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Fungal Diversity

, Volume 78, Issue 1, pp 1–237 | Cite as

Fungal diversity notes 253–366: taxonomic and phylogenetic contributions to fungal taxa

  • Guo Jie Li
  • Kevin D. Hyde
  • Rui Lin Zhao
  • Sinang Hongsanan
  • Faten Awad Abdel-Aziz
  • Mohamed A. Abdel-Wahab
  • Pablo Alvarado
  • Genivaldo Alves-Silva
  • Joseph F. Ammirati
  • Hiran A. Ariyawansa
  • Abhishek Baghela
  • Ali Hassan Bahkali
  • Michael Beug
  • D. Jayarama Bhat
  • Dimitar Bojantchev
  • Thitiya Boonpratuang
  • Timur S. Bulgakov
  • Erio Camporesi
  • Marcela C. Boro
  • Oldriska Ceska
  • Dyutiparna Chakraborty
  • Jia Jia Chen
  • K. W. Thilini Chethana
  • Putarak Chomnunti
  • Giovanni Consiglio
  • Bao Kai Cui
  • Dong Qin Dai
  • Yu Cheng Dai
  • Dinushani A. Daranagama
  • Kanad Das
  • Monika C. Dayarathne
  • Eske De Crop
  • Rafael J. V. De Oliveira
  • Carlos Alberto Fragoso de Souza
  • José I. de Souza
  • Bryn T. M. Dentinger
  • Asha J. Dissanayake
  • Mingkwan Doilom
  • E. Ricardo Drechsler-Santos
  • Masoomeh Ghobad-Nejhad
  • Sean P. Gilmore
  • Aristóteles Góes-Neto
  • Michał Gorczak
  • Charles H. Haitjema
  • Kalani Kanchana Hapuarachchi
  • Akira Hashimoto
  • Mao Qiang He
  • John K. Henske
  • Kazuyuki Hirayama
  • Maria J. Iribarren
  • Subashini C. Jayasiri
  • Ruvishika S. Jayawardena
  • Sun Jeong Jeon
  • Gustavo H. Jerônimo
  • Ana L. Jesus
  • E. B. Gareth Jones
  • Ji Chuan Kang
  • Samantha C. Karunarathna
  • Paul M. Kirk
  • Sirinapa Konta
  • Eric Kuhnert
  • Ewald Langer
  • Haeng Sub Lee
  • Hyang Burm Lee
  • Wen Jing Li
  • Xing Hong Li
  • Kare Liimatainen
  • Diogo Xavier Lima
  • Chuan Gen Lin
  • Jian Kui Liu
  • Xings Zhong Liu
  • Zuo Yi Liu
  • J. Jennifer Luangsa-ard
  • Robert Lücking
  • H. Thorsten Lumbsch
  • Saisamorn Lumyong
  • Eduardo M. Leaño
  • Agostina V. Marano
  • Misato Matsumura
  • Eric H. C. McKenzie
  • Suchada Mongkolsamrit
  • Peter E. Mortimer
  • Thi Thuong Thuong Nguyen
  • Tuula Niskanen
  • Chada Norphanphoun
  • Michelle A. O’Malley
  • Sittiporn Parnmen
  • Julia Pawłowska
  • Rekhani H. Perera
  • Rungtiwa Phookamsak
  • Chayanard Phukhamsakda
  • Carmen L. A. Pires-Zottarelli
  • Olivier Raspé
  • Mateus A. Reck
  • Sarah C. O. Rocha
  • André L. C. M. A. de Santiago
  • Indunil C. Senanayake
  • Ledo Setti
  • Qiu Ju Shang
  • Sanjay K. Singh
  • Esteban B. Sir
  • Kevin V. Solomon
  • Jie Song
  • Prasert Srikitikulchai
  • Marc Stadler
  • Satinee Suetrong
  • Hayato Takahashi
  • Takumasa Takahashi
  • Kazuaki Tanaka
  • Li Ping Tang
  • Kasun M. Thambugala
  • Donnaya Thanakitpipattana
  • Michael K. Theodorou
  • Benjarong Thongbai
  • Tuksaporn Thummarukcharoen
  • Qing Tian
  • Saowaluck Tibpromma
  • Annemieke Verbeken
  • Alfredo Vizzini
  • Josef Vlasák
  • Kerstin Voigt
  • Dhanushka N. Wanasinghe
  • Yong Wang
  • Gothamie Weerakoon
  • Hua An Wen
  • Ting Chi Wen
  • Nalin N. Wijayawardene
  • Sarunyou Wongkanoun
  • Marta Wrzosek
  • Yuan Pin Xiao
  • Jian Chu Xu
  • Ji Ye Yan
  • Jing Yang
  • Shu Da Yang
  • Yu Hu
  • Jin Feng Zhang
  • Jie Zhao
  • Li Wei Zhou
  • Derek Peršoh
  • Alan J. L. Phillips
  • Sajeewa S. N. Maharachchikumbura
Article

Abstract

Notes on 113 fungal taxa are compiled in this paper, including 11 new genera, 89 new species, one new subspecies, three new combinations and seven reference specimens. A wide geographic and taxonomic range of fungal taxa are detailed. In the Ascomycota the new genera Angustospora (Testudinaceae), Camporesia (Xylariaceae), Clematidis, Crassiparies (Pleosporales genera incertae sedis), Farasanispora, Longiostiolum (Pleosporales genera incertae sedis), Multilocularia (Parabambusicolaceae), Neophaeocryptopus (Dothideaceae), Parameliola (Pleosporales genera incertae sedis), and Towyspora (Lentitheciaceae) are introduced. Newly introduced species are Angustospora nilensis, Aniptodera aquibella, Annulohypoxylon albidiscum, Astrocystis thailandica, Camporesia sambuci, Clematidis italica, Colletotrichum menispermi, C. quinquefoliae, Comoclathris pimpinellae, Crassiparies quadrisporus, Cytospora salicicola, Diatrype thailandica, Dothiorella rhamni, Durotheca macrostroma, Farasanispora avicenniae, Halorosellinia rhizophorae, Humicola koreana, Hypoxylon lilloi, Kirschsteiniothelia tectonae, Lindgomyces okinawaensis, Longiostiolum tectonae, Lophiostoma pseudoarmatisporum, Moelleriella phukhiaoensis, M. pongdueatensis, Mucoharknessia anthoxanthi, Multilocularia bambusae, Multiseptospora thysanolaenae, Neophaeocryptopus cytisi, Ocellularia arachchigei, O. ratnapurensis, Ochronectria thailandica, Ophiocordyceps karstii, Parameliola acaciae, P. dimocarpi, Parastagonospora cumpignensis, Pseudodidymosphaeria phlei, Polyplosphaeria thailandica, Pseudolachnella brevifusiformis, Psiloglonium macrosporum, Rhabdodiscus albodenticulatus, Rosellinia chiangmaiensis, Saccothecium rubi, Seimatosporium pseudocornii, S. pseudorosae, Sigarispora ononidis and Towyspora aestuari. New combinations are provided for Eutiarosporella dactylidis (sexual morph described and illustrated) and Pseudocamarosporium pini. Descriptions, illustrations and / or reference specimens are designated for Aposphaeria corallinolutea, Cryptovalsa ampelina, Dothiorella vidmadera, Ophiocordyceps formosana, Petrakia echinata, Phragmoporthe conformis and Pseudocamarosporium pini. The new species of Basidiomycota are Agaricus coccyginus, A. luteofibrillosus, Amanita atrobrunnea, A. digitosa, A. gleocystidiosa, A. pyriformis, A. strobilipes, Bondarzewia tibetica, Cortinarius albosericeus, C. badioflavidus, C. dentigratus, C. duboisensis, C. fragrantissimus, C. roseobasilis, C. vinaceobrunneus, C. vinaceogrisescens, C. wahkiacus, Cyanoboletus hymenoglutinosus, Fomitiporia atlantica, F. subtilissima, Ganoderma wuzhishanensis, Inonotus shoreicola, Lactifluus armeniacus, L. ramipilosus, Leccinum indoaurantiacum, Musumecia alpina, M. sardoa, Russula amethystina subp. tengii and R. wangii are introduced. Descriptions, illustrations, notes and / or reference specimens are designated for Clarkeinda trachodes, Dentocorticium ussuricum, Galzinia longibasidia, Lentinus stuppeus and Leptocorticium tenellum. The other new genera, species new combinations are Anaeromyces robustus, Neocallimastix californiae and Piromyces finnis from Neocallimastigomycota, Phytophthora estuarina, P. rhizophorae, Salispina, S. intermedia, S. lobata and S. spinosa from Oomycota, and Absidia stercoraria, Gongronella orasabula, Mortierella calciphila, Mucor caatinguensis, M. koreanus, M. merdicola and Rhizopus koreanus in Zygomycota.

Keywords

Ascomycota Basidiomycota Neocallimastigomycota Oomycota Zygomycota Phylogeny Taxonomy New genus New species 

Notes

Acknowledgments

G.J. Li, H.A. Wen, X.Z. Liu, M.Q. He, and R.L. Zhao thank the National Natural Science Foundation of China (No. 30770013, No. 31500013, No. 31000013, No. 31360014, No. 31470152), the Special Program of Basic Science of the Ministry of Science and Technology (No. 2012FY111600), the Technology of and International Cooperation Program of the Ministry of Science and Technology (No. 2009DFA31160) of the People’s Republic of China, and the opening funding of State key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences for funding. They are also grateful to S.P. Jiang, A.G. Xu (Xizang Institute of Plateau Biology), Wangmu (Agriculture and Animal Husbandry College of Xizang), R. Wang, S.P. Wan (Kunming Institute of Botany, Chinese Academy of Sciences), T.Z. Wei, W.L. Lu, R.H. Yang, X.Y. Liu, X.Y. Li, L. Jiang, B.B. Li, Y. Li, Y. Yu, M.J. Zhao, H. Li, S.H. Jiang, Z.X. Zhu, and J. Bing for assistance in specimen collecting; to Y.J. Yao, H.M. Lü, Q.R. Yan, and L. Yang for loans of herbarium specimens; to X.F. Zhu for inking in line drawings; to X.L. Wang for providing advice and suggestions in the phylogenetic analysis; to C.L. Li, X.L. Zhang, and J.N. Liang (Institute of Microbiology, Chinese Academy of Sciences) for providing help with SEM photography. S. Mongkolsamrit, D. Thanakitpipattana and J.J. Luangsa-ard thank National Center for Genetic Engineering and Biotechnology (BIOTEC) for project “Surveys and Collection Invertebrate-Pathogenic Fungi and Xylariaceae on Forests Conservation of Thailand” grant number P-14-51240. They would also like to thank M. Tanticharoen, K. Kirtikara, L. Eurwilaichitr and R. Tantalakha for their support of the program “Biodiversity studies of entomopathogenic fungi in Thailand”. They are grateful to the Department of National Parks, Wildlife and Plant Conservation for their cooperation and support to our project research. A.LCM de A. Santiago thanks the Fundação de Amparo à Ciência e Tecnologia do Estado de Pernambuco (FACPE - APQ 0842-2.12/14), the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq - 458391/2014-0) and the Programa de Pesquisa em Biodiversidade do semiárido (MCT/CNPQ/PPBio - 457498/2012-9). T. Boonpratuang, S. Parnmen, and T. Thummarukcharoen thank the National Science and Technology Development Agency (NSTDA) Cluster and Management Program Office (CPMO) for the flagship project “Raising the quality and standards of microorganism data for use in biotechnology” grant number P-12-01829 and the Thailand Research Fund (TRG5780217) and Department of Medical Sciences, Ministry of Public Health. They also express appreciation to T. Flegel for encouragement of working on mushroom taxonomy and especially on poisonous mushrooms, L. Eurwilaichitr for funding support for molecular identification through BBH, and always support on mushroom taxonomy and M. Tanticharoen for forever support in biodiversity and taxonomy study in Thai fungi. They also thank the SRRT Team, Bureau of Epidemiology, Department of Disease Control Ministry of Public Health for collecting a specimen of poisonous mushroom in Thailand. Moreover, and toxicology center staffs (NIH: Department of Medical Sciences, Ministry of Public Health) for their suggestion and knowledge of peptide toxins identification. D. Chakraborty, K. Das, A. Baghela, S.K. Singh, and B.T.M. Dentinger thank the Director, Botanical Survey of India, Kolkata and Agharkar Research Institute, Pune for providing facilities during this study. Two of them (D. Chakraborty & K. Das) are thankful to the entire forest department of Sikkim for allowing them to undertake the macrofungal exploration in the restricted subalpine areas of North Sikkim. K. Das are indebted to Z.L. Yang (Chinese Academy of Sciences, China) for his indispensible suggestions and literature help in this regard. Field assistance rendered by S. Pradhan (BSI, Gangtok) is also duly acknowledged. A.V. Marano, A.L. Jesus, J.I. de Souza, G.H. Jerônimo, T.Y. James, M.C. Boro, S.C.O. Rocha, E.M. Leaño, M.J. Iribarren, and C.L.A. Pires-Zottarelli thank “Instituto Florestal” for the permission for sampling at the PEIC, M.O. Neves Junior for his valuable help during sampling, and to C.C. Aparecido, curator of the culture collection MMBF, for accepting our voucher cultures. They also thank São Paulo Research Foundation (FAPESP) for the fellowships given to A.L. Jesus (Process N° 2013/01409-0) and for the financial support given to C.L.A. Pires-Zottarelli (Process N° 2012/50222-7), CAPES (“Coordenação de Aperfeiçoamento de Pessoal de Nível Superior”) for the fellowship and support given to A.V. Marano (“Ciência Sem Fronteiras” Program, “Atração de Jovens Talentos” DRI-CAPES Process N° 006/2012) and CNPq (“Conselho Nacional de Desenvolvimento Científico e Tecnológico”) for the grant given to C.L.A. Pires-Zottarelli (Process N° 304411/2012-4). L.W. Zhou, Y.C. Dai and J. Vlasák thank O. Euatrakool and A. Auetragul for their help in field trip. They also thank National Natural Science Foundation of China (Project No. 31200015). T. Niskanen, K. Liimatainen, M. Beug, and J. Ammirati are grateful to D.E. Stuntz Memorial Foundation. M.A. Abdel-Wahab, A.H. Bahkali, E.B.G. Jones and F.A. Abdel-Aziz thank the National Plan for Science, Technology and Innovation (MAARIFAH), King Abdulaziz City for Science and Technology, Kingdom of Saudi Arabia, Award Number (12-BIO2840-02). E. Kuhnert, E.B. Sir, and M. Stadler are grateful to A.I. Hladki for her contribution to the collection of Argentinian specimens. They thank C. Lambert and S. Heitkämper for obtaining the cultures and performing the molecular work. M. Rohde is thanked for SEM recordings. Funding from the DAAD and the Argentina Ministerio de Ciencia, Tecnología e Innovación Productiva for an academic exchange program involving E. Kuhnert, E.B. Sir and M. Stadler is gratefully acknowledged. T.C. Wen, K.K. Hapuarachchi and K.D. Hyde thank the National Natural Science Foundation of China (No. 31460012) and the Science Foundation of Guizhou University (No. 201309). E. De Crop is supported by the “Special Research Fund Ghent University” (BOF). The survey in Thailand was part of the Northern Thailand mushroom diversity workshop prior to the 10th International Mycological Congress and was financially supported by the Research Foundation Flanders (FWO, grant K1A7614N). F. Hampe is thanked by M. Verbeken for conducting laboratory work. K. Tanaka would like to thank the Japan Society for the Promotion of Science (JSPS, 25440199 and 26291084) and Hirosaki University Grant for Exploratory Research by Young Scientists and Newly appointed Scientists for financial support. B.K. Cui, J. Song and J.J. Chen are grateful to H.S. Yuan (IFP, China) for loan of specimens. The research was supported by the National Natural Science Foundation of China (Project No. 31422001). B. Thongbai was financial supported by the Royal Golden Jubilee-Industry Ph.D (Ph.D/0138/2553 in 4.S.MF/53/A.3). We thank the International Research Group Program (IRG-14-27), Deanship of Scientific Research, King Saud University, Saudi Arabia for partially supporting this research. K.D. Hyde thanks the Chinese Academy of Sciences, [project number 2013T2S003], for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany. MFLU [grant number 56101020032] is thanked for supporting studies on Dothideomycetes. We are grateful to the Mushroom Research Foundation, Chiang Rai, Thailand. C.G. Lin is grateful to J.Z. Sun (Mae Fah Luang University, Thailand) for comments on the manuscript and S.F. Ran (Guizhou University, Guizhou, China) for assistance in molecular work, and to the support by the National Natural Science Foundation of China (No. NSFC 31560489). N.N. Wijayawardene thanks Guizhou University for helping to carryout DNA sequencing. T.T.T. Nguyen, S.J. Jeon, H.S. Lee, P.M. Kirk, K. Voigt and H.B. Lee were supported by the Graduate Program for the Undiscovered Taxa of Korea and by the Project on Survey and Discovery of Indigenous Fungal Species of Korea funded by NIBR of the Ministry of Environment (MOE), Republic of Korea. M. Doilom acknowledges the Royal Golden Jubilee Ph.D. Program (PHD./0072/2553 in 4.S.M.F./53/A.2) under the Thailand Research Fund. C. Phukhamsakda would like to thank the Royal Golden Jubilee PhD Program under Thailand Research Fund, for the award of a scholarship no. PHD/0020/2557 to study towards a PhD. M. Gorczak was supported by Polish Ministry of Science and Higher Education under grant no. DI2014012344. J. Pawłowska was partially supported by the National Science Center of Poland under grant no. 2015/17/D/NZ8/00778. M. Abdel-Wahab was funded by the National Plan for Science, Technology and Innovation (MAARIFAH), King Abdulaziz City for Science and Technology, Kingdom of Saudi Arabia, Award Number (12-BIO2840-02). J. Zhao, G. Consiglio, P. Alvarado, S.D. Yang, L. Setti, Y. Hu, A. Vizzini, and L.P. Tang wish to express their sincere gratitude to Swiss mycologist E Musumeci (Basel, Switzerland) for providing valuable information (including photographs) on Musumecia vermicularis. They are grateful to J.F. Liang (Research Institute of Tropical Forestry, Chinese Academy of Forestry) for helping to scan basidiospores. This work was financially supported by the National Natural Science Foundation of China (No. 31560004), Yunnan applied basic research projects-joint special project (No. 2014FB016), the Science Research Foundation of department of education, Yunnan Province (No. 2015Y147), and the Open Research Foundation of Yunnan Key Laboratory of Pharmacology for Natural Products (No. 2015G003). G. Alves-Silva, A. Góes-Neto and E.R. Drechsler-Santos thank the Parque Natural Municipal São Francisco de Assis for permission to sample collections and F. Bittencourt for specimen collected and pictures in situ; herbaria mentioned (FURB and FLOR); Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) for providing a master’s scholarship to G. Alves-Silva; Fiocruz for performing the molecular sequencing; PPGFAP/UFSC and BrBOL for partial financing of the research. M.A. Reck thanks CAPES (PNPD Institucional 2011—23038.007790/2011-93) for scholarship and funding. P. Chomnunti would like to thank the National Research Council of Thailand (NRCT), for the project “Biodiversity, phylogeny and biological activity of Dothideomycetes” grant number 58201020010 and Thailand Research Fund (TRF) grant number TRG5780008 for partial funding. R. Phookamsak sincerely appreciates The Royal Golden Jubilee Ph. D. Program (PHD/0090/2551) under the Thailand Research Fund for financial support. S.C. Karunarathna would like to thank the World Agroforestry Centre, East and Central Asia Office; Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Science; the Chinese Ministry of Science and Technology, under the 12th 5-year National Key Technology Support Program (NKTSP)2013BAB07B06 integration and comprehensive demonstration of key technologies on Green Phosphate-mountaion Construction; the CGIAR Research Program 6: Forest, Trees and Agroforestry; and the National Research Council of Thailand (NRCT), projects - Taxonomy, phylogeny and cultivation of Lentinus species in northern Thailand (NRCT/55201020007) for partial funding. K.V. Solomon, J.K. Henske, C.H. Haitjema, S.P. Gilmore, M.K. Theodorou, and M.A. O’Malley thanks the Office of Science (BER), U.S. Department of Energy (DE-SC0010352) and the Institute for Collaborative Biotechnologies through grant W911NF-09-0001, and the Mellichamp Academic Initiative in Sustainability at UC Santa Barbara. A portion of their research was performed under the JGI-EMSL Collaborative Science Initiative and used resources at the DOE Joint Genome Institute and the Environmental Molecular Sciences Laboratory, which are DOE Office of Science User Facilities. Both facilities are sponsored by the Office of Biological and Environmental Research and operated under Contract Nos. DE-AC02-05CH11231 (JGI) and DE-AC05-76RL01830 (EMSL).

References

  1. Abdel-Wahab MA, Jones EBG (2000) Three new marine ascomycetes from driftwood in Australian sand dunes. Mycoscience 41:379–388CrossRefGoogle Scholar
  2. Abdel-Wahab MA, Hodhod MS, Bahkali AHA, Jones EBG (2014) Marine fungi of Saudi Arabia. Bot Mar 57:323–335CrossRefGoogle Scholar
  3. Abe A, Oda Y, Asano Y, Sone T (2007) Rhizopus delemar is the proper name for Rhizopus oryzae fumaric-malic acid producers. Mycologia 99:714–722PubMedCrossRefGoogle Scholar
  4. Abe A, Oda Y, Asano Y, Sone T (2010) A molecular phylogeny based taxonomy of the genus Rhizopus. Biosci Biotechnol Biochem 74:1325–1331PubMedCrossRefGoogle Scholar
  5. Abdollahzadeh J, Javadi A, Zare R, Phillips AJL (2014) A phylogenetic study of Dothiorella and Spencermartinsia species associated with woody plants in Iran, New Zealand, Portugal and Spain. Persoonia 32:1–12PubMedPubMedCentralCrossRefGoogle Scholar
  6. Acero FJ, González V, Sánchez-Ballesteros J, Rubio V, Checa J, Bills GF, Salazar O, Platas G, Peláez F (2004) Molecular phylogenetic studies on the Diatrypaceae based on rDNA-ITS sequences. Mycologia 96:249–259PubMedCrossRefGoogle Scholar
  7. Adams GC, Surve-Iyer RS, Iezzoni AF (2002) Ribosomal DNA sequence divergence and group I introns within the Leucostoma species L. cinctum, L. persoonii, and L. parapersoonii sp. nov., ascomycetes that cause Cytospora canker of fruit trees. Mycologia 94:947–967PubMedCrossRefGoogle Scholar
  8. Adams GC, Wingfield MJ, Common R, Roux J (2005) Phylogenetic relationships and morphology of Cytospora species and related teleomorphs (Ascomycota, Diaporthales, Valsaceae) from Eucalyptus. Stud Mycol 52:1–144Google Scholar
  9. Adams GC, Roux J, Wingfield MJ (2006) Cytospora species (Ascomycota, Diaporthales, Valsaceae): introduced and native pathogens of trees in South Africa. Australas Plant Pathol 35:521–548CrossRefGoogle Scholar
  10. Adl SM, Simpson AGB, Lane CE, Lukeš J, Bass D, Bowser SS, Brown MW, Burki F, Dunthorn M, Hampl V, Heiss A, Hoppenrath M, Lara E, Le Gall L, Lynn DH, McManus H, Mitchell EA, Mozley-Stanridge SE, Parfrey LW, Pawlowski J, Rueckert S, Shadwick RS, Schoch CL, Smirnov A, Spiegel FW (2012) The revised classification of Eukaryotes. J Eukaryot Microbiol 59:429–493PubMedPubMedCentralCrossRefGoogle Scholar
  11. Ahmed SA, van de Sande WWJ, Stevens DA, Fahal A, van Diepeningen AD, Menken SBJ, de Hoog GS (2014) Revision of agents of black-grain eumycetoma in the order Pleosporales. Persoonia 33:141–154PubMedPubMedCentralCrossRefGoogle Scholar
  12. Alastruey-Izquierdo A, Hoffmann K, de Hoog GS, Rodriguez-Tudela JL, Voigt K, Bibashi E, Walther G (2010) Species recognition and clinical relevance of the zygomycetous genus Lichtheimia (syn. Absidia pro parte, Mycocladus). J Clin Microbiol 48:2154–2170PubMedPubMedCentralCrossRefGoogle Scholar
  13. Altschul SF, Gish W, Miller W, Myers EW, Lipman DJ (1990) Basic local alignment search tool. J Mol Biol 215:403–410PubMedCrossRefGoogle Scholar
  14. Álvarez E, Cano J, Stchigel AM, Sutton DA, Fothergill AW, Salas V, Rinaldi MG, Guarro J (2011) Two new species of Mucor from clinical samples. Med Mycol 49:62–72PubMedCrossRefGoogle Scholar
  15. Alves MH, Campos-Takaki GM, Porto ALF, Milanez AI (2002) Screening of Mucor spp. for the production of amylase, lipase, polygalacturonase and protease. Braz J Microbiol 33:325–330Google Scholar
  16. Amalfi M, Yombiyeni P, Decock C (2010) Fomitiporia in sub-Saharan Africa: morphology and multi-gene phylogenetic analysis support three new species from the Guineo-Congolian rainforest. Mycologia 102:1303–1317PubMedCrossRefGoogle Scholar
  17. Amalfi M, Decock C (2013) Fomitiporia castilloi sp. nov. and multiple clades around F. apiahyna and F. texana in Meso- and South America evidenced by multi-loci phylogenetic inferences. Mycologia 105:873–887PubMedCrossRefGoogle Scholar
  18. Amalfi M, Raymundo T, Valenzuela R, Decock C (2012) Fomitiporia cupressicola sp. nov., a parasite on Cupressus arizonica, and additional unnamed clades in the southern USA and northern Mexico, determined by multi-locus phylogenetic analyses. Mycologia 104:880–893PubMedCrossRefGoogle Scholar
  19. Amalfi M, Robledo G, Decock C (2014) Fomitiporia baccharidis comb. nov., a little known species from high elevation Andean forests and its affinities within the Fomitiporia neotropical lineages. Mycol Prog 13:995CrossRefGoogle Scholar
  20. Anon (1955) Shen Nong materia medica 102–200 A.D (E. Han). Reprinted. People Hygiene Press, BeijingGoogle Scholar
  21. Aptroot A (1998) A world revision of Massarina (Ascomycota). Nova Hedwigia 66:89–162Google Scholar
  22. Ariyawansa HA, Tanaka K, Thambugala KM, Phookamsak R, Tian Q, Camporesi E, Hongsanan S, Monkai J, Wanasinghe DN, Chukeatirote E, Kang JC, Xu JC, McKenzie EHC, Jones EBG, Hyde KD (2014a) A molecular phylogenetic reappraisal of the Didymosphaeriaceae (= Montagnulaceae). Fungal Divers 68:69–104CrossRefGoogle Scholar
  23. Ariyawansa HA, Phookamsak R, Tibpromma S et al. (2014b) A molecular and morphological reassessment of Diademaceae. Sci World J. Article ID 675348, 11 pagesGoogle Scholar
  24. Ariyawansa HA, Hawksworth DL, Hyde KD, Jones EBG, Maharachchikumbura SSN, Manamgoda DS, Thambugala KM, Udayanga D, Camporesi E, Daranagama A, Jayawardena R, Liu JK, McKenzie EHC, Phookamsak R, Senanayake IC, Shivas RG, Tian Q, Xu JC (2014b) Epitypification and neotypification: guidelines with appropriate and inappropriate examples. Fungal Divers 69:57–91CrossRefGoogle Scholar
  25. Ariyawansa HA, Thambugala KM, Manamgoda DS, Jayawardena R, Camporesi E, Boonmee S, Wanasinghe DN, Phookamsak R, Hongsanan S, Singtripop C, Chukeatirote E, Kang JC, Gareth Jones EB, Hyde KD (2015a) Towards a natural classification and backbone tree for Pleosporaceae. Fungal Divers 71:85–139CrossRefGoogle Scholar
  26. Ariyawansa HA, Hyde KD, Jayasiri SC, Buyck B, Chethana KWT, Dai DQ, Dai YC, Daranagama DA, Jayawardena RS, Lücking R, Ghobad-Nejhad M, Niskanen T, Thambugala KM, Voigt K, Zhao RL, Li GJ, Doilom M, Boonmee S, Yang ZL, Cai Q, Cui YY, Bahkali AH, Chen J, Cui BK, Chen JJ, Dayarathne MC, Dissanayake AJ, Ekanayaka AH, Hashimoto A, Hongsanan S, Jones EBG, Larsson E, Li WJ, Li QR, Liu JK, Luo ZL, Maharachchikumbura SSN, Mapook A, McKenzie EHC, Norphanphoun C, Konta S, Pang KL, Perera RH, Phookamsak R, Phukhamsakda C, Pinruan U, Randrianjohany E, Singtripop C, Tanaka K, Tian CM, Tibpromma S, Abdel-Wahab MA, Wanasinghe DN, Wijayawardene NN, Zhang JF, Zhang H, Abdel-Aziz FA, Wedin M, Westberg M, Ammirati JF, Bulgakov TS, Lima DX, Callaghan TM, Callac P, Chang CH, Coca LF, Dal-Forno M, Dollhofer V, Fliegerová K, Greiner K, Griffith GW, Ho HM, Hofstetter V, Jeewon R, Kang JC, Wen TC, Kirk PM, Kytövuori I, Lawrey JD, Xing J, Li H, Liu ZY, Liu XZ, Liimatainen K, Thorsten Lumbsch H, Matsumura M, Moncada B, Nuankaew S, Parnmen S, Santiago ALCMDA, Sommai S, Song Y, de Souza CAF, de Souza-Motta CM, Su HY, Suetrong S, Wang Y, Fong WS, Yuan HS, Zhou LW, Réblová M, Fournier J, Camporesi E, Luangsa-ard JJ, Tasanathai K, Khonsanit A, Thanakitpipattana D, Somrithipol S, Diederich P, Millanes AM, Common RS, Stadler M, Yan JY, Li XH, Lee HW, Nguyen TTT, Lee HB, Battistin E, Marsico O, Vizzini A, Vila J, Ercole E, Eberhardt U, Simonini G, Wen HA, Chen XH, Miettinen O, Spirin V, Hernawati (2015b) Fungal diversity notes 111–252—taxonomic and phylogenetic contributions to fungal taxa. Fungal Divers 75:27–274CrossRefGoogle Scholar
  27. Ariyawansa HA, Phukhamsakda C, Thambugala KM, Wanasinghe DN, Perera RH, Mapook A, Camporesi E, Kang JC, Jones EBG, Bahkali AH, Bhat JD, Hyde KD (2015c) Revision and phylogeny of Leptosphaeriaceae. Fungal Divers 74:19–51CrossRefGoogle Scholar
  28. von Arx JA (1971) Testudinaceae, a new family of Ascomycetes. Persoonia 6:365–369Google Scholar
  29. von Arx JA, Müller E (1975) A re-evaluation of the bitunicate Ascomycetes with keys to families and genera. Stud Mycol 9:1–159Google Scholar
  30. Balci Y, Balci S, Eggers J, MacDonald WL, Juzwik J, Long RP, Gottschalk KW (2007) Phytophthora spp. associated with forest soils in eastern and north-central US oak ecosystems. Plant Dis 91:705–710CrossRefGoogle Scholar
  31. Barber PA, Crous PW, Groenewald JZ, Pascoe IG, Keane P (2011) Reassessing Vermisporium (Amphisphaeriaceae), a genus of foliar pathogens of Eucalypts. Persoonia 27:90–118PubMedPubMedCentralCrossRefGoogle Scholar
  32. Barghoorn ES, Linder DH (1944) Marine fungi: their taxonomy andbiology. Farlowia 1:395–467Google Scholar
  33. Barr ME (1972) Preliminary studies on the Dothideales in temperate North America. Contrib Univ Mich Herb 9:523–638Google Scholar
  34. Barr ME (1978) The Diaporthales in North America with emphasis on Gnomonia and its segregates. Mycol Mem 7:1–232Google Scholar
  35. Barr ME (1987) Prodomus to class Loculoascomycetes. Publ. by the author, AmherstGoogle Scholar
  36. Barr ME (1989) The genus Chaetomastia (Dacampiaceae) in North America. Mycotaxon 34:507–515Google Scholar
  37. Barr ME (1979a) A classification of Loculoascomycetes. Mycologia 71:935–957CrossRefGoogle Scholar
  38. Barr ME (1979b) On the Massariaceae in North America. Mycotaxon 9:17–37Google Scholar
  39. Barr ME (1990) North American Flora. Melanommatales (Loculoascomycetes). New York Botanical Garden Series II Part 13:129Google Scholar
  40. Barr ME (2001) Revisionary studies on the Dothioraceae. Harv Pap Bot 6:25–34Google Scholar
  41. Barr DJS, Kudo H, Jakober KD, Cheng KJ (1989) Morphology and development of rumen fungi: Neocallimastix sp., Piromyces communis, and Orpinomyces bovis gen. nov., sp. nov. Can J Bot 67:2815–2824CrossRefGoogle Scholar
  42. Bas C (1969) Morphology and subdivision of Amanita and monograph of its section Lepidella. Persoonia 5:285–579Google Scholar
  43. Beakes GW, Honda D, Thines M (2014) Systematics of the Straminipila: Labyrinthulomycota, Hyphochytriomycota, and Oomycota. In: McLaughlin DJ, Spatafora JW (eds) The mycota VII part a––systematics and evolution. Springer-Verlag, Berlin Heidelberg, pp 39–97Google Scholar
  44. Benson DA, Cavanaugh M, Clark K, Karsch-Mizrachi I, Lipman DJ, Ostell J, Sayers EW (2013) GenBank. Nucleic Acids Res 41:D36–42PubMedPubMedCentralCrossRefGoogle Scholar
  45. Berkeley MJ (1847) Decades of fungi XII–XIV. Lond J Bot 6:312–326Google Scholar
  46. Berkeley MJ, Broome CE (1852) Notices of British fungi (615–639). Ann Mag Nat Hist 9:317–329Google Scholar
  47. Bernicchia A, Gorjón SP (2010) Fungi Europaei 12 - Corticiaceae s.l. Edizioni Candusso, ItalyGoogle Scholar
  48. Benny GL (1995) Classical morphology in Zygomycetes taxonomy. Can J Bot 73:S725–S730Google Scholar
  49. Benny GL (2008) The methods used by Dr. R. K. Benjamin, and other mycologists, to isolate Zygomycetes. Aliso 26:37–61CrossRefGoogle Scholar
  50. Benny GL (2013) Zygomycetes. Published on the internet at www.zygomycetes.org
  51. Bessette AE, Roody WC, Bessette AR (2010) North American Boletes: a colour guide to the Fleshy Pored Mushrooms. First paperback edition. Syracuse University Press, USA, 396Google Scholar
  52. Binder M, Hibbett DS, Wang Z, Farnham W (2006) Evolutionary relationships of Mycaureola dilseae (Agaricales), a basidiomycete pathogen of a subtidal rhodophyte. Am J Bot 93:547–556PubMedCrossRefGoogle Scholar
  53. Binder M, Larsson KH, Matheny PB, Hibbett D (2010) Amylocorticiales ord. nov. and Jaapiales ord. nov.: early diverging clades of Agaricomycetidae dominated by corticioid forms. Mycologia 102:865–880PubMedCrossRefGoogle Scholar
  54. Binder M, Justo A, Riley R, Salamov A, Lopez-Giraldez F, Sjokvist E, Copeland A, Foster B, Sun H, Larsson E, Larsson KH, Townsend J, Grigoriev IV, Hibbett DS (2013) Phylogenetic and phylogenomic overview of the Polyporales. Mycologia 105:1350–1373PubMedCrossRefGoogle Scholar
  55. Blair JE, Coffey MD, Park SY, Geiser DM, Kang S (2008) A multi-locus phylogeny for Phytophthora utilizing markers derived from complete genome sequences. Fungal Genet Biol 45:266–277PubMedCrossRefGoogle Scholar
  56. Boehm EW, Schoch CL, Spatafora JW (2009a) On the evolution of the Hysteriaceae and Mytilinidiaceae (Pleosporomycetidae, Dothideomycetes, Ascomycota) using four nuclear genes. Mycol Res 113:461–479PubMedCrossRefGoogle Scholar
  57. Boehm EWA, Mugambi G, Miller AN, Huhndorf S, Marincowitz S, Schoch CL, Spatafora JW (2009b) A molecular phylogenetic reappraisal of the Hysteriaceae, Mytilinidiaceae and Gloniaceae (Pleosporomycetidae, Dothideomycetes) with keys to world species. Stud Mycol 64:49–83PubMedPubMedCentralCrossRefGoogle Scholar
  58. Boidin J, Gilles G (1998) Contribution à l’étude des genres Dendrocorticium, Dendrodontia et Dentocorticium (Basidiomycotina). Cryptogam Mycol 19:181–202Google Scholar
  59. Bojantchev D (2013) Cortinarius of California: eight new species in subg. Telamonia Mycotaxon 123:375–402CrossRefGoogle Scholar
  60. Bojantchev D (2015) Nomenclatural novelties, Cortinarius. Index Fungorum no. 247Google Scholar
  61. Bojantchev D, Davis RM (2011) Cortinarius xanthodryophilus sp. nov. – a common Phlegmacium under oaks in California. Mycotaxon 116:317–328CrossRefGoogle Scholar
  62. Boonmee S, Hyde KD, KoKo TW, Chukeatirote E, Chen H, Cai L, McKenzie EHC, Jones EBG, Kodsueb R, Hassan BA (2012) Two new Kirschsteiniotheliaceae species with Dendryphiopsis anamorphs cluster in Kirschsteiniotheliaceae fam. nov. Mycologia 104:698–714PubMedCrossRefGoogle Scholar
  63. Bonorden HF (1864) Abhandlungen aus dem Gebiete der Mykologie. Abhandlungen der Naturforschenden Gesellschaft zu Halle 8:1–168Google Scholar
  64. Borelli D (1959) Pyrenochaeta romeroi n. sp. Dermatologia Venezplana 1:325–326Google Scholar
  65. Bose SK (1961) Studies on Massarina Sacc. and related genera. Phytopathol Z 41:151–213CrossRefGoogle Scholar
  66. Botella L, Diez JJ (2011) Phylogenic diversity of fungal endophytes in Spanish stands of Pinus halepensis. Fungal Divers 47:9–18CrossRefGoogle Scholar
  67. Botella L, Santamaría O, Diez JJ (2010) Fungi associated with the decline of Pinus halepensis in Spain. Fungal Divers 40:1–11CrossRefGoogle Scholar
  68. Brasier CM, Beales PA, Kirk SA, Denman S, Rose J (2005) Phytophthora kernoviae sp. nov., an invasive pathogen causing bleeding stem lesions on forest trees and foliar necrosis of ornamentals in the UK. Mycol Res 109:853–859PubMedCrossRefGoogle Scholar
  69. Braune RA (1913) Untersuchungen über die im Wiederkäuermagen vorkommenden Protozoen. Arch Für Protistenkd 32:111–170Google Scholar
  70. Bresinsky A, Besl H (2003) Beiträge zu einer Mykoflora Deutschlands: Schlüssel zur Gattungsbestimmung der Blätter-, Leisten- und Röhrenpilze: mit Literaturhinweisen zur Artbestimmung. Regensburger mykologische Schriften. Verlag der Gesellschaft, RegensburgGoogle Scholar
  71. Breton A, Dusser M, Gaillard-Martine B, Guillot J, Millet L, Prensier G (1991) Piromyces rhizinflata nov. sp., a strictly anaerobic fungus from faeces of the Saharian ass: a morphological, metabolic and ultrastructural study. FEMS Microbiol Lett 82:1–8CrossRefGoogle Scholar
  72. Brookman JL, Mennim G, Trinci APJ, Theodorou MK, Tuckwell DS (2000) Identification and characterization of anaerobic gut fungi using molecular methodologies based on ribosomal ITS1 and 18S rRNA. Microbiology 146:393–403PubMedCrossRefGoogle Scholar
  73. Budziszewska J, Piatkowska J (2010) Taxonomic position of Mucor hiemalis f. luteus. Mycotaxon 111:75–85CrossRefGoogle Scholar
  74. Bulgakov TS (2010) Microfungi of Leucostoma and Valsa genera and their Cytospora anamorphs on arboreal plants in the steppe zone of Southern Russia//Actual problems of ecology: Mater. IV All-Russian Scien. Conf. in Vladikavkaz, North Ossetian State University, pp 40–45. (in Russian)Google Scholar
  75. Butin H, Holdenrieder O, Sieber TN (2013) The complete life cycle of Petrakia echinata. Mycol Prog 12:427–435CrossRefGoogle Scholar
  76. Buyck B (1989) Revision du genre Russula Persoon en Afrique Centrale. PhD dissertation, Rijksuniversiteit GentGoogle Scholar
  77. Buyck B, Hoyak E (1999) New taxa of pleurotoid Russulaceae. Mycologia 91:532–537CrossRefGoogle Scholar
  78. Buyck B, Thoen D, Watling R (1996) Ectomycorrhizal fungi of the Guinea-Congo region. Proc Royal Soc Edinburgh Sect B BioSci 104:313–333Google Scholar
  79. Buyck B, Hofstetter V, Eberhardt U, Verbeken A, Kauff F (2008) Walking the thin line between Lactarius and Russula: the dilemma of Russula sect. Ochricompactae. Fungal Divers 28:15–40Google Scholar
  80. Buyck B, Hofstetter V, Verbeken A, Walleyn R (2010) Proposal 1919: to conserve Lactarius nom. cons. (Basidiomycota) with a conserved type. Mycotaxon 111:504–508Google Scholar
  81. Cáceres MES, Aptroot A, Parnmen S, Lücking R (2014) Remarkable diversity of the lichen family Graphidaceae in the Amazon rain forest of Rondônia, Brazil. Phytotaxa 189:87–136CrossRefGoogle Scholar
  82. Cai L, Hyde KD, Taylor PWJ, Weir BS, Waller J, Abang MM, Zhang JZ, Yang YL, Phoulivong S, Liu ZY, Prihastuti H, Shivas RG, McKenzie EHC, Johnston PR (2009) A polyphasic approach for studying Colletotrichum. Fungal Divers 39:183–204Google Scholar
  83. Cai Q, Tulloss RE, Tang LP, Tolgor B, Zhang P, Chen ZH, Yang ZL (2014) Multi-locus phylogeny of lethal amanitas: implications for species diversity and historical biogeography. BMC Evol Biol 14:1–16CrossRefGoogle Scholar
  84. Cannon PF, Damm U, Johnston PR, Weir BS (2012) Colletotrichum-current status and future directions. Stud Mycol 73:181–213PubMedPubMedCentralCrossRefGoogle Scholar
  85. Cao Y, Wu SH, Dai YC (2012) Species clarification of the prize medicinal Ganoderma mushroom “Lingzhi”. Fungal Divers 56:49–62CrossRefGoogle Scholar
  86. Cao Y, Yuan HS (2013) Ganoderma mutabile sp. nov. from southwestern China based on morphological and molecular data. Mycol Progress 12:121–126CrossRefGoogle Scholar
  87. Castlebury LA, Rossman AY, Jaklitsch WJ, Vasilyeva LN (2002) A preliminary overview of the Diaporthales based on large subunit nuclear ribosomal DNA sequences. Mycologia 94:1017–1031PubMedCrossRefGoogle Scholar
  88. Ceska O (2013) The macrofungi of observatory hill: long–term survey and inventory November 2004 – March 2013. http://www.goert.ca/activities/2013/05/macrofungi–observatory–hill/
  89. Chadefaud M (1960) Les végétaux non vasculaires (Cryptogamie). In: Chadefaud M, Emberger L (eds) Traité de botanique systématique, vol 1. Tome I, Masson et Cie, Paris, p 1016Google Scholar
  90. Chaverri P, Liu M, Hodge KT (2008) A monograph of the entomopathogenic genera Hypocrella, Moelleriella and Samuelsia gen. nov. (Ascomycota, Hypocreales, Clavicipitaceae) and their aschersonia-like anamorphs in the Neotropics. Stud Mycol 60:1–66PubMedPubMedCentralCrossRefGoogle Scholar
  91. Chen GQ, Zheng RY (1986) A new species of Mucor with giant spores. Acta Mycol Sin 1:56–60Google Scholar
  92. Chen J, Zhao RL, Parra LA, Guelly AK, Kesel AD, Rapion S, Hyde KD, Chukeatirote E, Callac P (2015) Agaricus section Brunneopicti: a phylogenetic reconstruction with descriptions of four new taxa. Phytotaxa 192:145–168CrossRefGoogle Scholar
  93. Chen J, Zhao RL, Karunarathna SC, Callac P, Raspé O, Bahkali AH, Hyde KD (2012) Agaricus megalosporus: a new speciesin section Minores. Cryptogam Mycol 33:145–155CrossRefGoogle Scholar
  94. Chen JJ, Cui BK, He SH et al. (2016) Molecular phylogeny and global diversity of the remarkable genus Bondarzewia (Basidiomycota, Russulales). Mycologia. doi: 10.3852/14-216
  95. Chen YC, Hseu RS, Chien CY (2002) Piromyces polycephalus (Neocallimastigaceae), a new rumen fungus. Nova Hedwig 75:409–414CrossRefGoogle Scholar
  96. Chen ZH, Dai YD, Yu H, Yang K, Yang ZL, Yuan F, Zeng WB (2013) Systematic analyses of Ophiocordyceps lanpingensis sp. nov., a new species of Ophiocordyceps in China. Microbiol Res 168:525–532PubMedCrossRefGoogle Scholar
  97. Chevallier FF (1826) Flore Générale des Environs de Paris 1. Ferra Jeune, Paris, pp1–674Google Scholar
  98. Ciferri R (1958) Manuale di micologia medica. edn 2 . Pavia, Cortina, pp 1–178Google Scholar
  99. Clements FE (1909) The genera of fungi, 1st edn. H.W. Wilson, Minneapolis, 114 ppGoogle Scholar
  100. Cooke DEL, Drenth A, Duncan JM, Wagels G, Brasier CM (2000) A molecular phylogeny of Phytophthora and related Oomycetes. Fungal Genet Biol 30:17–32PubMedCrossRefGoogle Scholar
  101. Corda ACI (1833) Die Pilze Deutschlands. In: Sturm J (ed) Deutschlands Flora in Abbildungen nach der Natur mit Beschreibungen. Sturm, Nürnberg 12:33–64Google Scholar
  102. Corner EJH (1981) The agaric genera Lentinus, Panus, and Pleurotus with particular reference to Malaysian species. Nova Hedwig Beih 69:1–169Google Scholar
  103. Crous PW, Palm ME (1999) Reassessment of the anamorph genera Botryodiplodia, Dothiorella and Fusicoccum. Sydowia 51:167–175Google Scholar
  104. Crous PW, Verkley GJM, Christensen M, Castañeda-Ruiz RF, Groenewald JZ (2012) How important are conidial appendages? Persoonia 28:126–137PubMedPubMedCentralCrossRefGoogle Scholar
  105. Crous PW, Wingfield MJ, Schumacher RK, Summerell BA, Giraldo A, Gené J, Guarro J, Wanasinghe DN, Hyde KD, Camporesi E, Gareth Jones EB, Thambugala KM, Malysheva EF, Malysheva VF, Acharya K, Álvarez J, Alvarado P, Assefa A, Barnes CW, Bartlett JS, Blanchette RA, Burgess TI, Carlavilla JR, Coetzee MP, Damm U, Decock CA, den Breeÿen A, de Vries B, Dutta AK, Holdom DG, Rooney-Latham S, Manjón JL, Marincowitz S, Mirabolfathy M, Moreno G, Nakashima C, Papizadeh M, Shahzadeh Fazeli SA, Amoozegar MA, Romberg MK, Shivas RG, Stalpers JA, Stielow B, Stukely MJ, Swart WJ, Tan YP, van der Bank M, Wood AR, Zhang Y, Groenewald JZ (2014a) Fungal planet description sheets: 281–319. Persoonia 33:212–289PubMedPubMedCentralCrossRefGoogle Scholar
  106. Crous PW, Shivas RG, Quaedvlieg W, van der Bank M, Zhang Y, Summerell BA, Guarro J, Wingfield MJ, Wood AR, Alfenas AC, Braun U, Cano-Lira JF, García D, Marin-Felix Y, Alvarado P, Andrade JP, Armengol J, Assefa A, den Breeÿen A, Camele I, Cheewangkoon R, De Souza JT, Duong TA, Esteve-Raventós F, Fournier J, Frisullo S, García-Jiménez J, Gardiennet A, Gené J, Hernández-Restrepo M, Hirooka Y, Hospenthal DR, King A, Lechat C, Lombard L, Mang SM, Marbach PA, Marincowitz S, Marin-Felix Y, Montaño-Mata NJ, Moreno G, Perez CA, Pérez Sierra AM, Robertson JL, Roux J, Rubio E, Schumacher RK, Stchigel AM, Sutton DA, Tan YP, Thompson EH, van der Linde E, Walker AK, Walker DM, Wickes BL, Wong PT, Groenewald JZ (2014b) Fungal Planet description sheets: 214–280. Persoonia 32:184–306PubMedPubMedCentralCrossRefGoogle Scholar
  107. Crous PW, Schumacher RK, Wingfield MJ, Lombard L, Giraldo A, Christensen M, Gardiennet A, Nakashima C, Pereira OL, Smith AJ, Groenewald JZ (2015a) Fungal systematics and evolution: FUSE 1. Sydowia 67:81–118Google Scholar
  108. Crous PW, Müller MM, Sánchez RM, Giordano L, Bianchinotti MV, Anderson FE, Groenewald JZ (2015b) Resolving Tiarosporella spp. allied to Botryosphaeriaceae and Phacidiaceae. Phytotaxa 202:73–93CrossRefGoogle Scholar
  109. Crous PW, Wingfield MJ, Guarro J, Hernández-Restrepo M, Sutton DA, Acharya K, Barber PA, Boekhout T, Dimitrov RA, Dueñas M, Dutta AK, Gené J, Gouliamova DE, Groenewald M, Lombard L, Morozova OV, Sarkar J, Smith MT, Stchigel AM, Wiederhold NP, Alexandrova AV, Antelmi I, Armengol J, Barnes I, Cano-Lira JF, Castañeda Ruiz RF, Contu M, Courtecuisse PR, da Silveira AL, Decock CA, de Goes A, Edathodu J, Ercole E, Firmino AC, Fourie A, Fournier J, Furtado EL, Geering ADW, Gershenzon J, Giraldo A, Gramaje D, Hammerbacher A, He X-L, Haryadi D, Khemmuk W, Kovalenko AE, Krawczynski R, Laich F, Lechat C, Lopes UP, Madrid H, Malysheva EF, Marin-Felix Y, Martin MP, Mostert L, Nigro F, Pereira OL, Picillo B, Pinho DB, Popov ES, Rodas Peláez CA, Rooney-Latham S, Sandoval-Denis M, Shivas RG, Silva V, Stoilova-Disheva MM, Telleria MT, Ullah C, Unsicker SB, van der Merwe NA, Vizzini A, Wagner H-G, Wong PTW, Wood AR, Groenewald JZ (2015c) Fungal planet description sheets: 320–370. Persoonia 34:167–266PubMedPubMedCentralCrossRefGoogle Scholar
  110. Crous PW, Carris LM, Giraldo A, Groenewald JZ, Hawksworth DL, Hernández-Restrepo M, Jaklitsch WM, Lebrun M-H, Schumacher RK, Stielow B, van der Linde EJ, Vilcāne J, Voglmayr H, Wood AR (2015d) The Genera of Fungi - fixing the application of the type species of generic names–G 2: Allantophomopsis, Latorua, Macrodiplodiopsis, Macrohilum, Milospium, Protostegia, Pyricularia, Robillarda, Rotula, Septoriella, Torula, and Wojnowicia. IMA Fungus 6:163–198PubMedPubMedCentralCrossRefGoogle Scholar
  111. Crous PW, Hawksworth DL, Wingfield MJ (2015e) Identifying and naming plant-pathogenic fungi: past, present, and future. Annu Rev Phytopathol 53:247–267PubMedCrossRefGoogle Scholar
  112. Cui BK, Dai YC, He SH, Zhou LW, Yuan HS (2015) A novel Phellinidium sp. causes laminated root rot on Qilian juniper (Sabina przewalskii) in Northwest China. Plant Dis 99:39–43CrossRefGoogle Scholar
  113. Cunningham GH (1921) The genus Cordyceps in New Zealand. Trans Proc NZ Inst 53:372–382Google Scholar
  114. Dai YC (2010) Hymenochaetaceae (Basidiomycota) in China. Fungal Divers 45:131–343CrossRefGoogle Scholar
  115. Dai YC, Cui BK, Decock C (2008) A new species of Fomitiporia (Hymenochaetaceae, Basidiomycota) from China based on morphological and molecular characters. Mycol Res 112:375–380PubMedCrossRefGoogle Scholar
  116. Dai YC, Cui BK, Liu XY (2010) Bondarzewia podocarpi, a new and remarkable polypore from tropical China. Mycologia 102:881–886PubMedCrossRefGoogle Scholar
  117. Dai YC, Cui BK, Yuan HS, Li BD (2007) Pathogenic wood-decaying fungi in China. Forest Pathol 37:105–120CrossRefGoogle Scholar
  118. Dai YC, Yang ZL, Cui BK, Yu CJ, Zhou LW (2009) Species diversity and utilization of medicinal mushrooms and fungi in China (Review). Int J Med Mushrooms 11:287–302CrossRefGoogle Scholar
  119. Damm U, Woudenberg JHC, Cannon PF, Crous PW (2009) Colletotrichum species with curved conidia from herbaceous hosts. Fungal Divers 39:45–87Google Scholar
  120. Das K, Chakraborty D (2014) Three interesting species of wild mushrooms from Sikkim (India). Indian J Plant Sci 3:101–108Google Scholar
  121. Das K, Miller SL, Sharma JR (2005) Russula in Himalaya 1: a new species of subgenus Amoenula. Mycotaxon 94:85–88Google Scholar
  122. Das K, Miller SL, Sharma JR (2006a) Russula in Himalaya 2: four new taxa. Mycotaxon 95:205–215Google Scholar
  123. Das K, Sharma JR, Atri NS (2006b) Russula in Himalaya 3: a new species of subgenus Ingratula. Mycotaxon 95:271–275Google Scholar
  124. Das K, Putte VDP, Buyck B (2010) New or interesting Russula from Sikkim Himalaya (India). Cryptog Mycol 31:373–387Google Scholar
  125. Das K, Atri NS, Buyck B (2013) Three new Russula (Russulales) from India. Mycosphere 4:722–732CrossRefGoogle Scholar
  126. Das K, Dowie NJ, Li GJ, Miller SL (2014) Two new species of Russula (Russulales) from India. Mycosphere 5:612–622Google Scholar
  127. de Almeida DAC, Gusmão LFP, Miller AN (2014) A new genus and three new species of hysteriaceous ascomycetes from the semiarid region of Brazil. Phytotaxa 176:298–308CrossRefGoogle Scholar
  128. De Bertoldi M, Lepidi AA, Nuti MP (1972) Classification of the genus Humicola Traaen I. preliminary reports and investigations. Mycopathologia 46:289–304Google Scholar
  129. De Crop E, Nuytinck J, Van de Putte K, Lecomte M, Eberhardt U, Verbeken A (2014) Lactifluus piperatus (Russulales, Basidiomycota) and allied species in Western Europe and a preliminary overview of the group worldwide. Mycol Prog 13:493–511CrossRefGoogle Scholar
  130. De Crop E, Nuytinck J, Van de Putte K et al (subm.) A multi-gene phylogeny of Lactifluus (Basidiomycota, Russulales) translated into a new infrageneric classification of the genus. Mycol Prog (In press)Google Scholar
  131. De Gruyter JD, Woudenberg JHC, Aveskamp AA, Verkley GJM, Groenewald JZ, Crous PW (2012) Redisposition ofPhoma-like anamorphs in Pleosporales. Stud Mycol 75:1–36PubMedCentralCrossRefGoogle Scholar
  132. Decock C, Figueroa SH, Robledo G, Castillo G (2007) Fomitiporia punctata (Basidiomycota, Hymenochaetales) and its presumed taxonomic synonyms in America: taxonomy and phylogeny of some species from tropical/subtropical areas. Mycologia 99:733–752PubMedCrossRefGoogle Scholar
  133. Dexter Y, Cooke RC (1984) Fatty acids, sterols and catotenoids of the psychrophile Mucor strictus and some mesophilic Mucor species. Trans Brit Mycol Soc 83:455–461CrossRefGoogle Scholar
  134. Doweld AB (2012) (2068–2070) Proposals to conserve Pertusariaceae against Variolariaceae, Chrysothrichaceae against Pulverariaceae and Dothioraceae against Saccotheciaceae (Fungi) with revision of dates of publication given in Taxonomic Literature II. Taxon 61:681–682Google Scholar
  135. Du Y, Shi P, Huang H, Zhang X, Luo H, Wang Y, Yao B (2013) Characterization of three novel thermophilic xylanase from Humicola insolens Y1 with application potentials in the brewing industry. Bioresou Tech 130:161–167CrossRefGoogle Scholar
  136. Duhem B, Michel H (2009) Une espèce nouvelle de Corticium s.st. Études dans les genres Dendrocorticium et Dentocorticium (Basidiomycotina). Cryptogam Mycol 30:161–179Google Scholar
  137. Eberhardt U (2002) Molecular kinship analyses of the agaricoid Russulaceae: correspondence with mycorrhizal anatomy and sporocarp features in the genus Russula. Mycol Prog 1:201–223CrossRefGoogle Scholar
  138. Ellis MB (1971) Dematiaceous hyphomycetes. Commonwealth Mycological Institute, KewGoogle Scholar
  139. Ertz D, Diederich P, Lawrev JD, Berger F, Freebury CE, Coppins B, Gardiennet A, Hafellner J (2015) Phylogenetic insights resolve Dacampiaceae (Pleosporales) as polyphyletic: Didymocyrtis (Pleosporales, Phaeosphaeriaceae) with Phoma-like anamorphs resurrected and segregated from Polycoccum (Trypetheliales, Polycoccaceae fam. nov.). Fungal Divers 74:53–89CrossRefGoogle Scholar
  140. Fan XL, Liang YM, Ma R, Tian CM (2014a) Morphological and phylogenetic studies of Cytospora (Valsaceae, Diaporthales) isolates from Chinese scholar tree, with description of a new species. Mycoscience 55:252–259CrossRefGoogle Scholar
  141. Fan XL, Tian CM, Yang Q, Liang YM, You CJ, Zhang YB (2014b) Cytospora from Salix in northern China. Mycotaxon 129:303–315CrossRefGoogle Scholar
  142. Fan XL, Hyde KD, Liu M et al. (2015a) Cytospora species associated with walnut canker disease in China, with description of a new species C. gigalocus. Fungal Biol 119:310–319Google Scholar
  143. Fan XL, Hyde KD, Yang Q, Liang YM, Ma R, Tian CM (2015b) Cytospora species associated with canker disease of three antidesertification plants in northwestern China. Phytotaxa 197:227–244CrossRefGoogle Scholar
  144. Farr DF, Rossman AY (2015) Fungal databases, systematic mycology and microbiology laboratory, ARS, USDA. Retrieved January 11, 2015, from http://nt.ars-grin.gov/fungaldatabases/
  145. Fell JW, Master IM (1975) Phycomycetes (Phytophthora spp. nov. and Pythium sp. nov.) associated with degrading mangrove (Rhizophora mangle) leaves. Can J Bot 53:2908–2922CrossRefGoogle Scholar
  146. Fernández FA, Huhndorf SM (2005) New species of Chaetosphaeria, Melanopsammella and Tainosphaeria gen. nov. from the Americas. Fungal Divers 18:15–57Google Scholar
  147. Fernández FA, Miller AN, Huhndorf SM, Lutzoni FM, Zoller S (2006) Systematics of the genus Chaetosphaeria and its allied genera: morphological and phylogenetic diversity in north temperate and neotropical taxa. Mycologia 98:121–130PubMedCrossRefGoogle Scholar
  148. Ferreira JHS (1987) Dieback of grapevines in South Africa. PhD Thesis, University of the Western Cape, South AfricaGoogle Scholar
  149. Fidalgo O (1968) Phellinus pachyphloeus and its allies. Mem NY Bot Gard 17:109–147Google Scholar
  150. Fliegerová K, Hodrová B, Voigt K (2004) Classical and molecular approaches as a powerful tool for the characterization of rumen polycentric fungi. Folia Microbiol (Praha) 49:157–164CrossRefGoogle Scholar
  151. Fliegerová K, Mrázek J, Hoffmann K, Zábranská J, Voigt K (2010) Diversity of anaerobic fungi within cow manure determined by ITS1 analysis. Folia Microbiol (Praha) 55:319–325CrossRefGoogle Scholar
  152. Fotouhifar KB, Hedjaroude GA, Leuchtmann A (2010) ITS rDNA phylogeny of Iranian strains of Cytospora and associated teleomorphs. Mycologia 102:1369–1382PubMedCrossRefGoogle Scholar
  153. Fries EM (1823) Systema mycologicum vol 2. Greifswald, Germany. (in Latin)Google Scholar
  154. Fries GE (1874) Hymenomycetes. Eur. Ed. Berling, UppsalaGoogle Scholar
  155. Frye CB, Reinhardt DJ (1993) Characterization of groups of the Zygomycete genus Rhizopus. Mycopathologia 124:139–147CrossRefGoogle Scholar
  156. Fuckel L (1870) Symbolae mycologicae. Beiträge zur Kenntniss der Rheinischen Pilze. Jb nassau Ver Naturk 23–24:212Google Scholar
  157. Fujimura R, Nishimura A, Ohshima S, Sato Y, Nishizawa T, Oshima K, Hattori M, Narisawa K, Ohta H (2014) Draft genome sequence of the betaproteobacterialendosymbiont associated with the fungus Mortierella elongata FMR23-6. Genome Announce 2:e01272–14CrossRefGoogle Scholar
  158. Fungal Names (2016) http://124.16.146.175:8080/checklist/checklist.html. Accessed on Mar 2016
  159. Gaillard-Martinie B, Breton A, Dusser M, Julliand V (1995) Piromyces citronii sp. nov., a strictly anaerobic fungus from the equine caecum: a morphological, metabolic, and ultrastructural study. FEMS Microbiol Lett 130:321–326CrossRefGoogle Scholar
  160. Gams W (1976) Some new or noteworthy species of Mortierella. Persoonia 9:111–140Google Scholar
  161. Gams W (1977) A key to the species of Mortierella. Persoonia 9:381–391Google Scholar
  162. Garnica S, Weiss M, Walther G, Oberwinkler F (2007) Reconstructing the evolution of agarics from nuclear gene sequences and basidiospore ultrastructure. Mycol Res 111:1019–1029PubMedCrossRefGoogle Scholar
  163. Garnica S, Spahn P, Oertel B, Ammirati J, Oberwinkler F (2011) Tracking the evolutionary history of Cortinarius species in section Calochroi, with transoceanic disjunct distributions. BMC Evol Biol 11:213–231PubMedPubMedCentralCrossRefGoogle Scholar
  164. Gelardi M, Vizzini A, Ercole E, Voyron S, Sun JZ, Liu XZ (2013) Boletus sinopulverulentus, a new species from Shaanxi Province (central China) and notes on Boletus and Xerocomus. Sydowia 65:45–57Google Scholar
  165. Ghobad-Nejhad M, Nilsson RH, Hallenberg N (2010) Phylogeny and taxonomy of the genus Vuilleminia (Basidiomycota) based on molecular and morphological evidence, with new insights into Corticiales. Taxon 59:1519–1534Google Scholar
  166. Gold JJ, Heath IB, Bauchop T (1988) Ultrastructural description of a new chytrid genus of caecum anaerobe, Caecomyces equi gen. nov., sp. nov., assigned to the Neocallimasticaceae. Biosystems 21:403–415PubMedCrossRefGoogle Scholar
  167. Gorjón SP, Saitta A (2014) Leptocorticium gloeocystidiatum sp. nov. (Corticiales, Basidiomycota), a new corticioid fungus from Sicily, Italy. Mycosphere 5:406–409CrossRefGoogle Scholar
  168. Grove WB (1937) British stem-and leaf-fungi (Coelomycetes). Vol. II. Cambridge at the University Press, CambridgeGoogle Scholar
  169. Gruninger RJ, Puniya AK, Callaghan TM, Edwards JE, Youssef N, Dagar SS, Fliegerova K, Griffith GW, Forster R, Tsang A, McAllister T, Elshahed MS (2014) Anaerobic Fungi (Phylum Neocallimastigomycota): advances in understanding of their taxonomy, life cycle, ecology, role, and biotechnological potential. FEMS Microbiol Ecol 90:1–17PubMedCrossRefGoogle Scholar
  170. Guindon S, Gascuel O (2003) A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood. Syst Biol 52:679–704CrossRefGoogle Scholar
  171. Guindon S, Dufayard JF, Lefort V, Anisimova M, Hordijk W, Gascuel O (2010) New algorithms and methods to estimate maximum likelihood phylogenies: assessing the performance of PhyML 3.0. Syst Biol 59:307–321PubMedCrossRefGoogle Scholar
  172. Gvritishvili MN (1982) The fungal genus Cytospora in the USSR. Izdatelstve Sabchota Sakarstvelo, TbilisiGoogle Scholar
  173. Hall T (2004) BioEdit. Ibis Therapeutics, Carlsbad, CA, 92008, USA. http://www.mbio.ncsu.edu/BioEdit/bioedit.html. 18 Mar 2005
  174. Hallenberg N (1980) New taxa of Corticiaceae from N. Iran (Basidiomycetes). Mycotaxon 11:447–475Google Scholar
  175. Hallenberg N (2012) Leptocorticium tenellum (Agaricomycetes) found in Chile. Kurtziana 37:109–112Google Scholar
  176. Hansen EM, Reeser PW, Sutton W (2012) Phytophthora borealis and Phytophthora riparia, new species in Phytophthora ITS Clade 6. Mycologia 104:1133–1142PubMedCrossRefGoogle Scholar
  177. Hao YJ, Qin J, Yang ZL (2014) Cibaomyces, a new genus of Physalacriaceae from East Asia. Phytotaxa 162:198–210CrossRefGoogle Scholar
  178. Hardham AR (2009) The asexual life cycle. In: Lamour K, Kamoun S (eds) Oomycete genetics and genomics: diversity, interactions, and research tools. Wiley, Hoboken, pp 93–119CrossRefGoogle Scholar
  179. Harrower E, Ammirati JF, Cappuccino AA, Ceska O, Kranabetter JM, Kroeger P, Lim S, Taylor T, Berbee ML (2011) Cortinarius species diversity in British Columbia and molecular phylogenetic comparison with European specimen sequences. Botany 89:799–810CrossRefGoogle Scholar
  180. Hashimoto A, Sato G, Matsuda T, Hirayama K, Hatakeyama S, Harada Y, Shirouzu T, Tanaka K (2015a) Molecular taxonomy of Dinemasporium and its allied genera. Mycoscience 56:86–101CrossRefGoogle Scholar
  181. Hashimoto A, Sato G, Matsuda T, Matsumura M, Hatakeyama S, Harada Y, Tanaka K (2015b) Taxonomic revision of Pseudolachnea and Pseudolachnella and establishment of Neopseudolachnella and Pseudodinemasporium gen. nov. Mycologia 107:383–408PubMedCrossRefGoogle Scholar
  182. Hawksworth DL (1982) A new species of Caryospora from Eugenia in East Africa. Trans Br Mycol Soc 79:69–74CrossRefGoogle Scholar
  183. Hawksworth DL, Eriksson O (1988) (895) – (906) Proposal to conserve 11 family names in the Ascomycotina (Fungi). Taxon 37:190–193CrossRefGoogle Scholar
  184. He MQ, Zhao RL (2015) A new species of Agaricus section Minores from China. Mycology 6:182–186CrossRefGoogle Scholar
  185. Heath IB, Bauchop T, Skipp RA (1983) Assignment of the rumen anaerobe Neocallimastix frontalis to the Spizellomycetales (Chytridiomycetes) on the basis of its polyflagellate zoospore ultrastructure. Can J Bot 61:295–307CrossRefGoogle Scholar
  186. Heinemann P (1978) Essai d’une clé de détermination des genres Agaricus et Micropsalliota. Sydowia 30:6–37Google Scholar
  187. Hermet A, Méheust D, Monunier J, Barbier G, Jany JL (2012) Molecular systematics in the genus Mucor with special regards to species encountered in cheese. Fungal Biol 116:692–705PubMedCrossRefGoogle Scholar
  188. Hesseltine CW, Ellis JJ (1961) Notes on Mucorales, especially Absidia. Mycologia 53:406–426CrossRefGoogle Scholar
  189. Hesseltine CW, Ellis JJ (1964) The genus Absidia: Gongronella and cylindrical spored species of Absidia. Mycologia 56:568–601CrossRefGoogle Scholar
  190. Hibbett DS, Binder M, Bischoff JF, Blackwell M, Cannon PF, Eriksson OE, Huhndorf S, James T, Kirk PM, Lucking R, Thorsten Lumbsch H, Lutzoni F, Matheny PB, McLaughlin DJ, Powell MJ, Redhead S, Schoch CL, Spatafora JW, Stalpers JA, Vilgalys R, Aime MC, Aptroot A, Bauer R, Begerow D, Benny GL, Castlebury LA, Crous PW, Day Y-C, Gams W, Geiser DM, Griffith GW, Gueidan C, Hawksworth DL, Hestmark G, Hosaka K, Humber RA, Hyde KD, Ironside IE, Koljalg U, Kurtzman CP, Larsson K-H, Lichtwardt R, Longcore J, Miądlikowska J, Miller A, Moncalvo J-M, Mozley-Standtridge S, Oberwinkler F, Parmasto E, Reeb W, Rogers J-D, Roux C, Ryvarden L, Sampaio JP, Schussler A, Sugiyama J, Thorn RG, Tibell L, Untereiner WA, Walker C, Wang Z, Weir A, Weiss M, White MM, Winka K, Yao Y-J, Zhang N (2007) A higher- level phylogenetic classification of the Fungi. Mycol Res 111:509–547PubMedCrossRefGoogle Scholar
  191. Hino I, Katumoto K (1958) On Chaetopatella, a new genus of the Excipulaceae. J Jpn Bot 33:233–239Google Scholar
  192. Hirayama K, Tanaka K, Raja HA, Miller AN, Shearer CA (2010) A molecular phylogenetic assessment of Massarina ingoldianasensu lato. Mycologia 102:729–746PubMedCrossRefGoogle Scholar
  193. Ho HM, Chen ZC (1990) Morphological study of Gongronella butleri (Mucorales) from Taiwan. Taiwania 35:259–263Google Scholar
  194. Ho HM, Chuang SC, Chen SJ (2004) Notes on Zygomycetes of Taiwan (IV): three Absidia species (Mucoraceae). Fung Sci 19:125–131Google Scholar
  195. Ho YW, Barr DJS, Abdullah N, Jalaluldin S, Kudo H (1993a) A new species of Piromyces from the rumen of deer in Malaysia. Mycotaxon 47:285–293Google Scholar
  196. Ho YW, Barr DJS, Abdullah N, Jalaluldin S, Kudo H (1993b) Piromyces spiralis, a new species of anaerobic fungus from the rumen of goat. Mycotaxon 48:59–68Google Scholar
  197. Hodhod MS, Abdel-Wahab MA, Bahkali AH, Hyde KD (2012) Amergraphium solium sp. nov. from Yanbu mangroves in the Kingdom of Saudi Arabia. Cryptogam Mycol 33:285–294CrossRefGoogle Scholar
  198. Hoffmann K, Voigt K (2009) Absidia parricida plays a dominant role in biotrophic fusion parasitism among mucoralean fungi (Zygomycetes): Lentamyces, a new genus for A. parricida and A. zychae. Plant Biol 4:537–554CrossRefGoogle Scholar
  199. Hoffmann K, Discher S, Voigt K (2007) Revision of the genus Absidia (Mucorales, Zygomycetes) based on physiological, phylogenetic, and morphological characters; thermotolerant Absidia spp. form a coherent group, Mycocladiaceae fam. nov. Mycol Res 111:1169–1183PubMedCrossRefGoogle Scholar
  200. Hoffmann K, Voigt K, Kirk P (2011) Mortierellomycotina subphyl. nov., based on multi-gene genealogies. Mycotaxon 115:353–363CrossRefGoogle Scholar
  201. Hoffmann K, Pawlowska J, Walther G, Wrzosek M, de Hoog GS, Benny GL, Kirk PM, Voigt K (2013) The family structure of the Mucorales: a synoptic revision based on comprehensive multigene-genealogies. Persoonia 30:57–76PubMedPubMedCentralCrossRefGoogle Scholar
  202. Hofstetter V, Clémençon H, Vilgalys R, Moncalvo J-M (2002) Phylogenetic analyses of the Lyophylleae (Agaricales, Basidiomycota) based on nuclear and mitochondrial rDNA sequences. Mycol Res 106:104–1059CrossRefGoogle Scholar
  203. von Höhnel F (1918) Mycologische Fragmente, 272. Über die Hysteriaceen. Ann Mycol 16:145–154Google Scholar
  204. Höhnel F (1919) Fünfte vorläufige Mitteilung mykologische Ergebnisse (Nr. 300–500). Berichte der Deutschen Botanischen Gesellschaft 37:153–161Google Scholar
  205. Holm L (1957) Nomenclatural notes on Pyrenomycetes. Taxon 24:475–488CrossRefGoogle Scholar
  206. Holm L, Holm K (1988) Studies in the Lophiostomataceae with emphasis on the Swedish species. Symb Bot Upsal 28:1–50Google Scholar
  207. Hong CX, Gallegly ME, Richardson PA, Kong P, Moorman GW, Lea-Cox JD, Ross DS (2010) Phytophthora hydropathica, a new pathogen identified from irrigation water, Rhododendron catawbiense and Kalmia latifolia. Plant Pathol 59:913–921CrossRefGoogle Scholar
  208. Hong CX, Richardson PA, Hao W, Ghimire SR, Kong P, Moorman GW, Lea-Cox JD, Ross DS (2012) Phytophthora aquimorbida sp. nov. and Phytophthora taxon ‘aquatilis’ recovered from irrigation reservoirs and a stream in Virginia, USA. Mycologia 104:1097–1108PubMedCrossRefGoogle Scholar
  209. Hongo T (1982) The Amanitas of Japan. Acta Phytotaxon Geobot 33:116–126Google Scholar
  210. Hosen MI, Ge ZW (2011) Clarkeinda trachodes (Agaricales, Basidiomycetes), first record from Bangladesh. Mycotaxon 118:331–336CrossRefGoogle Scholar
  211. Hongsanan S, Tian Q, Peršoh D, Zeng XY, Hyde KD, Chomnunti P, Boonmee S, Bahkali AH, Wen TC (2015) Meliolales. Fungal Divers 74:91–141CrossRefGoogle Scholar
  212. Hsieh HM, Ju YM, Rogers JD (2005) Molecular phylogeny of Hypoxylon and closely related genera. Mycologia 97:844–865PubMedCrossRefGoogle Scholar
  213. Hundorf SM, Miller AN, Fernández FA (2004) Molecular systematics of the Coronophorales and new species of Bertia, Lasiobertia and Nitschkia. Mycol Res 108:1384–1398CrossRefGoogle Scholar
  214. Hyde KD (1990) A new marine ascomycete from Brunei. Aniptodera longispora sp. nov. from intertidal mangrove wood. Bot Mar 33:335–338CrossRefGoogle Scholar
  215. Hyde KD (2002) Aniptodera triseptata sp. nov. (Halosphaeriales) from submerged wood in freshwater. Cryptogam Mycol 23:5–7Google Scholar
  216. Hyde KD, Ho WH, Tsui CKM (1999) The genera Aniptodera, Halosarpheia, Nais and Phaeonectriella from freshwater habitats. Mycoscience 40:165–183CrossRefGoogle Scholar
  217. Hyde KD, Vrijmoed LLP, Chinnaraj S, Jones EBG (1992) Massarina armatispora sp. nov., a new intertidal ascomycete from mangroves. Bot Mar 35:325–328CrossRefGoogle Scholar
  218. Hyde KD, Cai L, McKenzie EHC, Yang YL, Zhang JZ, Prihastuti H (2009) Colletotrichum: a catalogue of confusion. Fungal Divers 39:1–17Google Scholar
  219. Hyde KD, Abd-Elsalam K, Cai L (2010) Morphology: still essential in a molecular world. Mycotaxon 114:439–451CrossRefGoogle Scholar
  220. Hyde KD, Jones EBG, Liu JK, Ariyawansa H, Boehm E, Boonmee S, Braun U, Chomnunti P, Crous PW, Dai DQ, Diederich P, Dissanayake A, Doilom M, Doveri F, Hongsanan S, Jayawardena R, Lawrey JD, Li YM, Liu Y-X, Lucking R, Monkai J, Muggia L, Nelsen MP, Pang KL, Phookamsak R, Senanayake IC, Shearer CA, Suetrong S, Tanaka K, Thambugala KM, Wijayawardene NN, Wikee S, Wu HX, Zhang Y, Aguirre-Hudson B, Alias SA, Aptroot A, Bahkali AH, Bezerra JL, Bhat DJ, Camporesi E, Chukeatirote E, Gueidan C, Hawksworth DL, Hirayama K, De Hoog S, Kang JC, Knudsen K, Li WJ, Li XH, Liu ZY, Mapook A, McKenzie EHC, Miller AN, Mortimer PE, Phillips AJL, Raja HA, Scheuer C, Schumm F, Taylor JE, Tian Q, Tibpromma S, Wanasinghe DN, Wang Y, Xu JC, Yacharoen S, Yan JY, Zhang M (2013) Families of Dothideomycetes. Fungal Divers 63:1–313CrossRefGoogle Scholar
  221. Hyde KD, Nilsson RH, Alias SA, Ariyawansa HA, Blair JE, Cai L, de Cock AWAM, Dissanayake AJ, Glockling SL, Goonasekara ID, Gorczak M, Hahn M, Jayawardena RS, van Kan JAL, Laurence MH, Lévesque CA, Li XH, Liu JK, Maharachchikumbura SSN, Manamgoda DS, Martin FN, McKenzie EHC, McTaggart AR, Mortimer PE, Nair PVR, Pawłowska J, Rintoul TL, Shivas RG, Spies CFJ, Summerell BA, Taylor PWJ, Terhem RB, Udayanga D, Vaghefi N, Walther G, Wilk M, Wrzosek M, Xu JC, Yan JY, Zhou N (2014) One stop shop:backbones trees for important phytopathogenic genera: I. Fungal Divers 67:21–125CrossRefGoogle Scholar
  222. Index Fungorum (2016) http://www.indexfungorum.org/Names/Names.asp. Accessed on Mar 2016
  223. Jacobs K, Botha A (2008) Mucor renisporus sp. nov., a new coprophilous species from Southern Africa. Fungal Divers 29:27–35Google Scholar
  224. Jaklitsch W, Baral HO, Lücking R, Lumbsch HT (2016) Engler’s syllabus of plant families. In: Frey W (ed) Part 1/2: Ascomycota, 13th edn. Borntraeger, StuttgartGoogle Scholar
  225. Jami F, Slippers B, Wingfield MJ, Gryzenhout M (2012) Five new species of the Botryosphaeriaceae from Acacia karroo in South Africa. Cryptogam Mycol 33:245–266CrossRefGoogle Scholar
  226. Jayasiri SC, Hyde KD, Abd-Elsalam KA, Abdel-Wahab MA, Ariyawansa HA, Bhat J, Buyck B, Dai YC, Ertz D, Hidayat I, Jeewon R, Jones EBG, Karunarathna SC, Kirk P, Lei C, Liu JK, Maharachchikumbura SSN, McKenzie E, Ghobad-Nejhad M, Nilsson H, Pang KL, Phookamsak R, Rollins AW, Romero AI, Stephenson S, Suetrong S, Tsui CKM, Vizzini A, Wen TC, De Silva NI, Promputtha I, Kang JC (2015) The Facesoffungi database: fungal names linked with morphology, molecular and human attributes. Fungal Divers 74:3–18CrossRefGoogle Scholar
  227. Jeewon R, Yeung SYQ, Hyde KD (2009) A novel phylogenetic group within Thozetella (Chaetosphaeriaceae): a new taxon based on morphology and DNA sequence analyses. Can J Microbiol 55:680–687PubMedGoogle Scholar
  228. Jones EBG (1995) Ultrastructure and taxonomy of the aquatic ascomycetous order Halosphaeriales. Can J Bot 73(Suppl 1):S790–S801CrossRefGoogle Scholar
  229. Jones EBG, Sakayaroj J, Suetrong S, Somrithipol S, Pang KL (2009) Classification of marine Ascomycota, anamorphic taxa and Basidiomycota. Fungal Divers 35:1–203Google Scholar
  230. Jones EBG, Suetrong S, Sakayaroj J, Bahkali AH, Abdel-Wahab MA, Boekhout T, Pang KL (2015) Classification of marine Ascomycota, Basidiomycota, Blastocladiomycota and Chytridiomycota. Fungal Divers 73:1–72CrossRefGoogle Scholar
  231. Ju YM, Rogers JD (1996) A revision of the genus Hypoxylon. Mycologia Memoir no. 20. APS Press, St. Paul, 365Google Scholar
  232. Ju YM, Hsieh HM, Ho MC, Szu DH, Fang MJ (2007) Theissenia rogersii sp. nov. and phylogenetic position of Theissenia. Mycologia 66:612–621CrossRefGoogle Scholar
  233. Judelson HS (2009) Sexual reproduction in Oomycetes: biology, diversity, and contributions to fitness. In: Lamour K, Kamoun S (eds) Oomycete genetics and genomics: diversity, interactions, and research tools. Wiley, Hoboken, pp 121–138CrossRefGoogle Scholar
  234. Kamoun S (2003) Molecular genetics of pathogenic oomycetes. Eukaryot Cell 2:191–199PubMedPubMedCentralCrossRefGoogle Scholar
  235. Karadžić D (2003) Tiarosporella species: distribution and significance. Glasnik Sumarskog Fakulteta 87:9–23CrossRefGoogle Scholar
  236. Karsten PA (1881) Enumeralio boletinearum et polypore arum fennicarum, systemate novo dispositarum. Rev Mycol 3:16–19Google Scholar
  237. Karunarathna SC, Yang ZL, Zhao R, Vellinga EC, Bahkali AH, Chukeatirote E, Hyde KD (2011) Three new species of Lentinus from northern Thailand. Mycol Prog 10:389–398CrossRefGoogle Scholar
  238. Kepler RM, Sung GH, Harada Y, Tanaka K, Tanaka E, Hosoya T, Bischoff JF, Spatafora JW (2012) Host jumping onto close relatives and across Kingdoms by Tyrannicordyceps (Clavicipitaceae) gen. nov. and Ustilaginoidea (Clavicipitaceae). Am J Bot 99:552–561PubMedCrossRefGoogle Scholar
  239. Kepler RM, Humber RA, Bischoff JF, Rehner SA (2014) Clarification of generic and species boundaries for Metarhizium and related fungi through multi-gene phylogenetics. Mycologia 106:811–29PubMedCrossRefGoogle Scholar
  240. Kirisits T (2007) Die Petrakia-Blattbräune des Bergahorns. Forstschutz Aktuell (Wien) 40:28–31Google Scholar
  241. Knapp DG, Kovács GM, Zajta E, Groenewald JZ, Crous PW (2015) Dark septate endophytic pleosporalean genera from semiarid areas. Persoonia 35:87–100PubMedPubMedCentralCrossRefGoogle Scholar
  242. Kobayashi Y (1979) The genus Cordyceps and its allies from Taiwan (Formosa). Bull Nat Sci Mus Ser B (Tokyo) 7:113–122Google Scholar
  243. Kraichak E, Divakar PK, Crespo A, Leavitt SD, Nelsen MP, Lücking R, Lumbsch HT (2015) A tale of two hyper-diversities: diversification dynamics of the two largest families of lichenized fungi. Sci Rep 5:10028PubMedPubMedCentralCrossRefGoogle Scholar
  244. Kränzlin F (2005) Fungi of Switzerland, 6, Russulaceae: Lactarius, Russula. Verlag Mykologia, LuzernGoogle Scholar
  245. Kroon LPNM, Bakker FT, Van den Bosch GBM, Bonants PJM, Flier WG (2004) Phylogenetic analysis of Phytophthora species based on mitochondrial and nuclear DNA sequences. Fungal Genet Biol 41:766–782PubMedCrossRefGoogle Scholar
  246. Kroon LPNM, Brouwer H, de Cock AWAM, Govers F (2012) The genus Phytophthora anno 2012. Phytopathology 102:348–364PubMedCrossRefGoogle Scholar
  247. Kirk PM, Cannon PF, Minter DW, Stalpers JA (2008) Ainsworth & Bisby’s dictionary of the fungi, 10th edn. CABI, WallingfordGoogle Scholar
  248. Kirk PM, Stalpers JA, Braun E, Crous PW, Hansen K (2013) A without-prejudice list of generic names of fungi for protection under the International Code of Nomenclature for algae, fungi, and plants. IMA Fungus 4:381–443PubMedPubMedCentralCrossRefGoogle Scholar
  249. Ko WH, Yang CH, Lin MJ, Chen CY, Tsou YJ (2011) Humicola phialophoroides sp. nov. from soil with potential for biological control of plant disease. Bot Stud 52:197–202Google Scholar
  250. Kohlmeyer J, Kohlmeyer E (1979) Marine mycology. the higher fungi. Academic Press, New YorkGoogle Scholar
  251. Kohlmeyer J, Volkman-Kohlmeyer B (1987) Marine fungi of Aldabra, the Galapago, and other tropical islands. Can J Bot 65:571–582CrossRefGoogle Scholar
  252. Kornerup A, Wanscher JH (1978) Methuen handbook of colour, 3rd edn. Methuen, LondonGoogle Scholar
  253. Kornerup A, Wanscher JH (1981) Taschenlexikon der Farben, 3rd edn. Muster-Schmidt Verlag, GöttingenGoogle Scholar
  254. Kuhnert E, Fournier J, Peršoh D, Luangsa-ard JJD, Stadler M (2014) New Hypoxylon species from Martinique and new evidence on the molecular phylogeny of Hypoxylon based on ITS rDNA and β-tubulin data. Fungal Divers 64:81–203CrossRefGoogle Scholar
  255. Kuhnert E, Surup F, Sir EB, Lambert C, Hyde KD, Hladki AI, Romero AI, Stadler M (2016) Lenormandins A – G, new azaphilones from Hypoxylon lenormandii and Hypoxylon jaklitschii sp. nov., recognised by chemotaxonomic data. Fungal Divers 71:165–184CrossRefGoogle Scholar
  256. Kundsen H, Borgen T (1982) Russlaceae in Greenland. In: Artic and Alpine Mycology 216–236Google Scholar
  257. Kuntze O (1891) Revisio generum plantarum (in Latin) 2. A. Felix, Leipzig, 848 pp Google Scholar
  258. Kwasna H, Ward E, Bateman GL (2006) Phylogenetic relationships among Zygomycetes from soil based on ITS1/2 rDNA sequences. Mycol Res 110:501–510PubMedCrossRefGoogle Scholar
  259. Larkin MA, Blackshields G, Brown NP, Chenna R, McGettigan PA, McWilliam H, Valentin F, Wallace IM, Wilm A, Lopez R, Thompson JD, Gibson TJ, Higgins DG (2007) Clustal W and Clustal X version 2.0. Bioinformatics 23:2947–2948PubMedCrossRefGoogle Scholar
  260. Larsson KH (2007) Re-thinking the classification of corticioid fungi. Mycol Res 111:1040–1063PubMedCrossRefGoogle Scholar
  261. Larsson E, Larsson KH (2003) Phylogenetic relationships of russuloid basidiomycetes with emphasis on aphyllophoralean taxa. Mycologia 95:1037–1065PubMedCrossRefGoogle Scholar
  262. Læssøe T, Spooner BM (1994) Rosellinia & Astrocystis (Xylariaceae): new species and generic concepts. Kew Bull 49:1–70CrossRefGoogle Scholar
  263. Læssøe T, Srikitikulchai P, Luangsa-ard JJ, Stadler M (2013) Theissenia reconsidered, including molecular phylogeny of the type species T. pyrenocrata and a new genus Durotheca (Xylariaceae, Ascomycota). IMA Fungus 4:57–69PubMedPubMedCentralCrossRefGoogle Scholar
  264. Le HT, Verbeken A, Nuytinck J, Lumyong S, Desjardin DE (2007) Lactarius in Northern Thailand: 3. Lactarius subgenus Lactoriopsis. Mycotaxon 102:281–291Google Scholar
  265. Lebel T, Tonkin JE (2007) Australasian species of Macowanites are sequestrate species of Russula. Aust Syst Bot 20:355–381CrossRefGoogle Scholar
  266. Lebel T (2013) Two new species of sequestrate Agaricus (section Minores) from Australia. Mycol Prog 12:699–707CrossRefGoogle Scholar
  267. Lechat C (2010) Ochronectria courtecuissei sp. nov. Bull Soc Mycol Fr 126:97–101Google Scholar
  268. Leelavathy KM, Zachariah S, Sankaran KV (1981) Clarkeinda rhacodes a new record from India. Mycologia 73:204–207CrossRefGoogle Scholar
  269. Li GJ (2014) Taxonomy of Russula from China. Ph.D. dissertation. Institute of Microbiology, Chinese Academy of Sciences & University of Chinese Academy of Sciences (In Chinese)Google Scholar
  270. Li GJ, Wen HA (2009) Research of prospects on taxonomy of the Russula in China. Mycosystema 28:303–309 (In Chinese) Google Scholar
  271. Li GJ, Li SF, Wen HA (2011a) Russula zhejiangensis sp. nov. from East China. Cryptogam Mycol 32:127–133CrossRefGoogle Scholar
  272. Li GJ, Li SF, Liu XZ, Wen HA (2012) Russula jilinensis sp. nov. (Russulaceae) from northeast China. Mycotaxon 120:49–58CrossRefGoogle Scholar
  273. Li GJ, Zhao Q, Zhao D, Yue SF, Li SF, Wen HA, Liu XZ (2013a) Russula atroaeruginea and R. sichuanensis spp. nov. from southwest China. Mycotaxon 124:137–188Google Scholar
  274. Li GJ, Zhao D, Li SF, Yang HJ, Wen HA, Liu XZ (2013b) Russula changbaiensis sp. nov. from northeast China. Mycotaxon 124:269–278CrossRefGoogle Scholar
  275. Li GJ, Zhao D, Li SF, Wen HA (2015a) Russula chiui and R. pseudopectinatoides, two new species from southwestern China supported by morphological and molecular evidence. Mycol Prog 14:33CrossRefGoogle Scholar
  276. Li GJ, Li SF, Zhao D, Wen HA (2015b) Recent research progress of Russula (Russulales, Agaricomycetes): a review. Mycosystema 34:821–848 (In Chinese) Google Scholar
  277. Li J, Heath IB, Bauchop T (1990) Piromyces mae and Piromyces dumbonica, two new species of uniflagellate anaerobic chytridiomycete fungi from the hindgut of the horse and elephant. Can J Bot 68:1021–1033CrossRefGoogle Scholar
  278. Li J, Zhang J, Chen H, Chen X, Lan J (2013c) Complete Mitochondrial Genome of the Medicinal Mushroom Ganoderma lucidum. PLoS ONE 8:72038CrossRefGoogle Scholar
  279. Li WJ, Liu JK, Bhat DJ, Camporesi E, Xu J, Hyde KD (2014a) Introducing the novel species, Dothiorella symphoricarposicola, from snowberry in Italy. Cryptogam Mycol 35:257–270CrossRefGoogle Scholar
  280. Li WJ, Bhat DJ, Camporesi E, Tian Q, Wijayawardene NN, Dai DQ, Phookamsak R, Chomnunti P, Bahkali AH, Hyde KD (2015c) New asexual morph taxa in Phaeosphaeriaceae. Mycosphere 6:681–708Google Scholar
  281. Li YC, Yang ZL, Tolgor B (2009) Phylogenetic and biogeographic relationships of Chroogomphus species as inferred from molecular and morphological data. Fungal Divers 38:85–104Google Scholar
  282. Li YC, Feng B, Yang ZL (2011b) Zangia, a new genus of Boletaceae supported by molecular and morphological evidence. Fungal Divers 49:125–143CrossRefGoogle Scholar
  283. Li YC, Ortiz-Santana B, Zeng NK, Feng B, Yang ZL (2014b) Molecular phylogeny and taxonomy of the genus Veloporphyrellus. Mycologia 106:291–306PubMedCrossRefGoogle Scholar
  284. Li YK, Zhang X, Yuan Y, Cao Z, Liang JF (2015d) Morphological and molecular evidence for a new species of Russula (Russulaceae) from southern China. Phytotaxa 202:94–102CrossRefGoogle Scholar
  285. Liang ZQ (2007) Cordyceps. Flora Fungorum Sinicorum, vol 32. Science Press, Beijing, pp 1–190Google Scholar
  286. Liebetanz E (1910) Die parasitischen Protozoen des Wiederkäuermagens. Arch Für Protistenkd 19:19–80Google Scholar
  287. Liew ECY, Aptroot A, Hyde KD (2002) An evaluation of the monophyly of Massarina based on ribosomal DNA sequences. Mycologia 94:803–813PubMedCrossRefGoogle Scholar
  288. Liimatainen K (2015) Nomenclatural novelties, Cortinarius. Index Fungorum no. 241Google Scholar
  289. Linaldeddu BT, Deidda A, Scanu B, Franceschini A, Serra S, Berraf-Tebbal A, Zouaoui Boutiti M, Jamâa MLB, Phillips AJL (2015) Diversity of Botryosphaeriaceae species associated with grapevine and other woody hosts in Italy, Algeria and Tunisia, with descriptions of Lasiodiplodia exigua and Lasiodiplodia mediterranea sp. nov. Fungal Divers 71:201–204CrossRefGoogle Scholar
  290. Lindau G (1897) Pyrenomycetineae, Laboulbeniineae. In Engler A, Prantl K (eds) Die Natürlichen Pflanzenfamilien. Teil. 1 1 (1):321–505. Leipzig; Verlag von Wilhelm EngelmannGoogle Scholar
  291. Liu JK, Phookamsak R, Doilom M, Wikee S, Li YM, Ariyawansha H, Boonmee S, Chomnunti P, Dai DQ, Bhat JD, Romero AI, Zhuang WY, Monkai J, Jones EBG, Chukeatirote E, KoKo TW, Zhao YC, Wang Y, Hyde KD (2012) Towards a natural classification of Botryosphaeriales. Fungal Divers 57:149–210CrossRefGoogle Scholar
  292. Liu JK, Hyde KD, Jones EBG, Ariyawansa HA, Bhat JD, Boonmee S, Maharachchikumbura SSN, Mckenzie EHC, Phookamsak R, Phukhamsakda C, Shenoy BD, Abdel-Wahab MA, Buyck B, Chen J, Chethana KWT, Singtripop C, Dai DQ, Dai YC, Daranagama DA, Dissanayake AJ, Doilom M, D’souza MJ, Fan XL, Goonasekara ID, Hirayama K, Hongsanan S, Jayasiri SC, Jayawardena RS, Karunarathana SC, Li WJ, Mapook A, Norphanphoun C, Pang KL, Perera RH, Peršoh D, Pinruan U, Senanayake IC, Somrithipol S, Suetrong S, Tanaka K, Thambugala KM, Tian Q, Tibpromma S, Udayanga D, Wuayawardene NN, Wanasinghe D, Wisitrassameewong K, Zeng XY, Abdel-Aziz FA, Adamčík S, Bahkali AH, Boonyuen N, Bulgakov T, Callac P, Chomnunti P, Greiner K, Hashimoto A, Hofstetter V, Kang JC, Lewis D, Li XL, Liu XX, Liu ZY, Matsumura M, Mortimer PE, Rambold G, Randrianjohany E, Sato G, Sriindrasutdhi V, Tian CM, Verbeken A, Von Brackel W, Wang Y, Wen TC, Xu JC, Yan JY, Zhao RL, Camporesi E (2015) Fungal diversity notes 1–110: Taxonomic and phylogenetic contributions to fungal species. Fungal Divers 72:1–197CrossRefGoogle Scholar
  293. Locquin M (1984) Mycologie Générale et Structurale. Masson, ParisGoogle Scholar
  294. Lodge DJ, Padamsee M, Matheny PB, Aime MC, Cantrell SA, Boertmann D, Kovalenko A, Vizzini A, Dentinger BTM, Kirk PM, Ainsworth AM, Moncalvo J-M, Vilgalys R, Larsson E, Lücking R, Griffith GW, Smith ME, Norvell LL, Desjardin DE, Redhead SA, Ovrebo CL, Lickey EB, Ercole E, Hughes KW, Courtecuisse R, Young A, Binder M, Minnis AM, Lindner DL, Ortiz-Santana B, Haight J, Læssøe T, Baroni TJ, Geml J, Hattori T (2014) Molecular phylogeny, morphology, pigment chemistry and ecology in Hygrophoraceae (Agaricales). Fungal Divers 64:1–99CrossRefGoogle Scholar
  295. Luangsa-ard JJ, Tasanathai K, Mongkolsamrit S, Hywel-Jones NL (2007) Atlas of invertebrate-pathogenic fungi of Thailand, vol 1. BIOTEC, National Science and Tecnology Development Agency, ThailandGoogle Scholar
  296. Lücking R (2014) A key to species of the Ocellularia papillata, perforata and terebrata morphodemes (Ascomycota: Graphidaceae). Glalia 6:1–35Google Scholar
  297. Lücking R (2015) Thelotremoid Graphidaceae from the NYBG herbarium: new species, range extensions, and a forgotten lichen. Opusc Philolich 14:1–57Google Scholar
  298. Lücking R, Pérez-Ortega S (2015) Four new species of Ocellularia (lichenized Ascomycota: Graphidaceae) from Cuba, with a revised taxonomy of the O. bahiana complex and a key to thelotremoid taxa with small, brown, (sub-) muriform ascospores. Lichenologist 47:305–322CrossRefGoogle Scholar
  299. Lücking R, Johnston MK, Aptroot A, Kraichak E, Lendemer JC, Boonpragob K, Cáceres MES, Ertz D, Ferraro LI, Jia ZF, Kalb K, Mangold A, Manoch L, Mercado-Díaz JA, Moncada B, Mongkolsuk P, Papong K, Parnmen S, Peláez R, Poengsoengnoen V, Rivas Plata E, Saipunkaew W, Sipman HJM, Suttjaritturakan J, Van den Broeck D, von Konrat M, Weerakoon G, Lumbsch HT (2014) One hundred and sventy five new species of Graphidaceae: closing the gap or a drop in the bucket? Phytotaxa 189:7–38CrossRefGoogle Scholar
  300. Lumbsch HT, Huhndorf SM (2010) Outline of Ascomycota – 2009. Fieldiana Life Earth Sci 1:1–60CrossRefGoogle Scholar
  301. Luque J, Sierra D, Torres E, Garcia F (2006) Cryptovalsa ampelina on grapevines in N.E. Spain: identification and pathogenicity. Phytopathol Mediterr 45:S101–S109Google Scholar
  302. Maerz A, Paul MR (1950) A dictionary of color. McGraw-Hill book Company, USAGoogle Scholar
  303. Madden AA, Stchigel AM, Guarro J, Sutton D, Starks PT (2012) Mucor nidicola sp. nov., a fungal species isolated from an invasive paper wasp nest. Int J Syst Evol Microbiol 62:1710–1714PubMedCrossRefGoogle Scholar
  304. Maharachchikumbura SSN, Hyde KD, Jones EBG, McKenzie EHC, Huang S-K, Abdel-Wahab MA, Daranagama DA, Dayarathne M, D’souza MJ, Goonasekara ID, Hongsanan S, Jayawardena RS, Kirk PM, Konta S, Liu J-K, Liu Z-Y, Norphanphoun C, Shenoy BD, Xiao Y, Bahkali AH, Kang J, Somrothipol S, Suetrong S, Wen T, Xu J (2015) Towards a natural classification and backbone tree for Sordariomycetes. Fungal Divers 72:199–301CrossRefGoogle Scholar
  305. Maharachchikumbura SSN, Hyde KD, Jones EBG, McKenzie EHC, Huang S-K, Abdel-Wahab MA, Daranagama DA, Dayarathne M, D’souza MJ, Goonasekara ID, Hongsanan S, Jayawardena RS, Kirk PM, Konta S, Liu J-K, Liu Z-Y, Norphanphoun C, Shenoy BD, Xiao Y, Bahkali AH, Kang J, Somrothipol S, Suetrong S, Wen T, Xu J (2016) Families of Sordariomycetes. Fungal Divers 72:199–301CrossRefGoogle Scholar
  306. Mains EB (1959a) North American species of Aschersonia parasitic on Aleyrodidae. J Insect Pathol 1:43–47Google Scholar
  307. Mains EB (1959b) Species of Aschersonia (Sphaeropsidales). Lloydia 22:215–221Google Scholar
  308. Marano AV, Pires-Zottarelli CLA, de Souza JI, Glockling SL, Leaño E, Gachon CMM, Strittmatter M, Gleason FH (2012) Hyphochytriomycota, Oomycota and Perkinsozoa (Supergroup Chromalveolata). In: Jones EBG, Pang KL (orgs.) Marine fungi and fungal-like organisms. De Gruyter, Berlin, pp 167–213Google Scholar
  309. Marano AV, Jesus AL, Pires-Zottarelli CLA et al. (2014). Phylogenetic relationships of Pythiales and Peronosporales (Oomycetes, Straminipila) within the “peronosporalean galaxy”. In: Jones EBG, Hyde KD, Pang KL (orgs.) Freshwater Fungi and fungal-like organisms. De Gruyter, Berlin, pp 177–199Google Scholar
  310. Marano AV, Jesus AL, de Souza JI, Jerônimo GH, Gonçalves DR, Boro MC, Rocha SCO, Pires-Zottarelli CLA (2016) Ecological roles of saprotrophic Peronosporales (Oomycetes, Straminipila) in natural environments. Fungal Ecol 19:77–88CrossRefGoogle Scholar
  311. Matheny PB, Curtis JM, Hofstetter V, Aime MC, Moncalvo JM, Ge ZW, Slot JC, Ammirati JF, Baroni TJ, Bougher NL, Hughes KW, Lodge DJ, Kerrigan RW, Seidl MT, Aanen DK, DeNitis M, Daniele GM, Desjardin DE, Kropp BR, Norvell LL, Parker A, Vellinga EC, Vilgalys R, Hibbett DS (2006) Major clades of Agaricales: a multi-locus phylogenetic overview. Mycologia 98:982–995PubMedCrossRefGoogle Scholar
  312. Martín MT, Martín L, de-Francisco MT, Cobos R (2009) First report of Lasidiplodia theobromae and Cryptovalsa ampelina associated with grapevine decline from Castillay Leon, Spain. Plant Dis 93:545CrossRefGoogle Scholar
  313. McNeill J, Barrie FR, Burdet HM, Demoulin V, Hawksworth DL, Marhold K, Nicolson DH, Prado J, Silva PC, Skog JE, Wiersema JH, Turland NJ (eds) (2006) International Code of Botanical Nomenclature (Vienna Code). A. R. G. Gantner Verlag, RuggellGoogle Scholar
  314. McNeill J, Barrie FR, Buck WR et al (2012) International code of nomenclature for algae, fungi, and plants (Melbourne Code). Regnum Veg 154. Koeltz Botanic Books, KoenigsteinGoogle Scholar
  315. Mehrabi M, Mohammadi Goltapeh E, Fotouhifar KB (2011) Studies on Cytospora canker disease of apple trees in Semirom region of Iran. J Agricu Technol 7:967–982Google Scholar
  316. Mehrabi M, Hemmati R, Vasilyeva LN, Trouillas FP (2015) A new species and a new record of Diatrypaceae from Iran. Mycosphere 6:60–68CrossRefGoogle Scholar
  317. Mehrotra BS, Mehrotra BM (1978/1979) Another azygosporic species of Mucor from India. Sydowia 31:94–96Google Scholar
  318. Mostert L, Halleen F, Creaser ML, Crous PW (2004) Cryptovalsa ampelina, a forgotten shoot and cane pathogen of grapevines. Austral Pl Pathol 33:295–299CrossRefGoogle Scholar
  319. Miller SL, Buyck B (2002) Molecular phylogeny of the genus Russula in Europe with a comparison of modern infrageneric classifications. Mycol Res 106:259–276CrossRefGoogle Scholar
  320. Miller SL, McClean TM, Walker JF, Buyck B (2001) A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa. Mycologia 93:344–354CrossRefGoogle Scholar
  321. Miller SL, Larsson E, Larsson KH, Verbeken A, Nuytinck J (2006) Perspectives in the new Russulales. Mycologia 98:960–970PubMedCrossRefGoogle Scholar
  322. Miller SL, Aime MC, Henkel TW (2012) Russulaceae of Pakaraima Mountain of Guyana 2. new species of Russula and Lactifluus. Mycotaxon 121:233–253CrossRefGoogle Scholar
  323. Mirarab S, Nguyen N, Warnow T et al. (2014) PASTA: ultra-large multiple sequence alignment. In: Sharan R (ed) Research in Computational Molecular Biology (RECOMB). Springer International Publishing, GewerbestrasseGoogle Scholar
  324. Mirza JH, Khan SM, Begum S, Shagufta S (1979) Mucorales of Pakistan. University of Agriculture, FaisalabadGoogle Scholar
  325. Moncalvo JM, Ryvarden L (1997) A nomenclatural study of the Ganodermataceae Donk. Fungi Flora 10:1–114Google Scholar
  326. Moncalvo JM, Lutzoni FM, Rehner SA, Johnson J, Vilgalys R (2000) Phylogenetic relationships of agaric fungi based on nuclear large subunit ribosomal DNA sequences. Syst Biol 49:278–305PubMedCrossRefGoogle Scholar
  327. Moncalvo JM, Vilgalys R, Redhead SA, Johnson JE, James TY, Aime MC, Hofstetter V, Verduin SJW, Larsson E, Baroni TJ, Thorn GR, Jacobsson S, Clémençon H, Miller OK (2002) One hundred and seventeen clades of euagarics. Mole Phyl Evol 23:357–400CrossRefGoogle Scholar
  328. Müller E, von Arx JA (1962) Die Gattungen der didymosporen Pyrenomyceten. Beiträge. Kryptogamenflora Schweiz 11:1–922Google Scholar
  329. Musumeci E (2014) Fungi Non Delineati raro vel haud perspecte et explorate descripti aut definite picti. Pars LXVII–LXIX. Contributo alla conoscenza della Micoflora europea: Specie nuove endemiche, funghi rari con microclima localizzato. Candusso Edizioni, I-Alassio-(SV)Google Scholar
  330. Muszewska A, Pawlowska J, Krzys’sciak P (2014) Biology, systematics, and clinical manifestations of Zygomycota infections. Eur J Clin Microbiol Infect Dis 33:1273–1287PubMedPubMedCentralCrossRefGoogle Scholar
  331. MycoBank (2016) http://www.mycobank.org/Biolomics.aspx?Table=Mycobank. Accessed on March 2016
  332. Naher M, Motohash K, Watanabe H, Chikuo Y, Senda M, Suga H, Brasier C, Kageyama K (2011) Phytophthora chrysanthemi sp. nov., a new species causing root rot of chrysanthemum in Japan. Mycol Prog 10:21–31CrossRefGoogle Scholar
  333. Nag Raj TR (1993) Coelomycetous anamorphs with appendage-bearing conidia. Mycologue Publications, WaterlooGoogle Scholar
  334. Nakagiri A (2002) Diversity and phylogeny of Halophytophthora (Oomycetes). In: Book of abstracts of the IMC7 – The 7th International Mycological Congress. Oslo, 11–17 Aug 2002. No 55 Book of Abstracts p 19Google Scholar
  335. Nakagiri A, Izumi O (2005) Phylogeny, taxonomy and ecology of Halophytophthora spinosa (marine oomycetes). Inoculum 56:43Google Scholar
  336. Niemelä T, Wagner T, Fischer M, Dai YC (2001) Phellopilus gen. nov. and its affinities within Phellinus s. lato and Inonotus s. lato (Basidiomycetes). Ann Bot Fenn 38:51–62Google Scholar
  337. Nitschke TRJ (1867) Pyrenomycetes Germanici. Die Kernpilze Deutschlands Bearbeitet von Dr. Th. Nitschke. Erster Band. Erste Lieferung i-ii, 156 Germany, Bresalau; Verlag von Eduard TrewendtGoogle Scholar
  338. Norphanphoun C, Maharachchikumbura SSN, Daranagama A, BulgakovTS BDJ, Bahkali AH, Hyde KD (2015) Towards a backbone tree for Seimatosporium, with S. physocarpi sp. nov. Mycosphere 6:385–400Google Scholar
  339. O’Donnell K, Cigelnik E, Benny GL (1998) Phylogenetic relationships among the Harpellales and Kickxellales. Mycologia 90:624–639CrossRefGoogle Scholar
  340. O’Donnell K, Lutzoni FM, Ward TJ, Benny GL (2001) Evolutionary relationships among mucoralean fungi (Zygomycota): evidence for family polyphyly on a large scale. Mycologia 93:286–296CrossRefGoogle Scholar
  341. Ogawa J, Sakurdani E, Kishino S, Ando A, Yokozeki K, Shimizu S (2012) Polyunsaturated fatty acids production and transformation by Mortierellaalpina and anaerobic bacteria. Eur J Lipid Sci Technol 114:1107–1113CrossRefGoogle Scholar
  342. Okane I, Nakagiri A, Ito T (1996) Discostroma tricellulare, a new endophytic ascomycete with a Seimatosporium anamorph isolated from Rhododendron. Can J Bot 74:1338–1344CrossRefGoogle Scholar
  343. Omvik A (1955) Two new species of Chaetomium and one new Humicola species. Mycologia 47:748–757CrossRefGoogle Scholar
  344. Orpin CG (1975) Studies on the rumen flagellate Neocallimastix frontalis. J Gen Microbiol 91:249–262PubMedCrossRefGoogle Scholar
  345. Orpin CG (1977a) The occurrence of chitin in the cell walls of the rumen organisms Neocallimastix frontalis, Piromonas communis and Sphaeromonas communis. J Gen Microbiol 99:215–218PubMedCrossRefGoogle Scholar
  346. Orpin CG (1977b) The rumen flagellate Piromonas communis: its life-history and invasion of plant material in the rumen. J Gen Microbiol 99:107–117PubMedCrossRefGoogle Scholar
  347. Orpin CG, Munn EA (1986) Neocallimastix patriciarum sp. nov., a new member of the Neocallimasticaceae inhabiting the rumen of sheep. Trans Br Mycol Soc 86:178–181CrossRefGoogle Scholar
  348. Ott M, Zola J, Aluru S et al. (2007) Large-scale maximum likelihood-based phylogenetic analysis on the IBM BlueGene/L. Proceedings of ACM/IEEE Supercomputing conference. Article No. 4Google Scholar
  349. Pang KL, Vrijmoed LLP, Kong RYC, Jones EBG (2003) Lignincola and Nais, polyphyletic genera of the Halosphaeriales (Ascomycota). Mycol Prog 2:29–36CrossRefGoogle Scholar
  350. Pang KL, Lin HJ, Lin HY, Huang YF, Chen YM (2015) Production of arachidonic and eicosapentaenoic acids by the marine oomycete Halophytophthora. Mar Biotechnol 17:121–129PubMedCrossRefGoogle Scholar
  351. Parra LA (2008) Agaricus L Allopsalliota Nauta & Bas. Pars 1Edizioni Candusso Alassio, ItalyGoogle Scholar
  352. Parra LA (2013) Fungi Europaei, volume 1A, Agaricus L.:Allopsalliota, Nauta & Bas (Parte II). Candusso Edizioni, Alassio ItalyGoogle Scholar
  353. Pegler DN (1983) The genus Lentinus: a world monograph. HMSO, LondonGoogle Scholar
  354. Pegler DN (1985) The genus Clarkeinda (Basidiomycotina: Agaricaceae). Bot J Linn Soc 91:245–252CrossRefGoogle Scholar
  355. Pegler DN (1986) Agaric flora of Sri Lanka. Kew Bull. Additional Series 6, Her Majesty’s Stationary Office, LondonGoogle Scholar
  356. Pei KQ (2000) A new variety of Mucor variosporus and the validation of M. luteus Linnemann and M. variosporus Schipper. Mycosystema 19:10–12Google Scholar
  357. Peintner U, Bougher NL, Castellano MA, Moncalvo JM, Moser MM, Trappe JM, Vilgalys R (2001) Multiple origins of sequestrate fungi related to Cortinarius (Cortinariaceae). Am J Bot 88:2168–2179PubMedCrossRefGoogle Scholar
  358. Peintner U, Horak E, Moser M, Vilgalys R (2002) Phylogeny of Rozites, Cuphocybe and Rapacea inferred from ITS and LSU rDNA sequences. Mycologia 94:620–629PubMedCrossRefGoogle Scholar
  359. Petch T (1921) Studies in entomogenous fungi. II. The genera of Hypocrella and Aschersonia. Ann Roy Bot Gard Perad 7:167–278Google Scholar
  360. Petch T (1931) Notes on entomogenous fungi. Trans Brit Mycol Soc 16:55–75CrossRefGoogle Scholar
  361. Petch T (1932) A list of the entomogenous fungi of Great Britain. Trans Brit Mycol Soc 17:170–178CrossRefGoogle Scholar
  362. Petch T, Bisby GR (1950) The fungi of ceylon. Peradeniya Manual 6:111ppGoogle Scholar
  363. Petrak F (1923a) Mykologische Notizen VI. No. 226. Über die Gattung Glonium Muhl. Ann Mycol 21:225–227Google Scholar
  364. Petrak F (1923b) Mykologische Notizen VI, Nr. 284. Psiloglonium finkii nov. sp. Annal Mycol 21:308–309Google Scholar
  365. Petrak F (1934) Mykologische Notizen. XII. Annal Mycol 32:317–447Google Scholar
  366. Petrak F (1941) Mykologische Notizen. XIV. Annal Mycol 39:251–349Google Scholar
  367. Paterson RRM (2006) Ganoderma – a therapeutic fungal bio factory. Photochemistry 67:1985–2001CrossRefGoogle Scholar
  368. Petrini LE (1992) Rosellinia species of the temperate zones. Sydowia 44:169–281Google Scholar
  369. Petrini LE (2013) Rosellinia - a world monograph. Bibl Mycol 205:1–410Google Scholar
  370. Peyronel B, Dal Vesco G (1955) Ricerche sulla microflora di un terreno agrario presso Torino. Allionia 2:357–417Google Scholar
  371. Pici G (1955) Qualche osservazione sopra due Mucoraceae. Atti Inst Bot Univ Pavia 13:38–44Google Scholar
  372. Pilotti CA, Sanderson FR, Aitken AB, Armstrong W (2004) Morphological variation and host range of two Ganoderma species from Papua New Guinea. Mycopathologia 158:251–265PubMedCrossRefGoogle Scholar
  373. Pinnoi A, Phongpaichit P, Jeewon R, Tang AMC, Hyde KD, Jones EBG (2010) Phylogenetic relationships of Astrocystis eleiodoxae sp. nov. (Xylariaceae). Mycosphere 1:1–9Google Scholar
  374. Phillips A, Alves A, Correia A, Luque J (2005) Two new species of Botryosphaeria with brown, 1-septate ascospores and Dothiorella anamorphs. Mycologia 97:513–529PubMedCrossRefGoogle Scholar
  375. Phillips AJL, Alves A, Abdollahzadeh J, Slippers B, Wingfield MJ, Groenewald JZ, Crous PW (2013) The Botryosphaeriaceae: genera and species known from culture. Stud Mycol 76:51–167PubMedPubMedCentralCrossRefGoogle Scholar
  376. Phookamsak R, Liu JK, McKenzie EHC, Manamgoda DS, Ariyawansa HA, Thambugala KM, Dai DQ, Camporesi E, Chukeatirote E, Wijayawardene NN, Bahkali AH, Mortimer PEXJC, Hyde KD (2014) Revision of Phaeosphaeriaceae. Fungal Divers 68:159–238CrossRefGoogle Scholar
  377. Phookamsak R, Norphanphoun C, Tanaka K, Dai DQ, Luo ZL, Liu JK, Su HY, Bhat DJ, Bahkali AH, Mortimer PE, Xu JC, Hyde KD (2015) Towards a natural classidication of Astrosphaeriella-like species; introducing Astrosphaeriellaceae and Pseudoastrosphaeriellaceae fam. nov and Astrosphaeriellaceaeopsis, gen. nov. Fungal Divers 74:143–197CrossRefGoogle Scholar
  378. Pitt WM, Trouillas FP, Gubler WD, Savocchia S, Sosnowski MR (2013a) Pathogenicity of diatrypaceous fungi on grapevines in Australia. Plant Dis 97:749–756CrossRefGoogle Scholar
  379. Pitt WM, Úrbez-Torres JR, Trouillas FP (2013b) Dothiorella vidmadera, a novel species from grapevines in Australia and notes on Spencermartinsia. Fungal Divers 61:209–219CrossRefGoogle Scholar
  380. Pitt WM, Úrbez-Torres JR, Trouillas FP (2015) Dothiorella and Spencermartinsia, new species and records from grapevines in Australia. Aust Pl Pathol 44:43–56CrossRefGoogle Scholar
  381. Quaedvlieg W, Kema GHJ, Groenewald JZ, Verkley GJM, Seifbarghi S, Razavi M, Mirzadi Gohari A, Mehrabi R, Crous PW (2011) Zymoseptoria gen. nov.: a new genus to accommodate Septoria- like speciesoccurring on graminicolous hosts. Persoonia 26:57–69PubMedPubMedCentralCrossRefGoogle Scholar
  382. Quaedvlieg W, Verkley GJM, Shin H-D, Barretto RW, Alfenas AC, Swart WJ, Groenewald JZ, Crous PW (2013) Sizing up Septoria. Stud Mycol 75:307–390PubMedPubMedCentralCrossRefGoogle Scholar
  383. Quandt CA, Kepler RM, Gams W, Araújo JP, Ban S, Evans HC, Luangsa-Ard JJ (2014) Phylogenetic-based nomenclatural proposals for Ophiocordycipitaceae (Hypocreales) with new combinations in Tolypocladium. IMA Fungus 5:121PubMedPubMedCentralCrossRefGoogle Scholar
  384. Raja HA, Shearer CA (2008) Freshwater ascomycetes: new and noteworthy species from aquatic habitats in Florida. Mycologia 100:467–489PubMedCrossRefGoogle Scholar
  385. Raja HA, Tanaka K, Hirayama K, Miller AH, Shearer CA (2011) Freshwater ascomycetes: two new species of Lindgomyces (Lindgomycetaceae, Pleosporales, Dothideomycetes) from Japan and USA. Mycologia 103:1421–1432PubMedCrossRefGoogle Scholar
  386. Raja HA, Oberlies NH, El-Elimat T, Miller AN, Zelski SE, Shearer CA (2013) Lindgomyces angustiascus (Lindgomycetaceae, Pleosporales, Dothideomycetes), a new lignicolous species from freshwater habitats in the USA. Mycoscience 54:353–361CrossRefGoogle Scholar
  387. Rajchenberg M, Pildain MB, Bianchinotti MV, Barroetaveña C (2015) The phylogenetic position of poroid Hymenochaetaceae (Hymenochaetales, Basidiomycota) from Patagonia, Argentina. Mycologia 107:754–767PubMedCrossRefGoogle Scholar
  388. Rea AJ, Burgess TI, Hardy GESJ, Stukely MJC, Jung T (2011) Two novel and potentially endemic species of Phytophthora associated with episodic dieback of Kwongan vegetation in the south-west of Western Australia. Plant Pathol 60:1055–1068CrossRefGoogle Scholar
  389. Réblová M, Winka K (2000) Phylogeny of Chaetosphaeria and its anamorphs based on morphological and molecular data. Mycologia 92:939–954CrossRefGoogle Scholar
  390. Réblová M, Barr ME, Samuels GJ (1999) Chaetosphaeriaceae, a new family for Chaetosphaeria and its relatives. Sydowia 51:49–70Google Scholar
  391. Réblová M, Gams W, Seifert KA (2011) Monilochaetes and allied genera of the Glomerellales, and a reconsideration of families in the Microascales. Stud Mycol 68:163–191PubMedPubMedCentralCrossRefGoogle Scholar
  392. Reeser PW, Sutton W, Hansen EM, Remigi P, Adams GC (2011) Phytophthora species in forest streams in Oregon and Alaska. Mycologia 103:22–35PubMedCrossRefGoogle Scholar
  393. Ribaldi MS (1952) Sopra un interessante Zigomicete terricolo: Gongronella urceolifera n. gen. et n. sp. Riv Biol 49:157–166Google Scholar
  394. Ribes JA, Vanover-Sams CL, Baker DJ (2000) Zygomycetes in human disease. Clin Microbiol Rev 13:236–301PubMedPubMedCentralCrossRefGoogle Scholar
  395. Ridgway R (1912) Colour standards and colour nomenclature. Robert Ridgway, WashingtonGoogle Scholar
  396. Rivas Plata E, Lücking R, Lumbsch HT (2008) When family matters: an analysis of Thelotremataceae (Lichenized Ascomycota: Ostropales) as bioindicators of ecological continuity in tropical forests. Biodiv Cons 17:1319–1351CrossRefGoogle Scholar
  397. Rivas Plata E, Lumbsch HT, Lücking R (2012a) A new classification for the lichen family Graphidaceae s.lat. (Ascomycota: Lecanoromycetes: Ostropales). Fung Divers 52:107–121CrossRefGoogle Scholar
  398. Rivas Plata E, Lücking R, Lumbsch HT (2012b) Molecular phylogeny and systematics of the Ocellularia-clade (Ascomycota: Ostropales: Graphidaceae). Taxon 61:1161–1179Google Scholar
  399. Rivas PE, Parnmen S, Staiger B, Mangold A, Frisch A, Weerakoon G, Hernández JE, Cáceres MES, Kalb K, Sipman HJM, Common RS, Nelsen MP, Lücking R, Lumbsch HT (2013) A molecular phylogeny of Graphidaceae (Ascomycota: Lecanoromycetes: Ostropales) including 428 species. MycoKeys 6:55–94CrossRefGoogle Scholar
  400. Roa Engel CA, Straathof AJJ, Zijlmans TW, van Gulik WM, van der Wielen LAM (2008) Fumaric acid production by fermentation. App Microbiol Biotech 78:379–389CrossRefGoogle Scholar
  401. Robideau GP, de Cock AWAM, Coffey MD, Voglmayr H, Brouwer H, Bala K, Chitty DW, Désaulniers N, Eggertson QA, Gachon CMM, Hu CH, Küpper FC, Rintoul TL, Sarhan E, Verstappen ECP, Zhang Y, Bonants PJM, Ristaino JB, Lévesque AC (2011) DNA barcoding of oomycetes with cytochrome c oxidase subunit I and internal transcribed spacer. Mol Ecol Resour 11:1002–1011PubMedPubMedCentralCrossRefGoogle Scholar
  402. Rogers JD (2000) Thoughts and musings about tropical Xylariaceae. Mycol Res 104:1412–1420CrossRefGoogle Scholar
  403. Romagnesi H (1967) Russules d’Europe et d’Afique du Nord. Bordas, ParisGoogle Scholar
  404. Romagnesi H (1985) Les Russules d’ Europe et d’ Afrique du Nord. Reprint with supplement. J. Cramer, LehreGoogle Scholar
  405. Romagnesi H (1987) Status et noms nouveaux pour les taxa infragénériques dans le genere Russula. Document Mycologique 18:39–40Google Scholar
  406. Ronquist F, Teslenko M, Van Der Mark P, Ayres DL, Darling A, Hohna S, Larget B, Liu L, Suchard MA, Huelsenbeck JP (2012) MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space. Sist Biol 61:1–4CrossRefGoogle Scholar
  407. Rossman AY, Palm ME (2006) Why are Phytophthora and other Oomycota not true Fungi? Outlook Pest Manag 17:217–219CrossRefGoogle Scholar
  408. Rossman AY, Samuels GJ, Rogerson CT, Lowen R (1999) Genera of Bionectriaceae, Hypocreaceae and Nectriaceae (Hypocreales, Ascomycetes). Stud Mycol 42:1–248Google Scholar
  409. Rossman AY, McKemy JM, Pardo-Schultheiss RA, Schroers HJ (2001) Molecular studies of the Bionectriaceae using large subunit rDNA sequences. Mycologia 93:100–110CrossRefGoogle Scholar
  410. Rossman AY, Adams GC, Cannon PF, Castlebury LA, Crous PW, Gryzenhout M, Jaklitsch WM, Mejia LC, Stoykov D, Udayanga D, Voglmayr H, Walker DM (2015) Recommendations of generic names in Diaporthales competing for protection or use. IMA Fungus 6:145–154PubMedPubMedCentralCrossRefGoogle Scholar
  411. Ryvarden L (1991) Genera of polypores, nomenclature and taxonomy. Fungiflora, OsloGoogle Scholar
  412. Ryvarden L (2005) The genus Inonotus, a synopsis. Synopsis Fungorum 21:1–149Google Scholar
  413. Saccardo PA (1880) Conspectus generum fungorum italiae inferiorum nempe ad Sphaeropsideas, Melanconieas et Hyphomyceteas pertinentium, systemate sporologico dispositu. Michelia 2:1–38Google Scholar
  414. Saccardo PA (1882) Sylloge Fungorum 1: i-xviii. Italy, Padua, pp 187–188Google Scholar
  415. Saccardo PA (1884) Sylloge fungorum vol 3. Typis Seminarii, Italy (in Latin) Google Scholar
  416. Sakayaroj J, Pang KL, Jones EBG (2011) Multi-gene phylogeny of the Halosphaeriaceae: its ordinal status, relationships between genera and morphological character evolution. Fungal Divers 46:87–109CrossRefGoogle Scholar
  417. Samuels GJ, Candoussau F, Magni JF (1997) Fungicolous pyrenomycetes 1. Helminthosphaeria and the new family Helminthosphaeriaceae. Mycologia 89:141–155CrossRefGoogle Scholar
  418. Sánchez-García M, Matheny PB, Palfner G, Lodge DJ (2014) Deconstructing the Tricholomataceae (Agaricales) and introduction of the new genera Albomagister, Corneriella, Pogonoloma and Pseudotricholoma. Taxon 63:993–1007CrossRefGoogle Scholar
  419. Santiago ALCMA, Santos PJP, Trufem SFB, Malosso E, Cavalcanti MAQ (2011) Zygomycetes from herbivore dung in the Ecological Reserve of Dois Irmãos, Northeast Brazil. Braz J Microbiol 42:89–95CrossRefGoogle Scholar
  420. Santiago ALCMA, Santos PJP, Maia LC (2013) Mucorales from the semiarid of Pernambuco, Brazil. Braz J Microbiol 44:299–305CrossRefGoogle Scholar
  421. Santos MJS, de Oliveira PC, Trufem SFB (2003) Morphological observations on Absidia corymbifera and Absidia blakesleeana strains perserved under mineral oil. Mycoses 46:402–406PubMedCrossRefGoogle Scholar
  422. Sarnari M (1998) Monografia illustrate de genere Russula in Europa. Tomo Primo. AMB, Centro Studi Micologici, TrentoGoogle Scholar
  423. Sarnari M (2005) Monografia illustrate de genere Russula in Europa. Tomo Secondo. AMB, Centro Studi Micologici, TrentoGoogle Scholar
  424. Sato G, Tanaka K, Hosoya T (2008) Bambusicolous fungi in Japan (8): a new species of Pseudolachnella from Yakushima Island, southern Japan. Mycoscience 49:392–394CrossRefGoogle Scholar
  425. Schardl CL, Young CA, Moore N et al. (2014) Chapter ten – genomes of plant-associated Clavicipitaceae. In: Advances in botanical research. Martin FM (ed). INRA Centre de Nancy, Centre de Nancy, Champenoux. Academic Press Inc, pp 291–327Google Scholar
  426. Schipper MAA (1973) A study on variability in Mucor hiemalis and related species. Stud Mycol 4:1–40Google Scholar
  427. Schipper MAA (1975) Mucor mucedo, Mucor flavus and related species. Stud Mycol 10:1–33Google Scholar
  428. Schipper MAA (1976) On Mucor circinelloides, Mucor racemosus and related species. Stud Mycol 12:1–40Google Scholar
  429. Schipper MAA (1978) On certain species of Mucor with a key to all accepted species. Stud Mycol 17:1–52Google Scholar
  430. Schipper MAA (1984) A revision of the genus Rhizopus I. the Rh. stolonifer-group and Rh. oyzae. Stud Mycol 25:1–19Google Scholar
  431. Schipper MAA, Stalpers JA (1984) A revision of the genus Rhizopus II. the Rh. microsporus-group. Stud Mycol 25:20–34Google Scholar
  432. Schipper MAA (1990) Note on Mucorales-I. observations on Absidia. Persoonia 14:133–149Google Scholar
  433. Schipper MAA, Samson RA (1994) Miscellaneous notes on Mucoraceae. Mycotaxon 50:475–491Google Scholar
  434. Schoenlein-Crusius IH, Milanez AI, Trufem SFB, Pires-Zottarelli CLA, Grandi RAP, Santos ML, Giustra KC (2006) Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Braz J Microbiol 37:267–275CrossRefGoogle Scholar
  435. Seguy E (1936) Code universel des couleurs. P. Lechevalier, ParisGoogle Scholar
  436. Senanayake IC, Maharachchikumbura SSN, Hyde KD, Bhat DJ, Jones EBG, McKenzie EHC, Dai DQ, Daranagama DA, Dayarathne MC, Goonasekara ID, Konta S, Li WJ, Shang QJ, Stadler M, Wijayawardene NN, Xiao YP, Norphanphoun C, Li QR, Liu XZ, Bahkali AH, Kang JC, Wang Y, Wen TC, Wendt L, Xu JC, Camporesi E (2015) Towards unraveling relationships in Xylariomycetidae (Sordariomycetes). Fungal Divers 73:73–144CrossRefGoogle Scholar
  437. Sharma JR (1995) Hymenochaetaceae of India. Botanical Survey of India, CalcuttaGoogle Scholar
  438. Sharma S, Chadha BS, Kaur M, Ghatora SK, Saini HS (2008) Molecular characterization of multiple xylanase producing thermophilic/thermotolerant fungi isolated from composting materials. Let Appl Microbiol 46:526–535CrossRefGoogle Scholar
  439. Shearer CA (1989) Aniptodera (Halosphaeriaceae) from wood in freshwater habitats. Mycologia 81:139–146CrossRefGoogle Scholar
  440. Shearer CA, Miller M (1977) Fungi of the Chesapeake Bay and its tributaries V. Aniptodera chesapeakensis gen. et sp. nov. Mycologia 69:887–897CrossRefGoogle Scholar
  441. Shoemaker RA (1964) Seimatosporium (= Cryptostictis) parasites of Rosa, Vitis, and Cornus. Can J Bot 42:411–417CrossRefGoogle Scholar
  442. Shoemaker RA, Muller E (1964) Generic correlations and concepts: Clathridium (= Griphosphaeria) and Seimatosporium (= Sporocadus). Can J Bot 42:403–407CrossRefGoogle Scholar
  443. Silvestro D, Michalak I (2011) RaxmlGUI: a graphical front-end for RAxML. Org Divers Evol 12:335–337CrossRefGoogle Scholar
  444. Singer R (1940) Notes sur quelques Basidiomycètes. Rev Mycol 5:3–13Google Scholar
  445. Singer R (1947) The Boletoideae of Florida. the Boletineae of Florida with notes on extralimital species III. Am Midl Nat 37:1–135CrossRefGoogle Scholar
  446. Singer R (1986) The Agaricales in modern taxonomy, 4th edn. Koeltz Scientific Books, KoenigsteinGoogle Scholar
  447. Singh SK, Doshi A, Pancholy A, Pathak R (2013) Biodiversity in wood–decay macro–fungi associated with declining arid zone trees of India as revealed by nuclear rDNA analysis. Eur J Plant Pathol 136:373–382CrossRefGoogle Scholar
  448. Singtripopa C, Camporesi E, Ariyawansa HA, Wanasinghe DN, Bahkali AH, Chomnunti P, Boonmee S, Hyde KD (2015) Keissleriella dactylidis, sp. nov., from Dactylis glomerata and its phylogenetic placement. Sci Asia 41:295–304CrossRefGoogle Scholar
  449. Sir EB, Kuhnert E, Lambert C, Hladki AI, Romero AI, Stadler M (2016) New species and reports of Hypoxylon from Argentina recognized by a polyphasic approach. Mycol Prog. doi: 10.1007/s11557-016-1182-z Google Scholar
  450. Sivanesan A (1984) The bitunicate Ascomycetes and their anamorphs. J. Cramer, VaduzGoogle Scholar
  451. Slippers B, Boissin E, Phillips AJL, Groenewald JZ, Lombard L, Wingfield MJ, Postma A, Burgess T, Crous PW (2013) Phylogenetic lineages in the Botryosphaeriales: a systematic and evolutionary framework. Stud Mycol 76:31–49PubMedPubMedCentralCrossRefGoogle Scholar
  452. Slippers B, Roux J, Wingfield MJ, van der Walt FJJ, Jami F, Mehl JWM, Marais GJ (2014) Confronting the constraints of morphological taxonomy in the Botryosphaeriales. Persoonia 33:55–168CrossRefGoogle Scholar
  453. Smith AH, Thiers HD (1971) The Boletes of Michigan. University of Michigan Press, Ann ArborGoogle Scholar
  454. Smith JDG, Liew ECY, Hyde KD (2001) The Xylariales: a monophyletic order containing 7 families. Fungal Divers 13:175–208Google Scholar
  455. Smith ME, Gryganskyi A, Bonito G, Nouhra E, Moreno-Arroyo B, Benny G (2013) Phylogenetic analysis of the genus Modicella reveals an independent evolutionary origin of sporocarp-forming fungi in the Mortierellales. Fung Gen Biol 61:61–68CrossRefGoogle Scholar
  456. Sogonov MV, Castlebury LA, Rossman AY, Mejía LC, White JF Jr (2008) Leaf-inhabiting genera of the Gnomoniaceae, Diaporthales. Stud Mycol 62:1–79PubMedPubMedCentralCrossRefGoogle Scholar
  457. Somrithipol S, Sakayaroj J, Rungjindamai N, Plaingam N, Jones EBG (2008) Phylogenetic relationship of the coelomycete genus Infundibulomyces based on nuclear rDNA data. Mycologia 100:735–741PubMedCrossRefGoogle Scholar
  458. Song J, Chen Y, Cui B, Liu H, Wang Y (2014) Morphological and molecular evidence for two new species of Laetiporus (Basidiomycota, Polyporales) from southwestern China. Mycologia 106:1039–1050PubMedCrossRefGoogle Scholar
  459. Spatafora JW, Quandt CA, Kepler RM, Sung GH, Shrestha B, Hywel-Jones NL, Luangsa-ard JJ (2015) New 1F1N species Combinations in Ophiocordycipitaceae (Hypocreales). IMA Fungus 6:357–362PubMedPubMedCentralCrossRefGoogle Scholar
  460. Spatafora JW, Sung GH, Sung JM, Hywel-Jones NL, White JF (2007) Phylogenetic evidence for an animal pathogen origin of ergot and the grass endophytes. Mol Ecol 16:1701–1711PubMedCrossRefGoogle Scholar
  461. Spielman LJ (1983) Taxonomy and Biology of Valsa Species on Hardwoods in North America, with special reference to species on maples. Cornell University, NYGoogle Scholar
  462. Spielman LJ (1985) A monograph of Valsa on hardwoods in North America. Can J Bot 63:1355–1378CrossRefGoogle Scholar
  463. Spooner BM (1981) New records and species of British microfungi. Trans Brit Mycol Soc 76:265–301CrossRefGoogle Scholar
  464. Stadler M (2011) Importance of secondary metabolites in the Xylariaceae as parameters for assessment of their taxonomy, phylogeny, and functional biodiversity. Curr Res Environ Appl Mycol 1:75–133CrossRefGoogle Scholar
  465. Stadler M, Kuhnert E, Peršoh D, Fournier J (2013) The Xylariaceae as model example for a unified nomenclature following the “One Fungus-One Name” (1F1N) concept. Mycology 4:5–21Google Scholar
  466. Stamatakis A (2006) RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688–2690PubMedCrossRefGoogle Scholar
  467. Stamatakis A (2014) RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 30:1312–1313PubMedPubMedCentralCrossRefGoogle Scholar
  468. Stamatakis A, Hoover P, Rougemont J (2008) A rapid bootstrap algorithm for the RAxML web servers. Syst Biol 57:758–777PubMedCrossRefGoogle Scholar
  469. Stubbe D, Nuytinck J, Verbeken A (2010) Critical assessment of the Lactarius gerardii species complex (Russulales). Fungal Biol 114:271–283PubMedCrossRefGoogle Scholar
  470. Su HY, Hyde KD, Maharachchikumbura SSN, Ariyawansa HA, Luo ZL, Promputtha I, Tian Q, Lin CG, Shang QJ, Zhao YC, Chai HM, Liu XY, Bahkali AH, Bhat JD, McKenzie EHC, Zhou DQ (2016) The families Distoseptisporaceae fam. nov., Kirschsteiniotheliaceae, Sporormiaceae and Torulaceae, with new species from freshwater in Yunnan Province, China. Fingal Divers. doi: 10.1007/s13225-016-0362-0 Google Scholar
  471. Subrahamanyam A (1983) Studies on themomycology. Mucor thermo-hyalospora sp. nov. Bibl Mycol 91:421–423Google Scholar
  472. Suetrong S, Schoch CL, Spatafora JW, Kohlmeyer J, Volkmann-Kohlmeyer B, Sakayaroj J, Phongpaichit S, Tanaka K, Hirayama K, Jones EBG (2009) Molecular systematics of the marine Dothideomycetes. Stud Mycol 64:155–173PubMedPubMedCentralCrossRefGoogle Scholar
  473. Sung GH, Hywel-Jones NL, Sung JM, Luangsa-ard JJ, Shrestha B, Spatafora JW (2007) Phylogenetic classification of Cordyceps and the clavicipitaceous fungi. Stud Mycol 57:5–59PubMedPubMedCentralCrossRefGoogle Scholar
  474. Šutara J (2008) Xerocomus s.l. in the light of the present state of knowledge. Czech Mycol 60:29–62Google Scholar
  475. Sutton BC (1980) The Coelomycetes. fungi imperfecti with pycnidia, acervuli and stromata. Commonwealth Mycological Institute, KewGoogle Scholar
  476. Swofford DL (2002) PAUP: phylogenetic analysis using parsimony, version 4.0b10. Illinois Natural History Survey, Champion, IIIGoogle Scholar
  477. Tadych M, Chaverri P, Bergen M, White JF (2009) Moelleriella zhongdongii: stroma development and identification of hirsutella-like and Aschersonia synanamorphs. Mycol Res 113:611–615PubMedPubMedCentralCrossRefGoogle Scholar
  478. Tanabe Y, Saikawa M, Watanabe MM, Sugiyama J (2003) Molecular phylogeny of Zygomycota based on EF-1alpha and RPB1 sequences: limitations and utility of alternative markers to rDNA. Mol Phylogenet Evol 30:438–449CrossRefGoogle Scholar
  479. Tanaka K, Harada Y (2003) Pleosporales in Japan (2): the genus Lophiotrema. Mycoscience 44:115–121CrossRefGoogle Scholar
  480. Tanaka K, Hirayama K, Yonezawa H, Hatakeyama S, Harada Y, Sano T, Shirouzu T, Hosoya T (2009) Molecular taxonomy of bambusicolous fungi: Tetraplosphaeriaceae, a new pleosporalean family with Tetraploa-like anamorphs. Stud Mycol 64:175–209PubMedPubMedCentralCrossRefGoogle Scholar
  481. Tanaka K, Endo M, Hirayama K, Okane I, Hosoya T, Sato T (2011) Phylogeny of Discosia and Seimatosporium, and introduction of Adisciso and Immersidiscosia genera nova. Persoonia 26:85–98PubMedPubMedCentralCrossRefGoogle Scholar
  482. Tanaka K, Hirayama K, Yonezawa H, Sato G, Toriyabe A, Kudo H, Hashimoto A, Matsumura M, Harada Y, Kurihara Y, Shirouzu T, Hosoya T (2015) Revision of the Massarineae (Pleosporales, Dothideomycetes). Stud Mycol 82:75–136PubMedPubMedCentralCrossRefGoogle Scholar
  483. Tang LP, Hao YJ, Cai Q, Tolgor B, Yang ZL (2014) Morphological and molecular evidence for a new species of Rhodotus from tropical and subtropical Yunnan, China. Mycol Progr 13:45–53CrossRefGoogle Scholar
  484. Teng SC (1936) Additional fungi from China IV. Sinensia 7:752–823Google Scholar
  485. Teunissen MJ, Op den Camp HJ, Orpin CG, Huis in’t Veld JH, Vogels GD (1991) Comparison of growth characteristics of anaerobic fungi isolated from ruminant and non-ruminant herbivores during cultivation in a defined medium. J Gen Microbiol 137:1401–1408PubMedCrossRefGoogle Scholar
  486. Thambugala KM, Daranagama DA, Camporesi E, Singtripop C, Liu ZY, Hyde KD (2014a) Multi-locus phylogeny reveals the sexual state of Tiarosporella in Botryosphaeriaceae. Cryptogam Mycol 35:359–367CrossRefGoogle Scholar
  487. Thambugala KM, Ariyawansa HA, Li YM, Boonmee S, Hongsanan S, Tian Q, Singtripop C, Bhat DJ, Camporesi E, Jayawardena R, Liu ZY, Xu JC, Chukeatirote E, Hyde KD (2014b) Dothideales. Fungal Divers 68:105–158CrossRefGoogle Scholar
  488. Thambugala KM, Ariyawansa HA, Liu ZY, Chukeatirote E, Hyde KD (2014c) Towards a natural classification of Dothideomycetes 6: the genera Dolabra, Placostromella, Pleosphaerellula, Polysporidiella and Pseudotrichia (Dothideomycetes incertae sedis). Phytotaxa 176:55–67CrossRefGoogle Scholar
  489. Thambugala KM, Hyde KD, Eungwanichayapant PD, Romero AI, Liu ZY (2016) Additions to the genus Rhytidhysteron in Hysteriaceae. Cryptogam Mycol 37:99–116Google Scholar
  490. Thambugala KM, Hyde KD, Tanaka K, Tian Q, Wanasinghe DN, Ariyawansa HA, Jayasiri SC, Boonmee S, Camporesi E, Hashimoto A, Hirayama K, Schumacher RK, Promputtha I, Liu ZY (2015a) Towards a natural classification and backbone tree for Lophiostomataceae, Floricolaceae, and Amorosiaceae fam. nov. Fungal Divers 74:199–266CrossRefGoogle Scholar
  491. Thambugala KM, Chunfang Y, Camporesi E, Bahkali AH, Liu ZY, Hyde KD (2015b) Pseudodidymosphaeria gen. nov. in Massarinaceae. Phytotaxa 231:271–282CrossRefGoogle Scholar
  492. Theissen F, Sydow H (1917) Synoptische Tafeln. Ann Mycol 15:389–491Google Scholar
  493. Tian Q, Hyde KD, Liu JK, Wanasinghe DN, Boonmee S, Senanayak IC, Luo ZL, Ariyawansa H, Li WJ, Thambugala KM, Jones EBG, Bhat DJ, Bahkali AH, Chomnunti P, Mortimer PE, Xu JC, Campesori E (2015) Phylogenetic relationships and morphological reappraisal of Melanommataceae. Fungal Divers 74:267–324CrossRefGoogle Scholar
  494. Traaen AE (1914) Untersuchungen über Bodenpilze aus Norwegen. Nytt Mag Naturvidenskapene 52:1–121Google Scholar
  495. Trakunyingcharoen T, Lombard L, Groenewald JZ, Cheewangkoon R, Toanun C, Alfenas AC, Crous PW (2014) Mycoparasitic species of Sphaerellopsis, and allied lichenicolous and other genera. IMA Fungus 5:391–414PubMedPubMedCentralCrossRefGoogle Scholar
  496. Trouillas FP, Úrbez-Torres JR, Gubler WD (2010) Diversity of diatrypaceous fungi associated with grapevine canker diseases in California. Mycologia 102:319–336PubMedCrossRefGoogle Scholar
  497. Trouillas FP, Pitt WM, Sosnowski MR, Huang R, Peduto F, Loschiavo A, Savocchia S, Scott ES, Gubler WD (2011) Taxonomy and DNA phylogeny of Diatrypaceae associated with Vitis vinifera and other woody plants in Australia. Fungal Divers 49:203–223CrossRefGoogle Scholar
  498. Tuckwell DS, Nicholson MJ, McSweeney CS, Theodorou MK, Brookman JL (2005) The rapid assignment of ruminal fungi to presumptive genera using ITS1 and ITS2 RNA secondary structures to produce group-specific fingerprints. Microbiology 151:1557–1567PubMedCrossRefGoogle Scholar
  499. Tulasne LR, Tulasne C (1861) Selecta Fungorum Carpologia: Erysiphei Vol 1. Imperial Press, ParisGoogle Scholar
  500. Tulloss RE, Yang ZL (2016) Amanitaceae studies. http://www.amanitaceae.org
  501. Upadhyay HP (1969) Soil fungi from North-East and North Brazil–VII. The genus Gongronella. Nova Hedwigia 17:65–73Google Scholar
  502. Van de Putte K, Nuytinck J, Stubbe D, Huyen TL, Verbeken A (2010) Lactarius volemus sensu lato (Russulales) from northern Thailand: morphological and phylogenetic species concepts explored. Fungal Divers 45:99–130CrossRefGoogle Scholar
  503. van Tieghem P (1876) Sur le développement du fruit des Ascodesmis, genre nouveau de l’ordre des Ascomycètes. Bull Soc Bot Fr 23:271–279CrossRefGoogle Scholar
  504. Vasilyeva LN, Stephenson SL (2005) Pyrenomycetes of the Great Smoky Mountains National Park. II. Cryptovalsa Ces. et De Not. and Diatrypella (Ces. et De Not.) Nitschke (Diatrypaceae). Fungal Divers 19:189–200Google Scholar
  505. Vasilyeva LN, Mel’nik VA (2006) New pyrenomycetous species from Korea and South Africa. Mikol Fitopatol 40:89–92Google Scholar
  506. Vavra J, Joyon L (1966) Étude sur la morphologie, le cycle évolutif et la position systematique de Callimastix cyclopsis Weissenberg 1912. Protistologica 2:15–16Google Scholar
  507. Vizzini A (2014) Nomenclatural novelties. Index Fungorum 176:1Google Scholar
  508. Vizzini A, Contu M, Ercole E (2011) Musumecia gen. nov. in the Tricholomatoid clade (Basidiomycota, Agaricales) related to Pseudoclitocybe. Nord J Bot 29:734–740CrossRefGoogle Scholar
  509. Vizzini A, Consiglio G, Ercole E, Setti L (2016) Pseudoporpoloma, a new genus for Agaricus pes-caprae (Agaricales, Tricholomataceae). Phytotaxa 243:271–280CrossRefGoogle Scholar
  510. Vlasák J, Kout J (2011) Pileate Fomitiporia species in the USA. new combinations Fomitiporia calkinsii and F. bakeri. Mycol Prog 10:445–452CrossRefGoogle Scholar
  511. Vlasák J, Li HJ, Zhou LW, Dai YC (2013) A further study on Inonotus linteus complex (Hymenochaetales, Basidiomycota) in tropical America. Phytotaxa 124:25–36CrossRefGoogle Scholar
  512. Wagner T, Fischer M (2002) Proceedings towards a natural classification of theworldwide taxa Phellinus s.l. and Inonotus s.l., and phylogenetic relationships of allied genera. Mycologia 94:998–1016PubMedCrossRefGoogle Scholar
  513. Wagner L, Stielow B, Hoffmann K, Petkovits T, Papp T, Vágvölgyi C, de Hoog GS, Verkley G, Voigt K (2013) A comprehensive molecular phylogeny of the Mortierellales (Mortierellomycotina) based on nuclear ribosomal DNA. Persoonia 30:77–93PubMedPubMedCentralCrossRefGoogle Scholar
  514. Walther G, Pawłowska J, Alastruey-Izquierdo A, Wrzosek M, Rodriguez-Tudela JL, Dolatabadi S, Chakrabarti A, de Hoog GS (2013) DNA barcoding in Mucorales: an inventory of biodiversity. Persoonia 30:11–47PubMedPubMedCentralCrossRefGoogle Scholar
  515. Wanasinghe DN, Jones EBG, Camporesi E, Boonmee S, Ariyawansa HA, Wijayawardene NN, Hyde KD (2014) An exciting novel member of Lentitheciaceae in Italy from Clematis Vitalba. Cryptogam Mycol 35:323–337CrossRefGoogle Scholar
  516. Wanasinghe DN, Jones EBG, Camporesi E et al. (2016) Taxonomy and phylogeny of Laburnicola gen. nov. (Didymosphaeriaceae, Massarinae). Fungal Biol (in press)Google Scholar
  517. Wang DM, Wu SH, Li TH (2009a) Two records of Ganoderma new to mainland China. Mycotaxon 108:35–40CrossRefGoogle Scholar
  518. Wang J, Zhou W, Yuan H, Wang Y (2008) Characterization of a novel fungal chitosanase Csn2 from Gongronella sp. JG. Carbohydr Res 343:2583–2588PubMedCrossRefGoogle Scholar
  519. Wang XH, Yang ZL, Li YC, Knudsen H, Liu PG (2009b) Russula griseocarnosa sp. nov. (Russulaceae, Russulales), a commercially important edible mushroom in tropical China: mycorrhiza, phylogenetic position, and taxonomy. Nova Hedwig 88:269–282CrossRefGoogle Scholar
  520. Wang YW, Hong TW, Tai YL et al. (2015a) Evaluation of an epitypified Ophiocordyceps formosana (Cordycepss.l.) for its pharmacological potential. Evid Based Complement Alternat Med 2015:13Google Scholar
  521. Wang ZR, Parra L, Callac P, Zhou JL, Fu WJ, Dui SH, Hyde KD, Zhao RL (2015a) Edible species of Agaricus (Agaricaceae) from Xinjiang Province (Western China). Phytotaxa 202:185–197CrossRefGoogle Scholar
  522. Watanabe T (1994) Two new species of homothallic Mucor in Japan. Mycologia 86:691–695CrossRefGoogle Scholar
  523. Webb J, Theodorou MK (1991) Neocallimastix hurleyensis sp. nov., an anaerobic fungus from the ovine rumen. Can J Bot 69:1220–1224CrossRefGoogle Scholar
  524. Weerakoon G (2015) Fascinating Lichens of Sri Lanka. Dilmah Conservation, ColomboGoogle Scholar
  525. Weerakoon G, Aptroot A (2013) Some new lichen species from Sri Lanka, with a key to the genus Heterodermia in Sri Lanka. Cryptogam Mycol 34:321–328CrossRefGoogle Scholar
  526. Weerakoon G, Aptroot A (2014) Over 200 new lichen records from Sri Lanka, with three new species to science. Cryptogamie Mycol 35:51–62CrossRefGoogle Scholar
  527. Weerakoon G, Aptroot A, Lumbsch HT, Wolseley PA, Wijeyaratne SC, Gueidan C (2012a) New molecular data on Pyrenulaceae from Sri Lanka reveal two well-supported groups within this family. Lichenologist 44:639–647CrossRefGoogle Scholar
  528. Weerakoon G, Rivas Plata E, Lumbsch HT, Lücking R (2012b) Three new species of Chapsa (lichenized Ascomycota: Ostropales: Graphidaceae) from tropical Asia. Lichenologist 44:373–379CrossRefGoogle Scholar
  529. Weerakoon G, Wijeyaratne SC, Wolseley PA, Rivas Plata E, Lücking R, Lumbsch HT (2012c) Six new species of Graphidaceae from Sri Lanka. Bryologist 115:74–83CrossRefGoogle Scholar
  530. Weerakoon G, Lücking R, Lumbsch HT (2014) Thirteen new species of Graphidaceae (lichenized Ascomycota: Ostropales) from Sri Lanka. Phytotaxa 189:331–347CrossRefGoogle Scholar
  531. Weerakoon G, Jayalal U, Wijesundara S, Karunaratne V, Lücking R (2015) Six new Graphidaceae (lichenized Ascomycota: Ostropales) from Horton Plains National Park, Sri Lanka. Nova Hedwigia 101:77–88CrossRefGoogle Scholar
  532. Wehmeyer LE (1957) The genus Saccothecium, Pringsheimia, Pleosphaerulina and Pseudoplea. Mycologia 49:83–94CrossRefGoogle Scholar
  533. Wei F, Hong Y, Liu J, Yuan J, Fang W, Peng H, Xiao Y (2010) Gongronella sp. induces overproduction of laccase in Panus rudis. J Basic Microbiol 50:98–103PubMedCrossRefGoogle Scholar
  534. Wen TC, Zhu RC, Kang JC, Huang MH, Tan DB, Ariyawansha H, Liu H (2013) Ophiocordyceps xuefengensis sp. nov. from larvae of Phassusnodus (Hepialidae) in Hunan Province, southern China. Phytotaxa 123:41–50CrossRefGoogle Scholar
  535. Westendorp GD (1857) Sur quelques hypoxylées inédites ou nouvelles pour la flore de la Belgique. Bull de l’Académie Royale de Belgique Classe de Sci, Sér 22:554–579Google Scholar
  536. Wicklow DT, Joshi BK, Gamble WR, Gloer JB, Dowd PF (1998) Antifungal metabolites (monorden, monocillin IV, and cerebrosides) from Humicola fuscoatra Traaen NRRL 22980, a mycoparasite of Aspergillus flavus sclerotia. Appl Environ Microbiol 64:4482–4484PubMedPubMedCentralGoogle Scholar
  537. Wijayawardene DNN, McKenzie EHC, Hyde KD (2012) Towards incorporating anamorphic fungi in a natural classification—checklist and notes for 2011. Mycosphere 3:157–228CrossRefGoogle Scholar
  538. Wijayawardene NN, Hyde KD, Bhat DJ, Camporesi E, Schumacher RK, Chethana KT, Wikee S, Bahkali AH, Wang Y (2014a) Camarosporium-like species are polyphyletic in Pleosporales; introducing Paracamarosporium and Pseudocamarosporium gen. nov. in Montagnulaceae. Cryptogam Mycol 35:177–198CrossRefGoogle Scholar
  539. Wijayawardene NN, Crous PW, Kirk PM, Hawksworth DL, Boonmee S, Braun U, Chomnunti P, Dai DQ, D’Souza MJ, Diederich P, Dissanayake A, Doilom M, Hongsanan S, Jones EBG, Groenewald JZ, Ayawardena R, Lawrey JD, Liu JK, Lucking R, Madrid H, Manamgoda DS, Muggia L, Nelsen MP, Phookamsak R, Suetrong S, Tanaka K, Thambugala KM, Wikee S, Zhang Y, Aptroot A, Ariyawansa HA, Bahkali AH, Bhat JD, Gueidan C, DeHoog GS, Knudsen K, Mckenzie EHC, Miller AN, Mortimer PE, Wanasinghe DN, Phillips AJL, Raja HA, Slippers B, Shivas RS, Taylor JE, Wang Y, Woudenberg JHC, Piatek M, Cai L, Jaklitsch WM, Hyde KD (2014b) Naming and outline of Dothideomycetes–2014. Fungal Divers 69:1–55CrossRefGoogle Scholar
  540. Wilson AW, Desjardin DE (2005) Phylogenetic relationships in the gymnopoid and marasmioid fungi (Basidiomycetes, euagarics clade). Mycologia 97:667–679PubMedCrossRefGoogle Scholar
  541. Wingfield MJ, De Beer ZW, Slippers B, Wingfield BD, Groenewald JZ, Lombard L, Crous PW (2012) One fungus, one name promotes progressive plant pathology. Mol Plant Pathol 13:604–613PubMedCrossRefGoogle Scholar
  542. Winter G (1885) Pilze - Ascomyceten. In GL Rabenhorst’s Kryptogamen-Flora von Deutschland, Oesterreich und der Schweiz 1:65–528Google Scholar
  543. Winter G (1886) Rabenhorst’s Kryptogamen-Flora, Pilze - Ascomyceten 1:570ppGoogle Scholar
  544. Whalley AJS, Jones EBG, Hyde KD, Læssøe T (1999) Halorosellinia gen. nov. to accommodate Hypoxylon oceanicum, a common mangrove species. Mycol Res 104:368–374CrossRefGoogle Scholar
  545. White WL, Downing MH (1953) Humicola grisea, a soil-inhabiting, cellulolytic hyphomycete. Mycologia 45:951–963Google Scholar
  546. White MM, James TY, O’Donnell K, Cafaro MJ, Tanabe Y, Sugiyama J (2006) Phylogeny of the Zygomycota based on nuclear ribosomal sequence data. Mycologia 98:872–884PubMedCrossRefGoogle Scholar
  547. Wu G, Feng B, Xu J, Zhu XT, Li YC, Zeng NK, Hosen MI, Yang ZL (2014) Molecular phylogenetic analyses redefine seven major clades and reveal 22 new generic clades in the fungal family Boletaceae. Fungal Divers 69:93–115CrossRefGoogle Scholar
  548. Wu SH, Dai YC, Hattori T, Yu TW, Wang DM, Parmasto E, Chang HY, Shih SY (2012) Species clarification for the medicinally valuable ‘sanghuang’ mushroom. Bot Stud 53:135–149Google Scholar
  549. Yan JY, Xie Y, Zhang W, Wang Y, Liu JK, Hyde KD, Seem RC, Zhang GC, Wang ZY, Yao SW, Bai XJ, Dissanayake AJ, Peng YL, Li XH (2013) Species of Botryosphaeriaceae involved in grapevine dieback in China. Fungal Divers 61:221–236CrossRefGoogle Scholar
  550. Yang Q, Fan ZL, Crous PW, Liang YM, Tian CM (2015a) Cytospora from Ulmus pumila in Northern China. Mycol Prog 14:74–85CrossRefGoogle Scholar
  551. Yang X, Copes WE, Hong C (2014a) Two novel species representing a new clade and cluster of Phytophthora. Fungal Biol 118:72–82PubMedCrossRefGoogle Scholar
  552. Yang X, Gallegly ME, Hong CX (2014b) A high-temperature tolerant species in clade 9 of the genus Phytophthora: P. hydrogena sp. nov. Mycologia 106:57–65PubMedCrossRefGoogle Scholar
  553. Yang X, Hong CX (2013) Phytophthora virginiana sp. nov., a high-temperature tolerant species from irrigation water in Virginia. Mycotaxon 126:167–176CrossRefGoogle Scholar
  554. Yang ZL (1991) Clarkeinda trachodes, an agaric new to China. Acta Bot Yunnanica 13:279–282Google Scholar
  555. Yang ZL (1997) Die Amanita-Arten von Suedwestchina. Bibl Mycol 170:1–240Google Scholar
  556. Yang ZL, Doi Y (1999) A contribution to the knowledge of Amanita (Amanitaceae, Agaricales) in Japan. Bull Natl Sci Mus Tokyo 25:108–130Google Scholar
  557. Yang ZL, Li TH, Wu XL (2001) Revision of Amanita collections made from Hainan, Southern China. Fungal Divers 6:149–165Google Scholar
  558. Yang ZL, Weiß M, Oberwinkler F (2004) New species of Amanita from the eastern Himalaya and adjacent regions. Mycologia 96:636–646PubMedCrossRefGoogle Scholar
  559. Yang ZL, Li YC, Tang LP, Shi GQ, Zeng G (2012) Trogia venenata (Agaricales), a novel poisonous species which has caused hundreds of deaths in southwestern China. Mycol Prog 11:937–945CrossRefGoogle Scholar
  560. Yang ZL, Feng B, Hao YJ (2013) Pseudoarmillariella bacillaris, a new species with bacilliform basidiospores in Asia. Mycosystema 32:132–132Google Scholar
  561. Yang ZL, Qin J, Xia CF, Hu Q, Li QQ (2015b) Ophiocordyceps highlandensis, a new entomopathogenic fungus from Yunnan, China. Phytotaxa 204:287–295CrossRefGoogle Scholar
  562. Zalar P, Hennebert GL, Gunde-Cimerman N, Cimerman A (1997) Mucor troglophilus, a new species from cave crickets. Mycotaxon 65:507–516Google Scholar
  563. Zang M, Li TH, Petersen RH (2001) Five new species of Boletaceae from China. Mycotaxon 80:481–487Google Scholar
  564. Zeng NK, Tang LP, Li YC, Tolgor B, Zhu XT, Zhao Q, Yang ZL (2013) The genus Phylloporus (Boletaceae, Boletales) from China: morphological and multi-locus DNA sequence analyses. Fungal Divers 58:73–101CrossRefGoogle Scholar
  565. Zeng NK, Wu G, Li YC, Liang ZQ, Yang ZL (2014) Crocinoboletus, a new genus of Boletaceae (Boletales) with unusual boletocrocin polyene pigments. Phytotaxa 175:133–140CrossRefGoogle Scholar
  566. Zhang LF, Yang JB, Yang ZL (2004) Molecular phylogeny of eastern Asian species of Amanita (Agaricales, Basidiomycota): taxonomic and biogeographic implications. Fungal Divers 17:219–238Google Scholar
  567. Zhang N, Castlebury LA, Miller AN, Huhndorf SM, Schoch CL, Seifert KA, Rossman AY, Rogers JD, Kohlmeyer J, Volkmann-Kohlmeyer B, Sung GH (2006) An overview of the systematics of the Sordariomycetes based on four-gene phylogeny. Mycologia 98:1077–1088CrossRefGoogle Scholar
  568. Zhang P, Chen ZH, Xiao B, Tolgor B, Bao HY, Yang ZL (2010) Lethal amanitas of East Asia characterized by morphological and molecular data. Fungal Divery 42:119–133CrossRefGoogle Scholar
  569. Zhang P, Yang ZL, Ge ZW (2005) Two new species of Ramaria from southwestern China. Mycotaxcon 94:235–240Google Scholar
  570. Zhang Y, Schoch CL, Fournier J, Crous PW, De Gruyter J, Woudenberg JHC, Hirayama K, Tanaka K, Pointing SB, Spatafora JW, Hyde KD (2009) Multi-locus phylogeny of the Pleosporales: a taxonomic, ecological and evolutionary re-evaluation. Stud Mycol 64:85–102PubMedPubMedCentralCrossRefGoogle Scholar
  571. Zhang Y, Crous PW, Schoch CL, Hyde KD (2012) Pleosporales. Fungal Divers 53:1–221PubMedPubMedCentralCrossRefGoogle Scholar
  572. Zhang Y, Zhang X, Fournier J, Chen J, Hyde KD (2014) Lindgomyces griseosporus, a new aquatic ascomycete from Europe including new records. Mycoscience 55:43–48CrossRefGoogle Scholar
  573. Zhao GC, Zhao RL (2012) The higher microfungi from forests of Yunnan Province. Yunnan Science and Technology Press, KunmingGoogle Scholar
  574. Zhao JD, Zhang XQ (2000) Flora Fungorum Sinicorum. Vol. 8. Ganodermataceae. Science Press, BeijingGoogle Scholar
  575. Zhao K, Wu G, Yang ZL (2014) A new genus, Rubroboletus, to accommodate Boletus sinicus and its allies. Phytotaxa 188:61–77CrossRefGoogle Scholar
  576. Zhao RL, Yang YM, Zhao GC (2004) Pseudolachnella vermospora sp. nov. from Yushania vigens in China. Fungal Divers 15:255–260Google Scholar
  577. Zhao RL, Karunarathna SC, Raspé O, Parra LA, Guinberteau J, Moinard M, Kesel AD, Barroso G, Courtecuisse R, Hyde KD, Guelly AK, Desjardin DE, Callac P (2011) Major clades in tropical Agaricus. Fungal Divers 51:279–296CrossRefGoogle Scholar
  578. Zhao RL, Zhou JL, Chen J et al. (2016) Towards standardizing taxonomic ranks using divergence times – a case study for reconstruction of the Agaricus taxonomic system. Fungal Divers. doi: 10.1007/s13225-016-0357-x
  579. Zhou LW (2015a) Cylindrosporus flavidus gen. et comb. nov. (Hymenochaetales, Basidiomycota) segregated from Onnia. Phytotaxa 219:276–282CrossRefGoogle Scholar
  580. Zhou LW (2015b) Four new species of Phylloporia (Hymenochaetales, Basidiomycota) from tropical China with a key to Phylloporia species worldwide. Mycologia 107:1184–1192PubMedCrossRefGoogle Scholar
  581. Zhou LW, Dai YC (2012) Phylogeny and taxonomy of Phylloporia (Hymenochaetales): new species and a worldwide key to the genus. Mycologia 104:211–222PubMedCrossRefGoogle Scholar
  582. Zhou LW, Vlasák J, Decock C, Assefa A, Stenlid J, Abate D, Wu SH, Dai YC (2016a) Global diversity and taxonomy of the Inonotus linteus complex (Hymenochaetales, Basidiomycota): Sanghuangporus gen. nov., Tropicoporus excentrodendri and T. guanacastensis gen. et spp. nov., and 17 new combinations. Fungal Divers. doi: 10.1007/s13225-015-0335-8 Google Scholar
  583. Zhou LW, Vlasák J, Qin WM, Dai YC (2016b) Global diversity and phylogeny of the Phellinus igniarius complex (Hymenochaetales, Basidiomycota) with the description of five new species. Mycologia 108:192–204PubMedCrossRefGoogle Scholar
  584. Zhou W, Yuan H, Wang J, Yao J (2008) Production, purification and characterization of chitosanase produced by Gongronella sp. JG. Lett Appl Microbiol 46:49–54PubMedGoogle Scholar
  585. Zogg H (1962) Die Hysteriaceaes. str. und Lophiaceae, unter besonderer Berücksichtigung der mitteleuropäischen Formen. Beitr Kryptogamenflora Schweiz Band 11:1–190Google Scholar

Copyright information

© School of Science 2016

Authors and Affiliations

  • Guo Jie Li
    • 1
  • Kevin D. Hyde
    • 2
    • 3
    • 4
  • Rui Lin Zhao
    • 1
  • Sinang Hongsanan
    • 2
    • 3
  • Faten Awad Abdel-Aziz
    • 5
  • Mohamed A. Abdel-Wahab
    • 4
    • 5
  • Pablo Alvarado
    • 6
  • Genivaldo Alves-Silva
    • 7
  • Joseph F. Ammirati
    • 8
  • Hiran A. Ariyawansa
    • 9
  • Abhishek Baghela
    • 10
  • Ali Hassan Bahkali
    • 4
  • Michael Beug
    • 11
  • D. Jayarama Bhat
    • 12
    • 13
  • Dimitar Bojantchev
    • 14
  • Thitiya Boonpratuang
    • 15
  • Timur S. Bulgakov
    • 16
  • Erio Camporesi
    • 17
    • 18
    • 19
  • Marcela C. Boro
    • 20
  • Oldriska Ceska
    • 21
  • Dyutiparna Chakraborty
    • 22
  • Jia Jia Chen
    • 23
  • K. W. Thilini Chethana
    • 2
    • 24
  • Putarak Chomnunti
    • 2
  • Giovanni Consiglio
    • 25
  • Bao Kai Cui
    • 23
  • Dong Qin Dai
    • 2
  • Yu Cheng Dai
    • 23
  • Dinushani A. Daranagama
    • 1
    • 2
  • Kanad Das
    • 22
  • Monika C. Dayarathne
    • 2
    • 3
    • 26
  • Eske De Crop
    • 27
  • Rafael J. V. De Oliveira
    • 28
  • Carlos Alberto Fragoso de Souza
    • 28
  • José I. de Souza
    • 20
  • Bryn T. M. Dentinger
    • 29
    • 30
  • Asha J. Dissanayake
    • 2
    • 24
  • Mingkwan Doilom
    • 2
    • 3
  • E. Ricardo Drechsler-Santos
    • 7
  • Masoomeh Ghobad-Nejhad
    • 31
  • Sean P. Gilmore
    • 32
  • Aristóteles Góes-Neto
    • 33
  • Michał Gorczak
    • 34
  • Charles H. Haitjema
    • 32
  • Kalani Kanchana Hapuarachchi
    • 2
    • 35
  • Akira Hashimoto
    • 36
    • 37
  • Mao Qiang He
    • 1
    • 38
  • John K. Henske
    • 32
  • Kazuyuki Hirayama
    • 39
  • Maria J. Iribarren
    • 40
  • Subashini C. Jayasiri
    • 2
  • Ruvishika S. Jayawardena
    • 2
    • 24
  • Sun Jeong Jeon
    • 41
  • Gustavo H. Jerônimo
    • 20
  • Ana L. Jesus
    • 20
  • E. B. Gareth Jones
    • 4
  • Ji Chuan Kang
    • 35
  • Samantha C. Karunarathna
    • 2
    • 3
    • 26
  • Paul M. Kirk
    • 42
  • Sirinapa Konta
    • 2
    • 3
  • Eric Kuhnert
    • 43
    • 44
  • Ewald Langer
    • 45
  • Haeng Sub Lee
    • 41
  • Hyang Burm Lee
    • 41
  • Wen Jing Li
    • 2
    • 3
  • Xing Hong Li
    • 24
  • Kare Liimatainen
    • 46
  • Diogo Xavier Lima
    • 28
  • Chuan Gen Lin
    • 2
    • 47
  • Jian Kui Liu
    • 9
  • Xings Zhong Liu
    • 1
  • Zuo Yi Liu
    • 9
  • J. Jennifer Luangsa-ard
    • 15
  • Robert Lücking
    • 48
  • H. Thorsten Lumbsch
    • 49
  • Saisamorn Lumyong
    • 50
  • Eduardo M. Leaño
    • 51
  • Agostina V. Marano
    • 20
  • Misato Matsumura
    • 36
    • 37
  • Eric H. C. McKenzie
    • 52
  • Suchada Mongkolsamrit
    • 15
  • Peter E. Mortimer
    • 3
    • 26
  • Thi Thuong Thuong Nguyen
    • 41
  • Tuula Niskanen
    • 29
  • Chada Norphanphoun
    • 2
    • 3
  • Michelle A. O’Malley
    • 32
  • Sittiporn Parnmen
    • 53
  • Julia Pawłowska
    • 34
  • Rekhani H. Perera
    • 2
    • 3
  • Rungtiwa Phookamsak
    • 2
    • 3
  • Chayanard Phukhamsakda
    • 2
    • 3
  • Carmen L. A. Pires-Zottarelli
    • 20
  • Olivier Raspé
    • 54
    • 55
  • Mateus A. Reck
    • 7
  • Sarah C. O. Rocha
    • 20
  • André L. C. M. A. de Santiago
    • 28
  • Indunil C. Senanayake
    • 2
  • Ledo Setti
    • 56
  • Qiu Ju Shang
    • 2
  • Sanjay K. Singh
    • 10
  • Esteban B. Sir
    • 57
    • 58
  • Kevin V. Solomon
    • 32
  • Jie Song
    • 23
  • Prasert Srikitikulchai
    • 15
  • Marc Stadler
    • 43
    • 44
  • Satinee Suetrong
    • 59
  • Hayato Takahashi
    • 37
  • Takumasa Takahashi
    • 37
  • Kazuaki Tanaka
    • 37
  • Li Ping Tang
    • 60
  • Kasun M. Thambugala
    • 2
    • 9
  • Donnaya Thanakitpipattana
    • 15
  • Michael K. Theodorou
    • 61
  • Benjarong Thongbai
    • 2
  • Tuksaporn Thummarukcharoen
    • 15
  • Qing Tian
    • 2
    • 3
  • Saowaluck Tibpromma
    • 2
    • 3
  • Annemieke Verbeken
    • 27
  • Alfredo Vizzini
    • 62
  • Josef Vlasák
    • 63
  • Kerstin Voigt
    • 64
  • Dhanushka N. Wanasinghe
    • 2
    • 3
  • Yong Wang
    • 47
  • Gothamie Weerakoon
    • 49
  • Hua An Wen
    • 1
  • Ting Chi Wen
    • 35
  • Nalin N. Wijayawardene
    • 2
  • Sarunyou Wongkanoun
    • 15
  • Marta Wrzosek
    • 34
  • Yuan Pin Xiao
    • 2
    • 35
  • Jian Chu Xu
    • 3
    • 26
  • Ji Ye Yan
    • 24
  • Jing Yang
    • 2
    • 9
  • Shu Da Yang
    • 60
  • Yu Hu
    • 60
  • Jin Feng Zhang
    • 2
    • 9
  • Jie Zhao
    • 32
  • Li Wei Zhou
    • 65
  • Derek Peršoh
    • 66
  • Alan J. L. Phillips
    • 67
  • Sajeewa S. N. Maharachchikumbura
    • 68
  1. 1.State Key Laboratory of Mycology, Institute of MicrobiologyChinese Academy of SciencesBeijingPeople’s Republic of China
  2. 2.Centre of Excellence in Fungal Research and School of ScienceMae Fah Luang UniversityChiang RaiThailand
  3. 3.Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of BotanyChinese Academy of ScienceKunmingPeople’s Republic of China
  4. 4.Department of Botany and Microbiology, College of ScienceKing Saud UniversityRiyadhSaudi Arabia
  5. 5.Department of Botany and Microbiology, Faculty of ScienceSohag UniversitySohagEgypt
  6. 6.ALVALABSantanderSpain
  7. 7.Micolab, Programa de Pós-Graduação em Biologia de Fungos, Algas e Plantas, Departamento de BotânicaUniversidade Federal de Santa CatarinaFlorianópolisBrazil
  8. 8.Department of BiologyUniversity of WashingtonSeattleUSA
  9. 9.Guizhou Key Laboratory of Agricultural BiotechnologyGuizhou Academy of Agricultural SciencesGuiyangPeople’s Republic of China
  10. 10.National Fungal Culture Collection of India (NFCCI), Biodiversity and Palaeobiology GroupMACS’Agharkar Research InstitutePuneIndia
  11. 11.HusumUSA
  12. 12.Formerly, Department of BotanyGoa UniversityGoaIndia
  13. 13.No. 128/1-J, Azad Housing SocietyCurcaIndia
  14. 14.MushroomHobby.comHerculesUSA
  15. 15.Microbe Interaction Laboratory (BMIT), BIOTECNational Science and Technology Development Agency (NSTDA)Khlong LuangThailand
  16. 16.Academy of Biology and BiotechnologySouthern Federal UniversityRostov-on-DonRussia
  17. 17.A.M.B. Gruppo Micologico Forlivese “Antonio Cicognani”ForlìItaly
  18. 18.A.M.B. Circolo Micologico “Giovanni Carini”BresciaItaly
  19. 19.Società per gli Studi Naturalistici della RomagnaBagnacavalloItaly
  20. 20.Núcleo de Pesquisa em MicologiaInstituto de BotânicaSão PauloBrazil
  21. 21.VictoriaCanada
  22. 22.Cryptogamic UnitBotanical Survey of India, Botanic GardenHowrahIndia
  23. 23.Institute of MicrobiologyBeijing Forestry UniversityBeijingPeople’s Republic of China
  24. 24.Institute of Plant and Environment ProtectionBeijing Academy of Agriculture and Forestry SciencesBeijingPeople’s Republic of China
  25. 25.Casalecchio di RenoItaly
  26. 26.Soil Biology GroupWorld Agro Forestry Centre East and Central Asia OfficeKunmingPeople’s Republic of China
  27. 27.Research Group Mycology, Department of BiologyGhent UniversityGhentBelgium
  28. 28.PostGraduate Program in Biology of Fungi, Department of MycologyFederal University of PernambucoRecifeBrazil
  29. 29.Jodrell LaboratoryRoyal Botanic GardensKewUK
  30. 30.Institute of Biological, Environmental and Rural SciencesAberystwyth UniversityCeredigionUK
  31. 31.Department of BiotechnologyIranian Research Organization for Science and Technology (IROST)TehranIran
  32. 32.Department of Chemical EngineeringUniversity of California Santa BarbaraSanta BarbaraUSA
  33. 33.Laboratório de Pesquisa em Microbiologia (LAPEM), Departamento de Ciências Biológicas, Programa de Pós-Graduação em BotânicaUniversidade Estadual de Feira de SantanaFeira de SantanaBrazil
  34. 34.Department of Molecular Phylogenetics and Evolution, Institute of Botany, Faculty of BiologyUniversity of WarsawWarsawPoland
  35. 35.Engineering Research Centre of Southwest Bio-Pharmaceutical Resources, Ministry of EducationGuizhou UniversityGuiyangChina
  36. 36.The United Graduate School of Agricultural SciencesIwate UniversityMoriokaJapan
  37. 37.Faculty of Agriculture and Life SciencesHirosaki UniversityHirosakiJapan
  38. 38.Key Laboratory of Forest Disaster Warning and Control in Yunnan Province, Faculty of Biology ConservationSouthwest Forestry UniversityKunmingPeople’s Republic of China
  39. 39.Apple Experiment Station, Aomori Prefectural Agriculture and Forestry Research CenterKuroishiJapan
  40. 40.Universidad Nacional de Luján (UNLu)LujánArgentina
  41. 41.Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture and Life SciencesChonnam National UniversityGwangjuRepublic of Korea
  42. 42.Royal Botanic Gardens, KewRichmondUK
  43. 43.Department of Microbial DrugsHelmholtz-Zentrum für Infektionsforschung GmbHBraunschweigGermany
  44. 44.Partner Site Hannover-BraunschweigGerman Centre for Infection Research (DZIF)BraunschweigGermany
  45. 45.Department of EcologyUniversity of KasselKasselGermany
  46. 46.Department of Biosciences, Plant BiologyUniversity of HelsinkiHelsinkiFinland
  47. 47.Department of Plant Pathology, College of AgricultureGuizhou UniversityGuiyangPeople’s Republic of China
  48. 48.Botanischer Garten & Botanisches Museum BerlinFreie Universität BerlinBerlinGermany
  49. 49.Science & EducationThe Field MuseumChicagoUSA
  50. 50.Department of Biology, Faculty of ScienceChiang Mai UniversityChiang MaiThailand
  51. 51.Network of Aquaculture Centres in Asia-Pacific, Suraswadi BuildingKasetsart University CampusBangkokThailand
  52. 52.Landcare ResearchAucklandNew Zealand
  53. 53.Toxicology Center, National Institute of Health, Department of Medical Sciences, Ministry of Public HealthNonthaburiThailand
  54. 54.Botanic Garden MeiseMeiseBelgium
  55. 55.Fédération Wallonie-BruxellesService général de l’Enseignement Universitaire et de la Recherche ScientifiqueBruxellesBelgium
  56. 56.SuzzaraItaly
  57. 57.Laboratory of MycologyFundación Miguel LilloSan Miguel de TucumánArgentina
  58. 58.Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET)Buenos AiresArgentina
  59. 59.Fungal Biodiversity Laboratory (BFBD), BIOTECNational Science and Technology Development Agency (NSTDA)Khlong LuangThailand
  60. 60.School of Pharmaceutical Sciences and Yunnan Key Laboratory of Pharmacology for Natural ProductsKunming Medical UniversityKunmingPeople’s Republic of China
  61. 61.Animal Production, Welfare and Veterinary SciencesHarper Adams UniversityNewportUK
  62. 62.Department of Life Sciences and Systems BiologyUniversità di TorinoTorinoItaly
  63. 63.Institute of Plant Molecular BiologyBiology Centre of the Academy of Sciences of the Czech RepublicČeské BudějoviceCzech Republic
  64. 64.Jena Microbial Resource CollectionLeibniz Institute for Natural Product Research and Infection BiologyJenaGermany
  65. 65.Institute of Applied EcologyChinese Academy of SciencesShenyangPeople’s Republic of China
  66. 66.GeobotanyRuhr-Universität BochumBochumGermany
  67. 67.Faculty of Sciences, Biosystems and Integrative Sciences Institute (BioISI)University of LisbonLisbonPortugal
  68. 68.Department of Crop SciencesSultan Qaboos UniversityAl KhodOman

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