, Wanasinghe DN, Calabon MS. et al. (2021). Fungal diversity notes 1387–1511: taxonomic and phylogenetic contributions on genera and species of fungal taxa. Fungal Diversity 111: 1–335. PubMed PMC

Borgen T, Arnolds E. (2004). Taxonomy, ecology and distribution of of Hygrocybe (Fr.) P. Kumm. and Camarophyllopsis Henrik (Fungi, Basidiomycota, Hygrocybeae) in Greenland. Meddelelser om Grønland Bioscience 54. Copenhagen, Denmark: Danish Polar Center.

Bozok F, Assyov B, Yarar M, et al. (2023). A contribution to the knowledge of Amanita coryli (Amanitaceae, Agaricales). Botanica Serbica 47: 9–18.

Burow K, Grawunder A, Harpke M, et al. (2019). Microbiomes in an acidic rock-water cave system. FEMS Microbiology Letters 366: fnz167. PubMed

Candusso M. (1997). Hygrophorus s.l. Fungi Europaei 6. Libreria Basso, Alassio.

Cannon P. (2016). Ascocoryne turficola, recorded 05.11.2016, Fungal Record Database of Britain and Ireland (Accessed 5 March 2024).

Cannon P. (2020). Ascocoryne albida, recorded 19.11.2020, Fungal Record Database of Britain and Ireland (Accessed 5 March 2024).

Capella-Gutierrez S, Silla-Martinez JM, Gabaldon T. (2009). TrimAl: a tool for automated alignment trimming in large-scale phylogenetic analyses. Bioinformatics 25: 1972–1973. PubMed PMC

Castresana J. (2000). Selection of conserved blocks from multiple alignments for their use in phylogenetic analysis. Molecular Biology and Evolution 17: 540–552. PubMed

Ceruti A, Fontana A, Nosenzo C. (2003). Le specie europee del genere Tuber: una revisione storica. Vol. 37. Museo Regionale di Scienze Naturali, Turin, Italy.

Chehri K, Abbasi S, Reddy KRN, et al. (2010). Occurrence and pathogenicity of various pathogenic fungi on cucurbits from Kermanshah province, Iran. African Journal of Microbiology Research 4: 1215–1223.

Chen G-M, Li E-L, Tong S-G, et al. (2022). Effects of the microbial community on the formation of volatile compounds and biogenic amines during the traditional brewing of Hongqu rice wine. Current Research in Food Science 5: 1433–1444. PubMed PMC

Cheng C-Y, Zhang M-Y, Niu Y-C, et al. (2023). Comparison of fungal genera isolated from cucumber plants and rhizosphere soil by using various cultural media. Journal of Fungi 9: 934. PubMed PMC

Chernomor O, von Haeseler A, Quang Minh B. (2016). Terrace aware data structure for phylogenomic inference from supermatrices. Systematic Biology 65: 997–1008. PubMed PMC

Clement M, Snell Q, Walke P, et al. (2002). TCS: estimating gene genealogies. Proceedings 16th International Parallel and Distributed Processing Symposium, Ft. Lauderdale, Florida, USA, 15–19 April 2002, 2: 184.

Collado J, González A, Platas G, et al. (2002). Monosporascus ibericus sp. nov., an endophytic ascomycete from plants on saline soils, with observations on the position of the genus based on sequence analysis of the 18S rDNA. Mycological Research 106: 118–127.

Contu M. (1999). Ecologia e tassonomia del genere Rhodocybe R. Maire (Basidiomycetes, Entolomataceae) in Sardegna. Revista Catalana de Micologia 22: 5–14.

Corner EJH. (1954). Further descriptions of luminous agarics. Transactions of the British Mycological Society 37: 256–271.

Crous PW, Braun U, McDonald BA, et al. (2020). Redefining genera of cereal pathogens: Oculimacula, Rhynchosporium and Spermospora. Fungal Systematics and Evolution 7: 67–98. PubMed PMC

Crous PW, Carnegie AJ, Wingfield MJ, et al. (2019a). Fungal Planet description sheets: 868–950. Persoonia 42: 291–473. PubMed PMC

Crous PW, Costa MM, Kandemir H, et al. (2023a). Fungal Planet description sheets: 1550–1613. Persoonia 51: 280–417. PubMed PMC

Crous PW, Cowan DA, Maggs-Kölling G, et al. (2021a). Fungal Planet description sheets: 1182–1283. Persoonia 46: 313–528. PubMed PMC

Crous PW, Groenewald JZ. (2017). The Genera of Fungi —G 4: Camarosporium and Dothiora. IMA Fungus 8: 131–152. PubMed PMC

Crous PW, Lombard L, Sandoval-Denis M, et al. (2021b). Fusarium: More than a node or a foot-shaped basal cell. Studies in Mycology 98: 100116. PubMed PMC

Crous PW, Osieck ER, Shivas RG, et al. (2023b). Fungal Planet description sheets: 1478–1549. Persoonia 50: 158– 310. PubMed PMC

Crous PW, Shivas RG, Quaedvlieg W, et al. (2014). Fungal Planet description sheets: 214–280. Persoonia 32: 184–306. PubMed PMC

Crous PW, Wingfield MJ, Burgess TI, et al. (2016). Fungal Planet description sheets: 469–557 Persoonia 37: 218–403. PubMed PMC

Crous PW, Wingfield MJ, Burgess TI, et al. (2017). Fungal Planet description sheets: 625–715. Persoonia 39: 270–467. PubMed PMC

Crous PW, Wingfield MJ, Burgess TI, et al. (2018). Fungal Planet description sheets: 716–784. Persoonia 40: 240–393. PubMed PMC

Crous PW, Wingfield MJ, Cheewangkoon R, et al. (2019b). Foliar pathogens of eucalypts. Studies in Mycology 94: 125–298. PubMed PMC

Crous PW, Wingfield MJ, Chooi YH, et al. (2020). Fungal Planet description sheets: 1042–1111. Persoonia 44: 301–459. PubMed PMC

Crous PW, Wingfield MJ, Lombard L, et al. (2019c). Fungal Planet description sheets: 951–1041. Persoonia 43: 223–425. PubMed PMC

Cui YY, Cai Q, Tang LP, et al. (2018). The family Amanitaceae: molecular phylogeny, higher-rank taxonomy and the species in China. Fungal Diversity 91: 5–230.

da Costa PB, Benucci GN, Chou MY, et al. (2022). Soil origin and plant genotype modulate switchgrass aboveground productivity and root microbiome assembly. mBio 13: e00079–22. PubMed PMC

Dai DQ, Phookamsak R, Wijayawardene NN, et al. (2016). Bambusicolous fungi. Fungal Diversity 82: 1–105.

Darriba D, Posada D, Kozlov AM, et al. (2020). ModelTest-NG: A new and scalable tool for the selection of DNA and protein evolutionary models. Molecular Biology and Evolution 37: 291–294. PubMed PMC

Das K, Ghosh A, Chakraborty D, et al. (2017). Fungal Biodiversity Profiles 31–40. Cryptogamie, Mycologie 38: 353–406.

Davydov EA, Yakovchenko LS, Hollinger J, et al. (2021). The new genus Pulvinora (Lecanoraceae) for species of the ‘Lecanora pringlei’ group, including the new species Pulvinora stereothallina. Bryologist 124: 242–256.

De Beer W, Procter M, Wingfield MJ, et al. (2022). Generic boundaries in the Ophiostomatales reconsidered and revised. Studies in Mycology 101: 57–120. PubMed PMC

de Oliveira JJ, Moncalvo J, Margaritescu S, et al. (2020a). A morphological and phylogenetic evaluation of Marasmius sect. Globulares (Globulares-Sicci complex) with nine new taxa from the Neotropical Atlantic Forest. Persoonia 44: 240–277. PubMed PMC

De Toni GB. (1887). Revisio monographica generis Geasteris Mich. E tribu Gasteromycetum. Revue Mycologique (Toulouse) 9: 61–77.

Delbosc P, Le Dez M, Bouzillé J-B, et al. (2021). Numerical classification of the Carici caryophylleae-Genistetea lobelii in Corsica (France). Mediterranean Botany 42: e68062.

Delgado G, Koukol O, Maciá-Vicente JG, et al. (2024). Redefining Ellisembia sensu stricto with a reassessment of related taxa in Sordariomycetes. Mycological Progress 23: 32.

Deng PT, Yan J, Liu X-F, et al. (2023). Three coralloid species of the genus Trechispora (Trechisporales, Basidiomycota) in China: two newly discovered taxa and one reported for the first time. MycoKeys 99: 153–170. PubMed PMC

Dennis RWG. (1983). Fungi of Ammophila arenaria in Europe. Revista de Biologia 12: 15–48.

Desjardin D, Retnowati A, Horak E. (2000). Agaricales of Indonesia. 2. A preliminary monograph of Marasmius from Java and Bali. Sydowia 52: 92–193.

Díez J, Anta B, Manjón JL, et al. (2001). Genetic variability of Pisolithus isolates associated with native hosts and exotic eucalyptus in the western Mediterranean region. New Phytologist 149: 577–587 PubMed

Dos Santos LA, Aptroot A, Lücking R, et al. (2023). Lecanora s.lat. (Ascomycota, Lecanoraceae) in Brazil: DNA barcoding coupled with phenotype characters reveals numerous novel species. Journal of Fungi 9: 415. PubMed PMC

Dovana F, Bizio E, Garbelotto M, et al. (2021). Inocybe cervenianensis (Agaricales, Inocybaceae), a new species in the I. flavoalbida clade from Italy. Phytotaxa 484: 227–236.

Edgar RC. (2004). MUSCLE: multiple sequence alignment with high accuracy and high throughput. Nucleic Acids Research 32: 1792– 1797. PubMed PMC

Ellis MB. (1961). Dematiaceous hyphomycetes. III. Mycological Papers

82: 1–55.

Esteve-Raventós F, Villarreal M. (1997). Mycena quercophila, a new species of Mycena section Polyadelphia growing on Quercus ilex leaves. Österreichische Zeitschrift für Pilzkunde 6: 67–70.

Fan XL, Barreto RW, Groenewald JZ, et al. (2017). Phylogeny and taxonomy of the scab and spot anthracnose fungus Elsinoë (Myriangiales, Dothideomycetes). Studies in Mycology 87: 1–41 PubMed PMC

Farr DF, Rossman AY. (2001). Harknessia lythri, a new species on purple loosestrife. Mycologia 93: 997–1001.

Fatima M, Usman M, Khalid AN. (2023). Fulvifomes aurantiacus sp. nov. (Basidiomycota; Hymenochaetaceae) from Pakistan. Phytotaxa 599: 78–88.

Favre J. (1955). Les champignons supérieurs de la zone alpine du Parc National Suisse. Ergebnisse der Wissensnschaftlichen Untersuchungen des Schweizerrischen National Parks 5: 1–212

Fehrer J, Réblová M, Bambasová V, et al. (2019). The root-symbiotic Rhizoscyphus ericae aggregate and Hyaloscypha (Leotiomycetes) are congeneric: Phylogenetic and experimental evidence. Studies in Mycology 92: 195–225. PubMed PMC

Felsenstein J. (1985). Confidence limits on phylogenies: An approach using the bootstrap. Evolution 39: 783–791. PubMed

Fraiture A. (1993). Les Amanitopsis d’Europe (genre Amanita, Agaricales, Fungi). Synthèse critique de la littérature. Opera Botanica Belgica 5: 1–128.

Fries E. (1821). Systema mycologicum: sistens fungorum ordines, genera et species, huc usque cognitas, quas ad normam methodi naturalis determinavit. Lundae, Ex Officina Berlingiana, 1821–1832.

Fröhlich J, Hyde KD. (1994). New Oxydothis species associated with palm leaf spots in north Queensland, Australia. Mycological Research 98: 213–218.

Galtier N, Gouy M, Gautier C. (1996). SEAVIEW and PHYLO_WIN: two graphic tools for sequence alignment and molecular phylogeny. Bioinformatics 12: 543–548. PubMed

Gams W. (1971). Cephalosporium-artige Schimmelpilze (Hyphomycetes). G. Fischer, Stuttgart.

Gams W, Stielow B, Gräfenhan T. et al. (2019). The ascomycete genus Niesslia and associated monocillium-like anamorphs. Mycological Progress 18: 5–76.

Garcia MO, Smith JE, Luoma DL, et al. (2016). Ectomycorrhizal communities of ponderosa pine and lodgepole pine in the south-central Oregon pumice zone. Mycorrhiza 26: 275–286. PubMed

Gillen K, Laessoe T, Kirschner R, et al. (2012). Favolaschia species (Agaricales, Basidiomycota) from Ecuador and Panama. Nova Hedwigia 96: 117–165.

Glynou K, Ali T, Buch A-K, et al. (2016). The local environment determines the assembly of root endophytic fungi at a continental scale. Environmental Microbiology 18: 2418–2434. PubMed

Gonçalves MFM, Vicente TFL, Esteves AC, et al. (2019). Neptunomyces aureus gen. et sp. nov. (Didymosphaeriaceae, Pleosporales) isolated from algae in Ria de Aveiro, Portugal. MycoKeys 60: 31–44. PubMed PMC

Gouy M, Guindon S, Gascuel O. (2010). SeaView Version 4: A multiplatform graphical user interface for sequence alignment and phylogenetic tree building. Molecular Biology and Evolution 27: 221–224. PubMed

Gräfenhan T, Schroers H-J, Nirenberg HI, et al. (2011). An overview of the taxonomy, phylogeny, and typification of nectriaceous fungi in Cosmospora, Acremonium, Fusarium, Stilbella, and Volutella. Studies in Mycology 68: 79–113. PubMed PMC

Groves JW, Wilson DE. (1967). The nomenclatural status of Coryne. Taxon 16: 35–41.

Guindon S, Dufayard JF, Lefort V, et al. (2010). New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0. Systematic Biology 59: 307–321 PubMed

Gunaseelan S, Kezo K, Karunarathna SC, et al. (2024). New species of Tropicoporus (Basidiomycota, Hymenochaetales, Hymenochaetaceae) from India, with a key to Afro-Asian Tropicoporus species. MycoKeys 102: 29–54. PubMed PMC

Hall MJ, Cannon PF. (2021). The anamorphic form of Ascocoryne albida. Field Mycology 22: 95–97.

Hanss JM, Moreau PA. (2020). Une révision des Amanites «vaginées» (Amanita sect. Vaginatae) en Europe, 1re partie: quelques Amanites argentées. Bulletin Trimestriel de la Société Mycologique de France 133: 67–141.

Hanss JM, Moreau PA. (2022). Une révision des Amanites «vaginées» (Amanita sect. Vaginatae) en Europe, 2e partie: validations et typifications. Bulletin Trimestriel de la Société Mycologique de France 138: 249–250.

Hein B. (1976). Revision der Gattung Laetinaevia und Neuordnung der Naevioideae. Willdenowia Beiheft 9: 1–136.

Held BW, Salomon CE, Blanchette RA. (2020). Diverse subterranean fungi of an underground iron ore mine. PLoS ONE 15: e0234208. ernández-Restrepo M, Groenewald JZ, Crous PW (2016). Taxonomic and phylogenetic re-evaluation of Microdochium, Monographella and Idriella. Persoonia 36: 57–82. PubMed PMC

Hesler LR, Smith AH. (1963). North American species of Hygrophorus. University of Tennessee Press, Knoxville, Texas.

Heulsenbeck & Ronquist (2001). MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics 17: 754–755. PubMed

Hoang DT, Chernomor O, von Haeseler A, et al. (2018). UFBoot2: Improving the ultrafast bootstrap approximation. Molecular Biology and Evolution 35: 518–522. PubMed PMC

Holm L, Holm K. (1978). Some pteridicolous Ascomycetes. Botaniska Notiser 131: 97–115.

Hongsanan S, Li YM, Liu JK, et al. (2014). Revision of genera in Asterinales. Fungal Diversity 68: 1–68.

Hou LW, Giraldo A, Groenewald JZ, et al. (2023). Redisposition of acremonium-like fungi in Hypocreales. Studies in Mycology 105: 23–203. PubMed PMC

Houbraken J, Kocsube S, Visagie CM, et al. (2020). Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5–169. PubMed PMC

Huang H, Luo Z, Yue HM, et al. (2015). Pochonia cordycepisociata, a new species associated with Chinese cordyceps in Tibet, China. Phytotaxa 208: 278–286.

Huelsenbeck JP, Ronquist F. (2001). MrBayes: Bayesian inference of phylogenetic trees. Bioinformatics 17: 754–755. PubMed

Huhtinen S. (1989). A monograph of Hyaloscypha and allied genera. Karstenia 29: 1–252.

Hyde KD. (1994). Fungi from palms. XIII. The genus Oxydothis, a revision. Sydowia 46: 265–314.

Hyde KD, Norphanphoun C, Maharachchikumbura SSN, et al. (2020). Refined families of Sordariomycetes. Mycosphere 11: 305–1059.

Hyde KD, Tennakoon DS, Jeewon R, et al. (2019). Fungal diversity notes 1036–1150: taxonomic and phylogenetic contributions on genera and species of fungal taxa. Fungal Diversity 96: 1–242.

Iotti M, Amicucci A, Bonito G, et al. (2007). Selection of a set of specific primers for the identification of Tuber rufum: a truffle species with high genetic variability. FEMS Microbiology Letters 277: 223–231. PubMed

Isola D, Prigione VP, Zucconi L, et al. (2022). Knufia obscura sp. nov. and Knufia victoriae sp. nov., two new species from extreme environments. International Journal of Systematic and Evolutionary Microbiology 72: 10. PubMed

Isola D, Zucconi L, Onofri S, et al. (2016). Extremotolerant rock inhabiting black fungi from Italian monumental sites. Fungal Diversity 76: 75–96.

Jayawardena RS, Hyde KD, Wang S, et al. (2022). Fungal diversity notes 1512–1610: taxonomic and phylogenetic contributions on genera and species of fungal taxa. Fungal Diversity 117: 1–272. PubMed PMC

Johnston PR, Seifert KA, Stone JK, et al. (2014). Recommendations on generic names competing for use in Leotiomycetes (Ascomycota). IMA Fungus 5: 91–120. PubMed PMC

Jordal JB, Larsson E. (2021). Cuphophyllus atlanticus (Hygrophoraceae, Agaricales) - a new sister species to the North American C. canescens. Agarica 42: 39–48.

Jung T, Jung MH, Scanu B, et al. (2017). Six new Phytophthora species from ITS Clade 7a including two sexually functional heterothallic hybrid species detected in natural ecosystems in Taiwan. Persoonia 38: 100–135. PubMed PMC

Justo A, Minnis AM, Ghinone S, et al. (2011a). Species recognition in Pluteus and Volvopluteus (Pluteaceae, Agaricales): morphology, geography and phylogeny. Mycological Progress 10: 453–479.

Justo A, Vizzini A, Minnis AM, et al. (2011b). Phylogeny of the Pluteaceae (Agaricales, Basidiomycota): Taxonomy and character evolution. Fungal Biology 115: 1–20. PubMed

Kakishima M, Nagao H, Denchev CM. (2017). Laurobasidium hachijoense, comb. nov. (Cryptobasidiaceae) causing aerial root-like galls on Cinnamomum japonicum in Japan. Phytotaxa 303: 97–100.

Kalyaanamoorthy S, Minh BQ, Wong TKF, et al. (2017). ModelFinder: fast model selection for accurate phylogenetic estimates. Nature Methods 14: 587–589. PubMed PMC

Katoh K, Rozewicki J, Yamada KD. (2019). MAFFT online service: multiple sequence alignment, interactive sequence choice and visualization. Briefings in Bioinformatics 20: 1160–1166. PubMed PMC

Katoh K, Standley DM. (2013). MAFFT multiple sequence alignment software version 7: improvements in performance and usability. Molecular Biology and Evolution 30: 772–780. PubMed PMC

Kimura M. (1980). A simple method for estimating evolutionary rate of base substitutions through comparative studies of nucleotide sequences. Journal of Molecular Evolution 16: 111–120. PubMed

Kirika P, Parnmen S, Lumbsch HT. (2012). Two new species of Lecanora sensu stricto (Lecanoraceae, Ascomycota) from east Africa. MycoKeys 3: 37–47.

Kluting KL. (2013). A revised generic classification for the Rhodocybe-Clitopilus clade (Entolomataceae , Agaricales) including the description of a new genus, Clitocella gen. nov. Doctoral dissertation, Middle Tennessee State University.

Kluting KL, Baroni TJ, Bergemann SE. (2014). Toward a stable classification of genera within the Entolomataceae: a phylogenetic re-evaluation of the rhodocybeclitopilus clade. Mycologia 106: 1127–1142. PubMed

Kondo N, Tokiwa T, Sato K, et al. (2020). Metapochonia hahajimaensis (Clavicipitaceae, Hypocreales), a new species from soil in Hahajima Island, Tokyo, Japan. Mycoscience 61: 337–341.

Konta S, Hongsanan S, Eungwanichayapant PD, et al. (2017). Leptosporella (Leptosporellaceae fam. nov.) and Linocarpon and Neolinocarpon (Linocarpaceae fam. nov.) are accommodated in Chaetosphaeriales. Mycosphere 8: 1943–1974.

Konta S, Hongsanan S, Tibpromma S, et al. (2016). An advance in the endophyte story: Oxydothidaceae fam. nov. with six new species of Oxydothis. Mycosphere 7: 1425–1446.

Korf RP, Candoussau F. (1974). Pirobasidium, Endostilbum, et Coryne albida comb. n., la forme conidienne de Ascocoryne solitaria. Bulletin de la Société Mycologique de France 90: 209–215.

Korf RP, Pearson RC, Zhuang WY, et al. (1986). Pseudopezicula (Helotiales, Peziculoideae), a new discomycete genus for pathogens causing an angular leaf scorch of grapes (“Rotbrenner”). Mycotaxon 26: 457–471.

Kornerup A, Wanscher JH. (1967). Methuen Handbook of Colour. 2nd edition. Methuen, London.

Kornerup A, Wanscher JH. (1978). Methuen handbook of colour, 3rd ed. Eyre Methuen, London.

Kosonen T, Huhtinen S, Hansen K. (2021). Taxonomy and systematics of Hyaloscyphaceae and Arachnopezizaceae. Persoonia 46: 26–62. PubMed PMC

Koukol O, Delgado G. (2021). Why morphology matters: the negative consequences of hasty descriptions of putative novelties in asexual ascomycetes. IMA Fungus 12: 26. PubMed PMC

Kozlov AM, Darriba D, Flouri T, et al. (2019). RAxML-NG: a fast, scalable and user-friendly tool for maximum likelihood phylogenetic inference. Bioinformatics 35: 4453–4455. PubMed PMC

Krisai-Greilhuber I, Noordeloos M. (1998). Rhodocybe tillii, a conchate new species found in Austria. Österreichische Zeitschrift für Pilzkunde 7: 263–268.

Kruys Å, Eriksson OE, Wedin M. (2006). Phylogenetic relationships of coprophilous Pleosporales (Dothideomycetes, Ascomycota), and the classification of some bitunicate taxa of unknown position. Mycological Research 110: 527–536. PubMed

Kučera V, Lizoň P. (2005). Ascocoryne striata, comb. nov. Mycotaxon 93: 163–165.

Kück P, Meusemann K. (2010). FASconCAT: Convenient handling of data matrices. Molecular Phylogenetics and Evolution 56: 1115–1118. PubMed

Kühner R. (1946). Agaricus (Clitocybe) hirneolus fries, champignon souvent me’connu en France aujourd’hui et la tribu nouvelles des Orcelle’s. Bulletin trimestriel de la Société mycologique de France 62: 183–193.

Kühner R. (1955). Compléments a la “Flore Analytique” V) Inocybes léiosporés cystidiés. Espèces nouvelles ou critiques. Bulletin de la Société des Naturalistes d’Oyonnax 9(suppl.): 3–95.

Kühner R. (1977). Agaricales de la zone alpine. Genre Camarophyllus (Fries) Kummer. Bulletin Trimetrielle Societé Mycologique de France 93: 121–144.

Kühner R, Lamoure D. (1971). Agaricales de la zone alpine. Genre Rhodocybe R. Maire. Bulletin trimestriel de la Société mycologique de France 87: 15–23.

Kumar S, Stecher G, Li M, et al. (1978). MEGA X: Molecular evolutionary genetics analysis across computing platforms. Molecular Biology and Evolution 35: 1547–1549. PubMed PMC

Kumar S, Stecher G, Tamura K. (2016). MEGA7: Molecular Evolutionary Genetics Analysis version 7.0 for bigger datasets. Molecular Biology and Evolution 33: 1870–1874. PubMed PMC

Kuyper TW. (1986). A revision of the genus Inocybe in Europe I. Subgenus Inosperma and the smooth-spored species of subgenus Inocybe. Persoonia supplement 3: 1–247.

Labuda R, Bernreiter A, Schüller C, et al. (2018). Metapochonia lutea, a new species isolated from the Danube river in Austria. Nova Hedwigia 107: 487–500.

Landry J, Labbé R. (2023)<misc>. Les champignons du Québec - Base de données de Mycoquébec. https://www.mycoquebec.org</misc>

Larsson A. (2014). AliView: a fast and lightweight alignment viewer and editor for large datasets. Bioinformatics 30: 3276–3278. PubMed PMC

Larsson E, Vauras J, Cripps CL. (2014). Inocybe leiocephala, a species with an intercontinental distribution range – disentangling the I. leiocephala-subbrunnea-catalaunica morphological species complex. Karstenia 54: 15–39.

Latha KPD, Manimohan P. (2017). Inocybes of Kerala. SporePrint Books, Calicut.

Lebeuf R, Landry J, Ammirati JF, et al. (2023). Fungal Systematics and Evolution: FUSE 9. Sydowia 75: 313–377.

Leuchtmann A. (1984). Über Phaeosphaeria Miyake und andere bitunicate ascomyceten mit mehrfach querseptierten ascosporen. Sydowia 37: 75–194.

Li J, Yang W, Ren J, et al. (2023). A new species Agrocybe striatipes, also a newly commercially cultivated mushroom with highly nutritional and healthy values. Journal of Fungi 9: 383. PubMed PMC

Liebel HT, Bidartondo MI, Preiss K, et al. (2010). C and N stable isotope signatures reveal constraints to nutritional modes in orchids from the Mediterranean and Macaronesia. American Journal of Botany 97: 903–912. PubMed

Liimatainen K, Kim JT, Pokorny L, et al. (2022). Taming the beast: a revised classification of Cortinariaceae based on genomic data. Fungal Diversity 112: 89–170.

Liu SL, He SH, Wang XW, et al. (2022). Trechisporales emended with a segregation of Sistotremastrales ord. nov. (Basidiomycota). Mycosphere 13: 862–954.

Liu SL, Wang XW, Li GJ, et al. (2024). Fungal diversity notes 1717–1817: taxonomic and phylogenetic contributions on genera and species of fungal taxa. Fungal Diversity 124: 1–216.

Lodge DJ, Padamsee M, Matheny PB, et al. (2014). Molecular phylogeny, morphology, pigment chemistry and ecology in Hygrophoraceae (Agaricales). Fungal Diversity 64: 1–99.

Luangsa-ard JJ, Mongkolsamrit S, Noisripoom W, et al. (2017). Helicocollum, a new clavicipitalean genus pathogenic to scale insects (Hemiptera) in Thailand. Mycological Progress 16: 419–431.

Lumbsch HT, Elix J. (2004). Lecanora. Flora of Australia 56A: 10.

Luo ZL, Bhat DJ, Jeewon R, et al. (2017). Molecular phylogeny and morphological characterization of asexual fungi (Tubeufiaceae) from freshwater habitats in Yunnan, China. Cryptogamie, Mycologie 38: 27–53.

Lyons KG, Mann M, Lenihan M, et al. (2021). Culturable root endophyte communities are shaped by both warming and plant host identity in the Rocky Mountains, USA. Fungal Ecology 49: 101002.

Ma J, Zhang L-J, Boonmee S, et al. (2023). Morphological and phylogenetic analyses reveal three new species and one new record of Tubeufia (Tubeufiales, Tubeufiaceae) from southern China. MycoKeys 99: 87–108. PubMed PMC

Madrid H, Cano J, Gené J, et al. (2011). Two new species of Cladorrhinum. Mycologia 103: 795–805. PubMed

Maekawa N, Zang M. (1997). Cerinomyes curvisporus sp. nov. (Dacrymycetales) from Yunnan, China. Mycotaxon 61: 343–346.

Magyar D, Shoemaker RA, Bobvos J, et al. (2011). Pyrigmemmula, a novel hyphomycete genus on grapevine and tree bark. Mycological Progress 10: 307–314

Maia LC, Gibertoni T. (2022). URM - Herbário Pe. Camille Torrand. Version 1.100. Universidade Federal de Pernambuco. Occurrence dataset https://doi.org/10.15468/gdvlxf accessed via GBIF.org on 16 October 2022.

Malíček J, Berger F, Palice Z, et al. (2017). Corticolous sorediate Lecanora species (Lecanoraceae, Ascomycota) containing atranorin in Europe. The Lichenologist 49: 431–455.

Marasinghe DS, Hongsanan S, Wanasinghe DN, et al. (2022). Morpho-molecular characterization of Brunneofissuraceae fam. nov., Cirsosia mangiferae sp. nov., and Asterina neomangiferae nom. nov. Mycological Progress 21: 279–295.

Marchetti M, Consiglio G, Brugaletta E. (2021). Inocybe mediterranea, una nuova specie trovata nella Pineta di Salinella (Sicilia) e osservazioni sui rapporti fra I. lapidicola e I. deianae. Rivista di Micologia 64: 195–220.

Marchisio VF, Fusconi A, Rigo S. (1994). Keratinolysis and its morphological expression in hair digestion by airborne fungi. Mycopathologia 127: 103–115. PubMed

Marin-Felix Y, Hernández-Restrepo M, Iturrieta-González I, et al. (2019). Genera of phytopathogenic fungi: GOPHY 3. Studies in Mycology 94: 1–124 PubMed PMC

Mark K, Cornejo C, Keller C, et al. (2016). Barcoding lichen-forming fungi using 454 pyrosequencing is challenged by artifactual and biological sequence variation. Genome 59: 685–704. PubMed

Martin F, Delaruelle C, Ivory M. (1998). Genetic variability in intergenic spacers of ribosomal DNA in Pisolithus isolates associated with pine, eucalyptus and Afzelia in lowland Kenyan forests. New Phytologist 139: 341–352.

Medeiros ID, Mazur E, Miadlikowska J, et al. (2021). Turnover of lecanoroid mycobionts and their Trebouxia photobionts along an elevation gradient in Bolivia highlights the role of environment in structuring the lichen symbiosis. Frontiers in Microbiology 12: 774839. PubMed PMC

Miller MA, Pfeiffer W, Schwartz T. (2010). Creating the CIPRES Science Gateway for inference of large phylogenetic trees. In: Proceedings of the Gateway Computing Environments Workshop (GCE), 14 Nov. 2010, New Orleans, LA: 1–8.

Minh BQ, Nguyen MA, von Haeseler A. (2013). Ultrafast approximation for phylogenetic bootstrap. Molecular Biology and Evolution 30: 1188–1195. PubMed PMC

Minh BQ, Schmidt HA, Chernomor O, et al. (2020). IQ-TREE 2: new models and efficient methods for phylogenetic inference in the genomic era. Molecular Biology and Evolution 37: 1530–1534. PubMed PMC

Moen A. (1999). National Atlas of Norway: Vegetation. Norwegian Mapping Authority, Hønefoss.

Montecchi A, Sarasini M. (2000). Funghi ipogei d’Europa. A.M.B. Fondazione Centro Studi Micologici.

Monteiro JS, Leão-Ferreira SM, Gusmão LFP, et al. (2017). Distoceratosporella digitiformis gen. & sp. nov. from Brazil, Alcornia sessilispora gen. & comb. nov., and three new Distoceratosporella combinations. Mycotaxon 132: 485–493.

Mouchacca J, Gams W. (1993). The hyphomycete genus Cladorrhinum and its teleomorph connections. Mycotaxon 48: 415–440.

Muggia L, Quan Y, Gueidan C, et al. (2021). Sequence data from isolated lichen-associated melanized fungi enhance delimitation of two new lineages within Chaetothyriomycetidae. Mycological Progress 20: 911–927.

Müller E, von Arx JA. (1962). Die gattungen der didymosporen pyrenomycten. Beiträge zur Kryptogamenflora der Schweiz 11: 1–992.

Munsell A. (1994). Soil Color Charts (revised edition). Macbeth Division of Kollmorgen Instruments Corporation. New Windsor. New York. USA.

Munsell A. (2009). Munsell book of soil color charts 2009 revision. X-Rite, Incorporated. Grand Rapids. Michigan.

Musumeci E. (2020). Una nueva especie de Rhodophana (antes Rhodocybe) para el territorio Alsaciano: Rhodophana griseobrunnea. Errotari 2020: 224–236.

Negreiros AMP, Júnior RS, Rodrigues APMS, et al. (2019). Prevalent weeds collected from cucurbit fields in Northeastern Brazil reveal new species diversity in the genus Monosporascus. Annals of Applied Biology 174: 349–363.

Neville P, Poumarat S. (2009). Quelques espèces nouvelles ou mal délimitées d’’Amanita de la sous-section Vaginatinae. Fungi non Delineati 51–52: 1–197.

Nguyen L-T, Schmidt HA, Von Haeseler A. et al. (2015). IQ-TREE: A fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies. Molecular Biology and Evolution 32: 268–274. PubMed PMC

Nimalrathna TS, Tibpromma S, Nakamura A, et al. (2022). The case of the missing mushroom: a novel bioluminescent species discovered within Favolaschia in southwestern China. Phytotaxa 539: 244–256.

Niveiro N, Uhart M, Albertó E. (2020). Revision of the genera Agrocybe and Cyclocybe (Strophariaceae, Agaricales, Basidiomycota) in Argentina. Rodriguésia 71: e02272018.

Noordeloos ME. (1983). Notulae ad floram agaricinam neerlandicam I–III. Marasmiellus, Macrocystidia, and Rhodocybe. Persoonia 12: 31–49.

Noordeloos ME. (1988). Entolomataceae Kotl. & P. In: Flora Agaricina Neerlandica 1: critical monographs on families of agarics and boleti occurring in the Netherlands (Bas C, Kuyper Th W, Noordeloos ME, et al. eds.). Balkema, Rotterdam & Brookfield Press, Netherlands: 77–177.

Noordeloos ME, Kosonen L. (1994). A new species of Rhodocybe from Finland. Karstenia 34: 43–45.

Nylander JAA. (2004). MrModeltest v2. Program distributed by the author. Evolutionary Biology Centre, Uppsala University, Uppsala, Sweden.

Oberwinkler F, Riess K, Bauer R, et al. (2014). Morphology and molecules: the Sebacinales, a case study. Mycological Progress 13: 445–470.

Papetti C. (2014). Agaricus nitellinus var. minor, una piccola Rhodocybe di Fries dimenticata. Rivista di Micologia 57: 301–314.

Papong K, Boonpragob K, Parnmen S, et al. (2012). Molecular phylogenetic studies on tropical species of Lecanora sensu stricto (Lecanoraceae, Ascomycota). Nova Hedvigia 96: 1–13.

Penzig AJO, Saccardo PA. (1897). Diagnoses fungorum novorum in insula Java collectorum. Series. I. Malpighia 11: 387–409.

Penzig OAJ, Saccardo PA. (1904). Icones fungorum javanicorum: 85. Brill. Peterson SW, Manitchotpisit P, Leathers TD (2013). Aureobasidium thailandense sp. nov. isolated from leaves and wooden surfaces. International Journal of Systematic and Evolutionary Microbiology 63: 790–795. PubMed

Petrak F. (1958). Beiträge zur Kenntnis einiger Asterineen der Philippine. Sydowia 12: 472–486.

Pham NQ, Marincowitz S, Solis M, et al. (2021). Eucalyptus scab and shoot malformation: A new and serious disease of Eucalyptus caused by Elsinoe necatrix. Plant Pathology 70: 1230–1242.

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.

Portman TA, Granath A, Mann MA, et al. (2023). Characterization of root-associated fungi and reduced plant growth in soils from a New Mexico uranium mine. Mycologia 115: 165–177. PubMed PMC

Qiao M, Zheng H, Lv R, et al. (2020). Neodactylariales, Neodactylariaceae (Dothideomycetes, Ascomycota): new order and family, with a new species from China. MycoKeys 73: 69–85. PubMed PMC

Quaedvlieg W, Binder M, Groenewald JZ, et al. (2014). Introducing the Consolidated Species Concept to resolve species in the Teratosphaeriaceae. Persoonia 33: 1–40. PubMed PMC

Quijada L, Baral HO, Johnston PR, et al. (2022). A review of Hyphodiscaceae. Studies in Mycology 103: 59–85. PubMed PMC

Quijada L, Ribes M, Negrín R, et al. (2017). Lignicolous species of Helotiales associated with major vegetation types in the Canary Islands. Willdenowia 47: 271–291.

Ramaley AW. (2002). Stomiopeltopsis nolinae and its synanamorph Parvosympodium nolinae from leaves of Nolina (Agavaceae). Mycotaxon 83: 327–334.

Rambaut A. (2014)<misc>. FigTree v. 1.4. Institute of Evolutionary Biology, University of Edinburgh, Edinburgh. http://tree.bio.ed.ac.uk/ software/figtree/.</misc>

Rayner RW. (1970). A mycological colour chart. CMI and British Mycological Society. Kew, Surrey, UK.

Rehm H. (1913). Ascomycetes philippinenses collecti a clar. C.F. Baker. Philippine Journal of Science Section C Botany 8: 181–194.

Ren G-C, Yang E-F, Monkai J, et al. (2024). Saprobic Dothideomycetes from Yunnan, China: introducing a new species, Queenslandipenidiella lingcangensis, and a new host record for Periconia byssoides. New Zealand Journal of Botany: 10.1080/0028825X.2023.2297476

Riousset L, Riousset G, Chevalier G, et al. (2001). Truffes d’Europe et de Chine. INRA, Paris, France.

Robinson AJ, Natvig DO, Chain PSG. (2020). Genomic analysis of diverse members of the fungal genus Monosporascus reveals novel lineages, unique genome content and a potential bacterial associate. G3 Genes|Genomes|Genetics 10: 2573–2583. PubMed PMC

Roll-Hansen F, Roll-Hansen H. 1979. Microflora of sound-looking wood in Picea abies stems. European Journal of Forest Pathology 9: 308–316.

Ronquist F, Huelsenbeck JP. (2003). MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics 19: 1572–1574. PubMed

Ronquist F, Teslenko M, van der Mark P, et al. (2012). MrBayes 3.2: Efficient Bayesian phylogenetic inference and model choice across a large model space. Systematics Biology 61: 539–542. PubMed PMC

Roux J, Wingfield MJ, Marincowitz S, et al. (2023). Eucalyptus scab and shoot malformation: a new disease in South Africa caused by a novel species, Elsinoe masingae. Forestry: An International Journal of Forest Research 97: 327–338.

Royal Botanic Garden Edinburgh (1969). Flora of British fungi: colour identification chart. H.M. Stationery Office, Edinburgh.

Royal Horticultural Society (2015). Colour Chart, 6th ed. Royal Horticultural Society, London, UK.

Ruibal C, Gueidan C, Selbmann L, et al. (2009). Phylogeny of rock-inhabiting fungi related to Dothideomycetes. Studies in Mycology 64: 123–133. PubMed PMC

Ryberg M, Larsson E, Jacobsson S. (2010). An evolutionary perspective on morphology and ecological characters in the mushroom family Inocybaceae (Agaricomycotina, Fungi). Molecular Phylogenetics and Evolution 55: 431–442. PubMed

Saccardo PA. (1928). Supplementum Univerale Pars X. Pyrenomycetae p.p., Discomycetae Appendix (Addenda ad vol. XXIII-XXIV). Sylloge Fungorum 24: 705–1438.

Samuels GJ, Rossman A, Lowen R, et al. (1991). A synopsis of Nectria subgen. Dialonectria. Mycological Papers 164: 1–48.

Savchenko A, Zamora JC, Shirouzu T, et al. (2021). Revision of Cerinomyces (Dacrymycetes, Basidiomycota) with notes on morphologically and historically related taxa. Studies in Mycology 99: 1–72. PubMed PMC

Schoch CL, Seifert KA, Huhndorf S, et al. (2012). Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for Fungi. Proceedings of the National Academy of Sciences of the USA 109: 6241–6246. PubMed PMC

Séguy E. (1936). Encyclopedie Pratique du Naturaliste, 30. Paul Lechevalier, Paris, France.

Seifert KA. (1989). Coryne trichophora, comb. nov., and the implications of its conidiomatal anatomy. Studies in Mycology 31: 157–164.

Seifert KA, Gams W. (2011). The genera of Hyphomycetes – 2011 update. Persoonia 27: 119–129. PubMed PMC

Seifert KA, Morgan-Jones G, Gams W, et al. (2011). The Genera of Hyphomycetes. CBS Biodiversity Series no. 9: 1–997. CBS-KNAW Fungal Biodiversity Centre, Utrecht, Netherlands

Selbmann L, de Hoog GS, Mazzaglia A, et al. (2005). Fungi at the edge of life: cryptoendolithic black fungi from Antarctic deserts. Studies in Mycology 51: 1–32.

Selbmann L, Isola D, Egidi E, et al. (2014). Mountain tips as reservoirs for new rock-fungal entities: Saxomyces gen. nov. and four new species from the Alps. Fungal Diversity 65: 167–182.

Senanayake IC, Rossi W, Leonardi M, et al. (2023). Fungal diversity notes 1611–1716: taxonomic and phylogenetic contributions on fungal genera and species emphasis in south China. Fungal Diversity 122: 161–403.

Ševčíková H, Hanss JM, Moreau PA. (2021). Amanita vladimirii (Amanitaceae, Agaricales), a new European species in section Vaginatae. Phytotaxa 482: 159–172.

Shibata S, Ono T, Kobayashi Y, et al. (2021). First report of horn gall disease of Cinnamomum pseudopedunculatum caused by Laurobasidium hachijoense in the Bonin Islands, Japan. Journal of General Plant Pathology 87: 322–5.

Shoemaker RA, Babcock CE. (1989). Phaeosphaeria. Canadian Journal of Botany 67: 1500–1599.

Singer R. (1974). A monograph of Favolaschia. Beihefte Nova Hedwigia 50: 1–108.

Soares DJ, Barreto RW, Braun U. (2009). Brazilian mycobiota of the aquatic weed Sagittaria montevidensis. Mycologia 101: 401–416. PubMed

Sommai S, Pinruan U, Khamsuntorn P, et al. (2023). Three new species of Trechispora from Northern and Northeastern Thailand. Mycological Progress 22: 1–11.

Soop K, Dima B, Cooper JA, et al. (2019). A phylogenetic approach to a global supraspecific taxonomy of Cortinarius (Agaricales) with an emphasis on the southern mycota. Persoonia 42: 261–290. PubMed PMC

Stamatakis A. (2014). RAxML version 8: A tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30: 1312–1313. PubMed PMC

Stamatakis A, Hoover P, Rougemont J. (2008). A rapid bootstrap algorithm for the RAxML web servers. Systematic Biology 57: 758– 771. PubMed

Stangl J. (1989). Die Gattung Inocybe in Bayern. Hoppea 46: 5–388.

Summerbell RC, Gueidan C, Schroers HJ, et al. (2011). Acremonium phylogenetic overview and revision of Gliomastix, Sarocladium, and Trichothecium. Studies in Mycology 68:139–162. PubMed PMC

Sun L-Y, Li H-Y, Sun X, et al. (2017). Dematipyriforma aquilaria gen. et sp. nov., a new hyphomycetous taxon from Aquilaria crassna. Cryptogamie, Mycologie 38: 341–351.

Sutton BC. 1980. The Coelomycetes. Fungi Imperfecti with Pycnidia , Acervuli and Stromata. Commonwealth Mycological Institute, Kew.

Swart HJ. (1982). Australian leaf-inhabiting fungi XIV. The genus Pachysacca. Transactions of the British Mycological Society 79: 261–269.

Swofford DL. (2003). PAUP* 4.0b10. Phylogenetic Analysis Using Parsimony (*and other methods). Version 4. Sinauer Associates, Sunderland, MA, USA.

Sydow H. (1930). Novae fungorum species. XX. Annales Mycologici 28: 432–447.

Takashima M, Kurakado S, Cho O, et al. (2020). Description of four Apiotrichum and two Cutaneotrichosporon species isolated from guano samples from bat-inhabited caves in Japan. International Journal of Systematic and Evolutionary Microbiology 70: 4458– 4469. PubMed

Tamura K, Stecher G, Kumar S. (2021). MEGA 11: Molecular Evolutionary Genetics Analysis Version 11. Molecular Biology and Evolution 38: 3022–3027. PubMed PMC

Tan YP, Shivas RG. (2023). Neptunomyces litoralis. Index of Australian Fungi No. 9: 12.

Tanaka K, Hirayama K, Yonezawa H, et al. (2015). Revision of the Massarineae (Pleosporales, Dothideomycetes). Studies in Mycology 82: 75–136. PubMed PMC

Tedersoo L, Bahram M, Jairus T, et al. (2011). Spatial structure and the effects of host and soil environments on communities of ectomycorrhizal fungi in wooded savannas and rain forests of Continental Africa and Madagascar. Molecular Ecology 20: 3071– 3080. PubMed

Tedersoo L, Mikryukov V, Anslan S, et al. (2021). The Global Soil Mycobiome consortium dataset for boosting fungal diversity research. Fungal Diversity 111: 573–588.

Telagathoti A, Probst M, Mandolini E, et al. (2022). Mortierellaceae from subalpine and alpine habitats: new species of Entomortierella, Linnemannia, Mortierella, Podila and Tyroliella gen. nov. Studies in Mycology 103: 25–58. PubMed PMC

The Royal Horticultural Society (2015). RHS colour chart, sixth revised edition. Royal Horticultural Society, London.

Thompson SM, Shivas RG, Tan YP. (2023). Wingfieldomyces saintkilda. Index of Australian Fungi 7: 9.

Tibpromma S, Hyde KD, McKenzie EH, et al. (2018). Fungal diversity notes 840–928: micro-fungi associated with Pandanaceae. Fungal Diversity 93: 1–160.

Timling I, Dahlberg A, Walker DA, et al. (2012). Distribution and drivers of ectomycorrhizal fungal communities across the North American Arctic. Ecosphere 3: 111.

Timling I, Walker DA, Nusbaum C, et al. (2014). Rich and cold: distribution and drivers of fungal communities in patterned-ground ecosystems of the North American Arctic. Molecular Ecology 23: 3258–3272. PubMed

Trifinopoulos J, Nguyen L-T, von Haeseler A, et al. (2016). W-IQ-TREE: a fast online phylogenetic tool for maximum likelihood analysis. Nucleic Acids Research 44(W1): W232–W235. PubMed PMC

Tulasne LR. (1851). Fungi hypogaei. Histoire et monographie des champignons hypogés, Paris, France.

Vauras J, Larsson E. (2016). Inocybe baltica and I. suecica, two new smooth-spored species from the Baltic Sea region. Karstenia 56: 13–26.

Vellinga EC. (1988). Glossary. In: Flora Agaricina Neerlandica 1 (Bas C, Kuyper TW, Noordeloos ME, et al., eds). AA Blakema, Rotterdam, The Netherlands: 54–64.

Visagie CM, Hirooka Y, Tanney JB, et al. (2014). Aspergillus, Penicillium and Talaromyces isolated from house dust samples collected around the world. Studies in Mycology 78: 63–139. PubMed PMC

Vizzini A, Alvarado P, Consiglio G, et al. (2024). Family matters inside the order Agaricales: systematic reorganization and classification of incertae sedis clitocyboid, pleurotoid and tricholomatoid taxa based on an updated 6-gene phylogeny. Studies in Mycology 107: 67–148. PubMed PMC

Vizzini A, Contu M, Dähncke RM. (2011a). Clitopilus canariensis (Basidiomycota, Entolomataceae), a new species in the C. nitellinus-complex (Clitopilus subg. Rhodophana) from the Canary Islands (Spain). Brittonia 63: 484–488.

Vizzini A, Dähncke RM, Contu M. (2011b). Clitopilus rubroparvulus (Basidiomycota, Agaricomycetes), a new species from the Canary Islands (Spain). Mycosphere 2: 291–295.

Vlasák J, Li HJ, Zhou LW, et al. (2013). A further study on Inonotus linteus complex (Hymenochaetales, Basidiomycota) in tropical America. Phytotaxa 124: 25–36.

Vohník M, Figura T, Réblová M. (2022). Hyaloscypha gabretae and Hyaloscypha gryndleri spp. nov. (Hyaloscyphaceae, Helotiales), two new mycobionts colonizing conifer, ericaceous and orchid roots. Mycorrhiza 32: 105–122. PubMed

Voitk A, Saar I, Lodge DJ, et al. (2020a). New species and reports of Cuphophyllus from northern North America compared with related Eurasian species. Mycologia 112: 438–452. PubMed

Voitk A, Saar I, Lücking R, et al. (2020b). Surprising morphological, ecological and ITS sequence diversity in the Arrhenia acerosa complex (Basidiomycota: Agaricales: Hygrophoraceae). Sydowia 73: 133–162.

Wanasinghe DN, Mortimer PE, Xu J. (2021). Insight into the systematics of microfungi colonizing dead woody twigs of Dodonaea viscosa in Honghe (China). Journal of Fungi 7: 180. PubMed PMC

Wang CJK, Wilcox HE. (1985). New species of ectendomycorrhizal and pseudomycorrhizal fungi: Phialophora finlandica, Chloridium paucisporum, and Phialocephala fortinii. Mycologia 77: 951–958.

Wannathes N, Desjardin D, Hyde KD, et al. (2009). A monograph of Marasmius (Basidiomycota) from northern Thailand based on morphological and molecular (ITS sequences) data. Fungal Diversity 37: 209–306.

Wei R-T, Chen N, Ding Y-T, et al. (2022a). Correlations between microbiota with physicochemical properties and volatile compounds during the spontaneous fermentation of Cabernet Sauvignon (Vitis vinifera L.) wine. LWT - Food Science and Technology 163: 113529.

Wei TP, Zhang H, Zeng XY, et al. (2022b). Re-evaluation of Sympoventuriaceae. Persoonia 48: 219–260. PubMed PMC

Wu F, Zhou LW, Vlasak J, et al. (2022). Global diversity and systematics of Hymenochaetaceae with poroid hymenophore. Fungal Diversity 113: 1–192.

Wu SH, Chang CC, Wei CL, et al. (2020). Four new species of Phylloporia (Hymenochaetales, Basidiomycota) from southeastern Taiwan. Mycological Progress 19: 743–752.

Wu W, Diao Y. (2022). Anamorphic chaetosphaeriaceous fungi from China. Fungal Diversity 116: 1–546.

Xavier KV, KC AN, Crous PW, et al. (2019). Dwiroopa punicae sp. nov. (Dwiroopaceae fam. nov., Diaporthales), associated with leaf spot and fruit rot of pomegranate (Punica granatum). Fungal Systematics and Evolution 4: 33–41. PubMed PMC

Xu J, Jiang Y, Wang T, et al. (2023). Morphological characteristics and phylogenetic analyses revealed four new species of Agaricales from China. Frontiers in Microbiology 14: 1118525. PubMed PMC

Yang EF, Phookamsak R, Jiang HB, et al. (2022). Taxonomic reappraisal of Periconiaceae with the description of three new Periconia species from China. Journal of Fungi 8: 243. PubMed PMC

Yang X, Tyler BM, Hong C. (2017). An expanded phylogeny for the genus Phytophthora. IMA Fungus 8: 355–384. PubMed PMC

Zamora JC, Calonge FD, Hosaka K, et al. (2014). Systematics of the genus Geastrum (Fungi: Basidiomycota) revisited. Taxon 63: 477–497.

Zare R, Gams W, Evans WHC. (2001). A revision of Verticillium section Prostrata. V. The genus Pochonia, with notes on Rotiferophthora. Nova Hedwigia 73: 51–86.

Zhang D, Gao F, Jakovlić I, et al. (2020). PhyloSuite: An integrated and scalable desktop platform for streamlined molecular sequence data management and evolutionary phylogenetics studies. Molecular Ecology Resources 20: 348–355. PubMed

Zhang QY, Liu HG, Papp V, et al. (2023). New insights into the classification and evolution of Favolaschia (Agaricales, Basidiomycota) and its potential distribution, with descriptions of eight new species. Mycosphere 14: 777–814.

Zhang ZF, Zhou SY, Eurwilaichitr L, et al. (2021). Culturable mycobiota from Karst caves in China II, with descriptions of 33 new species. Fungal Diversity 106: 29–136.

Zhao X, Leavitt SD, Zhao ZT, et al. (2016). Towards a revised generic classification of lecanoroid lichens (Lecanoraceae, Ascomycota) based on molecular, morphological and chemical evidence. Fungal Diversity 78: 293–304.

Zhou LW. (2015). Four new species of Phylloporia (Hymenochaetales, Basidiomycota) from tropical China with a key to Phylloporia species worldwide. Mycologia 107: 1184–1192. PubMed

Zhou LW, Dai YC. (2012). Phylogeny and taxonomy of Phylloporia (Hymenochaetales): new species and a worldwide key to the genus. Mycologia 104: 211–222. PubMed

Fungal Planet description sheets: 1697-1780