Blog List

Friday, 6 October 2017

DISCOMYCETES: the apothecial representatives of the phylum Ascomycota

Author
  • A. H. Ekanayaka
  • H. A. Ariyawansa
  • K. D. Hyde
  • E. B. G. Jones
  • D. A. Daranagama
  • A. J. L. Phillips
  • S. Hongsanan
  • S. C. Jayasiri
  • Qi Zhao
  1. 1.
  2. 2.
  3. 3.
  4. 4.
  5. 5.
  6. 6.
Article

Abstarct

Discomycetes are an artificial grouping of apothecia-producing fungi in the phylum Ascomycota. Molecular-based studies have revealed that the discomycetes can be found among ten classes of Ascomycota. The classification of discomycetes has been a major challenge due to the lack of a clear understanding of the important morphological characters, as well as a lack of reference strains. In this review, we provide a historical perspective of discomycetes, notes on their morphology (including both asexual and sexual morphs), ecology and importance, an outline of discomycete families and a synoptical cladogram of currently accepted families in Ascomycota showing their systematic position. We also calculated evolutionary divergence times for major discomycetous taxa based on phylogenetic relationships using a combined LSU, SSU and RPB2 data set from 175 strains and fossil data. Our results confirm that discomycetes are found in two major subphyla of the Ascomycota: Taphrinomycotina and Pezizomycotina. The taxonomic placement of major discomycete taxa is briefly discussed. The most basal group of discomycetes is the class Neolectomycetes, which diverged from other Taphrinomycotina around 417 MYA (216–572), and the most derived group of discomycetes, the class Lecanoromycetes, diverged from Eurotiomycetes around 340 MYA (282–414). Further clarifications based on type specimens, designation of epitypes or reference specimens from fresh collections, and multi-gene analyses are needed to determine the taxonomic arrangement of many discomycetes.

References

  1. Abdullah SK, Descals E, Webster J (1981) Teleomorphs of three aquatic hyphomycetes. Trans Br Mycol Soc 77:475–483CrossRefGoogle Scholar
  2. Agrios GN (2005) Plant pathology, 5th edn. Elsevier Academic Press, BurlingtonGoogle Scholar
  3. Ahmadijian V (2012) The lichens. Elsevier, AmsterdamGoogle Scholar
  4. Alasoadura SO (1972) Studies in the higher fungi of Nigeria IV. Some operculate discomycetes. Nova Hedwig 23:767–780Google Scholar
  5. Almeida DAC, Gusmão LFP, Miller AN (2014) Brazilian semi-arid ascomycetes I: new and interesting records of hysteriaceous ascomycetes. Mycosphere 5:379–391CrossRefGoogle Scholar
  6. Amano K (1986) Host range and geographical distribution of the powdery mildew fungi. Science Society Press, TokyoGoogle Scholar
  7. Amselem J, Cuomo CA, van Kan JAL, Viaud M, Benito EP, Couloux A, Coutinho PM, de Vries RP, Dyer PS, Fillinger S, Fournier E, Gout L, Hahn M, Kohn L, Lapalu N, Plummer KM, Pradier JM, Quévillon E, Sharon A, Simon A, ten Have A, Tudzynski B, Tudzynski P, Wincker P, Andrew M, Anthouard V, Beever RE, Beffa R, Benoit I, Bouzid O, Brault B, Chen Z, Choquer M, Collémare J, Cotton P, Danchin EG, Da Silva C, Gautier A, Giraud C, Giraud T, Gonzalez C, Grossetete S, Güldener U, Henrissat B, Howlett BJ, Kodira C, Kretschmer M, Lappartient A, Leroch M, Levis C, Mauceli E, Neuvéglise C, Oeser B, Pearson M, Poulain J, Poussereau N, Quesneville H, Rascle C, Schumacher J, Ségurens B, Sexton A, Silva E, Sirven C, Soanes DM, Talbot NJ, Templeton M, Yandava C, Yarden O, Zeng Q, Rollins JA, Lebrun MH, Dickman M (2011) Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea. PLoS Genet 7:e1002230PubMedPubMedCentralCrossRefGoogle Scholar
  8. Aptroot A, Schumm F (2010) Chimeras occur on the pantropical Lichinomycete Phyllopeltula corticola. Lichenologist 42:307–310CrossRefGoogle Scholar
  9. Aptroot A, Parnmen S, Lücking R, Baloch E, Jungbluth P, Caceres MES, Lumbsch HT (2015) Molecular phylogeny resolves a taxonomic misunderstanding and places Geisleria close to Absconditella s.str. (OstropalesStictidaceae). Lichenologist 46:115–128CrossRefGoogle Scholar
  10. 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, Shivas RG (2014) Epitypification and neotypification: guidelines with appropriate and inappropriate examples. Fungal Divers 69:57–91CrossRefGoogle Scholar
  11. Ariyawansa HA, Phukhamsakda C, Thambugala KM, Bulgakov TS, Wanasinghe DN, Perera RH, Mapook A, Camporesi E, Kang JC, Jones EBG, Bahkali AH, Jayasiri SC, Hyde KD, Liu ZY, Bhat DJ (2015a) Revision and phylogeny of Leptosphaeriaceae. Fungal Divers 74:19–51CrossRefGoogle Scholar
  12. 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, Lumbsch HT, Matsumura M, Moncada B, Nuankaew S, Parnmen S, de Azevedo Santiago ALCM, Sommai S, Song Y, de Souza CAF, de Souza-Motta CM, Su HY, Suetrong S, Wang Y, Wei SF, Wen TC, 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 (2015b) Fungal Divers Notes 111–252—taxonomic and phylogenetic contributions to fungal taxa. Fungal Divers 75:27–274CrossRefGoogle Scholar
  13. Ariyawansa HA, Lücking R, Hyde KD, Maharachchikumbura SSN, Ekanayaka AH, Jones EBG, Hongsanan S, Liu JK, Thambugala KM, Bhat J, Liu ZY (2017) Back to the future: revisiting the molecular phylogeny and systematics of the Ascomycota (Fungi). Fungal Divers (in prep)Google Scholar
  14. Arup U, Søchting U, Frödén P (2013) A new taxonomy of the family Teloschistaceae. Nord J Bot 31:16–83CrossRefGoogle Scholar
  15. Arup U, Søchting U, Frödén P (2015) Addendum to ‘A new taxonomy of the family Teloschistaceae’. Nord J Bot 31:256CrossRefGoogle Scholar
  16. Baloch E, Lücking R, Lumbsch HT, Wedin M (2010) Major clades and phylogenetic relationships between lichenized and non-lichenized lineages in Ostropales (Ascomycota: Lecanoromycetes). Taxon 59:1483–1494Google Scholar
  17. Baloch E, Lumbsh HT, Lücking R, Wedin M (2013) New combinations and names in Gyalecta for former Belonia and Pachyphiale (Ascomycota, Ostropales) species. Lichenologist 45:723–727CrossRefGoogle Scholar
  18. Baral HO (1994) Comments on “Outline of the ascomycetes—1993”. Syst Ascomycetum 13:113–128Google Scholar
  19. Baral HO, Bemmann M (2014) Hymenoscyphus fraxineus vs. Hymenoscyphus albidus—A comparative light microscopic study on the causal agent of European ash dieback and related foliicolous, stroma-forming species. Mycology 5:228–290PubMedPubMedCentralCrossRefGoogle Scholar
  20. Baral HO, Rämä T (2015) Morphological update on Calycina marina (PezizellaceaeHelotiales, Leotiomycetes), a new combination for Laetinaevia marina. Bot Mar 58:523–534CrossRefGoogle Scholar
  21. Baral HO, Garcia G, Bogale M, O’Hara MJ, Untereiner WA (2012) Colipila, a new genus in the Helotiales. Mycol Prog 11:201–214CrossRefGoogle Scholar
  22. Baral HO, Marson G, Bogale M, Untereiner WA (2013a) Xerombrophila crystallifera, a new genus and species in the Helotiales. Mycol Res 12:475–488Google Scholar
  23. Baral HO, Galán R, Platas G, Tena R (2013b) Phaeohelotium undulatum comb. nov. and Phaeoh. succineoguttulatum sp. nov., two segregates of the Discinella terrestris aggregate found under Eucalyptus in Spain: taxonomy, molecular biology, ecology and distribution. Mycosystema 32:386–428Google Scholar
  24. Baral H-O, Queloz V, Hosoya T (2014) Hymenoscyphus fraxineus, the correct scientific name for the fungus causing ash dieback in Europe. IMA Fungus 5:79–80PubMedPubMedCentralCrossRefGoogle Scholar
  25. Baral HO, Haelewaters D, Pärtel K (2015) A new attempt to classify the families of the Helotiales. Poster presented at the Second International Workshop on Ascomycete Systematics, Amsterdam, The NetherlandsGoogle Scholar
  26. Baral HO, Weber E, Gams W, Hagedorn G, Liu B, Liu X, Marson G, Marvanová L, Stadler M, Weiß M (2017) Generic names in the Orbiliaceae (Orbiliomycetes) and recommendations on which names should be protected or suppressed. Mycol Prog. doi:10.1007/s11557-017-1300-6Google Scholar
  27. Barlocher F (1992) The ecology of aquatic hyphomycetes. Springer, BerlinCrossRefGoogle Scholar
  28. Barlocher F, Stewart M, Ryder DS (2012) Processing of Eucalyptus viminalis leaves in Australian streams—importance of aquatic hyphomycetes and zoosporic fungi. Fundam Appl Limnol 179:305–319CrossRefGoogle Scholar
  29. Barr ME (1987) Prodromus to the class Loculoascomycetes. Hamilton I. Newell, Inc., AmherstGoogle Scholar
  30. Barr ME (1990) Melanommatales (Loculoascomycetes). North Am Flora II 13:1–129Google Scholar
  31. Barron G (1999) Mushrooms of Northeast North America. Lone Pine, EdmontonGoogle Scholar
  32. Baschien C, Tsui CKM, Gulis V, Szewzyk U, Marvanova L (2013) The molecular phylogeny of aquatic hyphomycetes with affinity to the Leotiomycetes. Fungal Biol 117:660–672PubMedCrossRefGoogle Scholar
  33. Beimforde C, Feldberg K, Nylinder S, Rikkinen J, Tuovila H, Dörfelt H, Gube M, Jackson DJ, Reitner J, Seyfullah LJ, Schmidt AR (2014) Estimating the Phanerozoic history of the Ascomycota lineages: combining fossil and molecular data. Mol Phylogenet Evol 78:386–398PubMedCrossRefGoogle Scholar
  34. Benatti MN, Marcelli MP (2007) Lichenized fungi genera from the mangroves of South and Southestern Brazil, with emphasis on the Itanhaém River mangrove, São Paulo State. Acta Botanica Brasilica 21:863–878CrossRefGoogle Scholar
  35. Bendiksby M, Haugan R, Spribille T, Timdal E (2015) Molecular phylogenetics and taxonomy of the Calvitimela aglaea complex (TephromelataceaeLecanorales). Mycologia 107:1175–1183CrossRefGoogle Scholar
  36. Benny GL, Samuelson DA, Kimbrough JW (1978) Ultrastructural studies of Orbilia luteorubella (Discomycetes). Can J Bot 56:2006–2012CrossRefGoogle Scholar
  37. Berbee ML, Taylor JW (2010) Dating the molecular clock in Fungi—how close are we. Fungal Biol Rev 24:1–15CrossRefGoogle Scholar
  38. Bergemann SE, Garbelotto M (2006) High diversity of fungi recovered from the roots of mature tanoak (Lithocarpus densiflorus) in northern California. Can J Bot 84:1380–1394CrossRefGoogle Scholar
  39. Betts EM (1926) Heterothallism in Ascobolus carbonarius. Am J Bot 13:427–432CrossRefGoogle Scholar
  40. Bielczyk B, Betleja L (2003) The lichens of the ‘Bórna Czerwonem’ raised peat-bog in the Orawa-Nowy Targ Basin (southern Poland). Pol Bot J 48:69–75Google Scholar
  41. Bisby GR, Ainsworth GC, Kirk PM, Aptroot A (2001) Ainsworth & Bisby’s dictionary of the fungi. CAB International, OxonGoogle Scholar
  42. 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
  43. Boehm EW, Mugambi GK, Miller AN, Huhndorf SM, Marincowitz S, Spatafora JW, Schoch CL (2009b) A molecular phylogenetic reappraisal of the HysteriaceaeMytilinidiaceae and Gloniaceae (Pleosporomycetidae, Dothideomycetes) with keys to world species. Stud Mycol 64:49–83PubMedPubMedCentralCrossRefGoogle Scholar
  44. Boehm EW, Marson G, Mathiassen GH, Gardiennet A, Schoch CL (2015) An overview of the genus Glyphium and its phylogenetic placement in Patellariales. Mycologia 107:607–618PubMedPubMedCentralCrossRefGoogle Scholar
  45. Bonito G, Smith ME, Nowak M, Healy RA, Guevara G, Cazares E, Kinoshita A, Nouhra ER, Domınguez LS, Tedersoo L, Murat C, Wang Y, Moreno BA, Pfister DH, Nara K, Zambonelli A, Trappe JM, Vilgalys R (2013) Historical biogeography and diversification of truffles in the Tuberaceae and their newly identified southern hemisphere sister lineage. PLoS ONE 8:e52765PubMedPubMedCentralCrossRefGoogle Scholar
  46. Boudier JLE (1885) Nouvelle classification naturelle des Discomycetes charnus connus generalement sous le nom de Pezizes. Bull Soc Mycol Fr 1:91–120Google Scholar
  47. Brodo IM, Lendemer JC (2015) A revision of the saxicolous, esorediate species of Ainoa and Trapelia (Baeomycetaceae and Trapeliaceae, lichenized Ascomycota) in North America, with the description of two new species. Bryologist 118:385–399CrossRefGoogle Scholar
  48. Budel B, Schultz M (2011) Pseudopeltula necrocorticata sp. nova, a new species in the cyanolichen order Lichinales with an unusual thallus morphology. Bibl Lichenol 106:15–20Google Scholar
  49. Bungartz F, Benatti MN, Spielmann AA (2013) The genus Bulbothrix (Parmeliaceae, Lecanoromycetes) in the Galapagos Islands: a case study of superficially similar, but overlooked macrolichens. Bryologist 116:358–372CrossRefGoogle Scholar
  50. Bungartz F, Elix JA, Yánez-Ayabaca A, Archer AW (2015) Endemism in the genus Pertusaria (Pertusariales, lichenized Ascomycota) from the Galapagos Islands. Telopea 18:325–369CrossRefGoogle Scholar
  51. Bungartz F, Giralt M, Sheard JW, Elix JA (2016) The lichen genus Rinodina (PhysciaceaeTeloschistales) in the Galapagos Islands, Ecuador. Bryologist 119:60–93CrossRefGoogle Scholar
  52. Butinar L, Zalar P, Frisvad JC, Gunde-Cimerman N (2005) The genus Eurotium—members of indigenous fungal community in hypersaline waters of salterns. FEMS Microbiol Ecol 51:155–166PubMedCrossRefGoogle Scholar
  53. Cáceres MES, Rivas Plata E, Lücking R (2012) Malmographina, a new genus for Graphina malmei (Ascomycota: OstropalesGraphidaceae). Lichenologist 44:115–120CrossRefGoogle Scholar
  54. 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 14:143–158PubMedPubMedCentralCrossRefGoogle Scholar
  55. Campbell NA (1996) Biology, 4th edn. The Benjamin/Cummings Publishing Company, Menlo ParkGoogle Scholar
  56. Candan M, Schultz M (2015) New and additional records of cyanolichens from Turkey. Herzogia 28:359–369CrossRefGoogle Scholar
  57. Cannon PF, Kirk PM (2007) Fungal families of the world. CABI, WallingfordGoogle Scholar
  58. Cannon PF, Minter DW (2013) Wadeana dendrographa. IMI descriptions of fungi and bacteria no. 1950Google Scholar
  59. Cantrell SA, Dianese JC, Fell J, Gunde-Cimerman N, Zalar P (2011) Unusual fungal niches. Mycologia 103:1161–1174PubMedCrossRefGoogle Scholar
  60. Carbone M, Agnello C, Alvarado P (2013) Phylogenetic studies in the family Sarcosomataceae (Ascomycota, Pezizales). Ascomycete org 5:1–12Google Scholar
  61. Casselman KL, Dean J (1999) Wild color: [the complete guide to making and using natural dyes]. Watson-Guptill Publications, New YorkGoogle Scholar
  62. Castello M, Skert N (2005) Evaluation of lichen diversity as an indicator of environmental quality in the North Adriatic submediterranean region. Sci Total Environ 336:201–214PubMedCrossRefGoogle Scholar
  63. Chadefaud M (1940) Etudes d’asques. I. Les asques et les ascospores de Bulgaria inquinans. Rev Mycol 5:87–101Google Scholar
  64. Chaudefaud M, Galinou MA (1953) Sur lasque des lichens du genre Pertusaria et son importance phylogenetique. C R Seances Acad Sci 237:1178–1180Google Scholar
  65. Chet I, Henis Y (1975) Sclerotial morphogenesis in fungi. Annu Rev Phytopathol 13:169–192CrossRefGoogle Scholar
  66. Chinan VC, Hewitt D (2011) Neolecta vitellina, first record from Romania, with notes on habitat and phenology. Mycotaxon 118:197–201CrossRefGoogle Scholar
  67. Choi CYJ, Shin HD, Han JG, Pfister DH (2012) Scutellinia (Pezizales) in Korea, with a new species and eight new records. Nova Hedwig 95:3–4Google Scholar
  68. Crawford SD (2015) Lichens used in traditional medicine. In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  69. Crespo A, Kauff F, Divakar PK, del Prado R, Pérez-Ortega S, de Paz GA, Ferencova Z, Blanco O, Roca-Valiente B, Núñez-Zapata J, Cubas P, Argüello A, Elix JA, Esslinger TL, Hawksworth DL, Millanes AM, Molina MC, Wedin M, Ahti T, Aptroot A, Barreno E, Bungartz F, Calvelo S, Candan M, Cole MJ, Ertz D, Goffinet B, Lindblom L, Lücking R, Lutzoni F, Mattsson JE, Messuti MI, Miadlikowska J, Piercey-Normore MD, Rico VJ, Sipman H, Schmitt I, Spribille T, Thell A, Thor G, Upreti DK, Lumbsch HT (2010) Phylogenetic generic classification of parmelioid lichens (Parmeliaceae, Ascomycota) based on molecular, morphological and chemical evidence. Taxon 59:1735–1753Google Scholar
  70. Crous PW, Quaedvlieg W, Hansen K, Hawksworth DL, Groenewald JZ (2014) Phacidium and Ceuthospora (Phacidiaceae) are congeneric: taxonomic and nomenclatural implications. IMA Fungus 5:173–193PubMedPubMedCentralCrossRefGoogle Scholar
  71. Das P, Joshi S, Rout J, Upreti DK (2013) Lichen diversity for environmental stress study: Application of index of atmospheric purity (IAP) and mapping around a paper mill in Barak Valley, Assam, northeast India. Trop Ecol 54:355–364Google Scholar
  72. Day MJ, Hall JC, Currah RS (2012) Phialide arrangement and character evolution in the helotialean anamorph genera Cadophora and Phialocephala. Mycologia 104:371–381PubMedCrossRefGoogle Scholar
  73. 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
  74. de Hoog GS, Göttlich E, Platas G, Genilloud O, Leotta G, van Brummelen J (2005) Evolution, taxonomy and ecology of the genus Thelebolus in Antarctica. Stud Mycol 51:33–76Google Scholar
  75. de Silva NI, Lumyong S, Hyde KD, Bulgakov T, Phillips AJL (2016) Mycosphere Essays 6. Defining biotrophs and hemibiotrophs. Mycosphere 7:545–559Google Scholar
  76. Dean SL, Farrer EC, Taylor DL, Porras-Alfaro A, Suding KN, Insabaugh RLS (2013) Nitrogen deposition alters plant–fungal relationships: linking belowground dynamics to aboveground vegetation change. Mol Ecol 23:1364–1378PubMedCrossRefGoogle Scholar
  77. Dennis RWG (1968) British Ascomycetes. J. Cramer, LehreGoogle Scholar
  78. Dennis RWG (1978) British Ascomycetes. J. Cramer, VaduzGoogle Scholar
  79. Descals E, Fisher J, Webster J (1984) The Hymenoscyphus teleomorph of Geniculospora grandis. Trans Br Mycol Soc 83:541–546CrossRefGoogle Scholar
  80. Digby S, Goos RD (1987) Morphology, development and taxonomy of Loramyces. Mycologia 79:821–831CrossRefGoogle Scholar
  81. Dillenius JJ (1719) Catalogus plantarum sponte circa Gissam nascentium. Cum appendice. Francofurti ad MoenumGoogle Scholar
  82. Dimitrova E, Gyosheva M (2009) Bulgarian Pezizales: diversity, distribution and ecology. Phytol Balc 15:13–28Google Scholar
  83. Dodge BO (1912) Methods of culture and the morphology of the archicarp in certain species of the Ascobolaceae. Bull Torrey Bot Club 39:139–197CrossRefGoogle Scholar
  84. Doveri F (2007) An updated key to coprophilous Pezizales and Thelebolales in Italy. Mycol Monten 10:55–82Google Scholar
  85. Doveri F (2012a) Coprophilous discomycetes from the Tuscan archipelago (Italy). Description of two rare species and a new Trichobolus. Mycosphere 3:503–522CrossRefGoogle Scholar
  86. Doveri F (2012b) An exceptional find on rabbit dung from Italy: third record worldwide of Ascobolus perforatus. Mycosphere 3:29–35CrossRefGoogle Scholar
  87. Drummond AJ, Ho SY, Rambaut A (2006) Relaxed phylogenetics and dating with confidence. PLoS Biol 4:e88PubMedPubMedCentralCrossRefGoogle Scholar
  88. Drummond AJ, Suchard MA, Xie D, Rambaut A (2012) Bayesian phylogenetics with BEAUti and the BEAST 1.7. Mol Biol Evol 29:1969–1973PubMedPubMedCentralCrossRefGoogle Scholar
  89. Du XH, Zhao Q, Yang ZL (2015) A review on research advances, issues, and perspectives of morels. Mycology 6(2):78–85CrossRefGoogle Scholar
  90. Eckblad FE (1968) The genera of the Operculate Discomycetes. A reevaluation of their taxonomy, phylogeny and nomenclature. Nytt Mag Bot 15:1–191Google Scholar
  91. Ekanayaka AH, Zhao Q, Jones EBG, Pu ED, Hyde KD (2016a) Two novel Acervus species extend their distribution within Yunnan, China. Phytotaxa 283:074–082CrossRefGoogle Scholar
  92. Ekanayaka AH, Hyde KD, Zhao Q (2016b) The genus Cookeina. Mycosphere 7:1399–1413Google Scholar
  93. Ekanayaka AH, Hyde KD, Jones EBG, Zhao Q, Elgorban AM, Bahkali AH (2017a) A new species of Trichoglossum (Geoglossales, Ascomycota) from Thailand. Phytotaxa 316:161–170CrossRefGoogle Scholar
  94. Ekanayaka AH, Zhao Q, Hyde KD, Jones EBG (2017b) Taxonomy and phylogeny of operculate discomycetes: Pezizomycetes. Fungal divers (In prep)Google Scholar
  95. Ekman S, Andersen HL, Wedin M (2008) The limitations of ancestral state reconstruction and the evolution of the ascus in the Lecanorales (lichenized Ascomycota). Syst Biol 57:141–156PubMedCrossRefGoogle Scholar
  96. Ekman S, Wedin M, Lindblom L, Jørgensen PM (2014) Extended phylogeny and a revised generic classification of the Pannariaceae (Peltigerales, Ascomycota). Lichenologist 46:627–656CrossRefGoogle Scholar
  97. Elix JA (2011a) Three new species of Heterodermia (Physciaceae: Ascomycota) from Australia. Australas Lichenol 68:16–21Google Scholar
  98. Elix JA (2011b) Further new species and new records of Heterodermia (Physciaceae: Ascomycota) from Australia. Australas Lichenol 69:12–24Google Scholar
  99. Ellis CJ, Coppins BJ, Hollingsworth PM (2012) Tree fungus: lichens under threat from ash dieback. Nature 491:672PubMedCrossRefGoogle Scholar
  100. Elmastas M, Turkekul I, Ozturk L, Gulcin I, Isildak O, Aboul-Enein HY (2006) Antioxidant activity of two wild edible mushrooms (Morchella vulgaris and Morchella esculanta) from North Turkey. Comb Chem High Throughput Screen 9:443–448PubMedCrossRefGoogle Scholar
  101. Elvebakk A, Hong SG, Park CH, Robertsen EH, Jørgensen PM (2016) Gibbosporina, a new genus for foliose and tripartite, palaeotropic Pannariaceae species previously assigned to Psoroma. Lichenologist 48:13–52CrossRefGoogle Scholar
  102. Eriksson OE (1986) Lahmia Körber (=Parkerella A. Funk), a misinterpreted genus with isolated position. Mycotaxon 27:347–360Google Scholar
  103. Eriksson OE (1992) Huangshania verrucosa gen. et spec. nov. (TriblidiaceaeTriblidiales ordo nov.), a discomycete on Pinus from China. Syst Ascom 11:1–10Google Scholar
  104. Eriksson OE, Winka K (1997) Supraordinal taxa of Ascomycota. Myconet 1:1–16Google Scholar
  105. Eriksson OE, Baral HO, Currah RS, Hansen K, Kurtzman CP, Laessoe T, Rambold G (2003) Notes on ascomycetes systematics. Nos 3580–3623. Myconet 9:91–103Google Scholar
  106. Ertz D, Diederich P (2015) Dismantling Melaspileaceae: a first phylogenetic study of BuelliellaHemigraphaKarschiaLabrocarpon and Melaspilea. Fungal Divers 71:141–164CrossRefGoogle Scholar
  107. Ertz D, Tehler A (2011) The phylogeny of Arthoniales (Pezizomycotina) inferred from nucLSU and RPB2 sequences. Fungal Divers 49:47–71CrossRefGoogle Scholar
  108. Ertz D, Miadlikowska J, Lutzoni F, Dessein S, Raspe O, Vigneron N, Hofstetter V, Diederich P (2009) Towards a new classification of the Arthoniales (Ascomycota) based on a three- gene phylogeny focusing on the genus Opegrapha. Mycol Res 113:141–152PubMedCrossRefGoogle Scholar
  109. Ertz D, Bungartz F, Diederich P, Tibell L (2011) Molecular and morphological data place Blarneya in Tylophoron (Arthoniaceae). Lichenologist 43:345–356Google Scholar
  110. Ertz D, Fischer E, Killmann D, Razafindrahaja T, Sérusiaux E (2012) Savoronala, a new genus of Malmideaceae (Lecanorales) from Madagascar with stipes producing sporodochia. Mycol Prog 12:645–656CrossRefGoogle Scholar
  111. Ertz D, Tehler A, Fischer E, Killmann D, Razafindrahaja T, Rusiaux ES (2014) Isalonactis, a new genus of Roccellaceae (Arthoniales), from southern Madagascar. Lichenologist 46:159–167CrossRefGoogle Scholar
  112. Ertz D, Flakus A, Oset M, Sipman HJM, Kukwa M (2015a) A first assessment of lichenized Arthoniales in Bolivia with descriptions of two new species. Phytotaxa 217:1–25CrossRefGoogle Scholar
  113. Ertz D, Tehler A, Irestedt M, Frisch A, Thor G, van den Boom P (2015b) A large-scale phylogenetic revision of Roccellaceae (Arthoniales) reveals eight new genera. Fungal Divers 70:31–53CrossRefGoogle Scholar
  114. Fell JW, Scorzetti G, Connell L, Craig S (2006) Biodiversity of micro-eukaryotes in Antarctic dry valley soils with, 5% soil moisture. Soil Biol Biochem 38:3107–3115CrossRefGoogle Scholar
  115. Fernández-Brime S, Llimona X, Lutzoni F, Gaya E (2013) Phylogenetic study of Diploschistes (GraphidaceaeOstropales, lichen-forming Ascomycota), based on morphological, chemical, and molecular data. Taxon 62:267–280CrossRefGoogle Scholar
  116. Filippova NV (2012) Discomycetes from plant, leave and sphagnum litter in ombrotrophic bog (West Siberia). Environmental dynamics and global climate change 3:EDCCrar0003Google Scholar
  117. Filippova NV, Mourgues A, Philippe F (2014) Notes on the phenology of fungi in ombrotrophic bog. Environmental dynamics and global climate change 5:EDCCrar0009Google Scholar
  118. Fitzpatrick DA, Logue ME, Stajich JE, Butler G (2006) A fungal phylogeny based on 42 complete genomes derived from super tree and combined gene analysis. BMC Evol Biol 6:99PubMedPubMedCentralCrossRefGoogle Scholar
  119. Fries EM (1821) Systema mycologicum. 1. LundaeGoogle Scholar
  120. Frisch A, Thor G (2010) Crypthonia, a new genus of byssoid Arthoniaceae (lichenised Ascomycota). Mycol Prog 9:281–303CrossRefGoogle Scholar
  121. Frisch A, Thor G, Ertz D, Grube M (2014a) The Arthonialean challenge: restructuring Arthoniaceae. Taxon 63:727–744CrossRefGoogle Scholar
  122. Frisch A, Thor G, Sheil D (2014b) Four new Arthoniomycetes from Bwindi Impenetrable National Park, Uganda—supported by molecular data. Nova Hedwig 98:295–312CrossRefGoogle Scholar
  123. Frisch A, Ohmura Y, Ertz D, Thor G (2015) Inoderma and related genera in Arthoniaceae with elevated white pruinose pycnidia or sporodochia. Lichenologist 47:233–256Google Scholar
  124. Fryday AM, Lendemer JC (2010) Reassessment of the genus Catillochroma (lichenized Ascomycota, Ramalinaceae). Lichenologist 42:587–600CrossRefGoogle Scholar
  125. Funk A (1976) Parkerella, a new genus of Coronophorales. Can J Bot 54:868–871CrossRefGoogle Scholar
  126. Furbino LE, Godinho VM, Santiago IF, Pellizari FM, Alves TMA, Zani CL, Junior PAS, Romanha AJ, Carvalho AGO, Gil LHVG, Rosa CA, Minnis AM, Rosa LH (2014) Diversity patterns, ecology and biological activities of fungal communities associated with the endemic macroalgae across the Antarctic Peninsula. Microb Ecol 67:775–787PubMedCrossRefGoogle Scholar
  127. Galloway DJ (2013) The lichen genera Aspiciliopsis, and Placopsis (TrapelialesTrapeliaceae: Ascomycota) in New Zealand. Phytotaxa 120:1–194CrossRefGoogle Scholar
  128. Galloway DJ, Elix JA (2013) Reinstatement of Crocodia Link (Lobariaceae: Ascomycota) for five species formerly included in Pseudocyphellaria Vain. Australas Lichenol 72:32–42Google Scholar
  129. Gamundi IJ (1971) Las Cyttariales sudamericanas (Fungi-Ascomycetes). Darwiniana 16:461–510Google Scholar
  130. Gargas A, Taylor JW (1995) Phylogeny of the discomycetes and early radiations of the apothecial ascomycotina inferred from SSU rDNA sequence data. Exp Mycol 19:7–15PubMedCrossRefGoogle Scholar
  131. Gaya E, Högnabba F, Holguin Á, Molnar K, Fernández-Brime S, Stenroos S, Arup U, Søchting U, VandenBoom P, Lücking R, Sipman HJM, Lutzoni F (2012) Implementing a cumulative supermatrix approach for a comprehensive phylogenetic study of the Teloschistales (Pezizomycotina, Ascomycota). Mol Phylogenet Evol 63:374–387PubMedCrossRefGoogle Scholar
  132. Geiser DM, Gueidan C, Miadlikowska J, Lutzoni F, Kauff F, Hofstetter V, Fraker E, Schoch CL, Tibell L, Untereiner WA, Aptroot A (2006) Eurotiomycetes: eurotiomycetidae and chaetothyriomycetidae. Mycologia 98:1053–1064PubMedCrossRefGoogle Scholar
  133. Geml J, Gravendeel B, van der Gaag KJ, Neilen M, Lammers Y, Raes N, Semenova TA, de Knijff P, Noordeloos ME (2014) The contribution of DNA metabarcoding to fungal conservation: diversity assessment, habitat partitioning and mapping red-listed fungi in protected coastal salix repens communities in the Netherlands. PLoS ONE 9:e99852PubMedPubMedCentralCrossRefGoogle Scholar
  134. Gernhard T (2008) The conditioned reconstruction process. J Theor Biol 253:769–778PubMedCrossRefGoogle Scholar
  135. Giordani P, Brunialti G (2015) Sampling and interpreting lichen diversity data for biomonitoring purposes. In: Upreti DK et al (eds) Recent advances in lichenology. Springer, New DelhiGoogle Scholar
  136. Greif MD, Gibas CFC, Tsuneda A, Currah RS (2007) Ascoma development and phylogeny of an apothecioid dothideomycete, Catinella olivacea. Am J Bot 94:1890–1899PubMedCrossRefGoogle Scholar
  137. Grube M (1998) Classification and phylogeny in the Arthoniales (lichenized Ascomycetes). Bryologist 101:377–391CrossRefGoogle Scholar
  138. Grube M, Baloch E, Lumbsch HT (2004) The phylogeny of Porinaceae (Ostropomycetidae) suggests a neotenic origin of perithecia in Lecanoromycetes. Mycol Res 108:1111–1118PubMedCrossRefGoogle Scholar
  139. Grünig CR, Sieber TN (2005) Molecular and phenotypic description of the widespread root symbiont Acephala applanata gen. et sp. nov., formerly known as dark-septate endophyte Type 1. Mycologia 97:628–640PubMedCrossRefGoogle Scholar
  140. Gueidan C, Villasenor CR, de Hoog GS, Gorbushina AA, Untereiner WA, Lutzoni F (2008) A rock-inhabiting ancestor for mutualistic and pathogen-rich fungal lineages. Stud Mycol 61:111–119PubMedPubMedCentralCrossRefGoogle Scholar
  141. Gueidan C, Ruibal C, De Hoog GS, Schneider H (2011) Rock–inhabiting fungi originated during periods of dry climate in the late Devonian and middle Triassic. Fungal Biol 115:987–996PubMedCrossRefGoogle Scholar
  142. Gueidan C, Hill DJ, Miadlikowska J, Lutzoni F (2015) Chapter 4. Pezizomycotina: lecanoromycetes. In: McLaughlin DJ, Spatafora JW (eds) Volume VII B of The mycota, systematics and evolution. Springer, Berlin, pp 89–120Google Scholar
  143. Güngör H, Güngör MY, Solak MH (2014) Ascodesmidaceae J. Schröt. a new family (Ascomycota) record for the Turkish mycota. Biodivers Conserv 7:115–116Google Scholar
  144. Gupta R (2004) A textbook of fungi. APH Publishing, New DelhiGoogle Scholar
  145. Gursoy N, Sarikurkcu C, Cengiz M, Solak MH (2009) Antioxidant activities, metal contents, total phenolics and flavonoids of seven Morchella species. Food Chem Toxicol 47:2381–2388PubMedCrossRefGoogle Scholar
  146. Gutiérrez ICA, de Gives PM, Hernández EL, Arellano MEL, Coss ROV, Velázquez VMH (2011) Nematophagous fungi (Orbiliales) capturing, destroying and feeding on the histotrophic larvae of Haemonchus contortus (Nematoda: Trichostrongylidae). Rev Mex Micol 33:29–35Google Scholar
  147. Hafellner J (1984) Studien in Richtung einer naturlicheren Gliederung der Sammelfamilien Lecanoraceae und Lecideaceae. In: Hertel H, Oberwinkler F (eds) Beitrage zur Lichenologie. Festscrift J. Poelt, vol 79. Beiheft zur Nova Hedwigia, pp 241–371Google Scholar
  148. Haji Moniri M, Sipman HJM, Schultz M (2014) New records of lichenized and lichenicolous fungi from Northeastern Iran. Herzogia 27:367–376CrossRefGoogle Scholar
  149. Halici MG, Kocakaya M, Sweeney K, Fankhauser JD, Schmitt I (2010) Pertusaria paramerae (Pertusariales, Ascomycota), a species with variable secondary chemistry, and a new lichen record for Turkey. Nova Hedwig 91:223–230CrossRefGoogle Scholar
  150. Hall T (2004) BioEdit. Ibis Therapeutics, Carlsbad, CA, 92008, USA. http://www.mbio.ncsu.edu/ BioEdit/bioedit.html
  151. Han JG, Hosoya T, Sung GH, Shin HD (2014) Phylogenetic reassessment of Hyaloscyphaceae sensu lato (Helotiales, Leotiomycetes) based on multigene analyses. Fungal Biol 118:150–167PubMedCrossRefGoogle Scholar
  152. Hansen K (2006) Ascomycota truffles: cup fungi go underground. In: Griffith K (ed) Newslett friends farlow, vol 47. Harvard University Press, USAGoogle Scholar
  153. Hansen K, Pfister DH (2006) Systematics of the Peizomycetes—the operculate discomycetes. Mycologia 98:1031–1041Google Scholar
  154. Harrington TC, McNew DL (2003) Phylogenetic analysis places the Phialophora-like anamorph genus Cadophora in the Helotiales. Mycotaxon 87:141–151Google Scholar
  155. Hatanaka SI (1969) A new amino acid isolated from Morchella esculenta and related species. Phytochemistry 8:1305–1308CrossRefGoogle Scholar
  156. Hawksworth DL (1984) Recent changes in the international rules effecting the nomenclatural of fungi. Microbiol Sci 1:18–21PubMedGoogle Scholar
  157. Hawksworth DL (2013) Ascomycete systematics: problems and perspectives in the nineties. Springer, BerlinGoogle Scholar
  158. Hawksworth DL (2015) Ranković, B. (ed.). Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Lichenologist 47:277–278Google Scholar
  159. Hawksworth DL, Sutton BC, Ainsworth GC (1983) Ainsworth & Bisby’s dictionary of the fungi, 7th edn. Commonwealth Mycological Institute, KewGoogle Scholar
  160. Hawksworth DL, Ahti T, Coppins BJ, Sipman HJM (2013) Proposal to reject the name Lichen quisquiliaris in order to protect the name Leprocaulon microscopicum (Ascomycota: Leprocaulales: Leprocaulaceae). Taxon 62:1335–1337Google Scholar
  161. Healy RA, Smith ME, Bonito GM, Pfister DH, Ge ZW, Guevara GG, Williams G, Stafford K, Kumar L, Lee T, Hobart C, Trappe J, Vilgalys R, McLaughlin DJ (2013) High diversity and widespread occurrence of mitotic spore mats in ectomycorrhizal Pezizales. Mol Ecol 22:1717–1732PubMedCrossRefGoogle Scholar
  162. Henssen A (1976) Studies in the developmental morphology of lichenized Ascomycetes. In: Brown DH, Hawksworth DL, Bailey RH (eds) Lichenology: progress and problems. Academic Press, LondonGoogle Scholar
  163. Henssen A (1981) The Lecanoralean centrum. In: Reynolds DR (ed) Ascomycete systematics. The Lutrellian Concept. Springer, New YorkGoogle Scholar
  164. Henssen A, Jahns HM (1974) Lichenes. Eine Einfu¨hrung in die Flechtenkunde. Georg Thieme Verlag, StuttgartGoogle Scholar
  165. Hestmark G, Miadlikowska J, Kauff F, Fraker E, Molnar K, Lutzoni F (2011) Single origin and subsequent diversification of central Andean endemic Umbilicaria species. Mycologia 103:45–56PubMedCrossRefGoogle Scholar
  166. Hibbett DS, Binder M, Bischoff JF, Blackwell M, Cannon PF, Eriksson OE, Huhndorf S, James T, Kirk PM, Lücking R, Lumbsch HT, 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, Dai Y-C, Gams W, Geiser DM, Griffith GW, Gueidan C, Hawksworth DL, Hestmark G, Hosaka K, Humber RA, Hyde KD, Ironside JE, Kõljalg U, Kurtzman CP, Larsson K-H, Lichtwardt R, Longcore J, Miądlikowska J, Miller A, Moncalvo J-M, Mozley-Standridge S, Oberwinkler F, Parmasto E, Reeb V, Rogers JD, Roux C, Ryvarden L, Sampaio JP, Schüßler A, Sugiyama J, Thorn RG, Tibell L, Untereiner WA, Walker C, Wang Z, Weir A, Weiss M, White MM, Winka K, Yao YJ, Zhang N (2007) A higher-level phylogenetic classification of the fungi. Mycol Res 111:509–547PubMedCrossRefGoogle Scholar
  167. Hock B (1994) Fungal associations. In: Esser K, Lemke PA, Hock B (eds) The mycota. Springer, New YorkGoogle Scholar
  168. Hodkinson BP, Lendemer JC (2011) The orders of Ostropomycetidae (Lecanoromycetes, Ascomycota): recognition of Sarrameanales and Trapeliales with a request to retain Pertusariales over Agyriales. Phytologia 93:407Google Scholar
  169. Hodkinson BP, Lendemer JC (2013) Next-generation sequencing reveals sterile crustose lichen phylogeny. Mycosphere 4:1028–1039Google Scholar
  170. Hogan CM (2010) Fern. Encyclopedia of Earth. National Council for Science and the Environment, Washington, DCGoogle Scholar
  171. Honegger S (1980) The ascus apex in lichenized fungi II. The Rhizocarpon-Type. Lichenologist 12:157–172CrossRefGoogle Scholar
  172. Honegger R (1985) Fine structure of different types of symbiotic relationships in lichens. In: Brown DH (ed) Lichen physiology and cell biology. Plenum Press, New YorkGoogle Scholar
  173. Hongsanan S, Maharachchikumbura SSN, Hyde KD, Samarakoon MC, Jeewon R, Zhao Q, Al-Sadi AM, Bahkali AH (2017) An updated phylogeny of Sordariomycetes based on phylogenetic and molecular clock evidence. Fungal Divers 84:25–41CrossRefGoogle Scholar
  174. Hosoya T (1988) Application of underutilized microbial resources in drug discovery: a review focused on discomycetes. Ann Rep Sankyo Res Lab 50:15–40Google Scholar
  175. Hudson HJ (1992) Fungal biology, contemporary biology. Series of student texts in contemporary biology. CUP ArchiveGoogle Scholar
  176. Huelsenbeck JP, Ronquist F (2001) MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics 17:754–755PubMedCrossRefGoogle Scholar
  177. Hustad VP, Miller AN, Moingeon JM, Priou JP (2011) Inclusion of Nothomitra in Geoglossomycetes. Mycosphere 2:646–654CrossRefGoogle Scholar
  178. Hustad VP, Miller AN, Dentinger BTM, Cannon PF (2013) Generic circumscriptions in Geoglossomycetes. Persoonia 31:101–111PubMedPubMedCentralCrossRefGoogle Scholar
  179. Hyde KD, Goh TK, Lu BS, Alias SA (1999) Eleven new intertidal fungi from Nypa fruticans. Mycol Res 103:1409–1422CrossRefGoogle Scholar
  180. 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 YX, Lücking R, Monkai J, Muggia L, Nelsen MP, Pang KL, Phookamsak R, Senanayake I, 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, Hoog SD, 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, Yan JY, Yacharoen S, Zhang M (2013) Families of Dothideomycetes. Fungal Divers 63:1–313CrossRefGoogle Scholar
  181. Hyde KD, Maharachchikumbura SSN, Hongsanan S, Samarakoon MC, Lücking R, Pem D, Harishchandra D, Jeewon R, Zhao RL, Xu JC, Liu JK, Al-Sadi AM, Bahkali AH, Elgorban AM (2017) The ranking of fungi—a tribute to David L. Hawksworth on his 70th birthday. Fungal Divers 84:1–23CrossRefGoogle Scholar
  182. Ingold CT (1960) Aquatic hyphornycetesin southern Rhodesia. Proc Trans Rhod Sci Assoc 48:49–53Google Scholar
  183. Ingold CT (1965) Spore liberation. Clarendon Press, OxfordGoogle Scholar
  184. Ingold CT (1966) Aspects of spore liberation: Violent discharge. The fungus spore. Colston Papers, vol 8. University of Bristol, LondonGoogle Scholar
  185. Ingold CT (1979) Advances in the study of so-called aquatic hyphomycetes. Am J Bot 66:218–226CrossRefGoogle Scholar
  186. Ingold CT, Ellis EA (1952) On some hyphomycete spores, including those of Tetracladium maxilliformis, from Wheatfen. Trans Br Mycol Soc 35:158–161CrossRefGoogle Scholar
  187. Iršėnaitė R, Kutorga E (2001) Discomycetes inhabiting oak (quercus) leaves and fruit in Lithunia. Biologija Nr 3Google Scholar
  188. Jagadeesh Ram TAM, Sinha GP (2016) A world key to Cryptothecia and Myriostigma (Arthoniaceae), with new species and new records from the Andaman and Nicobar Islands, India. Phytotaxa 266:103–114CrossRefGoogle Scholar
  189. Jaklitsch W, Baral HO, Lücking R, Lumbsch HT (2016) Ascomycota. In: Frey W (ed) Syllabus of plant families—Adolf Engler’s syllabus der Pflanzenfamilien. Borntraeger, StuttgartGoogle Scholar
  190. James TY, Kauff F, Schoch CL, Matheny PB, Hofstetter V, Cox CJ, Celio G, Gueidan C, Fraker E, Miadlikowska J, Lumbsch HT, Rauhut A, Reeb V, Arnold AE, Amtoft A, Stajich JE, Hosaka K, Sung GH, Johnson D, O’Rourke B, Crockett M, Binder M, Curtis JM, Slot JC, Wang Z, Schussler A, Longcore JE, O’Donnell K, Mozley-Standridge S, Porter D, Letcher PM, Powell MJ, Taylor JW, White MM, Griffith GW, Davies DR, Humber RA, Morton JB, Sugiyama J, Rossman AY, Rogers JD, Pfister DH, Hewitt D, Hansen K, Hambleton S, Shoemaker RA, Kohlmeyer J, Volkmann-Kohlmeyer B, Spotts RA, Serdani M, Crous PW, Hughes KW, Matsuura K, Langer E, Langer G, Untereiner WA, Lucking R, Budel B, Geiser DM, Aptroot A, Diederich P, Schmitt I, Schultz M, Yahr R, Hibbett DS, Lutzoni F, McLaughlin DJ, Spatafora JW, Vilgalys R (2006) Reconstructing the early evolution of Fungi using a six-gene phylogeny. Nature 443:818–822PubMedCrossRefGoogle Scholar
  191. Jayasiri SC, Jones EBG, Kang JC, Promputtha I, Bahkali AH, Hyde KD (2016) A new species of genus Anteaglonium (AnteagloniaceaePleosporales) with its asexual morph. Phytotaxa 263:233–244CrossRefGoogle Scholar
  192. Johnston PR (1983) Stictis and its anamorphs in New Zealand. N Z J Bot 21:249–279CrossRefGoogle Scholar
  193. Johnston PR, Seifert KA, Stone JK, Rossman AY, Marvanová L (2014) Recommendations on generic names competing for use in Leotiomycetes (Ascomycota) IMA Fungus 5:91–120Google Scholar
  194. Jones EBG, Abdel-Wahab MA, Alias SA, Hsieh SY (1999) Dactylospora mangrovei sp. nov. (Discomycetes, Ascomycota) from mangrove wood. Mycoscience 40:317–320CrossRefGoogle Scholar
  195. Jones EBG, Sakayroj J, Pinnoi A, Pinuran U, Somrithipol S, Pang KL (2006) New fungal taxa described from peat swamps, mangroves, freshwater and on seeds, fruits and forest leaf litter in Thailand. IMC8 PS1-21-0135Google Scholar
  196. Jones EBG, Hyde KD, Pang KL (2014) Freshwater fungi. De Gruyter, GermanyCrossRefGoogle Scholar
  197. 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
  198. Jorgensen PM, Schultz M, Guttová A (2013) Validation of Anema tumidulum (Lichinaceae, lichenized Ascomycota), a widespread cyanophilic lichen. Herzogia 26:1–7CrossRefGoogle Scholar
  199. Käffer MI, Ganade G, Marcelli MP (2009) Lichen diversity and composition in Araucaria Forest and tree monocultures in southern Brasil. Biodivers Conserv 18:3543–3561CrossRefGoogle Scholar
  200. Kalb K, Rivas PE, Lücking R, Lumbsch HT (2011) The phylogenetic position of Malmidea, a new genus for the Lecidea piperis- and Lecanora granifera-groups (LecanoralesMalmideaceae), inferred from nuclear and mitochondrial ribosomal DNA sequences, with special reference to Thai species. Bibl Lichen 106:143–168Google Scholar
  201. Kaneko S (1995) Materials for the fungus flora of Japan (48). Mycoscience 36:359–360CrossRefGoogle Scholar
  202. Kantvilas G (2014) New species of the genus Rimularia Nyl. from Tasmania. Lichenologist 46:349–364CrossRefGoogle Scholar
  203. Kantvilas G, Louwhoff SHJJ (2007) The lichen genus Umbilicaria Hoffm. in Tasmania. Muelleria 25:3–20Google Scholar
  204. Kantvilas G, Lumbsch HT (2012) Reappraisal of the genera of Megalosporaceae (Teloschistales, Ascomycota). Aust Syst Bot 25:210–216CrossRefGoogle Scholar
  205. Kantvilas G, Leavitt SD, Elix JA, Lumbsch HT (2014) Additions to the genus Trapelia (Trapeliaceae: lichenized Ascomycetes). Aust Syst Bot 27:395–402CrossRefGoogle Scholar
  206. Karsten PA (1871) Mycologia fennica. I. Discomycetes, HelsingforsCrossRefGoogle Scholar
  207. Kauff F, Lutzoni F (2002) Phylogeny of the Gyalectales and Ostropales (Ascomycota, Fungi): among and within order relationships based on nuclear ribosomal RNA small and large subunits. Mol Phylogenet Evol 25:138–156PubMedCrossRefGoogle Scholar
  208. Kaya A, Uzun Y (2015) Six new genus records for Turkish Pezizales from Gaziantep Province. Turk J Bot 39:506–511CrossRefGoogle Scholar
  209. Kendrick B (2002) The fifth kingdom, 3rd edn. Focus Publishing, NewburyportGoogle Scholar
  210. Kimbrough JW (1970) Current trends in the classification of Discomycetes. Bot Rev 36:91–161CrossRefGoogle Scholar
  211. Kimbrough JW (1981) The discomycetes centrum. In: Reynolds RD (ed) Ascomycetes systematics: the Luttrellian concept. Springer, BerlinGoogle Scholar
  212. Kirisits T, Matlakova M, Mottinger-Kroupa1 S, Cech TL, Halmschlager E (2009) The current situation of ash dieback caused by Chalara fraxinea in Austria. SDU Fac For J A:97–119Google Scholar
  213. Kirk P, Cannon PF, Minter DW, Stalpers JA (2008) Ainsworth & Bisby’s dictionary of the fungi, 10th edn. CAB International, WallingfordGoogle Scholar
  214. Knudsen K, Lendemer JC, Kocourková J (2014) Lecanora annularis (LecanoraceaeLecanorales), a new lichen species from the Channel islands and the central California coast. Monogr West N Am Nat 7:221–224Google Scholar
  215. Korf RP (1954) A revision of the classification of operculate Discomycetes (Pezizales). VIII Congr. Int Bot Rapp & Comm 80:18–20Google Scholar
  216. Korf RP (1971) Keys to the genera of Discomycetes and Tuberales: a manuscript. Cornell University, Plant Pathology HerbariumGoogle Scholar
  217. Korf RP (1973a) Discomycetes and Tuberales. In: Ainsworth GC, Sparrow FK, Sussman AS (eds) The fungi: an advanced treatise, vol IVA. Academic Press, New YorkGoogle Scholar
  218. Korf RP (1973b) Sparassoid ascomata in Pezizales and Tuberales. Rep Tottori Mycol Inst 10:389–403Google Scholar
  219. Korf RP, Lizon P (2001) The status of the ordinal name Leotiales. Czech Mycol 52:255–257Google Scholar
  220. Kosanić M, Ranković B (2015) Lichen secondary metabolites as potential antibiotic agents. In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  221. Kosuthova A, Fernandez-Brime S, Westberg M, Wedin M (2016) Collolechia revisited and a re-assessment of ascus characteristics in Placynthiaceae (Peltigerales, Ascomycota). Lichenologist 48:3–12CrossRefGoogle Scholar
  222. Kraichak E, Parnmen S, Lucking R, Lumbsch HT (2013) Gintarasia and Xalocoa, two new genera to accommodate temerate to subtropical species in the predominantly tropical Graphidaceae (Ostropales, Ascomycota). Aust Syst Bot 26:466–474Google Scholar
  223. Kraichak E, Parnmen S, Lucking R, Rivas Plata E, Aptroot A, Caceres MES, Ertz D, Mangold A, Mercado-Dıaz JA, Papong K, van den Broeck D, Weerakoon G, Lumbsch HT (2014) Revisiting the phylogeny of Ocellularieae, the second largest tribe within Graphidaceae (lichenized Ascomycota: Ostropales). Phytotaxa 189:52–81Google Scholar
  224. Kruys Å, Eriksson OE, Wedin M (2006) Phylogenetic relationships of coprophilous Pleosporales (Dothideomycetes, Ascomycota), and the classification of some bitunicate taxa of unknown position. Mycol Res 110:527–536PubMedCrossRefGoogle Scholar
  225. Kučera V, Gaisler J (2012) First record of Geoglossum uliginosum (Ascomycota, Geoglossales) in the Czech Republic. Czech Mycol 64:135–140Google Scholar
  226. Kühdorf K, Münzenberger B, Begerow D, Gómez-Laurito J, Hütt RF (2015) Leotia cf. lubrica forms arbutoid mycorrhiza with Comarostaphylis arbutoides (Ericaceae). Mycorrhiza 25:109–120PubMedCrossRefGoogle Scholar
  227. Kumar TKA, Healy R, Spatafora JW, Blackwell M, McLaughlin DJ (2012) Orbilia ultrastructure, character evolution and phylogeny of Pezizomycotina. Mycologia 104:462–476PubMedCrossRefGoogle Scholar
  228. Kurtzman CP, Fell JW (eds) (1998) The yeasts, a taxonomic study, 4th edn. Elsevier, AmsterdamGoogle Scholar
  229. Kurtzman CP, Robnett CJ (2013) Relationships among genera of the Saccharomycotina (Ascomycota) from multigene phylogenetic analysis of type species. FEMS Yeast Res 13:23–33PubMedCrossRefGoogle Scholar
  230. Kutorga E, Hawksworth DL (1997) A re-assessment of the genera referred to the family Patellariaceae (Ascomycota). Syst Ascomycet 15:1–110Google Scholar
  231. Laessoe T, Hansen K (2007) Truffle trouble: what happened to the Tuberales. Mycol Res 111:1075–1099PubMedCrossRefGoogle Scholar
  232. Landvik S (1996) Phylogenetic rDNA studies of Discomycetes (Ascomycota). PhD thesis, Department of Ecological Botany, Umea University, SwedenGoogle Scholar
  233. Landvik S, Eriksson OE (1994) Relationship of TuberElaphomyces, and Cyttaria (Ascomycotina), inferred from 18S rDNA studies. In: Hawksworth DL (ed) Ascomycetes systematics: problems and perspectives in the nineties. Plenum Press, New YorkGoogle Scholar
  234. Landvik S, Eriksson OE, Gargas A, Gustafsson P (1993) Relationship of the genus Neolecta (Neolectales ordo nov., Ascomycotina) inferred from 18S rDNA sequences. Syst Ascomycet 11:107–118Google Scholar
  235. Landvik S, Schumacher TK, Eriksson OE, Moss ST (2003) Morphology and ultrastructure of Neolecta species. Mycol Res 107:1021–1031PubMedCrossRefGoogle Scholar
  236. Lantz H, Johnston PR, Park D, Minter DW (2011) Molecular phylogeny reveals a core clade of Rhytismatales. Mycologia 103:57–74PubMedCrossRefGoogle Scholar
  237. Largent DL (1977) How to identify mushrooms to genus I: macroscopic features, 2nd edn. Mad River Press, EurekaGoogle Scholar
  238. Le Gal M (1946) Les Discomydetes subopercules. Bull Soc Mycol Fr 62:218–240Google Scholar
  239. Le Gal M (1947) Recherches sur les Ornamentations sporales des Discomycetes opercules. Ann Sci Nat Bot Ser 11:73–297Google Scholar
  240. Lendemer JC, Hodkinson BP (2013) A radical shift in the taxonomy of Lepraria s.l. Molecular and morphological studies shed new light on the evolution of asexuality and lichen growth form diversification. Mycologia 105:994–1018PubMedCrossRefGoogle Scholar
  241. Li Y, Hyde KD, Jeewon R, Cai L, Vijaykrishna D, Zhang K (2005) Phylogenetics and evolution of nematode-trapping fungi (Orbiliales) estimated from nuclear and protein coding genes. Mycologia 97:1034–1046PubMedCrossRefGoogle Scholar
  242. Linnaeus C (1753) Species Plantarum, exhibentes plantas rite cognitas, ad genera relatas, 1st edn. Holmiae, impensis L. SalviiGoogle Scholar
  243. Liu B, Liu XZ, Zhuang WY (2005) Orbilia querci sp. nov. and its knob-forming nematophagous anamorph. FEMS Microbiol Lett 245:99–105PubMedCrossRefGoogle Scholar
  244. Liu JK, Hyde KD, Jeewon R, Phillips AJL, Maharachchikumbura SSN, Ryberg M, Liu ZY, Zhao Q (2017) Ranking higher taxa using divergence times: a case study in Dothideomycetes. Fungal Divers 84:75–99CrossRefGoogle Scholar
  245. LoBuglio KF, Pfister DH (2010) Placement of Medeolaria farlowii in the Leotiomycetes, and comments on sampling within the class. Mycol Prog 9:361–368CrossRefGoogle Scholar
  246. Lohman ML (1931) A study of Glonium parvulum in culture. Pap Mich Acad Sci Arts Lett 13:141–156Google Scholar
  247. Lohman ML (1933) Hysteriaceae: life histories of certain species. Pap Mich Acad Sci Arts Lett 17:229–288Google Scholar
  248. Lohman ML (1934) A cultural and taxonomic study of Hysterium hyalinum. Pap Mich Acad Sci Arts Lett 19:133–140Google Scholar
  249. Loizides M, Carbone M, Alvarado P (2015) Geoglossum dunense (Ascomycota, Geoglossales): a new species from the Mediterranean islands of Cyprus and Malta. Mycol Prog 14:1–8CrossRefGoogle Scholar
  250. Lorenzo LE, Messuti MI (2012) An update on the families Hysteriaceae and Mytilinidiaceae (Dothideomycetes, Ascomycota) from Argentina and Chile: a checklist. Kurtziana 37:141–158Google Scholar
  251. Lücking R (2008) Foliicolous Lichenized fungi. flora neotropica monograph 103. Organization for Flora Neotropica and The New York Botanical Garden Press, Bronx, New YorkGoogle Scholar
  252. Lücking R, Lumbsch HT, Di Stéfano JF, Lizano D, Carranza J, Bernecker A, ChavesJL Umaña L (2008) Eremithallus costaricensis (Ascomycota: Lichinomycetes: Eremithallales), a new fungal lineage with a novel lichen symbiotic lifestyle discovered in an urban relict forest in Costa Rica. Symbiosis 46:161–170Google Scholar
  253. Lücking R, Huhndorf S, Pfister DH, Rivas-Plata E, Lumbsch HT (2009) Fungi evolved right on track. Mycologia 101:810–822PubMedCrossRefGoogle Scholar
  254. Lücking R, Niezgoda C, Huhtinen S, McCaffrey J, Lumbsch HT (2011) Coccocarpia melloniorum (Ascomycota: Peltigerales), a new lichen discovered through the Global Plants Initiative project. Bryologist 114:702–707CrossRefGoogle Scholar
  255. Lücking R, Parnmen SH, Lumbsch T (2012) Mangoldia, a new lichen genus in the family Graphidaceae (Ascomycota: Ostropales). Phytotaxa 69:1–5CrossRefGoogle Scholar
  256. Lücking R, Tehler A, Bungartz F, Plata ER, Lumbsch HT (2013) Journey from the West: Did tropical Graphidaceae (lichenized Ascomycota: Ostropales) evolve from a saxicolous ancestor along the American Pacific coast. Am J Bot 100:844–856PubMedCrossRefGoogle Scholar
  257. Lücking R, Hodkinson BP, Leavitt SD (2016) The 2016 classification of lichenized fungi in the Ascomycota and Basidiomycota—approaching one thousand genera. Bryologist 119:361–416CrossRefGoogle Scholar
  258. Lumbsch HT, Huhndorf SM (2010) Outline of Ascomycota—2009. Fieldiana Life Earth Sci 1:1–60CrossRefGoogle Scholar
  259. Lumbsch HT, Lunke T, Feige GB, Huneck S (1995) Anamylopsoraceae—a new family of lichenized ascomycetes with stipitate apothecia (LecanoralesAgyriineae). Syst Evol 198:275–286CrossRefGoogle Scholar
  260. Lumbsch HT, Lindemuth R, Schmitt I (2000) Evolution of filamentous ascomycetes inferred from LSU rDNA sequence data. Plant Biol 2:525–529CrossRefGoogle Scholar
  261. Lumbsch HT, Schmitt I, Lindemuth R, Miller A, Mangold A, Fernandez F, Huhndorf S (2005) Performance of four ribosomal DNA regions to infer higher-level phylogenetic relationships of non-operculate Euascomycetes (Leotiomyceta). Mol Phylogenet Evol 34:512–524PubMedCrossRefGoogle Scholar
  262. Lumbsch HT, Archer AW, Elix JA (2007a) A new species of Loxospora (lichenized Ascomycota: Sarrameanaceae) from Australia. Lichenologist 39:509–517Google Scholar
  263. Lumbsch HT, Schmitt I, Mangold A, Wedin M (2007b) Ascus types are phylogenetically misleading in Trapeliaceae and Agyriaceae (Ostropomycetidae, Ascomycota). Mycol Res 111:1133–1141PubMedCrossRefGoogle Scholar
  264. Lumbsch HT, Parnmen S, Rangsiruji A, Elix JA (2010) Phenotypic disparity and adaptive radiation in the genus Cladia (Lecanorales, Ascomycota). Aust Syst Bot 23:239–247Google Scholar
  265. Lumbsch HT, Ahti T, Altermann S, Amo De Paz G, Aptroot A, Arup U, Peña AB, Bawingan PA, Benatti MN, Betancourt L, Björk CR, Boonpragob K, Brand M, Bungartz F, Cáceres MES, Candan M, Chaves JL, Clerc P, Common R, Coppins BJ, Crespo A, Dal-Forno M, Divakar PK, Duya MV, Elix JA, Elvebakk A, Fankhauser JD, Farkas E, Ferraro LI, Fischer E, Galloway DJ, Gaya E, Giralt M, Goward T, Grube M, Hafellner J, Hernández JEM, Campos MDLAH, Kalb K, Kärnefelt I, Kantvilas G, Killmann D, Kirika P, Knudsen K, Komposch H, Kondratyuk S, Lawrey JD, Mangold A, Marcelli MP, Mccune B, Messuti MI, Michlig A, González RM, Moncada B, Naikatini A, Nelsen MP, Øvstedal DO, Palice Z, Papong K, Parnmen S, Pérez-Ortega S, Printzen C, Rico VJ, Rivas-Plata E, Robayo J, Rosabal D, Ruprecht U, Allen NS, Sancho L, De Jesus LS, Vieira TS, Schultz M, Seaward MRD, Sérusiaux E, Schmitt I, Sipman HJM, Sohrabi M, Søchting U, Søgaard MZ, Sparrius LB, Spielmann A, Spribille T, Sutjaritturakan J, Thammathaworn A, Thell A, Thor G, Thüs H, Timdal E, Truong C, Türk R, Tenorio LU, Upreti DK, VanDenBoom P, Rebuelta MV, Wedin M, Will-Wolf S, Wirth V, Wirtz N, Yahr R, Yeshitela K, Ziemmeck F, Wheeler T, Lücking R (2011) One hundred new species of lichenized fungi: a signature of undiscovered global diversity. Phytotaxa 18:1–127CrossRefGoogle Scholar
  266. Lumbsch HT, Kantvilas G, Parnmen S (2012) Molecular data support placement of Cameronia in Ostropomycetidae (Lecanoromycetes, Ascomycota). MycoKeys 5:31–44CrossRefGoogle Scholar
  267. Lumbsch HT, Kraichak E, Parnmen S, Plata ER, Aptroot A, Cáceres MES, Ertz D, Feuerstein SC, Mercado-Díaz JA, Staiger B, VanDenBroeck D, Lücking R (2014) New higher taxa in the lichen family Graphidaceae (lichenized Ascomycota: Ostropales) based on a three-gene skeleton phylogeny. Phytotaxa 189:39–51CrossRefGoogle Scholar
  268. Lutzoni F, Kauff F, Cox CJ, McLaughlin D, Celio G, Dentinger B, Padamsee M, Hibbett D, James TY, Baloch E, Grube M, Reeb V, Hofstetter V, Schoch C, Arnold AE, Miadlikowska J, Spatafora J, Johnson D, Hambleton S, Crockett M, Shoemaker R, Sung GH, Lucking R, Lumbsch T, O’Donnell K, Binder M, Diederich P, Ertz D, Gueidan C, Hansen K, Harris RC, Hosaka K, Lim YW, Matheny B, Nishida H, Pfister D, Rogers J, Rossman A, Schmitt I, Sipman H, Stone J, Sugiyama J, Yahr R, Vilgalys R (2004) Assembling the Fungal Tree of Life Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits. Am J Bot 91:1446–1480PubMedCrossRefGoogle Scholar
  269. MAFFT v. 6.864b (2015) http://mafft.cbrc.jp/alignment/server/index.html. Accessed Aug 2015
  270. Magain N, Sérusiaux E (2012) A further new species in the lichen genus ArctomiaA borbonica from Reunion (Mascarene archipelago). MycoKeys 4:9–21CrossRefGoogle Scholar
  271. Magain N, Sérusiaux E (2015) Dismantling the treasured flagship lichen Sticta fuliginosa (Peltigerales) into four species in Western Europe. Mycol Prog 14:1–33CrossRefGoogle Scholar
  272. Magnes M (1997) Weltmonographie der Triblidiaceae. Bibl Mycol 165:1–177Google Scholar
  273. Maharachchikumbura SSN, Hyde KD, Jones EGB, McKenzie EHC, Huang SK, Abdel-Wahab MA, Daranagama DA, Dayarathne M, D’souza MJ, Goonasekara ID, Hongsanan S, Jayawardena RS, Kirk PM, Konta S, Liu JK, Liu ZY, Norphanphoun C, Pang KL, Perera RH, Senanayake IC, Shang Q, 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 72:199–301Google Scholar
  274. Maharachchikumbura SSN, Hyde KD, Jones EBG, McKenzie EHC, Bhat DJ, Monika D, Huang SK, Norphanphoun C, Senanayake IC, Perera RH, Shang QJ, Xiao Y, D’Souza MJ, Hongsanan S, Jayawardena RS, Daranagama DA, Konta S, Goonasekara ID, Zhuang WY, Jeewon R, Phillips AJL, Abdel-Wahab MA, Al-Sadi AM, Bahkali AH, Boonmee S, Boonyuen N, Cheewangkoon R, Dissanayake AJ, Kang J, Li QR, Liu JK, Liu XZ, Liu ZY, Luangsa-Ard JJ, Pang KL, Phookamsak R, Promputtha I, Suetrong S, Stadler M, Wen T, Wijayawardene NN (2016) Families of Sordariomycetes. Fungal Divers 79:1–317CrossRefGoogle Scholar
  275. Makryi TV (2015) The genus Heppia (Heppiaceae) in the lichen flora of Russia and the finding of H. echinulata, a new species for Russia. Novosti Sistematiki Nizshikh Rastenii 49:245–264Google Scholar
  276. Marcelli MP (1992) Ecologia liquênica nos manguezais do sul-sudeste brasileiro. Bibl Lichenol 47:1–310Google Scholar
  277. Marques J, Schultz M, Paz-Bermúdez G (2013) A Peltula Nyl. diversity hotspot in north-east Portugal, with one species new to science and three species new to mainland Europe. Lichenologist 45:483–496CrossRefGoogle Scholar
  278. Massee GE, Salmon ES (1901) Researches on coprophilous fungi. Ann Bot 15:13–357Google Scholar
  279. Massee GE, Salmon ES (1902) Researches on coprophilous fungi. II. Ann Bot 16:57–93CrossRefGoogle Scholar
  280. Mau JL, Chang CN, Hunag SJ, Chen CC (2004) Antioxidant properties of methanolic extracts from Grifola frondosaMorchella esculenta and Termitomyces albuminosus mycelia. Food Chem 87:111–118CrossRefGoogle Scholar
  281. McCarthy PM (2014) Checklist of the Lichens of Australia and its Island Territories. Version 23 (Australian Biological Resources Study: Canberra, ACT). http://www.anbg.gov.au/abrs/lichenlist/introduction.html
  282. McCartney HA, Lacey ME (1990) The production and release of ascospores of Pyrenopeziza brassicae on oilseed rape. Mol Plant Pathol 39:17–32CrossRefGoogle Scholar
  283. McDonald TR, Mueller O, Dietrich FS, Lutzoni F (2013) High-throughput genome sequencing of lichenizing fungi to assess gene loss in the ammonium transporter/ammonia permease gene family. BMC Genom 14:225–237CrossRefGoogle Scholar
  284. McLaughlin D, Spatafora JW (2013) Systematics and evolution, part 1. Volume 7, part 1 of The MycotaGoogle Scholar
  285. McLaughlin D, Spatafora JW (eds) (2015) Systematics and evolution, part 2. Volume 7, part 1 of The MycotaGoogle Scholar
  286. Medeiros ID, Kraichak E, Lücking R, Mangold A, Lumbsch HT (2017) Assembling a taxonomic monograph of tribe Wirthiotremateae (lichenized Ascomycota: OstropalesGraphidaceae). Fieldiana Life Earth Sci 9(1):1–31CrossRefGoogle Scholar
  287. Mehrotra RS, Aneja KR (1990) An introduction to mycology. New Age International, New DelhiGoogle Scholar
  288. Melo RFR, Miller AN, Santiago ALCMA, Maia LC (2014) The genera Ascobolus and Saccobolus (AscobolaceaePezizales) in Brazil. Mycosphere 5:790–804Google Scholar
  289. Melo RFR, Miller AN, Maia LC (2015) Coprotus (ThelebolaceaeThelebolales) in herbivore dung from Brazil. Nova Hedwig 101:35–48CrossRefGoogle Scholar
  290. Miadlikowska J, Lutzoni F (2004) Phylogenetic classification of Peltigeralean fungi (Peltigerales, Ascomycota) based on ribosomal RNA small and large subunits. Am J Bot 91:449–464PubMedCrossRefGoogle Scholar
  291. Miadlikowska J, Kauff F, Hofstetter V, Fraker E, Grube M, Hafellner J, Reeb V, Hodkinson BP, Kukwa M, Lucking R, Hestmark G, Otalora MG, Rauhut A, Budel B, Scheidegger C, Timdal E, Stenroos S, Brodo I, Perlmutter GB, Ertz D, Diederich P, Lendemer JC, May P, Schoch CL, Arnold AE, Gueidan C, Tripp E, Yahr R, Robertson C, Lutzoni F (2006) New insights into classification and evolution of the Lecanoromycetes (Pezizomycotina, Ascomycota) from phylogenetic analyses of three ribosomal RNA- and two protein-coding genes. Mycologia 98:1088–1103PubMedCrossRefGoogle Scholar
  292. Miadlikowska J, Kauff F, Högnabba F, Oliver JC, Molnár K, Fraker E, Gaya E, Hafellner J, Hofstetter V, Gueidan C, Kukwa M, Lücking M, Björk C, Sipman HJM, Burgaz AR, Thell A, Passo A, Myllys L, Goward T, Fernández-Brime S, Hestmark G, Lendemer J, Lumbsch HT, Schmull M, Schoch C, Sérusiaux E, Maddison DR, Arnold AE, Stenroos S, Lutzoni F (2014) Multigene phylogenetic synthesis for the class Lecanoromycetes (Ascomycota): 1307 fungi representing 1139 infrageneric taxa, 312 genera and 66 families. Mol Phyl Evol 79:132–168CrossRefGoogle Scholar
  293. Miller MA, Holder MT, Vos R, Midford PE, Liebowitz T, Chan L, Hoover P, Warnow T (2009) The CIPRES Portals. http://www.phylo.org/sub_sections/portal
  294. Moncada B, Lucking R, Betancourt-Macuase L (2013a) Phylogeny of the Lobariaceae (lichenized Ascomycota: Peltigerales), with a reappraisal of the genus Lobariella. Lichenologist 45:203–263CrossRefGoogle Scholar
  295. Moncada B, Lucking R, Coca LF (2013b) Six new apotheciate species of Sticta (lichenized Ascomycota: Lobariaceae) from the Colombian Andes. Lichenologist 45:635–656CrossRefGoogle Scholar
  296. Moncada B, Coca LF, Lucking R (2013c) Neotropical members of Sticta (lichenized Ascomycota: Lobariaceae) forming photosymbiodemes, with the description of seven new species. Bryologist 116:169–200CrossRefGoogle Scholar
  297. Moncada B, Reidy B, Lucking R (2014) A phylogenetic revision of Hawaiian Pseudocyphellaria sensu lato (lichenized Ascomycota: Lobariaceae) reveals eight new species and a high degree of inferred endemism. Bryologist 117:119–160CrossRefGoogle Scholar
  298. Monreal M, Berch SM, Berbee M (1999) Molecular diversity of ericoid mycorrhizal fungi. Can J Bot 77:1580–1594CrossRefGoogle Scholar
  299. Moriguchi M, Sada SI, Hatanaka SI (1979) Isolation of cis-3-amino-l-proline from cultered mycelia or Morchella esculenta. Appl Environ Microbiol 38:1018–1019PubMedPubMedCentralGoogle Scholar
  300. Mugambi GK, Huhndorf SM (2009) Parallel evolution of hysterothecial ascomata in ascolocularous fungi (Ascomycota, Fungi). Syst Biodivers 7:453–464CrossRefGoogle Scholar
  301. Muggia L, Nelson P, Wheeler T, Yakovchenko LS, Tønsberg T, Spribille T (2011) Convergent evolution of a symbiotic duet: the case of the lichen genus Polychidium (Peltigerales, Ascomycota). Am J Bot 98:1647–1656PubMedCrossRefGoogle Scholar
  302. Muhlhausen S, Kollmar M (2014) Molecular phylogeny of sequenced saccharomycetes reveals polyphyly of the alternative yeast codon usage. Genome Biol Evol 6:3222–3237PubMedPubMedCentralCrossRefGoogle Scholar
  303. Myllys L, Källersjö M, Tehler A (1998) A comparison of SSU rDNA data and morphological data in Arthoniales (Euascomycetes) phylogeny. Bryologist 101:70–85CrossRefGoogle Scholar
  304. Naksuwankul K, Kraichak E, Parnmen S, Lücking R, Lumbsch TH (2016) Five new species of Graphidaceae (Ascomycota, Ostropales) from Thailand. MycoKeys 17:47–63CrossRefGoogle Scholar
  305. Nannfeldt JA (1932) Studien über die Morphologic und Systematik der nichtlichenisierten non-operculaten Discomyceten. Nova Acta Regiae Soc Sci Upsal 48:1–368Google Scholar
  306. Nelsen M, Lücking R, Rivas Plata E, Mbatchou JS (2010) Heiomasia, a new genus in the lichen-forming family Graphidaceae (Ascomycota: Lecanoromycetes: Ostropales) with disjunct distribution in Southeastern North America and Southeast Asia. Bryologist 113:742–751CrossRefGoogle Scholar
  307. Nelsen MP, Chavez N, Sackett-Hermann E, Thell A, Randlane T, Divakar PK, Rico VJ, Lumbsch HT (2011) The cetrarioid core group revisited (LecanoralesParmeliaceae). Lichenologist 43:537–551CrossRefGoogle Scholar
  308. Nelsen MP, Lücking R, Andrew CJ, Aptroot A, Cáceres MES, Mercado-Díaz JA, Plata ER, Lumbsch HT (2014) Molecular phylogeny reveals the true colours of Myeloconidaceae (Ascomycota: Ostropales). Aust Syst Bot 27:38–47CrossRefGoogle Scholar
  309. Neuwirth G, Aptroot A (2016) Cryptothecia stockeri (ArthonialesArthoniaceae), a new corticolous lichen species from the Seychelles. Herzogia 29:97–102CrossRefGoogle Scholar
  310. Nguyen TT, Yoon S, Yang Y, Lee HB, Oh S, Jeong MH, Kim JJ, Yee ST, Crişan F, Moon C, Lee KY, Kim KK, Hur JS, Kim H (2014) Lichen secondary metabolites in Flavocetraria cucullata exhibit anti-cancer effects on human cancer cells through the induction of apoptosis and suppression of tumorigenic potentials. PLoS ONE 9:e111575PubMedPubMedCentralCrossRefGoogle Scholar
  311. Nitha B, Janardhanan KK (2008) Aqueous-ethanolic extract of morel mushroom mycelium Morchella esculenta, protects cisplatin and gentamicin induced nephrotoxicity in mice. Food Chem Toxicol 46:3193–3199PubMedCrossRefGoogle Scholar
  312. Nordbring-Hertz B, Jansson HB, Tunlid A (2016) Nematophagous fungi. Encyclopedia of life sciencesGoogle Scholar
  313. Nylander W (1869) Observationes circa pezizas Fenniae. Not Fauna Fl Fenn 10:1–97Google Scholar
  314. Nylander JAA (2004) MrModeltest 2.0. Program distributed by the author. Evolutionary Biology Centre, Uppsala UniversityGoogle Scholar
  315. Odimegwu DC, Ejikeugwu C, Esimone CC (2015) Lichen secondary metabolites as possible antiviral agents. In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  316. O’Donnell K, Cigelnik E, Weber NS, Trappe JM (1997) Phylogenetic relationships among ascomycetous truffles and the true and false morels inferred from 18S and 28S ribosomal DNA sequence analysis. Mycologia 89:48–65CrossRefGoogle Scholar
  317. Ortiz-Álvarez R, de los Ríos A, Fernández-Mendoza F, Torralba-Burrial A, Pérez-Ortega S (2015) Ecological specialization of two photobiont-specific maritime cyanolichen species of the genus Lichina. PLoS ONE 10:e0132718Google Scholar
  318. Otálora MAG, Wedin M (2013) Collema fasciculare belongs in Arctomiaceae. Lichenologist 45:295–304CrossRefGoogle Scholar
  319. Otalora MAG, Aragon G, Martınez I, Wedin M (2013) Cardinal characters on a slippery slope—a re-evaluation of phylogeny, character evolution, and evolutionary rates in the jelly lichens (Collemataceae s. str). Mol Phylogenet Evol 68:185–198PubMedCrossRefGoogle Scholar
  320. Otalora MAG, Jørgensen PM, Wedin M (2014) A revised generic classification of the jelly lichens, Collemataceae. Fungal Divers 64:275–293CrossRefGoogle Scholar
  321. Ovstedal DO, Gremmen NJM (2014) Additional lichen records from Subantarctica III. Marion Island. Australas Lichenol 74:2–7Google Scholar
  322. Papong K, Kantvilas G, Lumbsch HT (2011) Morphological and molecular evidence places Maronina into synonymy with Protoparmelia (Ascomycota: Lecanorales). Lichenologist 43:561–567CrossRefGoogle Scholar
  323. Papong K, Boonpragob K, Parnmen S, Lumbsch HT (2013) Molecular phylogenetic studies on tropical species of Lecanora sensu stricto (Lecanoraceae, Ascomycota). Nova Hedwig 96:1–13CrossRefGoogle Scholar
  324. Parnmen S, Cáceres MES, Lücking R, Lumbsch HT (2013) Myriochapsa and Nitidochapsa, two new genera in Graphidaceae (Ascomycota: Ostropales) for chroodiscoid species in the Ocellularia clade. Bryologist 116:127–133CrossRefGoogle Scholar
  325. Pärtel K, Baral HO, Tamm H, Põldmaa K (2016) Evidence for the polyphyly of Encoelia and Encoelioideae with reconsideration of respective families in Leotiomycetes. Fungal Divers 82:183–219CrossRefGoogle Scholar
  326. Pegler DN (1983) Mushrooms and toadstools. Mitchell Beazley Publishing, LondonGoogle Scholar
  327. Peña AB, Lücking R, González RM, Herrera-Campos MA (2014) Three new species of Graphis (Ascomycota: OstropalesGraphidaceae) from Mexico, with updates to taxonomic key entries for 41 species described between 2009 and 2013. Lichenologist 46:69–82CrossRefGoogle Scholar
  328. Persoon CH (1801) Synopsis methodica Fungorum. GottingaeGoogle Scholar
  329. Peterson KR, Pfister DH (2010) Phylogeny of Cyttaria inferred from nuclear and mitochondrial sequence and morphological data. Mycologia 102:1398–1416PubMedCrossRefGoogle Scholar
  330. Peterson KR, Pfister DH, Bell CD (2010) Cophylogeny and biogeography of the fungal parasite Cyttaria and its host Nothofagus, the southern beech. Mycologia 102:1417–1425PubMedCrossRefGoogle Scholar
  331. Pfister D (1997) Castor, pollux and life histories of fungi. Mycologia 89:1–23CrossRefGoogle Scholar
  332. Pfister DH, Kimbrough JW (2001) Discomycetes. In: McLaughlin DJ, McLaughlin EG, Lemke PA (eds) The mycota VII part A. Systematics and evolution. Springer, BerlinGoogle Scholar
  333. Pfister DH, LoBuglio KF (2009) Placement of Medeolaria farlowii in the Leotiomycetes, and comments on sampling within the class. Mycol Prog 9:361–368Google Scholar
  334. Pfister DH, LoBuglio KF (2013) Systemic infection of Medeola virginiana (Liliaceae) by the fungus Medeolaria farlowii (Ascomycota: Leotiomycetes). Mycosystema 32:342–346Google Scholar
  335. Phukhamsakda C, Hongsanan S, Ryberg M, Ariyawansa HA, Chomnunti P, Bahkali AH, Hyde KD (2016) The evolution of Massarineae with Longipedicellataceae fam. nov. Mycosphere 7:1713–1731Google Scholar
  336. Pliny (C. Plinius Secundus). A.D. 22. Historia naturalis. 37 volsGoogle Scholar
  337. Poelt J, Hafellner J (1980) Apatoplaca—genus novum Teloschistacearum (Lichenes). Mitt Bot Staatssamml München 16:503–528Google Scholar
  338. Prabhugaonkar A, Pratibha J (2017) New record of Trichoglossum rasum from Asia. Mycosphere 8:533–541CrossRefGoogle Scholar
  339. Prieto M, Wedin M (2013) Dating the diversification of the major lineages of Ascomycota (Fungi). PLoS ONE 8:e65576PubMedPubMedCentralCrossRefGoogle Scholar
  340. Prieto M, Wedin M (2016) Phylogeny, taxonomy and diversification events in the Caliciaceae. Fungal Divers 82:221–238CrossRefGoogle Scholar
  341. Prieto M, Martınez I, Aragon G, Gueidan C, Lutzoni F (2012) Molecular phylogeny of Heteroplacidium, Placidium and related catapyrenioid genera (Verrucariaceae, lichen-forming Ascomycota). Am J Bot 99:23–35Google Scholar
  342. Prieto M, Baloch E, Tehler A, Wedin M (2013) Mazaedium evolution in the Ascomycota (Fungi) and the classification of mazaediate groups of formerly unclear relationship. Cladistics 29:296–308Google Scholar
  343. Purdy LH (1979) Sclerotinia sclerotiorum: history, diseases and symptomatology, host range, geographic distribution, and impact. Phytopathology 69:875–880CrossRefGoogle Scholar
  344. Qing L, Yuan W, Dan-Dan L, Ya-Fei X, Ying-Ren L (2015) A new species of Terriera (Rhytismatales, Ascomycota) on Photinia villosa. Mycotaxon 130:27–31CrossRefGoogle Scholar
  345. Quijada L, Baral HO, Jaen-Molina R, Weiss M, Caujapé-Castells J, Beltrán-Tejera E (2014) Phylogenetic and morphological circumscription of the Orbilia aurantiorubra group. Phytotaxa 175:1–18CrossRefGoogle Scholar
  346. Quijada L, Huhtinen S, Beltrán-Tejera E (2015) Studies in Hyaloscyphaceae associated with major vegetation types in the Canary Islands I: Cistella and Hyphodiscus. Willdenowia 45:131–146CrossRefGoogle Scholar
  347. Ramaley AW (1997) Barrina, a new genus with polysporous asci. Mycologia 89:962–966CrossRefGoogle Scholar
  348. Rambaut A (2006–2009) FigTree. Tree figure drawing tool version 1.3.1, Institute of Evolutionary Biology, University of Edinburgh. http://tree.bio.ed.ac.uk/ software/figtree/
  349. Rambaut A, Drummond AJ (2009) Tracer. MCMC Trace analysis tool version v1.5.0. http://tree.bio.ed.ac.uk/software/tracer/
  350. Rannala B, Yang Z (1996) Probability distribution of molecular evolutionary trees: a new method of phylogenetic inference. J Mol Evol 43:304–311PubMedCrossRefGoogle Scholar
  351. Rauhut AC (2006) Molekulare Phylogenie der Flechtenfamilie Peltulaceae (Lichinales, Ascomycota). Ph.D. thesis, Univerity of KaiserslauternGoogle Scholar
  352. Read DJ, Duckett JG, Francis R, Ligrone R, Russell A (2000) Symbiotic fungal associations in ‘lower’ land plants. Philos Trans R Soc Lond B 355:815–831CrossRefGoogle Scholar
  353. Redhead SA (1977) The genus Neolecta (Neolectaceae fam. nov., Lecanorales, Ascomycetes) in Canada. Can J Bot 55:301–306CrossRefGoogle Scholar
  354. Redhead SA (1979) Mycological observations: 1, on Cristulariella; 2, on Valdensenia; 3, on Neolecta. Mycologia 71:1248–1253CrossRefGoogle Scholar
  355. Reeb V, Lutzoni F, Roux C (2004) Contribution of RPB2 to multilocus phylogenetic studies of the euascomycetes (Pezizomycotina, Fungi) with special emphasis on the lichen–forming Acarosporaceae and evolution of polyspory. Mol Phylogenet Evol 32:1036–1060PubMedCrossRefGoogle Scholar
  356. Rehm H (1887-1896) Die Pilze Deutschlands, Oesterreichs und der Schweiz. III. Abtheilung: Ascomyceten: Hysteriaceen und Discomyceten. In: Rab Krypt Fl, vol 1, pp 1–1272Google Scholar
  357. Resl P, Schneider K, Westberg M, Printzen C, Palice Z, Thor G, Fryday A, Mayrhofer H, Spribille T (2015) Diagnostics for a troubled backbone: testing topologicalhypotheses of trapelioid lichenized fungi in a large-scalephylogeny of Ostropomycetidae (Lecanoromycetes). Fungal Divers 73:239–275PubMedPubMedCentralCrossRefGoogle Scholar
  358. Richardson MJ (2001) Coprophilous fungi from Brazil. Braz Arch Biol Technol 44:283–289CrossRefGoogle Scholar
  359. Rikkinen J (2003) Calicioid lichens from European Tertiary amber. Mycologia 95:1032–1036PubMedCrossRefGoogle Scholar
  360. Rikkinen J, Poinar G (2002) Fossilised Anzia (Lecanorales, lichen-forming Ascomycota) from European Tertiary amber. Mycol Res 106:984–990CrossRefGoogle Scholar
  361. Rikkinen J, Poinar GO (2013) A new species of resinicolous Chaenothecopsis (Mycocaliciaceae, Ascomycota) from 20 million year old Bitterfeld amber, with remarks on the biology of resinicolous fungi. Mycol Res 104:7–15CrossRefGoogle Scholar
  362. Rivas Plata E, Kalb K, Frisch A (2010) Wirthiotrema: a new genus for the Thelotrema glaucopallens group (Ascomycota: Ostropales: thelotremoid Graphidaceae). Lichenologist 42:187–202CrossRefGoogle Scholar
  363. Rivas Plata E, Lücking R, Lumbsch HT (2012a) A new classification for the lichen family Graphidaceae s. lat. (Ascomycota: Lecanoromycetes: Ostropales). Fungal Divers 52:107–121CrossRefGoogle Scholar
  364. Rivas Plata E, Lücking R, Lumbsch HT (2012b) Molecular phylogeny and systematics of the Ocellularia clade (Ascomycota: OstropalesGraphidaceae). Taxon 61:1161–1179Google Scholar
  365. Rivas Plata E, Parnmen S, Staiger B, Mangold A, Frisch A, Weerakoon G, Hernandez-M JE, Caceres MES, Kalb K, Sipman HJM, Common RS, Nelsen MP, Lucking R, Lumbsch HT (2013) A molecular phylogeny of Graphidaceae (Ascomycota: Lecanoromycetes: Ostropales) including 428 species. MycoKeys 6:55–94CrossRefGoogle Scholar
  366. Rodriguez-Flakus P, Printzen C (2014) Palicella, a new genus of lichenized fungi and its phylogenetic position within Lecanoraceae. Lichenologist 46:535–552CrossRefGoogle Scholar
  367. Roper M, Seminara A, Bandi MM, Cobb A, Dillard HR, Pringle A (2010) Dispersal of fungal spores on a cooperatively generated wind. Proc Natl Acad Sci USA 107:17474–17479PubMedPubMedCentralCrossRefGoogle Scholar
  368. Rotzoll N, Dunkel A, Hofmann T (2005) Activity-guided identification of (S)-malic acid 1- O-D-glucopyranoside (morelid) and gamma-aminobutyric acid as contributors to umami taste and mouth-drying oral sensation of morel mushrooms (Morchella deliciosa Fr.). Agric Food Chem 53:4149–4156CrossRefGoogle Scholar
  369. Saccardo PA (1884) Conspectus generum Discomycetum hucusque cognitorum. Bot Cbl 18:213–256Google Scholar
  370. Sánchez A (1967) The sections Apostemidium and Microstemium of the genus Vibrissea (Fungi). J Agric Univ Puerto Rico 51:79–93Google Scholar
  371. Schielfbein U, Dolnik C, de Bruyn U, Schultz M, Thiemann R, Stordeur R, van den Boom P, Litterski B, Sipman H (2014) New, rediscovered and other interesting lichenized and lichenicolous fungi from Northern Germany. Herzogia 27:237–256CrossRefGoogle Scholar
  372. Schmitt I, Yamamoto Y, Lumbsch HT (2006) Phylogeny of Pertusariales (Ascomycotina): Resurrection of Ochrolechiaceae and new circumscription of Megasporaceae. J Hattori Bot Lab 100:753–764Google Scholar
  373. Schmitt I, Otte J, Parnmen S, Sadowska-Des AD, Lücking R, Lumbsch HT (2012) A new circumscription of the genus Varicellaria (Pertusariales, Ascomycota). MycoKeys 4:23–36CrossRefGoogle Scholar
  374. Schmull M, Miadlikowska J, Pelzer M, Stocker-Wörgötter E, Hofstetter V, Fraker E, Hodkinson KBP, Reeb V, Kukwa M, Lumbsch HT, Kauff F, Lutzoni F (2011) Phylogenetic affiliations of members of the heterogeneous lichenforming fungi of the genus Lecidea sensu Zahlbruckner (Lecanoromycetes, Ascomycota). Mycologia 103:983–1003PubMedCrossRefGoogle Scholar
  375. Schoch CL, Wang Z, Townsend JP, Spatafora JW (2009) Geoglossomycetes cl. nov., Geoglossales ord. nov., and taxa above class rank in the Ascomycota tree of life. Persoonia 22:129–138PubMedPubMedCentralCrossRefGoogle Scholar
  376. Schultz M (2014) Significant type collections of Lichinaceae and allied lichenized ascomycetes in the herbaria of the Natural History Museum, Vienna (W) and the Institute of Botany, Vienna University (WU). Ann Naturhist Mus Wien B 116:207–246Google Scholar
  377. Schultz M, Moon KH (2011) Notes on taxonomy and distribution of some critical cyanobacterial lichens from South Korea. Nova Hedwig 92:479–486CrossRefGoogle Scholar
  378. Schultz M, van den Boom PPG (2007) Notes on cyanobacterial lichens (mostly Lichinales, Ascomycota) of the Canary Islands. Nova Hedwig 84:113–133CrossRefGoogle Scholar
  379. Schultz M, Arendholz WR, Büdel AB (2001) Origin and evolution of the lichenized ascomycete order Lichinales: monophyly and systematic relationships inferred from ascus, fruiting body and SSU rDNA evolution. Plant Biol 3:116–123CrossRefGoogle Scholar
  380. Schultz M, Wedin M, Diel H, Prieto M (2015) Epiphloea belongs to Collemataceae (Lecanoromycetes, lichenized Ascomycota). Lichenologist 47:369–378CrossRefGoogle Scholar
  381. Schwarz U (2014) Frahmia—a bryological online magazine for tropical Bryology founded in 2014 (Editor: U.Schwarz) Homepage Prof. Klaus Kalb (Flechten). http://fschumm.bplaced.net/Schumm_Flechtenbilder/ Accessed Feb 2017
  382. Seaver FJ (1928) The North American cup-fungi (operculates). Hafner Publishing Co., Inc., New YorkGoogle Scholar
  383. Seaver FJ (1951) The North American cup-fungi (non-operculates). Hafner Publishing Co., Inc., New YorkGoogle Scholar
  384. Seavey F, Seavey J, Hernández JE, Lücking R (2014) Three new Opegrapha species (RoccellaceaeArthoniales) and several additions to the North American lichen mycota from Everglades National Park. Bryologist 117:62–71CrossRefGoogle Scholar
  385. Selva SB (2013) The calicioid lichens and fungi of the Acadian Forest ecoregion of northeastern North America, I. New species and range extensions. Bryologist 116:248–256CrossRefGoogle Scholar
  386. Selva SB (2014) The calicioid lichens and fungi of the Acadian Forest ecoregion of northeastern North America, II. The rest of the story. Bryologist 117:336–367CrossRefGoogle Scholar
  387. Serusiaux E, van den Boom P, Ertz D (2010) A two-gene phylogeny shows the lichen genus Niebla (Lecanorales) is endemic to the New Wold and does not occur in Macaronesia nor in the Mediterranean basin. Fungal Biol 114:528–537PubMedCrossRefGoogle Scholar
  388. Sharma OP (1989) Textbook of fungi. Tata McGraw-Hill Education, New DelhiGoogle Scholar
  389. Sharnoff S (2014) A field guide to California Lichens. Yale University Press, New HavenGoogle Scholar
  390. Shearer CA, Raja HA (2013) Freshwater ascomycetes database. http://fungi.life.illinois.edu/. Accessed 8 Nov 2016
  391. Shenoy BD, Jeewon R, Hyde KD (2007) Impact of DNA sequence-data on the taxonomy of anamorphic fungi. Fungal Divers 26:1–54Google Scholar
  392. Sherwood MA (1977) The ostropalean fungi. Mycotaxon 5:1–277Google Scholar
  393. Sipman HJM, Lücking R, Aptroot A, Kalb K, Chaves JL, Umana L (2012) A first assessment of the Ticolichen biodiversity inventory in Costa Rica and adjacent areas: the thelotremoid Graphidaceae (Ascomycota: Ostropales). Phytotaxa 55:1–214CrossRefGoogle Scholar
  394. Sivas HZ (2015) Antigenotoxic effect of some lichen metabolites. In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  395. Slippers B, Boissin E, Phillips AJL, Groenewald JZ, Lombard L, Wingfield MJ, Postma A, Burgess T, Crous P (2013) Phylogenetic lineages in the Botryosphaeriales: a systematic and evolutionary framework. Stud Mycol 76:31–49PubMedPubMedCentralCrossRefGoogle Scholar
  396. Sliwa L, Miadlikowska J, Redelings BD, Molnar K, Lutzoni F (2012) Are widespread morphospecies from the Lecanora dispersa group (lichen-forming Ascomycota) monophyletic. Bryologist 115:265–277CrossRefGoogle Scholar
  397. Smith RE (1900) Botrytis and Sclerotinia: Their relation to certain plant diseases and to each other. Bot Gaz 29:369–407CrossRefGoogle Scholar
  398. Spatafora JW, Sung GH, Johnson D, Hesse C, O’Rourke B, Serdani M, Spotts R, Lutzoni F, Hofstetter V, Miadlikowska J, Reeb V, Gueidan C, Fraker E, Lumbsch T, Lucking R, Schmitt I, Hosaka K, Aptroot A, Roux C, Miller AN, Geiser DM, Hafellner J, Hestmark G, Arnold AE, Budel B, Rauhut A, Hewitt D, Untereiner WA, Cole MS, Scheidegger C, Schultz M, Sipman H, Schoch CL (2006) A five-gene phylogeny of Pezizomycotina. Mycologia 98:1018–1028PubMedCrossRefGoogle Scholar
  399. Spatafora JW, Owensby CA, Douhan GW, Boehm EWA, Schoch CL (2012) Phylogenetic placement of the ectomycorrhizal genus Cenococcum in Gloniaceae (Dothideomycetes). Mycologia 104:758–765PubMedCrossRefGoogle Scholar
  400. Spooner BM (1987) Helotiales of Australasia: GeoglossaceaeOrbiliaceaeScelrotiniaceaeHyaloscyphaceae. Bibl Mycol 116:1–711Google Scholar
  401. Spribille T, Muggia L (2013) Expanded taxon sampling disentangles evolutionary relationships and reveals a new family in Peltigerales (Lecanoromycetidae, Ascomycota). Fungal Divers 58:171–184CrossRefGoogle Scholar
  402. Spribille T, Goffinet B, Klug B, Muggia L, Obermayer W, Mayrhofer H (2011) Molecular support for the recognition of the Mycoblastus fucatus group as the new genus Violella (TephromelataceaeLecanorales). Lichenologist 43:445–466PubMedPubMedCentralCrossRefGoogle Scholar
  403. Spribille T, Resl P, Ahti T, Pérez-Ortega S, Tønsberg T, Mayrhofer H, Lumbsch HT (2014) Molecular systematics of the wood-inhabiting, lichen-forming genus Xylographa (Baeomycetales, Ostropomycetidae) with eight new species. Symb Bot Ups 37:1–87PubMedPubMedCentralGoogle Scholar
  404. Stadler M, Anke H, Sterner O (1993) Linoleic acid—the nematicidal principle of several nematophagous fungi and its production in trap-forming submerged cultures. Arch Microbiol 160:401–405CrossRefGoogle Scholar
  405. Stamatakis A (2006) RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688–2690PubMedCrossRefGoogle Scholar
  406. Stanojković T (2015) Investigations of lichen secondary metabolites with potential anticancer activity.In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  407. Stielow B, Hensel G, Strobelt D, Makonde HM, Rohde M, Dijksterhuis J, Klenk HP, Göker M (2013) Hoffmannoscypha, a novel genus of brightly coloured, cupulate Pyronemataceae closely related to Tricharina and Geopora. Mycol Prog 12:675–686CrossRefGoogle Scholar
  408. Suetrong S, Jones EBG (2006) Marine discomycetes: a review. Ind J Mar Sci 35:291–296Google Scholar
  409. Suija A, De Los Ríos A, Pérez-Ortega S (2015) A molecular reappraisal of Abrothallus species growing on lichens of the order Peltigerales. Phytotaxa 195:201–226CrossRefGoogle Scholar
  410. Syrop MJ, Beckett A (1976) Leaf curl disease of almond caused by Taphrina deformans. III. Ultrastructural cytology of the pathogen. Can J Bot 54:293–305CrossRefGoogle Scholar
  411. Taylor TN, Hass H, Kerp H (1999) The oldest fossil ascomycete. Nature 399:648PubMedCrossRefGoogle Scholar
  412. Taylor TN, Hass H, Kerp H, Krings M, Hanlin RT (2005) Perithecial ascomycetes from the 400 million year old Rhynie chert: an example of ancestral polymorphism. Mycologia 97:269–285PubMedCrossRefGoogle Scholar
  413. Taylor TN, Krings M, Taylor EL (2014) Fossil fungi. Academic Press, ElsevierGoogle Scholar
  414. 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 (2014) Dothideales. Fungal Divers 68:105–158CrossRefGoogle Scholar
  415. Thambugala KM, Hyde KD, Eungwanichayapant PD, Romero AI, Liu ZY (2016) Additions to the genus Rhytidhysteron in Hysteriaceae. Cryptogam Mycol 37:99–116CrossRefGoogle Scholar
  416. Tibell L (1993) The anamorphs of Chaenothecopsis viridireagens. Nordic J Bot 13:331–335CrossRefGoogle Scholar
  417. Tibell L (1997) Anamorphs in mazaediate lichenized fungi and the Mycocaliciaeae (Caliciales s. lat.). In: Tibell L, Hedberg I (eds) Lichen studies dedicated to rolf santesson. Symbolae Botanicae Upsalienses, Acta Universitatis Upsaliensis, UppsalaGoogle Scholar
  418. Tibell L (1999) Nordic Lichen Flora. Volume 1. Calicioid lichens and fungi. The Nordic Lichen Society, UddevallaGoogle Scholar
  419. Timdal E, Obermayer W, Bendiksby M (2016) Psora altotibetica (PsoraceaeLecanorales), a new lichen species from the Tibetan part of the Himalayas. MycoKeys 13:35–48CrossRefGoogle Scholar
  420. Trail F (2007) Fungal cannons: explosive spore discharge in the Ascomycota. FEMS Microbiol Lett 276:12–18PubMedCrossRefGoogle Scholar
  421. Tree of Life Web Project (2016) http://tolweb.org/tree/phylogeny.html. Accessed July 2016
  422. Tripp EA (2015) Erratum: Candelariella clarkii corrected to Candelariella clarkiae. Bryologist 118:240CrossRefGoogle Scholar
  423. Tripp EA, Lendemer JC (2015) Candelariella clarkii and Lecidea hoganii: two lichen species new to science from White Rocks Open Space, City of Boulder, Colorado. Bryologist 118:154–163CrossRefGoogle Scholar
  424. Tuovila H, Schmidt AR, Beimforde C, Dörfelt H, Grabenhorst H, Rikkinen J (2013) Stuck in time—a new Chaenothecopsis species with proliferating ascomata from Cunninghamia resin and its fossil ancestors in European amber. Fungal Divers 58:199–213CrossRefGoogle Scholar
  425. University of Illinois Extensions (1999) Report on plant disease. RPD No. 663. Department of Crop Sciences, University of Illinois, Urbana-ChampaignGoogle Scholar
  426. Valadbeigi T, Nordin A, Tibell L (2011) Megaspora rimisorediata (PertusarialesMegasporaceae), a new sorediate species from Iran and its affinities with Aspicilia sensu lato. Lichenologist 43:285–291CrossRefGoogle Scholar
  427. Van Brummelen J (1967) A world-monograph of the genera Ascobolus and Saccobolus (Ascomycetes, Pezizales). Persoonia 1:1–260Google Scholar
  428. Van den Broeck D, Ertz D (2016) Cryptophaea, a new genus of byssoid Arthoniaceae (lichenized Ascomycota) and its phylogenetic position. Phytotaxa 261:168–176CrossRefGoogle Scholar
  429. Van den Broeck D, Lücking R, Ertz D (2014) The foliicolous lichen biota of the Democratic Republic of the Congo, with the description of six new species. Lichenologist 46:141–158CrossRefGoogle Scholar
  430. Verkley GJM (1993a) Ultrastrucure of the ascus apical apparatus in ten species of Sclerotiniaceae. Mycol Res 97:179–194CrossRefGoogle Scholar
  431. Verkley GJM (1993b) Ultrastrucure of the ascus apical apparatus in Hymenoscyphus and other genera of the Hymenoscyphoides (Leotiales, Ascomycotina). Persoonia 15:303–340Google Scholar
  432. Verkley GJM (1994) Ultrastrucure of the ascus apical apparatus in Leotia lubrica and some Geoglossaceae (Leotiales, Ascomycotina). Persoonia 15:405–430Google Scholar
  433. Verkley GJM (1995a) Ultrastructure of the ascus apical apparatus in species of CenangiumEncoeliaClaussenomyces and Ascocoryne. Mycol Res 99:187–199CrossRefGoogle Scholar
  434. Verkley GJM (1995b) Ultrastructure of the ascus apical apparatus in Leotiales: an evaluation of ultrastructural characters as phylogenetic markers in the families sclerotiniaceaeLeotiaceae and Geoglosaceae. PhD thesis, Rijksherbarium, LeidenGoogle Scholar
  435. Verkley GJM (1996) Ultrastructure of the ascus apical apparatus in the genera Lachnum and Trichopeziza (hyaloscyphaceae, Ascomycotina). Nova Hedwig 63:215–228Google Scholar
  436. Verkley GJM (1999) A monograph of the genus Pezicula and its anamorphs. Stud Mycol 44:1–180Google Scholar
  437. Verma N, Behera BC (2015) Future directions in the study of pharmaceutical potential of lichens. In: Ranković B (ed) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer, ChamGoogle Scholar
  438. Victor T, Garrett G, Clair LLS, Schultz M, Holt EA (2016) Northward range expansions of several Lichinella Nyl. species (Lichinaceae) in the Western United States. Evansia 33:174–182CrossRefGoogle Scholar
  439. Vijaykrishna D, Jeewon R, Hyde KD (2006) Molecular taxonomy, origins and evolution of freshwater ascomycetes. Fungal Divers 23:351–390Google Scholar
  440. Villesen P (2007) FaBox: an online toolbox for fasta sequences. Mol Ecol Notes 7:965–968CrossRefGoogle Scholar
  441. Vinuesa MLA, Puelles JMS, Tibell L (2001) Intraspecific variation in Mycocalicium subtile (Mycocaliciaceae) elucidated by morphology and the sequences of the ITS1-5.8SITS2 region of rDNA. Mycol Res 105:323–330CrossRefGoogle Scholar
  442. Vobis G (1980) Bau und entwicklung der flechten-pycnidien und ihrer conidien. Bibl Lichenol 14:1–141Google Scholar
  443. Vobis G, Hawksworth DL (1981) Conidial lichen-forming fungi. In: Cole GT, Kendrick B (eds) Biology of conidial fungi. Academic Press, New YorkGoogle Scholar
  444. Vobis G, Gamundí IJ, Giaiotti AL (1992) Chaetomella raphigera, un hongo con picnidios y esporodoquios, nueva cita para la Argentina. Bol Soc Argent Bot 28:205–211Google Scholar
  445. Von Arx JA (1987) A re-evoluation of the Eurotiales. Persoonia 13:273–300Google Scholar
  446. Von Hohnel F (1903) Mycologische fragmente. Ann Mycol 1:396–399Google Scholar
  447. Von Hohnel F (1907) Fragmente zur Mykologie. Sitzb k ak Wissen Wein 116:135Google Scholar
  448. Von Hohnel F (1909) Fragmente zur Mykologie. Sitzb k ak Wissen Wein 118:275–352Google Scholar
  449. Von Hohnel F (1917a) Mycologische fragmente, CXX-CXC. Ann Mycol 15:292–383Google Scholar
  450. Von Hohnel F (1917b) System der Phacidiales. Ber Deutsch Botan Ges 35:416–422Google Scholar
  451. Von Hohnel F (1918) Fragmente zur Mykologie. Sitzb k ak Wissen Wein Math nat KI I 127:549–634Google Scholar
  452. Vralstad T, Holst-Jensen A, Schumacher T (1998) The postfire discomycete Geopyxis carbonaria (Ascomycota) is a biotrophic root associate with Norway spruce (Picea abies) in nature. Mol Ecol 7:609–616PubMedCrossRefGoogle Scholar
  453. Wahid M, Sattar A, Khan S (1988) Composition of wild and cultivated mushrooms of Pakistan. Mushroom J Trop 8:47–51Google Scholar
  454. Walker JF, Aldrich-Wolfe L, Riffel A, Barbare H, Simpson NB, Trowbridge J, Jumpponen A (2011) Diverse Helotiales associated with the roots of three species of Arctic Ericaceae provide no evidence for host specificity. New Phytol 191:515–527PubMedCrossRefGoogle Scholar
  455. Wang Z (2007) Leotiomycetes. The Tree of Life Web Project. Version 26. http://tolweb.org/Leotiomycetes/29048/2007.09.26. in The Tree of Life Web Project, http://tolweb.org/. Accessed Dec 2016
  456. Wang Z, Binder M, Hibbett DS (2004) Life history and systematics of the aquatic discomycete Mitrula (Helotiales, Ascomycota) based on cultural, morphological, and molecular studies. Am J Bot 92:1565–1574CrossRefGoogle Scholar
  457. Wang Z, Binder M, Hibbett DS (2005) life history and systematics of the aquatic discomycete Mitrula (Helotiales, Ascomycota) based on cultural, morphological, and molecular studies. Am J Bot 92:1565–1574PubMedCrossRefGoogle Scholar
  458. Wang Z, Binder M, Schoch CL, Johnston PR, Spatafora JW, Hibbett DS (2006a) Evolution of helotialean fungi (Leotiomycetes, Pezizomycotina): a nuclear rDNA phylogeny. Mol Phylogenet Evol 41:295–312PubMedCrossRefGoogle Scholar
  459. Wang Z, Johnston PR, Takamatsu S, Spatafora JW, Hibbett DS (2006b) Towards a phylogenetic classification of the Leotiomycetes based on rDNA data. Mycologia 98:1065–1075PubMedCrossRefGoogle Scholar
  460. Wang Z, Johnston PR, Yang ZL, Townsend JP (2009) Evolution of reproductive morphology in leaf endophytes. PLoS ONE 4:e4246PubMedPubMedCentralCrossRefGoogle Scholar
  461. Wang Z, Nilsson RH, Lopez- Giraldez F, Zhuang W, Dai Y, Johnston PR, Townsend JP (2011) Testing soil fungal diversity with earth tongues: phylogenetic test of SATé alignments for environmental ITS data. PLoS ONE 6:e19039PubMedPubMedCentralCrossRefGoogle Scholar
  462. Wang S, Taylor JE, Hou C (2013) Species of Rhytismatales on Berberis from China. Mycol Prog 12:629–635CrossRefGoogle Scholar
  463. Wang YZ, Huang CL, Wei JL (2016) Two new species of Sarcoscypha (SarcosyphaceaePezizales) from Taiwan. Phytotaxa 245:169–177CrossRefGoogle Scholar
  464. Warcup JH, Talbot PHB (1989) Muciturbo: a new genus of hypogeous ectomycorrhizal Ascomycetes. Mycol Res 92:95–100Google Scholar
  465. Wasser SP (2002) Medicinal mushrooms as a source of antitumor and immune modulating polysaccharides. Appl Microbiol Biotechnol 60:258–274PubMedCrossRefGoogle Scholar
  466. Webster J (2007) Introduction to fungi. VIII + 424 S., 242 Abb. Cambridge University Press, CambridgeGoogle Scholar
  467. Wedin M, Tibell L (1997) Phylogeny and evolution of CaliciaceaeMycocaliciaceae, and Sphinctrinaceae (Ascomycota), with notes on the evolution of the prototunicate ascus. Can J Bot 75:1236–1242CrossRefGoogle Scholar
  468. Wedin M, Jørgensen PM, Ekman S (2011) Vahliellaceae, a new family of cyanobacterial lichens (Peltigerales, Ascomycetes). Lichenologist 43:67–72CrossRefGoogle Scholar
  469. 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 Hedwig 101:77–88CrossRefGoogle Scholar
  470. Weerakoon G, Wolseley PA, Arachchige O, Caceres MES, Jayalal U, Aptroot A (2016) Eight new lichen species and 88 new records from Sri Lanka. Bryologist 119:131–142CrossRefGoogle Scholar
  471. Weir A, Blackwell M (2001) Molecular data support the Laboulbeniales as a separate class of Ascomycota, Laboulbeniomycetes. Mycol Res 105:1182–1190CrossRefGoogle Scholar
  472. Westberg M (2010) The identity of Candelariella Canadensis. Lichenologist 42:119–122CrossRefGoogle Scholar
  473. Westberg M, Arup U (2010) Candelaria concolor—a rare lichen in the Nordic countries. Graphis Scripta 22:38–42Google Scholar
  474. Westberg M, Arup U (2011) Candelaria pacifica sp. nova (Ascomycota, Candelariales) and the identity of C. vulgaris. Bibl Lichenol 106:353–364Google Scholar
  475. Westberg M, Clerc P (2012) Five species of Candelaria and Candelariella (Ascomycota, Candelariales) new to Switzerland. MycoKeys 3:1–12CrossRefGoogle Scholar
  476. Westberg M, Sohrabi M (2012) A conspectus of the lichen genus Candelariella in southwest Asia with emphasis on Iran. Nova Hedwig 95:531–546CrossRefGoogle Scholar
  477. Westberg M, Crewe AT, Purvis OW, Wedin M (2011) Silobia, a new genus for the Acarospora smaragdula complex (Ascomycota, Acarosporales) and a revision of the group in Sweden. Lichenologist 43:7–25CrossRefGoogle Scholar
  478. Wicklow DT, Carroll GC (1992) The Fungal community: its organization and role in the ecosystem. M. Dekker, New YorkGoogle Scholar
  479. Wijayawardene NN, Crous PW, Kirk PM, Hawksworth DL, Boonmee S, Braun U, Dai DQ, D’souza MJ, Diederich P, Dissanayake A, Doilom M, Hongsanan S, Jones EBG, Groenewald JZ, Jayawardena R, Lawrey JD, Liu JK, Lücking R, Madrid H, Manamgoda DS, Muggia L, Nelsen MP, Phookamsak R, Suetrong S, Tanaka K, Thambugala KM, Wanasinghe DN, Wikee S, Zhang Y, Aptroot A, Ariyawansa HA, Bahkali AH, Bhat DJ, Gueidan C, Chomnunti P, De Hoog GS, Knudsen K, Li WJ, McKenzie EHC, Miller AN, Phillips AJL, Piątek M, Raja HA, Shivas RS, Slippers B, Taylor JE, Tian Q, Wang Y, Woudenberg JHC, Cai L, Jaklitsch WM, Hyde KD (2014) Naming and outline of Dothideomycetes 2014—including proposals for the protection or suppression of generic names. Fungal Divers 69:1–55PubMedPubMedCentralCrossRefGoogle Scholar
  480. Willetts HJ, Bullock S (1992) Developmental biology of sclerotia. Mycol Res 96:801–816CrossRefGoogle Scholar
  481. Willoughby LG, Archer JF (1973) The fungal flora of a freshwater stream and its colonization pattern on wood. Freshw Biol 3:219–239CrossRefGoogle Scholar
  482. Wilson BJ, Addy HD, Tsuneda A, Hambleton S, Currah RS (2004) Phialocephala sphaeroides sp. nov., a new species among the dark septate endophytes from a boreal wetland in Canada. Can J Bot 82:607–617CrossRefGoogle Scholar
  483. Wiseman MS, Kim YK, Dugan FM, Rogers JD, Xiao CL (2016) A new postharvest fruit rot in apple and pear caused by Phacidium lacerum. Plant Dis 100:32–39CrossRefGoogle Scholar
  484. Wu ML, Su YC, Baral HO, Liang SH (2007) Two new species of Hyalorbilia from Taiwan. Fungal Divers 25:233–244Google Scholar
  485. Wynns AA (2015) Convergent evolution of highly reduced fruiting bodies in Pezizomycotina suggests key adaptations to the bee habitat. BMC Evol Biol 15:145–155PubMedPubMedCentralCrossRefGoogle Scholar
  486. Yacharoen S, Tian Q, Chomnunti P, Boonmee S, Chukeatirote E, Bhat JD, Hyde KD (2015) Patellariaceae revisited. Mycosphere 6:290–326Google Scholar
  487. Yakovchenko L, Ahti T, Westberg M (2013) Candelariella biatorina New to Asia from the Russian Far East. Herzogia 26:207–212CrossRefGoogle Scholar
  488. Yakovchenko L, Davydov EA, Ohmura Y (2016) Candelariella placodizans (Candelariaceae) reported new to mainland China and Taiwan based on morphological, chemical and molecular phylogenetic analyses. Taiwania 61:159–164Google Scholar
  489. Yang Y, Park SY, Nguyen TT, Yu YH, Nguyen TV, Sun EG, Udeni J, Jeong MH, Pereira I, Moon C, Ha HH, Kim KK, Hur JS, Kim H (2015) Lichen secondary metabolite, physciosporin, inhibits lung cancer cell motility. PLoS ONE 10:e0137889PubMedPubMedCentralCrossRefGoogle Scholar
  490. Yang T, Groenewald JZ, Cheewangkoon R, Jami F, Abdollahzadeh J, Lombard L, Crous PW (2016) Families, genera and species of Botryosphaeriales. Fungal Biol 121:322–346PubMedCrossRefGoogle Scholar
  491. Yu ZF, Qiao M, Zhang Y, Qin L, Zhang KQ (2011) Pseudotripoconidium, a new anamorph genus connected to Orbilia. Mycologia 103:164–173PubMedCrossRefGoogle Scholar
  492. Yule GU (1925) A mathematical theory of evolution, based on the conclusions of Dr. J.C. Willis. Philos Trans R Soc B 213:21–87CrossRefGoogle Scholar
  493. Zahlbruckner A (1907) Specieller Teil. In: Engler A, Prantl K (eds) Die natiirlichen Pflanzenfamilien, Teil 1, Abteilung, vol 1. Engelmann, Leipzig, pp 49–249Google Scholar
  494. Zahlbruckner A (1926) Spezieller Teil. In: Engler A, Prantl K (eds) Die natiirlichen Pflanzenfamilien, 2nd edn, vol 8. Engelmann, LeipzigGoogle Scholar
  495. Zai-Wei G, Yang ZL, Pfister DH, Carbone M, Bau T, Smith ME (2014) Multigene molecular phylogeny and biogeographic diversification of the earth tongue fungi in the genera Cudonia and Spathularia (Rhytismatales, Ascomycota). PLoS ONE 9:e103457CrossRefGoogle Scholar
  496. Zedda L, Gröngröft A, Schultz M, Petersen A, Mills A, Rambold G (2011) Distribution patterns of soil lichens across the principal biomes of southern Africa. J Arid Environ 75:215–220CrossRefGoogle Scholar
  497. Zhang KQ, Hyde KD (2014) Nematode-trapping fungi. Springer, DordrechtCrossRefGoogle Scholar
  498. Zhang N, Wang Z (2015) Pezizomycotina: Sordariomycetes and Leotiomycetes. Systematics and evolution. In: McLaughlin DJ, Spatafora JW (eds) The mycota VII Part B, 2nd edn. Springer, HeidelbergGoogle Scholar
  499. Zhang Y, Crous PW, Schoch CL, Hyde KD (2012) Pleosporales. Fungal Divers 53:1–221PubMedCrossRefGoogle Scholar
  500. Zhang YY, Wang XY, Liu D, Li JW, Shi HX, Ye X, Wang LS (2014) Bulbothrix asiatica sp. nov., and other new records of Parmeliaceae with bulbate cilia from Cambodia. Bryologist 117:379–385CrossRefGoogle Scholar
  501. Zhang Y, He X, Baral HO, Qiao M, Weiβ M, Liu B, Zhang KQ, Yu Z (2015) Orbilia laevimarginata sp. nov. and its asexual morph. Phytotaxa 203:245–253CrossRefGoogle Scholar
  502. Zhao Q, Tolgor B, Zhao YC, Yang ZL, Hyde KD (2015) Species diversity within the Helvella crispa group (Ascomycota: Helvellaceae) in China. Phytotaxa 239:130–142CrossRefGoogle Scholar
  503. Zhao Q, Brooks S, Zhao YC, Yang ZL, Hyde KD (2016a) Morphology and phylogenic position of Wynnella subalpina sp. nov. (Helvellaceae) from western China. Phytotaxa 270:1–4CrossRefGoogle Scholar
  504. Zhao Q, Hao YJ, Liu JK, Hyde KD, Cui YY, Brooks S, Zhao YC (2016b) Infundibulicybe rufa sp. nov. (Tricholomataceae), a reddish-brown species from southwestern China. Phytotaxa 266:134–140CrossRefGoogle Scholar
  505. Zhao Q, Sulayman M, Zhu X, Zhao Y, Yang ZL, Hyde KD (2016c) Species clarification of the culinary Bachu mushroom in western China. Mycologia 108:828–836PubMedCrossRefGoogle Scholar
  506. Zhaxybayeva O, Gogarten JP (2002) Bootstrap, Bayesian probability and maximum likelihood mapping: exploring new tools for comparative genome analyses. BMC Genom 3:4–22CrossRefGoogle Scholar
  507. Zhong Z, Pfister DH (2004) Phylogenetic relationships among species of Leotia (Leotiales) based on ITS and RPB2 sequences. Mycol Prog 3:237–246CrossRefGoogle Scholar
  508. Zoberi MH (1973) Influence of water on spore release in Cookeina sulcipes. Mycologia 65:155–160CrossRefGoogle Scholar
  509. Zogg H (1962) Die Hysteriaceae s. str. und Lophiaceae, unter besonderer Berücksichtigung der mitteleuropäischen Formen. Beitr Kryptogamenfl Schweiz 11:1–190Google Scholar
For further details log on website :
https://link.springer.com/article/10.1007/s13225-017-0389-x

No comments:

Post a Comment

Advantages and Disadvantages of Fasting for Runners

Author BY   ANDREA CESPEDES  Food is fuel, especially for serious runners who need a lot of energy. It may seem counterintuiti...