Author
Abstract
Species and generic recognition in the order Xylariales has been uncertain due to lack of molecular data from authentic cultures, as well as overlapping morphological characteristics. In this study, we revise the families Graphostromataceae, Hypoxylaceae, Lopadostomataceae and Xylariaceae in Xylariales. Our study is based on DNA sequence data derived from living cultures of fresh isolates, data from GenBank and morphological observation of type and worldwide herbarium specimens. We also collected new specimens from Germany, Italy and Thailand. Combined analyses of ITS, LSU, RPB2 and β-tubulin sequence data were used to reconstruct the molecular phylogeny of the above families. Generic and familiar boundaries between these families are revised and presented in an updated combined phylogenetic tree. We accept six genera in Graphostromataceae, 19 genera in Hypoxylaceae, four in Lopadostomataceae and 37 genera in Xylariaceae. Five genera previously treated in Xylariaceae are placed in Amphisphaeriales genera incertae sedis and seven genera are placed in Xylariales genera incertae sedis. Two genera are placed in Sordariomycetes genera incertae sedis, while four genera are placed as Xylariomycetidae genera incertae sedis. Three genera are considered as doubtful. Barrmaelia and Cannonia, presently included in Xylariaceae are transferred to Diatrypaceae and Coniochaetales respectively, based on their morphology and phylogeny. Areolospora and Myconeesia are excluded from Xylariaceae and synonymized with Phaeosporis and Anthostomella respectively. Updated descriptions and illustrations are provided for all taxa with notes provided on each genus. Excluded and doubtful genera are listed with notes on their taxonomy and phylogeny. Taxonomic keys are provided for all revised families with morphological details for genera within the families.
References
https://link.springer.com/article/10.1007/s13225-017-0388-y
Article
First Online: 20 September 2017
Species and generic recognition in the order Xylariales has been uncertain due to lack of molecular data from authentic cultures, as well as overlapping morphological characteristics. In this study, we revise the families Graphostromataceae, Hypoxylaceae, Lopadostomataceae and Xylariaceae in Xylariales. Our study is based on DNA sequence data derived from living cultures of fresh isolates, data from GenBank and morphological observation of type and worldwide herbarium specimens. We also collected new specimens from Germany, Italy and Thailand. Combined analyses of ITS, LSU, RPB2 and β-tubulin sequence data were used to reconstruct the molecular phylogeny of the above families. Generic and familiar boundaries between these families are revised and presented in an updated combined phylogenetic tree. We accept six genera in Graphostromataceae, 19 genera in Hypoxylaceae, four in Lopadostomataceae and 37 genera in Xylariaceae. Five genera previously treated in Xylariaceae are placed in Amphisphaeriales genera incertae sedis and seven genera are placed in Xylariales genera incertae sedis. Two genera are placed in Sordariomycetes genera incertae sedis, while four genera are placed as Xylariomycetidae genera incertae sedis. Three genera are considered as doubtful. Barrmaelia and Cannonia, presently included in Xylariaceae are transferred to Diatrypaceae and Coniochaetales respectively, based on their morphology and phylogeny. Areolospora and Myconeesia are excluded from Xylariaceae and synonymized with Phaeosporis and Anthostomella respectively. Updated descriptions and illustrations are provided for all taxa with notes provided on each genus. Excluded and doubtful genera are listed with notes on their taxonomy and phylogeny. Taxonomic keys are provided for all revised families with morphological details for genera within the families.
References
- Abate D, Abraham WR, Meyer H (1997) Cytochalasins and phytotoxins from Xylaria obovata. Phytochemistry 44:1443–1448CrossRefGoogle Scholar
- Aleem AA (1980) Distribution and ecology of marine fungi in Sierra Leone (Tropical West Africa). Bot Mar 23:49–52Google Scholar
- Alias SA, Jones E, Kuthubutheen AJ (1994) Fasciatispora lignicola sp. nov. (Amphisphaeriaceae, Ascomycotina) from drift mangrove wood. Mycotaxon 52:77–82Google Scholar
- Ariyawansa HA, Hyde KD, Jayasiri SC, Buyck B et al (2015) Fungal diversity notes 111–252—taxonomic and phylogenetic contributions tofungal taxa. Fungal Divers 75:27–274CrossRefGoogle Scholar
- Bahl J, Jeewon R, Hyde KD (2005) Phylogeny of Rosellinia capetribulensis sp. nov. and its allies (Xylariaceae). Mycologia 97:1102–1110PubMedCrossRefGoogle Scholar
- Barr ME (1985) Notes on the Calosphaeriales. Mycologia 77:549–565CrossRefGoogle Scholar
- Barr ME (1989) Clypeosphaeria and the Clypeosphaeriaceae. Syst Asco 8:1–8Google Scholar
- Barr ME (1990) Podromus to nonlichenized, pyrenomycetous members of class Hymenoascomycetes. Mycotaxon 39:43–184Google Scholar
- Barr ME, Rogers JD, Ju YM (1993) Revisionary studies in the Calosphaeriaceae. Mycotaxon 48:529–535Google Scholar
- Berkeley MJ (1838) Notices of British fungi [108–137]. Ann Mag Nat Hist 1:257–264Google Scholar
- Berkeley MJ, Broome CE (1875) II—Notices of British fungi. J Nat Hist 15:28–41CrossRefGoogle Scholar
- Bitzer J, Læssøe T, Fournier J, Kummer V, Decock C et al (2008) Affinities of Phylacia and the daldinoid Xylariaceae, inferred from chemotypes of cultures and ribosomal DNA sequences. Mycol Res 112:251–270PubMedCrossRefGoogle Scholar
- Callan BE, Rogers JD (1986) Cultural characters and anamorphs of Biscogniauxia (= Nummularia) marginata, B. dennisii, and B. repanda. Can J Bot 64:842–847CrossRefGoogle Scholar
- Candoussau F, Rogers JD (1990) Notes on Obolarina dryophila from France. Mycotaxon 39:345–349Google Scholar
- Capdet M, Romero AI (2010) Fungi from palms in Argentina. 1. Mycotaxon 112:339–355CrossRefGoogle Scholar
- Chang YC, Lu CK, Chiang YR, Wang GJ et al (2014) Diterpene glycosides and polyketides from Xylotumulus gibbisporus. J Nat Prod 77:751–757PubMedCrossRefGoogle Scholar
- Cheng X, Li W, Cai L (2015) Molecular phylogeny of Ascotricha, including two new marine algae-associated species. Mycologia. doi:10.3852/14-210PubMedGoogle Scholar
- Chesters CGC, Greenhalgh GN (1964) Geniculosporium serpens gen. et sp. nov., the imperfect morph of Hypoxylon serpens. Trans Br Mycol Soc 47:393–401CrossRefGoogle Scholar
- Chivers AH (1915) A monograph of the genera Chaetomium and Ascotricha. Mem Torrey Bot Club 14:155–240Google Scholar
- Clements FE, Shear CL (1931) The genera of fungi. New York, H.W, WilsonGoogle Scholar
- Cooke MC (1883) The genus Anthostoma. Grevillea 12:49–53Google Scholar
- Cooke MC (1892) Handbook of Australian fungi. Williams and Norgate, LondonCrossRefGoogle Scholar
- Corlett M (1985) Taxonomy of Thuemenella (Chromocreopsis) cubispora. Mycologia 77:272–277CrossRefGoogle Scholar
- Crous PW, Wingfield MJ, Guarro J, Hernández-Restrepo M, Sutton DA et al (2015) Fungal Planet description sheets: 320–370. Persoonia 34:167–266PubMedPubMedCentralCrossRefGoogle Scholar
- Cruz KS, Cortez VG (2015) Hypoxylon (Xylariaceae, Ascomycota) from Western Paraná, Brazil. Braz J Bot 38:889–901CrossRefGoogle Scholar
- Dai DQ, Phookamsak R, Wijayawardene NN, Li WJ et al (2016) Bambusicolous fungi. Fungal Divers 82:1–105CrossRefGoogle Scholar
- Daranagama DA, Liu XZ, Chamung S, Stadler M, Hyde KD (2014) A multigene genealogy reveals the phylogenetic position of Rhopalostroma lekae. Phytotaxa 186:177–187CrossRefGoogle Scholar
- Daranagama DA, Camporesi E, Tian Q, Liu X et al (2015) Anthostomella is polyphyletic comprising several genera in Xylariaceae. Fungal Divers 73:203–238CrossRefGoogle Scholar
- Daranagama DA, Camporesi E, Liu XZ, Bhat DJ et al (2016a) Tristratiperidium microsporum gen. et sp. nov. (Xylariales) on dead leaves of Arundo plinii. Mycol Prog 15:1–8CrossRefGoogle Scholar
- Daranagama DA, Liu X, Chamyuang S, Stadler M et al (2016b) Towards a natural classification of Sordariomycetes: the genera Frondisphaeria, Immersisphaeria, Lasiobertia, Pulmosphaeria and Yuea (Sordariomycetes incertae sedis). Phytotaxa 258:153–163CrossRefGoogle Scholar
- Daranagama DA, Camporesi E, Liu XZ, Chamyuang S et al (2016c) Lopadostoma fagi (Lopadostomataceae) on Fagus sylvatica from Italy. Stud Fungi 1:80–89Google Scholar
- Daranagama DA, Liu XZ, Chamung S, Stadler M, Hyde KD (2016d) Do larger Xylariaceae make up the most of Xylariomycetidae? Mycosphere 7:582–601Google Scholar
- Daranagama DA, Camporesi E, Liu XZ, Jeewon R et al (2016e) Taxonomic rearrangement of Anthostomella (Xylariaceae) based on multigene phylogenies and morphology. Crypt Mycol 37:509–538CrossRefGoogle Scholar
- Dargan JS, Singh M, Rogers JD (1984) A note on Helicogermslita celastri. Mycologia 76:1113–1115CrossRefGoogle Scholar
- Das AC (1962) New species of Thielavia and Sordaria. Trans Bri Mycol Soc 45:545–548CrossRefGoogle Scholar
- De Notaris G (1844) Cenni sulla tribù dei Pirenomiceti sferiacei e descrizione di alcuni generi spettanti alla medesima. Giorn Bot Ital 1:322–355Google Scholar
- Dennis RWG (1956) Further notes on tropical America. Kew Bull 12:401–404CrossRefGoogle Scholar
- Dennis RWG (1957) Further notes on tropical American Xylariaceae. Kew Bull 12:297–332CrossRefGoogle Scholar
- Dennis RWG (1961) British cup fungi and their allies. An introduction to the Ascomycetes. Bernard Quaritch. Ltd., LondonGoogle Scholar
- Dennis RWG (1964) Further records of Congo Xylariaceae. Bull Jard Bot État 34:231–241CrossRefGoogle Scholar
- Diehl WW (1925) The genus Astrocystis. Mycologia 17:185–190CrossRefGoogle Scholar
- Donk MA (1964) A conspectus of the families of Aphyllophorales. Persoonia 3:199–324Google Scholar
- Doveri F (2008) Coprophilous pyrenomycetes sl. new to Italy after “Fungi Fimicoli Italici”. Bull Mycol Bot Dauphiné-Savoie 48:71–96Google Scholar
- Duong LM, Lumyong S, Hyde KD, Jeewon R (2004) Emarcea castanopsidicola gen. et sp. nov. from Thailand, a new xylariaceous taxon based on morphology and DNA sequences. Stud Mycol 50:253–260Google Scholar
- Edwards RL, Jonglaekha N, Kshirsagar A, Maitland DJ et al (2003) The Xylariaceae as phytopathogens. Recent Res Devel Plant Sci 1:1–19Google Scholar
- Eriksson OE (1966) On Anthostomella Sacc., Entosordaria (Sacc.) Höhn. and some related genera (pyrenomycetes). Sven Bot Tidsk 60:315–324Google Scholar
- Eriksson OE (1999) Outline of Ascomycota. Myconet 3:1–88Google Scholar
- Eriksson OE, Hawksworth DL (1985) Outline of the ascomycetes—1985. Syst Ascomycetum 4:1–79Google Scholar
- Eriksson O, Hawksworth DL (1987) An alphabetical list of the generic names of ascomycetes—1987. Syst Ascomycetum 6:1–109Google Scholar
- Eriksson OE, Hawksworth DL (1991) Outline of the ascomycetes—1990. Syst Ascomycetum 9:39–271Google Scholar
- Eriksson OE, Hawksworth DL (1993) Outline of the ascomycetes—1993. Syst Ascomycetum 12:51–257Google Scholar
- Espada A, Rivera-Sagredo A, de la Fuente JM, Hueso-Rodríguez JA, Elson SW (1997) New cytochalasins from the fungus Xylaria hypoxylon. Tetrahedron 53:6485–6492CrossRefGoogle Scholar
- Fernández FA, Rogers JD, Ju YM, Huhndorf SM, Umaña L (2004) Paramphisphaeria costaricensis gen. et sp. nov. and Pachytrype rimosa sp. nov. from Costa Rica. Mycologia 96:175–179PubMedCrossRefGoogle Scholar
- Fournier J, Lechat C (2015) Phylacia korfii sp. nov., a new species of Phylacia (Xylariaceae) from French Guina, with notes on three other Phylacia spp. Ascomycetes.org 7:315–319Google Scholar
- Fournier J, Stadler M, Hyde KD, Duong ML (2010) The new genus Rostrohypoxylon and two new Annulohypoxylon taxa from Northern Thailand. Fungal Divers 40:23–36CrossRefGoogle Scholar
- Fournier J, Lechat C, Courtecuisse R (2015) The genus Hypoxylon (Xylariaceae) in Guadeloupe and Martinique (French West Indies). Ascomycete.org 7:145–212Google Scholar
- Francis SM (1975) Anthostomella Sacc. (Part 1). Mycol Papers 139:1–97Google Scholar
- Fries E (1830) Eclogae fungorum. Pra Herb German Scrip. Linnaea 5:497–553Google Scholar
- Fries EM (1849) Summa vegetabilium Scandinaviae. Sectio posterior 2:259–572Google Scholar
- Fries E (1851) Nova symbolae mycologicae. Typographia Academica, UppsalaGoogle Scholar
- Fröhlich J, Hyde KD (2000a) Palm Microfungi. Fungal DiversRes Ser 3:1–393Google Scholar
- Fröhlich J, Hyde KD (2000b) Palm Microfungi. Fungal DiversRes Ser 3:1–393Google Scholar
- Füisting W (1867) Zur Entwicklungsgeschichte der Pyrenomyceten. Bot Zeit 25:305–311Google Scholar
- García D, Stchigel AM, Cano J, Calduch M et al (2006) Molecular phylogeny of Coniochaetales. Mycol Res 110:1271–1289PubMedCrossRefGoogle Scholar
- Giraldo A, Crous PW, Schumacher RK, Cheewangkoon R et al (2017) The Genera of Fungi-G3: Aleurocystis, Blastacervulus, Clypeophysalospora, Licrostroma, Neohendersonia and Spumatoria. Mycol Prog 17:1–24Google Scholar
- Glawe DA, Rogers JD (1986) Conidial states of some species of Diatrypaceae and Xylariaceae. Can J Bot 64:1493–1498CrossRefGoogle Scholar
- González MC, Hanlin RT, Ulloa M, Aguirre E (2004) Poroleprieuria, a new xylariaceous genus from Mexico. Mycologia 96:675–681PubMedCrossRefGoogle Scholar
- Granmo A, Petrini LE (1996) A new species of Lopadostoma, and the anamorph of Biscogniauxia cinereolilacina. Mycol Helv 8:43–50Google Scholar
- Granmo A, Schumacher T, Laessøe T (1999) The genus Nemania s.l. (Xylariaceae) in Norden. Sommerfeltia 27:1–96Google Scholar
- Gray SF (1821) A natural arrangement of British plants, vol 1. Baldwin, Cradock, and Joy, London, pp 1–824Google Scholar
- Hawksworth DL (1971) A revision of the genus Ascotricha Berk. Mycol Papers 126:1–28Google Scholar
- Hawksworth DL (1977) Rhopalostroma, a new genus in the Xylariaceae s.l. Kew Bull 31:421–431CrossRefGoogle Scholar
- Hawksworth DL (1980) Sordaria bosensis, an earlier epithet for Areolospora terrophila. Norw J Bot 27:97–100Google Scholar
- Hawksworth DL, Eriksson OE (1994) Systema Ascomycetum: the concept. Ascomycete Systematics. Springer, New York, pp 349–360CrossRefGoogle Scholar
- Hawksworth DL, Lodha BC (1983) Helicogermslita, a new stromatic xylariaceous genus with a spiral germ slit from India. Trans Brit Mycol Soc 81:91–96CrossRefGoogle Scholar
- Hawksworth DL, Whalley AJS (1985) A new species of Rhopalostroma with a Nodulisporium anamorph from Thailand. Trans Brit Mycol Soc 84:560–562CrossRefGoogle Scholar
- Hawksworth DL, Zuchariah S, Sankaran S (1979) An additional species of Rhopalostroma from India. Norw J Bot 26:265–267Google Scholar
- Hladki AI (2004) Contribución al estudio de las Xylariaceae de la República Argentina II). Los géneros Daldinia, Entonaema y Phylacia para Tucumán. Lilloa 41:37–47Google Scholar
- Hladki AI, Romero AI (2001) The genus Kretzschmaria from Tucuman. Mycotaxon 79:481–496Google Scholar
- Hladki AI, Romero AI (2003) Two new species of Stilbohypoxylon and the taxonomic positions of Hypoxylon cyclopicum, H. chionostomun and Anthostoma chionostoma. Sydowia 55:65–76Google Scholar
- Hladki, AI, Romero AI (2009) Taxonomic and nomenclatural aspects of Hypoxylon taxa from southern South America proposed by Spegazzini. Mycologia 101:733–744PubMedCrossRefGoogle Scholar
- Hellwig V, Ju YM, Rogers JD, Fournier J, Stadler M (2005) Hypomiltin, a novel azaphilone from Hypoxylon hypomiltum, and chemotypes in Hypoxylon sect. Hypoxylon as inferred from analytical HPLC profiling. Mycol Prog 4:39–54CrossRefGoogle Scholar
- Hennings PC (1897) Fungi camerunenses II.:(incl. nonnullis aliis africanis). Engelmann. Hedwigia 36:190–246Google Scholar
- Hennings P (1903) Squamotubera P. Henn. n. gen. Xylariaceaeum. Hedwigia 42:308–309Google Scholar
- Hernández-Restrepo M, Groenewald JZ, Crous PW (2016) Taxonomic and phylogenetic re-evaluation of Microdochium, Monographella and Idriella. Persoonia 36:57–82Google Scholar
- Hidayat I, Meeboon J, To-Anun C (2007) Anthostomella and Fasciatispora species (Xylariaceae) from palms including F. ujungkulonensis sp. nov. Mycotaxon 102:347–354Google Scholar
- Hino I, Katumoto K (1955) Illustrationes fungorum bambusicolorum III. Bull Fac Agric Yamaguchi Univ 6:29–68Google Scholar
- Holway EWD (1897) Mexican Fungi. Bot Gaz Crawf 24:23–38CrossRefGoogle Scholar
- Hongsanan S, Maharachchikumbura SS, Hyde KD, Samarakoon MC et al (2017) An updated phylogeny of Sordariomycetes based on phylogenetic and molecular clock evidence. Fungal Divers 84:25–41CrossRefGoogle Scholar
- Hsieh HM, Ju YM, Rogers JD (2005) Molecular phylogeny of Hypoxylon and closely related genera. Mycologia 97:844–865PubMedCrossRefGoogle Scholar
- Hsieh HM, Lin CR, Fang MJ, Rogers JD et al (2010) Phylogenetic status of Xylaria subgenus Pseudoxylaria among taxa of the subfamily Xylarioideae (Xylariaceae) and phylogeny of the taxa involved in the subfamily. Mol Phyl Evol 54:957–969CrossRefGoogle Scholar
- Hyde (1991) A new amphisphaeriaceous fungus from intertidal fronds of Nypa fruticans. Trans Mycol Soc Japan 32:265-271Google Scholar
- Hyde KD (1992) Fungi from Nypa fruticans. Nipicola carbospora gen. et sp. nov (Ascomycotina). Crypt Bot 2:330–332Google Scholar
- Hyde KD (1994) Fungi from Palms. XII. Three new intertidal ascomycetes from submerged palm fronds. Sydowia 46:257–264Google Scholar
- Hyde KD (1995a) Fungi from palms. 17. The genus Fasciatispora, with notes on Amphisphaerella. Nova Hed 61:249–268Google Scholar
- Hyde KD (1995b) Fungi from Palms. XV. Sabalicola gen. nov., and a new combination for Anthostomella sabalensioides. Nova Hed 60:595–598Google Scholar
- Hyde KD, Taylor JE (1996) Fungi from palms. XXXI. The genus Nipicola (Ascomycetes, Xylariaceae), with one new species. Nova Hedw 63:417–424Google Scholar
- Hyde KD, Wong SW (1999) Annulatascus fusiformis sp. nov., a new freshwater ascomycete from the Philippines. Mycologia 92:353–557Google Scholar
- Hyde KD, Pearce CA, Læssøe T (1996) Podosordaria australiensis: a new pyrenomycete (Xylariaceae) on wallaby dung from Northern Australia. Mycol Res 100:1505–1508Google Scholar
- Hyde KD, Maharachchikumbura SSN, Hongsanan S, Samarakoon MC et al (2017) The ranking of fungi—a tribute to David L. Hawksworth on his 70th birthday. Fungal Divers 84:1–23CrossRefGoogle Scholar
- Index Fungorum (2017) http://www.indexfungorum.org/Names/Names.asp. Accessed 26 May 2017
- Jaklitsch WM, Voglmayr H (2012) Phylogenetic relationships of five genera of Xylariales and Rosasphaeria gen. nov. (Hypocreales). Fungal Divers 52:75–98CrossRefGoogle Scholar
- Jaklitsch WM, Fournier J, Rogers JD, Voglmayr H (2014) Phylogenetic and taxonomic revision of Lopadostoma. Persoonia 32:52–82PubMedPubMedCentralCrossRefGoogle Scholar
- Jaklitsch WM, Gardiennet A, Voglmayr H (2016) Resolution of morphology-based taxonomic delusions: Acrocordiella, Basiseptospora, Blogiascospora, Clypeosphaeria, Hymenopleella, Lepteutypa, Pseudapiospora, Requienella, Seiridium and Strickeria. Persoonia 37:82–105PubMedPubMedCentralCrossRefGoogle Scholar
- Jayasiri SC, Hyde KD, Ariyawansa HA, Bhat J et al (2015) The faces of fungi database: fungal names linked with morphology, phylogeny and human impacts. Fungal Diversty 74:3–18CrossRefGoogle Scholar
- Johnston JR, Stevenson JA (1917) Sugar-cane fungi and diseases of Porto Rico. J. Dept. Agric. Porto Rico 1:177–264Google Scholar
- Jong SC, Davis EE (1973) Stromatic neurosporas. Mycologia 65:458–464CrossRefGoogle Scholar
- Jong SC, Davis EE (1974) Areolospora, a new humicolous genus in the Xylariaceae. Norw J Bot 21:23–30Google Scholar
- Jong SC, Rogers JD (1969) Poronia oedipus in culture. Mycologia 61:853–862CrossRefGoogle Scholar
- Jong SC, Rogers JD (1972) Illustrations and descriptions of conidial states of some Hypoxylon species. Wash State Agaric Exp Sta Bull 71:51Google Scholar
- Ju YM, Hsieh HM (2008) Jumillera rogersii sp. nov. from Taiwan. N Am Fungi 3:17–21CrossRefGoogle Scholar
- Ju YM, Rogers JD (1994) Kretzschmariella culmorum (Cooke) comb. nov. and notes on some other monocot-inhabiting xylariaceous fungi. Mycotaxon 51:241–255Google Scholar
- Ju YM, Rogers JD (1996) A revision of the genus Hypoxylon. Mycologia Memoir No. 20. APS Press, St. PaulGoogle Scholar
- Ju YM, Rogers JD (1999) The Xylariaceae of Taiwan (excluding Anthostomella). Mycotaxon 73:343–440Google Scholar
- Ju YM, Rogers JD (2002) The genus Nemania (Xylariaceae). Nova Hedwig 74:75–120CrossRefGoogle Scholar
- Ju YM, San Martín F, Rogers JD (1993) Three xylariaceous fungi with scolecosporous conidia. Mycotaxon 47:219–228Google Scholar
- Ju YM, Rogers JD, San Martín F, Granmo A (1998) The genus Biscogniauxia. Mycotaxon 66:1–98Google Scholar
- Ju YM, Rogers JD, Hsieh HM (2003) The genus Theissenia: T. pyrenocrata, T. cinerea sp. nov., and T. eurima sp. nov. Mycologia 95:109–116PubMedGoogle Scholar
- Ju YM, Rogers JD, Hsieh HM, Vasilyeva L (2004) Amphirosellinia gen. nov. and a new species of Entoleuca. Mycologia 96:1393–1402PubMedCrossRefGoogle Scholar
- Ju YM, Hsieh HM, Ho MC, Szu DH, Fang MJ (2007) Theissenia rogersii sp. nov. and phylogenetic position of Theissenia. Mycologia 99:612–662PubMedCrossRefGoogle Scholar
- Kang JC, Hyde KD, Kong RYC (1999a) Studies on Amphisphaeriales l: the Clypeosphaeriaceae. Mycoscience 40:151–164CrossRefGoogle Scholar
- Kang JC, Hyde KD, Kong RYC (1999b) Studies on Amphisphaeriales: the Amphisphaeriaceae (sensu stricto). Mycol Res 103:53–64CrossRefGoogle Scholar
- Katoh K, Standley DM (2013) MAFFT multiple sequence alignment software version 7: improvements in performance and usability. Mol Biol Evol 30:772–780PubMedPubMedCentralCrossRefGoogle Scholar
- Kirilenko ST (1975) Pidoplitchkoviella terricola—a new ascomycete. Mikrobiologicheskii Zhurnal 37:603Google Scholar
- Kirschstein W (1935) Neue und seltene Ascomyceten. Ann Mycol 33:202–229Google Scholar
- Kirschstein W (1939) Über neue seltene und kritische Ascomyceten und Fungi Imperfecti. II. Annls mycol. 37:88–140Google Scholar
- Kokwaro JO (1983) An African knowledge of ethnosystematics and its application to traditional medicine, with particular reference to the medicinal use of the fungus Engleromyces goetzei. Bothalia 14:237–243CrossRefGoogle Scholar
- Krug JC, Cain RF (1973) A preliminary treatment of the genus Podosordaria. Can J Bot 52:589–605CrossRefGoogle Scholar
- Krug JC, Jeng RS (1995) A new coprophilous species of Podosordaria from Venezuela. Can J Bot 73:65–69CrossRefGoogle Scholar
- Krug JC, Lundqvist N (2000) Nordic Macromycetes, 1. Ascomycetes (Copenhagen) 1:240Google Scholar
- Krug JC, Khan RS, Jeng RS (1994) A new species of Gelasinospora with multiple germ pores. Mycologia 86:250–253CrossRefGoogle Scholar
- Kuhnert E, Fournier J, Peršoh D, Luangsa-ard JJD, Stadler M (2014) New Hypoxylon species from Martinique and new evidence on the molecular phylogeny of Hypoxylon based on ITS rDNA and β-tubulin data. Fungal Divers 64:181–203CrossRefGoogle Scholar
- Kuhnert E, Sir EB, Lambert C, Hyde KD, Hladki AI, Romero AI, Stadler M (2017) Phylogenetic and chemotaxonomic resolution of the genus Annulohypoxylon (Xylariaceae) including four new species. Fungal Divers 85:1–43CrossRefGoogle Scholar
- Læssøe T (1994) Index Ascomycetum 1. Xylariaceae. Syst Asco 13:43–112Google Scholar
- Læssøe T, Spooner BM (1994) Rosellinia and Astrocystis (Xylariaceae): new species and genetic concepts. Kew Bull 49:1–70CrossRefGoogle Scholar
- Læssøe T, Rogers JD, Whalley AJS (1989) Camillea, Jongiella and light-spored species of Hypoxylon. Mycol Res 93:121–155CrossRefGoogle Scholar
- Læssøe T, Srikitikulchai P, Fournier J, Köpcke B, Stadler M (2010) Lepraric acid derivatives as chemotaxonomic markers in Hypoxylon aeruginosum, Chlorostroma subcubisporum and C. cyaninum, sp. nov. Fungal Biol 114:481–489PubMedCrossRefGoogle Scholar
- Læssøe T, Srikitikulchai P, Luangsa-ard JJD, Stadler M (2013) Theissenia reconsidered, including molecular phylogeny of the type species T. pyrenocrata and a new genus Durotheca (Xylariaceae, Ascomycota). IMA Fungus 4:57–69PubMedPubMedCentralCrossRefGoogle Scholar
- Lee S, Crous PW (2003) New species of Anthostomella on fynbos, with a key to the genus in South Africa. Mycol Res 107:360–370PubMedCrossRefGoogle Scholar
- Léveillé JH (1845) Champignons exotiques. Ann Sci Nat Bot 3:38–71Google Scholar
- Li XF, Lu T, Lu BS, Hyde KD (2009) Emarcea rostrispora nom. nov. (Xylariaceae, Ascomycota) on wood from Taiwan. Mycosystema 28:151–153Google Scholar
- Li Q, Wen TC, Kang JC, Hyde KD (2015a) A new species of Collodiscula (Xylariaceae) from China. Phytotaxa 205:187–196CrossRefGoogle Scholar
- Li QR, Kang JC, Hyde KD (2015b) Two new species of the genus Collodiscula (Xylariaceae) from China. Mycol Prog 14:1–11CrossRefGoogle Scholar
- Li GJ, Hyde KD, Zhao RL, Hongsanan S et al (2016) Fungal diversity notes 253–366: taxonomic and phylogenetic contributions to fungal taxa. Fungal Divers 78:1–237CrossRefGoogle Scholar
- Lindqvist JC, Wright JE (1964) Discoxylaria genero nuevo la forma perfecta de Hypocreodendron. Darwiniana 13:138–143Google Scholar
- Liu J, Tan J, Dong Z, Ding Z Wang X, Liu P (2002) Neoengleromycin, a novel compound from Engleromyces goetzii. Helv Chim Acta 85:1439–1442CrossRefGoogle Scholar
- Liu JK, Hyde KD, Jones EBG, Ariyawansa HA et al (2015) Fungal diversity notes 1–110: taxonomic and phylogenetic contributions to fungal species. Fungal Divers 72:1–197CrossRefGoogle Scholar
- Lloyd CG (1912) Letter No. 42. Mycol Writings 4:1–16CrossRefGoogle Scholar
- Lloyd CG (1917) Mycological notes 51. Mycol Writ 5:717–732Google Scholar
- Lloyd CG (1923) Mycological notes 69. Mycol Writ 7:1185–1218Google Scholar
- Lu BS, Hyde KD (2000) A world monograph of Anthostomella. Fungal Divers Research Series 4:1–376Google Scholar
- Lu BS, Hyde KD (2003) Gigantospora gen. nov. (Xylariaceae, Ascomycota) from decorticated twigs in the USA, a new combination for Anthostoma gigasporum. Nova Hedwig 76:201–206CrossRefGoogle Scholar
- Lu BS, Hyde KD, Ho WWH (1998) Spirodecospora gen. nov. (Xylariaceae, Ascomycotina), from bamboo in Hong Kong. Fungal Divers 1:169–177Google Scholar
- Lumbsch HT, Huhndorf SM (2007) Outline of Ascomycota—2007. Myconet 13:1–58Google Scholar
- Lumbsch HT, Huhndorf SM (2010) Outline of Ascomycota—2010; notes on ascomycete systematics. Nos. 4751–5113. Myconet 14:1–69Google Scholar
- Lundqvist N (1960) Coprophilous Ascomycetes from Northern Spain. Svensk Bot Tidskr 54:523–529Google Scholar
- Lundqvist N (1992) Wawelia effusa Lundqvist, spec. nov. (Xylariaceae). Persoonia 14:417–423Google Scholar
- Maharachchikumbura SS, Hyde KD, Jones EBG, McKenzie EHC et al (2015) Towards a natural classification and backbone tree for Sordariomycetes. Fungal Divers 72:199–301CrossRefGoogle Scholar
- Maharachchikumbura SSN, Hyde KD, Jones EBG, McKenzie EHC et al (2016) Families of Sordariomycetes. Fungal Divers 79:1–317CrossRefGoogle Scholar
- Marincowitz S, Crous PW, Groenewald JZ, Wingfield MJ (2008) Microfungi occuring on ‘Proteaceae’ in the Fynbos. CBS Fungal Biodiversity Centre, UtrechtGoogle Scholar
- Martin PMD (1967) Studies in the Xylariaceae. I. New and old concepts. S Afr J Bot 33:205–240Google Scholar
- Martin PMD (1976) Studies in the Xylariaceae VII: Anthostomella and Lopadostoma. S Afr J Bot 35:393–410Google Scholar
- Matzer M, Hafellner J (1990) Eine Revision der lichenicolen Arten der Sammelgattung Rosellinia (Ascomycetes). Bibl. Lichenol. 37:1–138Google Scholar
- Maublanc A (1914) L’ Ustulina pyrenocrata Theissen, type du genre nouveau Theissenia. Bull Soc Mycol France 30:48–53Google Scholar
- Medel R, Rogers JD, Guzmán G (2006) Phylacia mexicana sp. nov. and consideration of other species with emphasis on Mexico. Mycotaxon 97:279–290Google Scholar
- Mel’nik V, Hyde KD (2003) Typification of Spirodecospora. Fungal Divers 12:151–153Google Scholar
- Miller JH (1928) Biologic studies in the Sphaeriales: I. Mycologia 20:187–213CrossRefGoogle Scholar
- Miller JH (1961) A monograph of the world species of Hypoxylon. University of Georgia Press, AthensGoogle Scholar
- Miller AN, Huhndorf SM (2005) Multi-gene phylogenies indicate ascomal wall morphology is a better predictor of phylogenetic relationships than ascospore morphology in the Sordariales (Ascomycota, Fungi). Mol Phylogenet Evol 35:60–75PubMedCrossRefGoogle Scholar
- Miller AN, Vasilyeva LN, Rogers JD (2007) Chlorostroma subcubisporum gen. et sp. nov. and notes on the systematic position of Thuemenella cubispora. Sydowia 59:138–147Google Scholar
- Miller MA, Pfeiffer W, Schwartz T (2010) Creating the CIPRES Science Gateway for inference of large phylogenetic trees. In Gateway Computing Environments Workshop (GCE), pp 1–8Google Scholar
- Minter DW, Webster J (1983) Wawelia octospora sp. nov., a xerophilous and coprohilous member of the Xylariaceae. Trans Br Mycol Soc 80:370–373CrossRefGoogle Scholar
- Mirabolfathy M, Ju YM, Hsieh HM, Rogers JD (2013) Obolarina persica sp. nov., associated with dying Quercus in Iran. Mycoscience 54:315–320CrossRefGoogle Scholar
- Möller A (1901) Phycomyceten und Ascomyceten. Bot Mitt Trop 9:1–319Google Scholar
- Montagne C (1841) On praemissa in floram cryptogamicam Javae insulae. Fasc. 1, auctore F. Junghuhnio. Batavia 1838. Ann Sci Nat Bot IIESer 16:306–320Google Scholar
- Montagne C (1849) Sixième centurie des plantes cellulaires nouvelles tant indigènes qu’exotiques. Annls Sci nat 12:285–320Google Scholar
- Morgan AP (1895) New North American fungi. J Cincinnati Soc 18:36–45Google Scholar
- Mühlbauer A, Triebel D, Peršoh D, Wollweber H et al (2002) Macrocarpones, novel metabolites from stromata of Hypoxylon macrocarpum and new evidence on the chemotaxonomy of Hypoxylon. Mycol Prog 1:235–248CrossRefGoogle Scholar
- Müller E (1959) Über die Stellung der Ascomycetengattung Wawelia Namyslowski. In Omagiu lui Traian Savulescu. Editura Acad Rep Pop Romine 70:515–518Google Scholar
- Müller E, Von Arx JA (1973) Pyrenomycetes: Meliolales, Coronophorales, Sphaeriales. In: Ainsworth GC, Sparrow FK, Sussman AS (eds) The fungi: an advanced treatise, vol IVA. A taxonomic review with keys: ascomycetes and Fungi Imperfecti. Academic Press: London, pp 87–132Google Scholar
- Murali TS, Suryanarayanan TS, Geeta R (2006) Endophytic Phomopsis species: host range and implications for diversity estimates. Can J Microbiol 52:673–680PubMedCrossRefGoogle Scholar
- Namyslowski B (1908) Sur la structure et le développement de Wawelia regia nova subfam. gen. sp. Bulletin International de l’Academie des Sciences de Cracovie. Classe des Sciences Mathematiques et Naturelles series B 7:597–603Google Scholar
- Nordén BJ, Læssøe TH, Jordal JB (2014) Chlorostroma vestlandicum sp. nov., a hostspecific mycoparasite on Hypoxylon vogesiacum from western Norway. Karstenia 54:9–14Google Scholar
- Nováková A (2009) Pidoplitchkoviella terricola—an interesting fungus from the Domica Cave (Slovakia). Int J Speleol 38:23–26CrossRefGoogle Scholar
- Nylander JAA (2004) MrModeltest 2.0. Program distributed by the author. Evolutionary Biology Centre, Uppsala UniversityGoogle Scholar
- Patil A, Patil MS, Dangat BT (2012) The genus Rhopalostroma from Maharashtra State, India. Mycosphere 3:551–554. doi:10.5943/mycosphere/3/5/3CrossRefGoogle Scholar
- Patouillard N (1903) Note sur trois champignons des Antilles. Ann Mycol 1:218–219Google Scholar
- Patouillard N (1911) Champignons de la Nouvelle-Caledonie (suite). Bull Soc Mycol France 27:329–333Google Scholar
- Pažoutová S, Šrůtka P, Holuša J, Chudíčková M, Kolařík M (2010) Diversity of xylariaceous symbionts in Xiphydria woodwasps: role of vector and a host tree. Fungal Ecol 3:392–401CrossRefGoogle Scholar
- Pažoutová S, Follert S, Bitzer J, Keck M et al (2013) A new endophytic insect-associated Daldinia species, recognised from a comparison of secondary metabolite profiles and molecular phylogeny. Fungal Divers 60:107–123CrossRefGoogle Scholar
- Peláez F, González V, Platas G, Sánchez-Ballesteros J, Rubio V (2008) Molecular phylogenetic studies within the Xylariaceae based on ribosomal DNA sequences. Fungal Divers 31:111–134Google Scholar
- Pereira J, Rogers JD, Bezerra JL (2010) New Annulohypoxylon species from Brazil. Mycologia 102:248–252Google Scholar
- Persoon CH (1801) Synopsis methodica fungorum. DieterichGoogle Scholar
- Peršoh D, Melcher M, Graf K, Fournier J et al (2009) Molecular and morphological evidence for the delimitation of Xylaria hypoxylon. Mycologia 101:256–268PubMedCrossRefGoogle Scholar
- Petrak F (1914) Beiträge zur Pilzflora von Mähren und Österr.-Schlesien. Annal Mycol 12:471–479Google Scholar
- Petrak F (1923) Mycologische Notizen V. No. 200. Über die Pseudosphaeriaceen vH und ihre Bedeutung für die spezielle Systematik der Pyrenomyzeten. Annal Mycol 21:30–69Google Scholar
- Petrak F (1927) Mykologische Notizen IX. Ann Mycol 25:193–343Google Scholar
- Petrak F (1951) Ergebnisse einer Revision der Grundtypen verschiedener Gattungen der Askomyzeten und Fungi imperfecti. Sydowia 5:328–356Google Scholar
- Petrini LE (1992) Rosellinia species of the temperate zones. Sydowia 44:169–281Google Scholar
- Petrini LE (2003) Rosellinia and related genera in New Zealand. N Z J Bot 41:71–138CrossRefGoogle Scholar
- Petrini LE (2004) A revision of the genus Stilbohypoxylon (Xylariacaeae). Sydowia 56:51–71Google Scholar
- Petrini LE (2013) Rosellinia—a world monograph. Borntraeger Verlagsbuchhandlung, Stuttgart, Germany, GebrGoogle Scholar
- Petrini LE, Müller E (1986) Haupt und Nebenfruchtformen europäischer Hypoxylon Arten (Xylariaceae, Sphaeriales) und verwandter Pilze. Mycol Helv 1:501–627Google Scholar
- Petrini L, Petrini O (1985) Xylariaceous fungi as endophytes. Sydowia: Annal Mycol 38:216–234Google Scholar
- Petrini LE, Rogers JD (1986) summary of the Hypoxylon serpens complex. Mycotaxon 26:401–436Google Scholar
- Pinnoi A, Phongpaichit P, Jeewon R, Tang AMC et al (2010) Phylogenetic relationships of Astrocystis eleiodoxae sp. nov. (Xylariaceae). Mycosphere 1:1–9Google Scholar
- Pirozynski KA (1974) Xenotypa Petrakand Graphostroma gen. nov., segregates from Diatrypaceae. Can J Bot 52:2129–2135CrossRefGoogle Scholar
- Pouzar Z (1985) Reassessment of the Hypoxylon serpens-complex II. Česka Mykol 39:129–134Google Scholar
- Pouzar Z (1986) A key and conspectus of Central European species of Biscogniauxia and Obolarina (Pyrenomycetes). Česka Mykol 40:1–10Google Scholar
- Quang DN, Hashimoto T, Tanaka M, Baumgartner M et al (2002) Concentricols B, C and D, three novel squalene-type triterpenoids from the ascomycete Daldinia concentrica. Phytochemistry 61:345–353PubMedCrossRefGoogle Scholar
- Quang DN, Hashimoto T, Tanaka M, Stadler M, Asakawa Y (2004) Cyclic azaphilones daldinins E and F from the ascomycete fungus Hypoxylon fuscum (Xylariaceae). Phytochemistry 65:469–473PubMedCrossRefGoogle Scholar
- Quang DN, Hashimoto T, Fournier J, Stadler M, Radulovic N, Asakawa Y (2005) Sassafrins A–D, new antimicrobial azaphilones from the fungus Creosphaeria sassafras. Tetrahedron 61:1743–1748Google Scholar
- Quang DN, Stadler M, Fournier J, Asakawa Y (2006) Carneic acids A and B, two chemotaxonomically significant antimicrobial agents from the xylariaceous ascomycete, Hypoxylon carneum. J Nat Prod 69:1198–1202PubMedCrossRefGoogle Scholar
- Rappaz F (1987) Taxonomie et nomenclature des Diatrypacées à asques octosporés (1). Mycol Helv 2:285–648Google Scholar
- Rappaz F (1995) Anthostomella and related xylariaceous fungi on hard wood from Europe and North America. Mycol Helv 7:99–168Google Scholar
- Rayner RW (1970) A mycological colour chart. Commonwealth Mycological Institute, Kew and British Mycological SocietyGoogle Scholar
- Réblová M, Miller AN, Rossman AY, Seifert KA et al (2016) Recommendations for competing sexual-asexually typified generic names in Sordariomycetes (except Diaporthales, Hypocreales, and Magnaporthales). IMA Fungus 7:131–153PubMedPubMedCentralCrossRefGoogle Scholar
- Rick JE (1906) Pilze aus Rio Grande do Sul (Brasilien). Brotéria Série Botânica 5:4–53Google Scholar
- Rifai MA (1969) Sarawakus Lloyd, a genus of the pyrenomycete family Hypocreaceae. Reinwardtia 7:561–578Google Scholar
- Roberts RG, Robertson JA (1984) Ascotricha xylina: its occurrence, morphology and typification. Mycologia 76:963–968CrossRefGoogle Scholar
- Rodrigues KF (1989) Index to J.B. Ellis’s types of Pyrenomycetes with amyloid ascal rings. Mycotaxon 34:577–599Google Scholar
- Rodrigues KF, Samuels GJ (1989) Studies in the genus Phylacia (Xylariaceae). Mem N Y Bot Gard 49:290–297Google Scholar
- Rogers JD (1977) Surface features of the light colored ascospores of some applanate Hypoxylon species. Can J Bot 55:2394–2398CrossRefGoogle Scholar
- Rogers JD (1981) Sarcoxylon and Entonaema (Xylariaceae). Mycologia 73:28–61CrossRefGoogle Scholar
- Rogers JD (1982) Entonaema liquescens: description of the anamorph and thoughts on its systematic position [Fungi, structure]. Mycotaxon 15:500–506Google Scholar
- Rogers JD (1984) Xylaria cubensis and its anamorph Xylocoremium flabelliforme, Xylaria allantoidea, and Xylaria poitei in continental united morphs. Mycologia 76:912–923CrossRefGoogle Scholar
- Rogers JD (2000) Thoughts and musings about tropical Xylariaceae. Mycol Res 104:1412–1420CrossRefGoogle Scholar
- Rogers JD, Ju YM (1996) Entoleuca mammata comb. nov. for Hypoxylon mammatum and the genus Entoleuca. Mycotaxon 59:441–448Google Scholar
- Rogers JD, Ju YM (1997) The genus Stilbohypoxylon. Mycol Res 101:135–138CrossRefGoogle Scholar
- Rogers JD, Ju YM (1998) The genus Kretzschmaria. Mycotaxon 68:345–393Google Scholar
- Rogers JD, Ju YM (2002) Ascovirgaria occulta gen. et sp. nov., Jumillera hawaiiensis sp. nov., and Lopadostoma hawaiianum sp. nov. from Hawaii. Can J Bot 80:478–481CrossRefGoogle Scholar
- Rogers JD, Ju YM (2003) Occultitheca costaricensis gen. et sp. nov. and Apiocamarops pulvinata sp. nov. from Costa Rica. Sydowia 55:359–364Google Scholar
- Rogers JD, Ju YM (2012) The Xylariaceae of the Hawaiian Islands. N Am Fungi 7:1–35Google Scholar
- Rogers JD, Læssøe T (1992) Podosordaria ingii sp. nov. and its Lindquistia anamorph. Mycotaxon 44:435–443Google Scholar
- Rogers JD, Ju YM, Gonzalez FSM (1995) Discoxylaria myrmecophila and its Hypocreodendron anamorph. Mycologia 87:41–45CrossRefGoogle Scholar
- Rogers JD, Ju YM, Candoussau F (1996) Biscogniauxia anceps comb. nov. and Vivantia guadalupensis gen. et sp. nov. Mycol Res 100:669–674CrossRefGoogle Scholar
- Rogers JD, Ju YM, San Martín F (1997) Jumillera and Whalleya, new genera segregated from Biscogniauxia. Mycotaxon 64:39–50Google Scholar
- Rogers JD, Ju YM, Watling R, Whalley AJS (1999) A reinterpretation of Daldinia concentrica based upon a recently discovered specimen. Mycotaxon 72:507–520Google Scholar
- Rogers JD, Hidalgo A, Fernández FA, Huhndorf SM (2004) Ophiorosellinia costaricensis gen. et sp. nov., a xylariaceous fungus with scolecosporous ascospores. Mycologia 96:172–174PubMedCrossRefGoogle Scholar
- Rogers JD, Ju YM, Hemmes DE (2006) Hypoxylon subdisciforme sp. nov., Nemania abortiva sp. nov., and Xylotumulus gibbisporus gen. et sp. nov. from Hawaii. Hawaiian Islands. Sydowia 58:290–299Google Scholar
- Saccardo PA (1883) Sylloge Pyrenomycetum. Sylloge Fungorum 2:1–813Google Scholar
- Saccardo PA, Paoletti G (1888) Mycetes Malacenses. Atti R Inst Venet Sci 6 ser 6:387–428Google Scholar
- Samarakoon MC, Hyde KD, Promputtha I, Ariyawansa HA, Hongsanan S (2016) Divergence andranking of taxa across the kingdoms Animalia, Fungi and Plantae. Mycosphere 7:1678–1689Google Scholar
- Samuels GJ, Rossman AY (1992) Thuemenella and Sarawakus. Mycologia 84:26–40CrossRefGoogle Scholar
- Samuels GJ, Muller E, Petrini O (1987) Studies in the Amphisphaeriaceae (sensu lato). 3. New species of Monographella and Pestalosphaeria, and two new genera. Mycotaxon 28:473–499Google Scholar
- Sánchez-Ballesteros J, González V, Salazar O, Acero J et al (2000) Phylogenetic study of Hypoxylon and related genera based on ribosomal ITS sequences. Mycologia 92:964–977CrossRefGoogle Scholar
- Senanayake IC, Maharachchikumbura SSN, Hyde KD, Bhat JD et al (2015) Towards unraveling relationships in Xylariomycetidae (Sordariomycetes). Fungal Divers 73:73–144CrossRefGoogle Scholar
- Sir EB, Parrado MF, Romero AI, Hladki AI (2012) Biodiversity of Xylariaceae (Ascomycota) and their hots in protected areas from Tucuman (Argentina). Kurtziana 37:25–48Google Scholar
- Sir EB, Perera TC, Romero AI, Hladki AI (2013) Stilbohypoxylon quisquiliarum (Xylariaceae, Ascomycota) primera cita para la Argentina. Darwiniana, nueva serie 1:289–294CrossRefGoogle Scholar
- Sir EB, Kuhnert E, Lambert C, Hladki AI, Romero AI, Stadler M (2016) New species and reports of Hypoxylon from Argentina recognized by a polyphasic approach. Mycol Progr 15:42CrossRefGoogle Scholar
- Smith GJD, Hyde KD (2001) Fungi from palms. XLIX. Astrocystis, Biscogniauxia, Cyanopulvis, Hypoxylon, Nemania, Guestia, Rosellinia and Stilbohypoxylon. Fungal Divers 7:89–127Google Scholar
- Smith GJD, Liew ECY, Hyde KD (2003) The Xylariales: a monophyletic order containing 7 families. Fungal Divers 13:185–218Google Scholar
- Spatafora JW, Blackwell M (1993) Molecular systematics of unitunicate perithecial ascomycetes: the Clavicipitales-Hypocreales connection. Mycologia 85:912–922CrossRefGoogle Scholar
- Speer EO (1980) Recherches sur la position systématique du genre Phylacia (Phylaciaceae, fam. nov.), et description de deux espèces nouvelles. Bull Soc Mycol France 96:135–143Google Scholar
- Stadler M (2011) Importance of secondary metabolites in the Xylariaceae as parameters for assessment of their taxonomy, phylogeny, and functional biodiversity. Curr Res Environ Appl Mycol J Fungal Biol 1:75–133CrossRefGoogle Scholar
- Stadler M, Hellwig V (2005) Chemotaxonomy of the Xylariaceae and remarkable bioactive compounds from Xylariales and their associated asexual states. Res Dev Phyt 9:41–93Google Scholar
- Stadler M, Ju YM, Rogers JD (2004) Chemotaxonomy of Entonaema, Rhopalostroma and other Xylariaceae. Mycol Res 108:239–256PubMedCrossRefGoogle Scholar
- Stadler M, Laessoe T, Vasilyeva L (2005) The genus Pyrenomyxa and its affinities to other cleistocarpous Hypoxyloideae as inferred from morphological and chemical traits. Mycologia 97:1129–1139PubMedCrossRefGoogle Scholar
- Stadler M, Fournier J, Quang DN, Akulov A (2006) Metabolomic studies on the chemical ecology of the Xylariaceae (Ascomycota). Nat Prod Commun 2:287–304Google Scholar
- Stadler M, Fournier J, Læssøe T, Lechat C et al (2008) Recognition of hypoxyloid and xylarioid Entonaema species from a comparison of holomorphic morphology, HPLC profiles, and ribosomal DNA sequences. Mycol Prog 7:53–73CrossRefGoogle Scholar
- Stadler M, Fournier J, Gardt S, Peršoh D (2010a) The phylogenetic position of Rhopalostroma as inferred from a polythetic approach. Persoonia 25:11–21PubMedPubMedCentralCrossRefGoogle Scholar
- Stadler M, Fournier J, Læssøe T, Decock C et al (2010b) Ruwenzoria, a new genus of the Xylariaceae from Central Africa. Mycol Prog 9:169–179CrossRefGoogle Scholar
- Stadler M, Fournier J, Læssøe T, Chlebicki A et al (2010c) Chemotaxonomic and phylogenetic studies of Thamnomyces (Xylariaceae). Mycoscience 51:189–207CrossRefGoogle Scholar
- Stadler M, Kuhnert E, Peršoh D, Fournier J (2013) The Xylariaceae as model example for a unified nomenclature following the “One fungus-one name” (1F1N) concept. Mycol Int J Fungal Biol 4:5–21Google Scholar
- Stadler M, Hawksworth DL, Fournier J (2014a) The application of the name Xylaria hypoxylon, based on Clavaria hypoxylon of Linnaeus. IMA Fungus 5:57–66PubMedPubMedCentralCrossRefGoogle Scholar
- Stadler M, Læssøe T, Fournier J, Decock C et al (2014b) A polyphasic taxonomy of Daldinia (Xylariaceae). Stud Mycol 77:1–143PubMedPubMedCentralCrossRefGoogle Scholar
- Stamatakis A (2006) RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688–2690PubMedCrossRefGoogle Scholar
- Stamatakis A, Hoover P, Rougemont J (2008) A rapid bootstrap algorithm for the RAxML web servers. Syst Biol 57:758–771PubMedCrossRefGoogle Scholar
- Stchigel AM, Guarro J (1998) A new species of Ascotricha from Spanish soil. Mycol Res 102:510–512. doi:10.1017/S0953756297005297CrossRefGoogle Scholar
- Steglich W, Klaar M, Furtner W (1974) (+)-Mitorubrin derivatives from Hypoxylon fragiforme. Phytochemistry 13:2874–2875CrossRefGoogle Scholar
- Suh SO, Blackwell M (1999) Molecular phylology of the cleistothecial fungi placed in Cephalothecaceae and Pseudeurotiaceae. Mycologia 91:836–848CrossRefGoogle Scholar
- Sydow H, Petrak F (1922) Ein Beitrag zur Kenntnis der Pilzflora Nordamerikas, insbesondere der nordwestlichen Staaten. Annal Mycol 20:178–218Google Scholar
- Sydow H, Sydow P (1913) Enumeration of Philippine fungi, with notes and descriptions of new species. Part I. Micromycetes. Philipp J Sci 8:265–285Google Scholar
- Sydow H, Sydow P (1916) Weitere Diagnosen neuer philippinischer Pilze. Ann Mycol 14:353–375Google Scholar
- Tang AMC, Jeewon R, Hyde KD (2009) A re-evaluation of the evolutionary relationships within the Xylariaceae based on ribosomal and protein-coding gene sequences. Fungal Divers 34:127–155Google Scholar
- Taylor JE, Hyde KD (1999) Cannonia gen. nov., from palms in the Southern Hemisphere. Mycol Res 103:1398–1402CrossRefGoogle Scholar
- Theissen F (1908) Novitates riograndenses. Ann Mycol 6:341–352Google Scholar
- Theissen F (1910) Fungi riograndenses. Beih Bot Centralbl 27:384–411Google Scholar
- Tibpromma S, Daranagama DA, Boonmee S, Promputtha I et al (2016) Paraanthostomella krabiensis gen. et sp. nov. (Xylariaceae) from Pandanus odorifer (Pandanaceae). Turk J Bot. doi:10.3906/bot-1606-45Google Scholar
- Tibpromma S, Hyde KD, Jeewon R, Maharachchikumbura SSN et al (2017) Fungal diversitynotes 491–602: taxonomic and phylogenetic contributions to fungal taxa. Fungal Diversity 83(1):1–261CrossRefGoogle Scholar
- Trierveiler-Pereira L, Christina Gomes-Silva A, Goulart Baseia I (2012) Observations on gasteroid Agaricomycetes from the Brazilian Amazon rainforest. Mycotaxon 118:273–282CrossRefGoogle Scholar
- Tulasne L, Tulasne C (1863) Selecta fungorum Carpologia II (English translation of W.B. Grove). Oxford University Press, OxfordGoogle Scholar
- U’Ren JM, Miadlikowska J, Zimmerman NB, Lutzoni F et al (2016) Contributions of North American endophytes to the phylogeny, ecology, and taxonomy of Xylariaceae (Sordariomycetes, Ascomycota). Mol Phylogenet Evol 98:210–232PubMedCrossRefGoogle Scholar
- Udagawa S, Takada M (1989) A new species of Coniochaeta. Stud Mycol 31:187–192Google Scholar
- Udagawa S, Ueda S (1988) Calceomyces, a new genus of the Xylariaceae with shoe-shaped ascospores. Mycotaxon 32:447–455Google Scholar
- Vaidya JG (1991) Ecological characteristics of wood decay from the campus of Poona University. Project report (During the Tenure 1986–7 as Commonwealth Academic Staff Fellow (July 1987) University of Poona. Pune, India, pp 1–35Google Scholar
- Van Der Gucht K (1995) Illustrations and descriptions of xylariaceous fungi collected in Papua New Guinea. Bul Jard bot nat de Belg/Bul Nat Plantentuin Belg 64:219–403CrossRefGoogle Scholar
- Vasilyeva L (2013) The southern states of the United States as the part of a possible Caribbean center of fungal biodiversity. Phytopathology 103:151–152Google Scholar
- Visser AA, Ros VID, de Beer ZW, Debets AJM et al (2009) Levels of specificity of Xylaria species associated with fungus-growing termites: a phylogenetic approach. Mol Ecol 18:553–567PubMedCrossRefGoogle Scholar
- Von Arx JA, Muller E (1954) Die Gattungen der amerosporen Pyrenomyceten. Beitr. Kryptogamenfl. Schweiz 11(1):1–434Google Scholar
- Von Arx JA, Figueras MJ, Guarro J (1988) Sordariaceous ascomycetes without ascospore ejaculation. J. Cramer, Berlin and Stuttgart, p 104Google Scholar
- Webster J, Whalley AJS, Thienhirun S, Richardson MJ (1999) Wawelia argentea and W. microspora, two new species of xerophilous fungi on rabbit and hare dung in Britain. Mycol Res 103:1604–1608CrossRefGoogle Scholar
- Wendt L, Sir EB, Kuhnert E, Heitkämper S et al (2017) Resurrection and emendation of the Hypoxylaceae, recognised from a multi-gene genealogy of the Xylariales. Mycol Prog. doi:10.1007/s11557-017-1311-3Google Scholar
- Whalley AJS (1996) The xylariaceous way of life. Mycol Res 100:897–922CrossRefGoogle Scholar
- Whalley AJS, Edwards RL (1995) Secondary metabolites and systematic arrangement within the Xylariaceae. Can J Bot 73(Suppl 2):802–810CrossRefGoogle Scholar
- Whalley AJS, Thienhirun S (1996) Rhopalostroma kanyae sp. nov. from Thailand. Mycol Res 100:866–868CrossRefGoogle Scholar
- Whalley AJS, Thienhirun S, Whalley MA, Sihanonth P (1998) The genus Rhopalostroma(Xylariaceae) in Thailand. Bot J Scotl 50:185–190CrossRefGoogle Scholar
- Whalley MA, Whalley AJ, Thienhirun S, Sihanonth P (1999) Camillea malaysianensis sp. nov. and the distribution of Camillea in Southeast Asia. Kew Bull 7:15–22Google Scholar
- Whalley MA, Khalil AMA, Wei TZ, Yao YJ, Whalley AJS (2010) A new species of Engleromyces from China, a second species in the genus. Mycotaxon 112:317–323CrossRefGoogle Scholar
- Worapong J, Strobel G, Ford EJ, Li JY et al (2001) Muscodor albus anam. gen. et sp nov., an endophyte from Cinnamomum zeylanicum. Mycotaxon 79:67–79Google Scholar
- Wu ZH, Wang TH, Huang W, Qu YB (2001) A simplified method for chromosome DNA preparation from filamentous fungi. Mycosystema 20:575–577Google Scholar
- Zhou DQ, Hyde KD, Lu BS (2000) Striatodecospora gen. nov. from bamboo in Hong Kong. Mycotaxon 76:141–147Google Scholar
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