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Mycological Progress

, Volume 18, Issue 8, pp 1039–1056 | Cite as

Tylopilus griseiolivaceus sp. nov. and T. leucomycelinus (Boletaceae) revisited from the Dominican Republic within a comprehensive phylogeny of Tylopilus s. str.

  • Matteo Gelardi
  • Claudio Angelini
  • Federica Costanzo
  • Francesco Dovana
  • Beatriz Ortiz-Santana
  • Alfredo VizziniEmail author
Original Article

Abstract

The genus Tylopilus s. str. in the Dominican Republic is investigated. Tylopilus griseiolivaceus is introduced as a novel species based on material recorded in a neotropical montane pine woodland but also known to occur in temperate coniferous forests in southeastern USA. The Central American species T. leucomycelinus is also re-evaluated and its geographical range expanded. A detailed morphological description is provided for both species and accompanied by colour images of fresh basidiomes in habitat, line drawings of the main anatomical features and molecular support relying on a multilocus phylogenetic inference (nrITS, nrLSU (28S), rpb2 datasets). In addition, DNA was successfully isolated from the type material of T. leucomycelinus and compared with the genetic material obtained from additional neotropical samples. The taxonomic placement, ecological requirements and distribution patterns of T. griseiolivaceus and T. leucomycelinus are investigated/reviewed and their relationships with closely allied taxa in Tylopilus s. str. are elucidated and discussed. Epitypification of T. leucomycelinus is proposed herein.

Keywords

Boletales Tylopilus Molecular phylogeny Greater Antilles Neotropical boletes Taxonomy 

Notes

Acknowledgements

The authors would like to express their sincere gratitude to H. Thorsten Lumbsch and Wyatt Gaswick (Herbarium of the Field Museum of Natural History, Chicago, IL, USA) for the loan of dried fungal material. CA also wishes to thank Ricardo G. García, Francisco Jiménez, Brígido Peguero, Yuley E. Piñeyro and Alberto Veloz (Jardín Botánico Nacional Dr. Rafael M. Moscoso, Santo Domingo, Dominican Republic) for their interest and encouragement in studying fungi of the Dominican Republic and for their active cooperation in providing herbarium material preserved in their institution.

References

  1. Alessio CL (1985) Boletus Dill. ex L. Fungi Europaei, vol 2. Giovanna Biella, SaronnoGoogle Scholar
  2. Altschul SF, Gish W, Miller W, Myers EW, Lipman DJ (1990) Basic local alignment search tool. J Mol Biol 215:403–410.  https://doi.org/10.1016/S0022-2836(05)80360-2 Google Scholar
  3. Amtoft A, Halling RE, Mueller GM (2002) Tylopilus alkalixanthus, a new species of Boletaceae from Costa Rica and Japan. Brittonia 54(4):262–265.  https://doi.org/10.1663/0007-196X(2003)54[262:TAANSO]2.0.CO;2 Google Scholar
  4. Arora D (1986) Mushrooms demystified, 2nd edn. Ten Speed Press, BerkeleyGoogle Scholar
  5. Barbosa-Silva A, Ovrebo CL, Ortiz-Santana B, Sá MCA, Sulzbacher MA, Roy M, Wartchow F (2017) Tylopilus aquarius, comb. et stat. nov., and its new variety from Brazil. Sydowia 69:115–122Google Scholar
  6. Baroni TJ, Both EE (1998) Tylopilus violatinctus, a new species of Tyopilus for North America with comments on other violaceous Tylopilus taxa. Bull Buffalo Soc Nat Sci 36:261–264Google Scholar
  7. Baroni TJ, Both EE, Bessette AE (1998) Tylopilus rhodoconius, comb. nov. - new records, critical observations, illustrations and notes on biogeography. Bull Buffalo Soc Nat Sci 36:257–260Google Scholar
  8. Bessette AE, Roody WC, Bessette AR (2000) North American boletes. A color guide to the fleshy pored mushrooms. Syracuse University Press, SyracuseGoogle Scholar
  9. Bessette AE, Roody WC, Bessette AR (2016) Boletes of eastern North America. Syracuse University Press, SyracuseGoogle Scholar
  10. Binder M, Hibbett DS (2006) Molecular systematics and biological diversification of Boletales. Mycologia 98(6):971–981.  https://doi.org/10.3852/mycologia.98.6.971 Google Scholar
  11. Both EE (1993) The boletes of North America. A compendium. Buffalo Museum of Science, BuffaloGoogle Scholar
  12. Breitenbach J, Kränzlin F (1991) Boletes and agarics 1. Fungi of Switzerland, vol 3. Verlag Mykologia, LuzernGoogle Scholar
  13. Castresana J (2000) Selection of conserved blocks from multiple alignments for their use in phylogenetic analysis. Mol Biol Evol 17(4):540–552.  https://doi.org/10.1093/oxfordjournals.molbev.a026334 Google Scholar
  14. Chai H, Liang ZQ, Xue R, Jiang S, Luo SH, Wang Y, Wu LL, Tang LP, Chen Y, Hong D, Zeng NK (2019) New and noteworthy boletes from subtropical and tropical China. MycoKeys 46:55–96.  https://doi.org/10.3897/mycokeys.46.31470 Google Scholar
  15. Chakraborty D, Vizzini A, Das K (2018) Two new species and one new record of the genus Tylopilus (Boletaceae) from Indian Himalaya with morphological details and phylogenetic estimations. MycoKeys 33:103–124.  https://doi.org/10.3897/mycokeys.33.23703 Google Scholar
  16. Cleland JB (1924) Australian fungi: notes and descriptions no. 5. Trans Proc R Soc South Australia 48:236–252Google Scholar
  17. Cleland JB (1935) Toadstools and mushrooms and other larger fungi of South Australia. Parts 1 and 2. Handbook of the flora and fauna of South Australia. AB James Government Printer, AdelaideGoogle Scholar
  18. Coker WC, Beers AH (1943) The Boletaceae of North Carolina. University of North Carolina Press, Chapel HillGoogle Scholar
  19. Corner EJH (1972) Boletus in Malaysia. Government Printing Office, SingaporeGoogle Scholar
  20. Corner EJH (1974) Boletus and Phylloporus in Malaysia: further notes and descriptions. Gardens’ Bull Singapore 27(1):1–16Google Scholar
  21. Dick EA (1960) Notes on boletes. XII. Mycologia 52:130–136Google Scholar
  22. Drehmel D, James T, Vilgalys R (2008) Molecular phylogeny and biodiversity of the boletes. Fungi 1(4):17–23Google Scholar
  23. Edwards IP, Cripliver JL, Gillespie AR, Johnsen KH, Scholler M, Turco RF (2004) Nitrogen availability alters macrofungal basidiomycete community structure in optimally fertilized loblolly pine forests. New Phytol 162(3):755–770.  https://doi.org/10.1111/j.1469-8137.2004.01074.x Google Scholar
  24. Felsenstein J (1985) Confidence limits on phylogenies: an approach using the bootstrap. Evolution 39:783–791Google Scholar
  25. Flores Arzù R, Simonini G (2000) Contributo alla conoscenza delle Boletales del Guatemala. Riv Micol 43(2):121–145Google Scholar
  26. Frost CC (1874) Catalogue of boleti of New England, with descriptions of new species. Bull Buffalo Soc Nat Sci 2:100–105Google Scholar
  27. Fulgenzi TD (2009) Systematics of Boletaceae from the Guiana Shield. Thesis, Humboldt State University, ArcataGoogle Scholar
  28. Fulgenzi TD, Henkel TW, Halling RE (2007) Tylopilus orsonianus sp. nov. and Tylopilus eximius from Guyana. Mycologia 99(4):622–627.  https://doi.org/10.3852/mycologia.99.4.622 Google Scholar
  29. Gardes M, Bruns TD (1993) ITS primers with enhanced specificity for Basidiomycetes–application to the identification of mycorrhizae and rusts. Mol Ecol 2:113–118.  https://doi.org/10.1111/j.1365-294X.1993.tb00005.x Google Scholar
  30. Gelardi M, Vizzini A, Ercole E, Taneyama Y, Li TH, Zhang M, Yan WJ, Wang WJ (2015) New collection, iconography and molecular evidence for Tylopilus neofelleus (Boletaceae, Boletoideae) from southwestern China and the taxonomic status of T. plumbeoviolaceoides and T. microsporus. Mycoscience 56(4):373–386.  https://doi.org/10.1016/j.myc.2014.12.001 Google Scholar
  31. Grgurinovic CA (1997) Larger fungi of South Australia. The Botanic Gardens of Adelaide and State Herbarium and the Flora and Fauna of South Australia Handbooks Committe, AdelaideGoogle Scholar
  32. Grund DW, Harrison AK (1976) Nova Scotian boletes. Bibliotheca Mycologica, vol 47. Cramer, Berlin StuttgartGoogle Scholar
  33. Halling RE (1989) A synopsis of Colombian boletes. Mycotaxon 34(1):93–113Google Scholar
  34. Halling RE, Mueller GM (2001) Tylopilus bulbosus sp. nov. from Costa Rica. Harv Pap Bot 6(1):109–112Google Scholar
  35. Halling RE, Mueller GM (2005) Common mushrooms of the Talamanca mountains, Costa Rica. Memoirs of the New York Botanical Garden, vol 90. New York Botanical Garden Press, BronxGoogle Scholar
  36. Halling RE, Chan HT, Lee SS (2007) Basidiomycota: Boletaceae. In: Jones EBG, Hyde KD, Vikineswary S (eds) Malaysian fungal diversity. Mushroom Research Centre University of Malaya and Ministry of Natural Resources and Environment, Malaysia, pp 41–53Google Scholar
  37. Halling RE, Osmundson TW, Neves MA (2008) Pacific boletes: implications for biogeographic relationships. Mycol Res 112(4):437–447.  https://doi.org/10.1016/j.mycres.2007.11.021 Google Scholar
  38. Halling RE, Nuhn M, Fechner N, Osmundson TW, Soytong K, Arora D, Hibbett DS, Binder M (2012a) Sutorius: a new genus for Boletus eximius. Mycologia 104(4):951–961.  https://doi.org/10.3852/11-376 Google Scholar
  39. Halling RE, Nuhn M, Osmundson TW, Fechner N, Trappe JM, Soytong K, Arora D, Hibbett DS, Binder M (2012b) Affinities of the Boletus chromapes group to Royoungia and the description of two new genera, Harrya and Australopilus. Aust Syst Bot 25:418–431.  https://doi.org/10.1071/SB12028 Google Scholar
  40. Heinemann P (1951) Champignons récoltés au Congo Belge par Madame M. Goossens-Fontana 1. Boletineae. Bull Jard Bot État Bruxelles 21(3–4):223–346.  https://doi.org/10.2307/3666673 Google Scholar
  41. Heinemann P, Rammeloo J (1983a) Combinaisons et taxons nouveaux de Gyrodontaceae (Boletineae). Bull Jard Bot Nat Belgique 53(1–2):294–297.  https://doi.org/10.2307/3668043 Google Scholar
  42. Heinemann P, Rammeloo J (1983b) Gyrodontaceae p.p. Boletineae. Flore Illustrée des Champignons d’Afrique Centrale 10:171–198Google Scholar
  43. Henkel TW (1999) New taxa and distribution records of Tylopilus from Dicymbe forests of Guyana. Mycologia 91(4):655–665.  https://doi.org/10.2307/3761252 Google Scholar
  44. Henkel TW (2001) Tylopilus pakaraimensis sp. nov., a new bolete in Tylopilus section Potamogetones from Guyana. Mycotaxon 78:105–114Google Scholar
  45. Henkel TW, Aime MC, Chin MML, Miller SL, Vilgalys R, Smith ME (2012) Ectomycorrhizal fungal sporocarp diversity and discovery of new taxa in Dicymbe monodominant forests of the Guiana Shield. Bio Cons 26:2195–2220.  https://doi.org/10.1007/s10531-011-0166-1 Google Scholar
  46. Hongo T (1960) The Agaricales of Japan 1-2. Rhodophyllaceae, Paxillaceae, Gomphidiaceae, Boletaceae and Strobilomycetaceae. Acta Phyto Geo 18(4):97–112Google Scholar
  47. Hongo T (1985) Notes on Japanese larger fungi (23). J Jpn Bot 60(12):370–378Google Scholar
  48. Horak E (1968) Synopsis generum Agaricalium (Die Gattungstypen der Agaricales). Beiträge zur Kryptogamenflora der Schweiz, vol. 13. Waber, BernGoogle Scholar
  49. Horak E (2011) Revision of Malaysian species of Boletales s. l. (Basidiomycota) describeb by E. J. H. Corner (1972, 1974), vol 51. Malayan Forest Records, Kuala LumpurGoogle Scholar
  50. Imazeki R, Hongo T (1989) Coloured illustrations of mushrooms of Japan, vol 2. Hoikusha Publishing, HigashiosakaGoogle Scholar
  51. Imazeki R, Otani Y, Hongo T (1988) Fungi of Japan. Yama-kei Publishers, Tokyo (in Japanese)Google Scholar
  52. Karsten PA (1881) Enumeratio Boletinearum et Polyporearum Fennicarum, systemate novo dispositarum. Rev Mycol 3(9):16–19Google Scholar
  53. Katoh K, Misawa K, Kuma K, Miyata T (2002) MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform. Nucleic Acids Res 30:3059–3066.  https://doi.org/10.1093/nar/gkf436 Google Scholar
  54. Kearse M, Moir R, Wilson A, Stones-Havas S, Cheung M, Sturrock S, Buxton S, Cooper A, Markowitz S, Duran C, Thierer T, Ashton B, Meintjes P, Drummond A (2012) Geneious Basic: an integrated and extendable desktop software platform for the organization and analysis of sequence data. Bioinformatics 28:1647–1649.  https://doi.org/10.1093/bioinformatics/bts199 Google Scholar
  55. Klofac W (2007) Schlüssel zur Bestimmung von Frischfunden der europäischen Arten der Boletales mit röhrigem Hymenophor. Öst Z Pilzk 16:187–279Google Scholar
  56. Klofac W, Krisai-Greilhuber I (2006) Die Gattung Chalciporus, ein weltweiter Überblick (the genus Chalciporus, a world-wide survey). Öst Z Pilzk 15:31–65Google Scholar
  57. Knudsen H, Taylor AFS (2012) Boletales E.-J. Gilbert. In: Knudsen H, Vesterholt J (eds) Funga Nordica – Agaricoid, boletoid and cyphelloid genera. Nordsvamp, CopenhagenGoogle Scholar
  58. Kumar S, Stecher G, Li M, Knyaz C, Tamura K (2018) MEGA X: Molecular Evolutionary Genetics Analysis across computing platforms. Mol Biol Evol 35:1547–1549Google Scholar
  59. Lannoy G, Estadès A (2001) Flore Mycologique d’Europe 6 - Les Bolets. Doc Mycol Mém hors série 6, LilleGoogle Scholar
  60. Li TH, Song B (2000) Chinese boletes: a comparison of boreal and tropical elements. In: Walley AJS (ed) Tropical mycology 2000. BMS The Millenium Meeting on Tropical Mycology. Liverpool John Moores University, Liverpool, p 1Google Scholar
  61. Li TH, Watling R (1999) New taxa and combinations of Australian boletes. Edinb J Bot 56(1):143–148Google Scholar
  62. Li YC, Feng B, Yang ZL (2011) Zangia, a new genus of Boletaceae supported by molecular and morphological evidence. Fungal Divers 49(1):125–143.  https://doi.org/10.1007/s13225-011-0096-y Google Scholar
  63. Li YC, Li F, Zeng NK, Cui YY, Yang ZL (2014) A new genus Pseudoaustroboletus (Boletaceae, Boletales) from Asia as inferred from molecular and morphological data. Mycol Prog 13(4):1207–1216.  https://doi.org/10.1007/s11557-014-1011-1 Google Scholar
  64. Liang ZQ, Su MS, Jiang S, Hong D, Zeng NK (2018) Tylopilus callainus, a new species with a sea-green color change of hymenophore and context from the south of China. Phytotaxa 343(3):269–276.  https://doi.org/10.11646/phytotaxa.343.3.7 Google Scholar
  65. Lodge DJ, Ammirati JF, O’Dell TE, Mueller GM (2004) Collecting and describing macrofungi. In: Mueller GM, Bills GF, Foster MS (eds) Biodiversity of fungi - inventory and monitoring methods. Elsevier Academic Press, Burlington, pp 128–158Google Scholar
  66. Magnago AC, Reck MA, Dentinger BTM, Moncalvo JM, Neves MA, Da Silveira RMB (2017) Two new Tylopilus species (Boletaceae) from northeastern Atlantic forest, Brazil. Phytotaxa 316(3):250–260.  https://doi.org/10.11646/phytotaxa.316.3.4 Google Scholar
  67. Mao XL (2009) Macromycetes of China. Science Press, Beijing (in Chinese)Google Scholar
  68. Massee G (1909) Fungi exotici IX. Bull Misc Inf Roy Bot Gard Kew 1909:204–209.  https://doi.org/10.2307/4113287 Google Scholar
  69. Matheny PB, Wang Z, Binder M, Curtis JM, Lim YW, Nilsson RH, Hughes KW, Hofstetter V, Ammirati JF, Schoch CL, Langer E, Langer G, McLaughlin DJ, Wilson AW, Frøslev T, Ge ZW, Kerrigan RW, Slot JC, Yang ZL, Baroni TJ, Fischer M, Hosaka K, Matsuura K, Seidl MT, Vauras J, Hibbett DS (2007) Contributions of rpb2 and tef1 to the phylogeny of mushrooms and allies (Basidiomycota, Fungi). Mol Phylogenet Evol 43:430–451.  https://doi.org/10.1016/j.ympev.2006.08.024 Google Scholar
  70. Muñoz JA (2005) Boletus s.l. (excl. Xerocomus). Fungi Europaei, vol 2. Edizioni Candusso, AlassioGoogle Scholar
  71. Murrill WA (1909) The Boletaceae of North America – I. Mycologia 1(1):4–18.  https://doi.org/10.2307/3753167 Google Scholar
  72. Murrill WA (1910) Boletaceae. North American Flora. Agaricales. Family 6. Bull N Y Bot Gard 9(3):133–161Google Scholar
  73. Murrill WA (1914) American boletes. Privately published, New YorkGoogle Scholar
  74. Murrill WA (1938) New boletes. Mycologia 30(5):520–525Google Scholar
  75. Murrill WA (1943) More new fungi from Florida. Lloydia 6:207–228Google Scholar
  76. Murrill WA (1946) New and interesting Florida fungi. Lloydia 9:315–330Google Scholar
  77. Murrill WA (1948) Florida boletes. Lloydia 11(1):21–35Google Scholar
  78. Noordeloos ME, den Bakker HC, van der Linde S (2018) Order Boletales. In: Noordeloos ME, Kuyper TW, Vellinga S (eds) Flora Agaricina Neerlandica, vol 7. Candusso Editrice, Origgio, pp 1–225Google Scholar
  79. Nuhn ME, Binder M, Taylor AFS, Halling RE, Hibbett DS (2013) Phylogenetic overview of the Boletineae. Fungal Biol 117(7–8):479–511.  https://doi.org/10.1016/j.funbio.2013.04.008 Google Scholar
  80. Ortiz-Santana B, Lodge DJ, Baroni TJ, Both EE (2007) Boletes from Belize and the Dominican Republic. Fungal Divers 27:247–416Google Scholar
  81. Osmundson TW (2009) Systematic, biogeographical, and ecological perspectives on the diversity and conservation of microbial obligate symbionts, using mycorrhizal boletes (fungi) as exemplar taxa. PhD Dissertation, Columbia UniversityGoogle Scholar
  82. Osmundson TW, Halling RE (2010) Tylopilus oradivensis sp. nov.: a newly described member of the Tylopilus balloui complex from Costa Rica. Mycotaxon 113:475–483.  https://doi.org/10.5248/113.475 Google Scholar
  83. Palfner G (2005) Tylopilus temucensis sect. Oxydabiles (Fungi, Basidiomycota, Boletaceae), new species and first record of the genus from Southamerican Nothofagus forest. Fungal Divers 20:157–166Google Scholar
  84. Palmer JM, Lindner DL, Volk TJ (2008) Ectomycorrhizal characterization of an American chestnut (Castanea dentata)-dominated community in Western Wisconsin. Mycorrhiza 19:27–36Google Scholar
  85. Patouillard N, Baker CF (1918) Some Singapore Boletineae. J Straits Branch Roy Asia Soc 78:67–72Google Scholar
  86. Peck CH (1889) Boleti of the United States. Ann Rep N Y State Mus Nat Hist 2(8):73–166Google Scholar
  87. Peck CH (1912) Report of the State Botanist (1911). Bull N Y State Mus 157:1–139Google Scholar
  88. Pegler DN, Young TWK (1981) A natural arrangement of the Boletales, with reference to spore morphology. Trans Br Mycol Soc 76(1):103–146.  https://doi.org/10.1016/S0007-1536(81)80013-7 Google Scholar
  89. Pilát A, Dermek A (1974) Hríbovité huby. Československé hríbovité a sliziakovité huby (Boletaceae – Gomphidiaceae). Veda, BratislavaGoogle Scholar
  90. Ridgway R (1912) Color standards and color nomenclature. Self-published, Washington DCGoogle Scholar
  91. Ronquist F, Teslenko M, van der Mark P, Ayres DL, Darling A, Höhna S, Larget B, Liu L, Suchard MA, Huelsenbeck JP (2012) MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space. Syst Biol 61:539–542.  https://doi.org/10.1093/sysbio/sys029 Google Scholar
  92. Siegel N, Schwarz C (2016) Mushrooms of the Redwood Coast. A comprehensive guide to the fungi of coastal northern California. Ten Speed Press, BerkeleyGoogle Scholar
  93. Singer R (1947) The Boletoideae of Florida. The Boletineae of Florida with notes on extralimital species III. Am Mid Nat 37(1):1–135.  https://doi.org/10.2307/2421647 Google Scholar
  94. Singer R (1967) Die Röhrlinge. Teil II. Die Boletoideaea und Strobilomycetaceae. Die Pilze Mitteleuropas, Band 6, Verlag Julius Klinkhardt, Bad HeilbrunnGoogle Scholar
  95. Singer R (1978) Notes on bolete taxonomy – II. Persoonia 9(4):421–438Google Scholar
  96. Singer R (1986) The Agaricales in modern taxonomy, 4th edn. Koeltz Scientific Books, KoenigsteinGoogle Scholar
  97. Singer R (1989) New taxa and new combinations of Agaricales (diagnoses fungorum novorum Agaricalium 4). Field Bot 21:1–133Google Scholar
  98. Singer R, Araujo I, Ivory MH (1983) The ectotrophically mycorrizal fungi of the neotropical lowlands, especially Central Amazonia (litter decomposition and ectomycorrhiza in Amazonian forests 2.). Beih Nova Hedwigia 77:1–352Google Scholar
  99. Singer R, García J, Gómez LD (1991) The Boletineae of Mexico and Central America III. Beih Nova Hedwigia 102:1–99Google Scholar
  100. Smith AH, Thiers HD (1971) The boletes of Michigan. University of Michigan Press, Ann ArborGoogle Scholar
  101. Snell WH (1936) Notes on boletes. V Mycologia 28(5):463–475Google Scholar
  102. Snell WH (1941) The genera of the Boletaceae. Mycologia 33(4):415–423Google Scholar
  103. Snell WH, Dick EA (1970) The boleti of northeastern North America. Cramer, LehreGoogle Scholar
  104. Stamatakis A (2006) RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688–2690.  https://doi.org/10.1093/bioinformatics/btl446 Google Scholar
  105. Takahashi H (2007) Five new species of the Boletaceae from Japan. Mycoscience 48(2):90–99Google Scholar
  106. Terashima Y, Takahashi H, Taneyama Y (2016) The fungal flora in southwestern Japan: agarics and boletes. Tokai University Press, TokyoGoogle Scholar
  107. Thiers HD (1975) California mushrooms: a field guide to the boletes. Afner Press, New YorkGoogle Scholar
  108. Thiers B (2019) (continuously updated) Index Herbariorum: a global directory of public herbaria and associated staff. New York botanical garden’s virtual herbarium. http://sweetgum.nybg.org/ih/. Accessed 24 May 2019
  109. Thongklam S (2008) Diversity of boletes in some national parks of upper northern Thailand. PhD Dissertation, Chiang Mai UniversityGoogle Scholar
  110. Vilgalys R, Hester M (1990) Rapid genetic identification and mapping of enzymatically amplified ribosomal DNA from several Cryptococcus species. J Bacteriol 172:4238–4246Google Scholar
  111. Vizzini A, Consiglio G, Setti L, Ercole E (2015) Calocybella, a new genus for Rugosomyces pudicus (Agaricales, Lyophyllaceae) and emendation of the genus Gerhardtia. IMA Fungus 6(1):1–11Google Scholar
  112. Watling R (2001a) Australian boletes: their diversity and possible origins. Aust Syst Bot 14(3):407–416.  https://doi.org/10.1071/SB99031 Google Scholar
  113. Watling R (2001b) The relationships and possible distributional patterns of boletes in south-east Asia. Mycol Res 105(12):1440–1448.  https://doi.org/10.1017/S0953756201004877 Google Scholar
  114. Watling R (2008) A manual and source book of the boletes and their allies. Synopsis Fungorum, vol 24. Fungiflora, OsloGoogle Scholar
  115. Watling R, Gregory NM (1988) Observations on the boletes of the Cooloola Sandmass, Queensland and notes on their distributions in Australia. Part 2B. Smooth spored taxa of the family Gyrodontaceae and the genus Pulveroboletus. Proc R Soc Queensland 99:65–76Google Scholar
  116. Watling R, Hills AE (2005) Boletes and their allies – Boletaceae, Strobilomycetaceae, Gyroporaceae, Paxillaceae, Coniophoraceae, Gomphidiaceae (revised and enlarged edition). In: Henderson DM, Watling R (eds) British fungus flora, agarics and boleti, vol 1. HMSO, Edinburgh, pp 1–174Google Scholar
  117. Watling R, Lee SS (1999) Some larger fungi of Semangkok Forest reserve, Selangor. Malay Nat J 53(4):315–322Google Scholar
  118. Watling R, Li TH (1999) Australian boletes. A preliminary survey. Royal Botanic Garden Edinburgh, EdinburghGoogle Scholar
  119. Watling R, Turnbull E (1994) Boletes from south & east Central Africa – II. Edinb J Bot 51(3):331–353Google Scholar
  120. Watling R, Lee SS, Turnbull E (2007) Taxonomic and floristic notes on some tropical boletes and allies. Bull Soc Mycol France 122(4):327–352Google Scholar
  121. Weber NS, Smith AH (1985) A field guide to southern mushrooms. University of Michigan Press, Ann ArborGoogle Scholar
  122. White TJ, Bruns TD, Lee S, Taylor J (1990) Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: Innis MA, Gelfand DH, Sninsky JJ, White TJ (eds) PCR protocols, a guide to methods and applications. Academic press, Orlando, pp 315–322Google Scholar
  123. Wolfe CB Jr (1979) Austroboletus and Tylopilus subg. Porphyrellus, with emphasis on North American taxa. Bibliotheca Mycologica, vol 69. Cramer, Berlin StuttgartGoogle Scholar
  124. Wolfe CB Jr (1981) Type studies in Tylopilus. I. Taxa described by Charles H. Peck. Sydowia 34:199–213Google Scholar
  125. Wolfe CB Jr (1983) Type studies in Tylopilus. II. Taxa described by William A. Murrill. Mycologia 75:699–706Google Scholar
  126. Wolfe CB Jr (1986) Type studies in Tylopilus. III. Taxa described by Walter H. Snell, Esther A. Dick and co-workers. Mycologia 78(1):22–31Google Scholar
  127. Wolfe CB Jr (1990) Type studies in Tylopilus. IV. Taxa described by Rolf Singer. Mycotaxon 38:187–200Google Scholar
  128. Wolfe CB Jr, Bougher NL (1993) Systematics, mycogeography, and evolutionary history of Tylopilus subg. Roseoscarbra in Australia elucidated by comparison with Asian and American species. Aust Syst Bot 6(3):187–213.  https://doi.org/10.1071/SB9930187 Google Scholar
  129. Wolfe CB Jr, Halling RE (1989) Tylopilus griseocarneus, a new species from the North American Atlantic and Gulf coastal plain. Mycologia 81(3):342–346Google Scholar
  130. Wu G, Feng B, Xu JP, Zhu XT, Li YC, Zeng NK, Hosen I, Yang ZL (2014) Molecular phylogenetic analyses redefine seven major clades and reveal 22 new generic clades in the fungal family Boletaceae. Fungal Div 69(1):93–115.  https://doi.org/10.1007/s13225-014-0283-8 Google Scholar
  131. Wu G, Li YC, Zhu XT, Zhao K, Han LH, Cui YY, Li F, Xu JP, Yang ZL (2016) One hundred noteworthy boletes from China. Fungal Div 81(1):25–188.  https://doi.org/10.1007/s13225-016-0375-8 Google Scholar

Copyright information

© German Mycological Society and Springer-Verlag GmbH Germany, part of Springer Nature 2019

Authors and Affiliations

  • Matteo Gelardi
    • 1
  • Claudio Angelini
    • 2
    • 3
  • Federica Costanzo
    • 1
  • Francesco Dovana
    • 4
  • Beatriz Ortiz-Santana
    • 5
  • Alfredo Vizzini
    • 4
    Email author
  1. 1.Anguillara SabaziaItaly
  2. 2.PordenoneItaly
  3. 3.Dr. Rafael Ma. Moscoso National Botanical GardenSanto DomingoDominican Republic
  4. 4.Department of Life Science and Systems BiologyUniversity of TurinTorinoItaly
  5. 5.USDA Forest Service, Northern Research StationCenter for Forest Mycology ResearchMadisonUSA

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