Jump to ContentJump to Main Navigation
Show Summary Details
More options …

Botanica Marina

Editor-in-Chief: Dring, Matthew J.


IMPACT FACTOR 2018: 0.919
5-year IMPACT FACTOR: 1.336

CiteScore 2018: 1.22

SCImago Journal Rank (SJR) 2018: 0.399
Source Normalized Impact per Paper (SNIP) 2018: 0.672

Online
ISSN
1437-4323
See all formats and pricing
More options …
Ahead of print

Issues

Phylogeny of new marine Dothideomycetes and Sordariomycetes from mangroves and deep-sea sediments

E. B. Gareth Jones
  • Corresponding author
  • Department of Botany and Microbiology, College of Science, King Saud University, P.O Box 2455, Riyadh 11451, Kingdom of Saudi Arabia
  • Email
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Bandarupalli DevadathaORCID iD: https://orcid.org/0000-0001-6400-5407 / Mohamed A. Abdel-Wahab
  • Department of Botany and Microbiology, College of Science, King Saud University, P.O Box 2455, Riyadh 11451, Kingdom of Saudi Arabia
  • Department of Botany and Microbiology, Faculty of Science, Sohag University, Sohag 82524, Egypt
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Monika C. Dayarathne
  • Center of Excellence in Fungal Research, Mae Fah Luang University, Chiang Rai 57100, Thailand
  • School of Science, Mae Fah Luang University, Chiang Rai 57100, Thailand
  • World Agro Forestry Centre East and Central Asia Office, 132 Lanhei Road, Kunming 650201, P.R. China
  • Key Laboratory for Plant Biodiversity and Biogeography of East Asia (KLPB), Kunming Institute of Botany, Chinese Academy of Science, Kunming 650201, Yunnan, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Sheng-Nan Zhang
  • Department of Entomology and Plant Pathology, Faculty of Agriculture, Chiang Mai University, Chiang Mai 50200, Thailand
  • Centre of Excellence in Fungal Research, Institute of Excellence in Fungal Research and School of Science, Mae Fah Luang University, Chiang Rai, 57100, Thailand
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Kevin D. Hyde
  • Centre of Excellence in Fungal Research, Institute of Excellence in Fungal Research and School of Science, Mae Fah Luang University, Chiang Rai, 57100, Thailand
  • Emeritus Professor in Kunming Institute of Botany, Chinese Academy of Sciences, Yunnan, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Jian-Kui (Jack) Liu
  • School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu 611731, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Ali H. Bahkali
  • Department of Botany and Microbiology, College of Science, King Saud University, P.O Box 2455, Riyadh 11451, Kingdom of Saudi Arabia
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Vemuri V. Sarma
  • Fungal Biotechnology Lab, Department of Biotechnology, School of Life Sciences, Pondicherry University, Kalapet, Pondicherry 605014, India
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Sanja Tibell
  • Systematic Biology, Department of Organismal Biology, Evolutionary Biology Centre, Uppsala University, Norbyvägen 18D, 75236 Uppsala, Sweden
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Leif Tibell
  • Systematic Biology, Department of Organismal Biology, Evolutionary Biology Centre, Uppsala University, Norbyvägen 18D, 75236 Uppsala, Sweden
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Meng-Meng Wang
  • State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Fang Liu
  • State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Lei Cai
  • State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, P.R. China
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
Published Online: 2019-08-14 | DOI: https://doi.org/10.1515/bot-2019-0014

Abstract

This paper documents six new saprobic marine fungi and one new genus based on morphology and multi-gene phylogenies. Three Dothideomycetes, and members of the Pleosporales, are introduced: Pseudomassariosphaeria triseptata sp. nov. was recognized as a mangrove species in Amniculicolaceae, and Salsuginea phoenicis sp. nov. was discovered as a second member of Salsugineaceae. A new genus Raghukumaria with Raghukumaria keshaphalae sp. nov., recovered from mangroves, is phylogenetically sister to Halomassarina and nests in the Trematosphaeriaceae. Three new species are referred to the Sordariomycetes: Coniochaeta marina (Coniochaetales, Coniochaetaceae) on driftwood; Fusicolla bharatavarshae (Hypocreales, Nectriaceae) is introduced with asexual and sexual morphs, on decayed mangrove wood of Avicennia marina; and Fusarium sedimenticola (Hypocreales, Nectriaceae) is new to the Fusarium solani species complex (FSSC) from deep-sea sediment.

Keywords: Coniochaetales; deep sea; estuarine palm; Hypocreales; Pleosporales

References

  • Abdel-Wahab, M.A., D.C. Dayarathne, S. Suetrong, S.Y. Guo, S.A. Alias, A.H. Bahkali, T. Nagahama, A.M. Elgorban, F.A. Abdel-Aziz, M.S. Hodhod, M.O. Al-Hebshi, K.D. Hyde, N.A.B.M. Nor, K.L. Pang and E.B.G. Jones. 2017. New saprobic marine fungi and a new combination. Bot. Mar. 60: 469−488.Google Scholar

  • Amend, A., G. Burgaud, M. Cunliffe, V.P. Edgcomb, C.L. Ettingerc, M.H. Gutiérrez, J. Heitman, E.F.Y. Hom, G. Ianiri, A.C. Jones, K. Kagami, K.P. Picard, C.A. Quandt, S. Raghukumar, M. Riquelme, J. Stajich, J. Vargas-Muñiz, A.K. Walker, O. Yarden and A.S. Gladfelter. 2019. Fungi in the marine environment: open questions and unsolved problems. mBio 10: R189−R204.Google Scholar

  • Ariyawansa, H.A., K.D. Hyde, S.C. Jayasiri, B. Buyck, K.W.T. Chethana, D.Q. Dai, Y.C. Dai, D.A. Daranagama, R.S. Jayawardena, R. Lücking, M. Ghobad-Nejhad, T. Niskanen, K.M. Thambugala, K. Voigt, R.L. Zhao, G.J. Li, M. Doilom, S. Boonmee, Z.L. Yang, Q. Cai, Y.Y. Cui, A.H. Bahkali, J. Chen, B.K. Cui, J.J. Chen, M.C. Dayarathne, A.J. Dissanayake, A.H. Ekanayaka, A. Hashimoto, S. Hongsanan, E.B.G. Jones, E. Larsson, W.J. Li, Q.R. Li, J.K. Liu, Z.L. Luo, S.S.N. Maharachchikumbura, A. Mapook, E.H.C. McKenzie, C. Norphanphoun, S. Konta, K.L. Pang, R.H. Perera, R. Phookamsak, C. Phukhamsakda, U. Pinruan, E. Randrianjohany, C. Singtripop, K. Tanaka, C.M. Tian, S. Tibpromma, M.A. Abdel-Wahab, D.N. Wanasinghe, N.N. Wijayawardene, J.F. Zhang, H. Zhang, F.A. Abdel-Aziz, M. Wedin, M. Westberg, J.F. Ammirati, T.S. Bulgakov, D.X. Lima, T.M. Callaghan, P. Callac, C.H. Chang, L.F. Coca, M. Dal-Forno, V. Dollhofer, K. Fliegerová, K. Greiner, G.W. Griffith, H.M. Ho, V. Hofstetter, R. Jeewon, J.C. Kang, T.C. Wen, P.M. Kirk, I. Kytövuori, J.D. Lawrey, J. Xing, H. Li, Z.Y. Liu, X.Z. Liu, K. Liimatainen, H. Thorsten Lumbsch, M. Matsumura, B. Moncada, S. Nuankaew, S. Parnmen, A.L.C.M. de Azevedo Santiago, S. Sommai, Y. Song, C.A.F. de Souza, C.M. de Souza-Motta, H.Y. Su, S. Suetrong, Y. Wang, W.S. Fong, H.S. Yuan, L.W. Zhou, M. Réblová, J. Fournier, E. Camporesi, J.J. Luangsa-ard, K. Tasanathai, A. Khonsanit, D. Thanakitpipattana, S. Somrithipol, P. Diederich, A.M. Millanes, R.S. Common, M. Stadler, J.Y. Yan, X.H. Li, H.W. Lee, T.T.T. Nguyen, H.B. Lee, E. Battistin, O. Marsico, A. Vizzini, J. Vila, E. Ercole, U. Eberhardt, G. Simonini, H.A. Wen and X.H. Chen. 2015. Fungal diversity notes 111–252 – taxonomic and phylogenetic contributions to fungal taxa. Fungal Divers. 75: 27–274.CrossrefGoogle Scholar

  • Asgari, B., R. Zare and W. Gams. 2007. Coniochaeta ershadii, a new species from Iran, and a key to well-documented Coniochaeta species. Nova Hedw. 84: 175−187.CrossrefGoogle Scholar

  • Bonorden, H.F. 1851. Handbuch der allgemeinen Mykologie. Schweizerbart’sche Verlagshandlung, Stuttgart. pp. 1−336.Google Scholar

  • Cain, R.F. 1961. Studies of soil fungi: iii. new species of Coniochaeta, Chaetomidium, and Thielavia. Can. J. Bot. 39: 1231–1239.CrossrefGoogle Scholar

  • Checa J., J.M. Barrasa, G. Moreno, F. Fort and J. Guarro. 1988. The genus Coniochaeta (Sacc.) Cooke (Coniochaetaceae, Ascomycotina) in Spain. Cryptog. Mycol. 9: 1–34.Google Scholar

  • Crous, P.W., M.J. Wingfield, T.I. Burgess, G.E. Hardy, C. Crane, S. Barrett, J.F. Cano-Lira, J.J. Le Roux, R. Thangavel, J. Guarro, A.M. Stchigel, M.P. Martín, D.S. Alfredo, P.A. Barber, R.W. Barreto, I.G. Baseia, J. Cano-Canals, R. Cheewangkoon, R.J. Ferreira, J. Gené, C. Lechat, G. Moreno, F. Roets, R.G. Shivas, J.O. Sousa, Y.P. Tan, N.P. Wiederhold, S.E. Abell, T. Accioly, J.L. Albizu, J.L. Alves, Z.I. Antoniolli, N. Aplin, J. Araújo, M. Arzanlou, J.D.P. Bezerra, J.P. Bouchara, J.R. Carlavilla, A. Castillo, V.L. Castroagudín, P.C. Ceresini, G.F. Claridge, G. Coelho, V.R.M. Coimbra, L.A. Costa, K.C. da Cunha, S.S. da Silva, R. Daniel, Z.W. de Beer, M. Dueñas, J. Edwards, P. Enwistle, P.O. Fiuza, J. Fournier, D. García, T.B. Gibertoni, S. Giraud, M. Guevara-Suárez, L.F.P. Gusmão, S. Haituk, M. Heykoop, Y. Hirooka, T.A. Hofmann, J. Houbraken, D.P. Hughes, I. Kautmano vá, O. Koppel, O. Koukol, E. Larsson, K.P.D. Latha, D.H. Lee, D.O. Lisboa, W.S. Lisboa, Á. López-Villalba, J.L.N. Maciel, N.P. Manimohan, J.L. Manjón, S. Marincowitz, T.S. Marney, M. Meijer, A.N. Miller, I. Olariaga, L.M. Paiva, M. Piepenbring, J.C. Poveda-Molero, K.N.A. Raj, H.A. Raja, A. Rougeron, I. Salcedo, R. Samadi, T.A.B. Santos, K. Scarlett, K.A. Seifert, L.A. Shuttleworth, G.A. Silva, M. Silva, J.P.Z. Siqueira, C.M. Souza-Motta, S.L. Stephenson, D.A. Sutton, N. Tamakeaw, M.T. Telleria, N. Valenzuela-Lopez, A.Viljoen, C.M. Visagie, A. Vizzini, F. Wartchow, B.D. Wingfield, E. Yurchenko, J.C. Zamora and J.Z. Groenewald. 2016. Fungal Planet description sheets: 469–557. Persoonia 37: 218−403.CrossrefGoogle Scholar

  • Damare, S., C. Raghukumar and S. Raghukumar. 2006. Fungi in deep-sea sediments of the Central Indian Basin. Deep-Sea Res. I 53: 14–27.CrossrefGoogle Scholar

  • Damm, U., P.H. Fourie and P.W. Crous. 2010. Coniochaeta (Lecythophora), Collophora gen. nov. and Phaeomoniella species associated with wood necroses of Prunus trees. Persoonia 24: 60–80.CrossrefGoogle Scholar

  • Devadatha, B., V.V. Sarma, H.A. Ariyawansa and E.B.G. Jones. 2018. Deniquelata vittalii sp. nov., a novel Indian saprobic marine fungus on Suaeda monoica and two new records of marine fungi from Muthupet mangroves, East coast of India. Mycosphere 9: 565–582.CrossrefGoogle Scholar

  • Eriksson, O.E., H.O. Baral, R.S. Currah, K. Hansen, C.P. Kurtzman, G. Rambold and T. Laessøe. 2004. Outline of the Ascomycetes – 2004. Myconet 10: 1–99.Google Scholar

  • García, D., A.M. Stchigel, J. Cano, M. Calduch, D.L. Hawksworth and J. Guarro. 2006. Molecular phylogeny of Coniochaetales. Mycol. Res. 110: 1271–1289.CrossrefGoogle Scholar

  • Garzoli, L., A. Poli, V. Prigione, G. Gnavi and G.C. Varese. 2018. Peacock’s tail with a fungal cocktail: first assessment of the mycobiota associated with the brown alga Padina pavonica. Fungal Ecol. 35: 87–97.CrossrefGoogle Scholar

  • Gerlach, W. and H. Nirenberg. 1982. The genus Fusarium – a pictorial atlas. Mitteilungen aus der Biologischen Bundesanstalt fur Land- und Forstwirtschaft Berlin-Dahlem 209: 1–406.Google Scholar

  • Gladfelter, A.S., T.Y. James and A.S. Amend. 2019. Marine fungi. Curr. Biol. 29: R191–R195.CrossrefGoogle Scholar

  • Gräfenhan, T., H.J. Schroers, H.I. Nirenberg and K.A. Seifert. 2011. An overview of the taxonomy, phylogeny, and typification of nectriaceous fungi in Cosmospora, Acremonium, Fusarium, Stilbella, and Volutella. Stud. Mycol. 68: 79−113.CrossrefGoogle Scholar

  • Hongsanan, S., S.S.N. Maharachchikumbura, K.D. Hyde, M.C. Samarakoon, R. Jeewon, Q. Zhao, A.M. Al-Sadi and A.H. Bahkali. 2017. An updated phylogeny of Sordariomycetes based on phylogenetic and molecular clock evidence. Fungal Divers. 84: 25–41.CrossrefGoogle Scholar

  • Huang, S.K., R. Jeewon, K.D. Hyde, D.J. Bhat and T.C. Wen. 2018. Novel taxa within Nectriaceae: Cosmosporella gen. nov. and Aquanectria sp. nov. from freshwater habitats in China. Crypto. Mycol. 39: 169–192.CrossrefGoogle Scholar

  • Huhndorf, S.M., A.N. Miller and F.A. Fernández. 2004. Molecular systematics of the Sordariales: the order and the family Lasiosphaeriaceae redefined. Mycologia 96: 368–387.CrossrefGoogle Scholar

  • Hyde, K.D. 1991. Helicascus kanaloanus, Helicascus nypae sp. nov. and Salsuginea ramicola gen. et sp. nov. from intertidal mangrove wood. Bot. Mar. 34: 311–318.Google Scholar

  • Hyde, K.D. 1992. Intertidal mangrove fungi from the west coast of Mexico, including one new genus and two new species. Mycol. Res. 96: 25−30.CrossrefGoogle Scholar

  • Hyde, K.D. and E.B.G. Jones. 1988. Marine mangrove fungi. P.S.Z.N.I.: Mar. Ecol. 9: 15–33.CrossrefGoogle Scholar

  • Hyde, K.D., E.B.G. Jones, J.K. Liu, H.A. Ariyawansa, E. Boehm, S. Boonmee, U. Braun, P. Chomnunti, P.W. Crous, D.Q. Dai, P. Diederich, A.J. Dissanayake, M. Doilom, F. Doveri, S. Hongsanan, R. Jayawardena, J.D. Lawrey, Y.M. Li, Y.X. Liu, R. Lücking, J. Monkai, L. Muggia, M.P. Nelsen, K.L. Pang, R. Phookamsak, I. Senanayake, C.A. Shearer, S. Seutrong, K. Tanaka, K.M. Thambugala, D.N.N. Wijayawardene, S. Wikee, H.X. Wu, Y. Zhang, B. Aguirre-Hudson, S.A. Alias, A. Aptroot, A.H. Bahkali, J.L. Bezerra, J.D. Bhat, E. Camporesi, E. Chukeatirote, C. Gueidan, D.L. Hawksworth, K. Hirayama, S. De Hoog, J.C. Kang, K. Knudsen, W.J. Li, X.H. Li, Z.Y. Liu, A. Mapook, E.H.C. McKenzie, A.N. Miller, P.E. Mortimer, A.J.L. Phillips, H.A. Raja, C. Scheuer, F. Schumm, J.E. Taylor, Q. Tian, S. Tibpromma, D.N. Wanasinghe, Y. Wang, J.C. Xu, J.Y. Yan, S. Yacharoen and M. Zhang. 2013. Families of Dothideomycetes. Fungal Divers. 63: 1–313.CrossrefGoogle Scholar

  • Hyde, K.D., C. Norphanphoun, V.P. Abreu, A. Bazzicalupo, K.W. Thilini Chethana, M. Clericuzio, M.C. Dayarathne, A.J. Dissanayake, A.H. Ekanayaka, M.Q. He, S. Hongsanan, S.K. Huang, S.C. Jayasiri, R.S. Jayawardena, A. Karunarathna, S. Konta, L. Kušan, H. Lee, J.F. Li, C.G. Lin, N.G. Liu, Y.Z. Lu, Z.L. Luo, I.S. Manawasinghe, A. Mapook, R.H. Perera, R. Phookamsak, C. Phukhamsakda, L. Siedlecki, A.M. Soares, D.S. Tennakoon, Q. Tian, S. Tibpromma, D.N. Wanasinghe, Y.P. Xiao, J. Yang, X.Y. Zeng, F.A. Abdel-Aziz, W.J. Li, I.C. Senanyake, Q.J. Shang, D.A. Daranagama, N.I. de Silva, K.M. Thambugala, M.A. Abdel-Wahab, A.H. Bahkali, M.L. Berbee, S. Boonmee, D.J. Bhat, T.S. Bulgakov, B. Buyck, E. Camporesi, R.F. Castañeda-Ruiz, P. Chomnunti, M. Doilom, F. Dovana, T.B. Gibertoni, M, Jadan, R. Jeewon, E.B.G. Jones, J.C. Kang, S.C. Karunarathna, Y.W. Lim, J.K. Liu, Z.Y. Liu, H.L. Plautz Jr., S. Lumyong, S.S.N. Maharachchikumbura, N. Matočec, E.H.C. McKenzie, A. Mešić, D. Miller, J. Pawłowska, Q.L. Pereira, I. Promputtha, A.I. Romero, L. Ryvarden, H.Y. Su, S. Suetrong, Z. Tkalčec, A. Vizzini, T.C. Wen, K. Wisitrassameewong, M. Wrzosek, J.C. Xu, Q. Zhao, R.L. Zhao and P.E. Mortimer. 2017. Fungal diversity notes 603–708: taxonomic and phylogenetic notes on genera and species. Fungal Divers. 87: 1–235.CrossrefGoogle Scholar

  • Hyde, K.D., N. Chaiwan, C. Norphanphoun, S. Boonmee, E. Camporesi, K.W.T. Chethana, M.C. Dayarathne, N.I. de Silva, A.J. Dissanayake, A.H. Ekanayaka, S. Hongsanan, S.K. Huang, S.C. Jayasiri, R.S. Jayawardena, H.B. Jiang, A. Karunarathna, C.G. Lin, J.K. Liu, N.G. Liu, Y.Z. Lu, Z.L. Luo, S.S.N. Maharachchimbura, I.S. Manawasinghe, D. Pem, R.H. Perera, C. Phukhamsakda, M.C. Samarakoon, C. Senwanna, Q.J. Shang, D.S. Tennakoon, K.M. Thambugala, S. Tibpromma, D.N. Wanasinghe, Y.P. Xiao, J. Yang, X.Y. Zeng, J.F. Zhang, S.N. Zhang, T.S. Bulgakov, D.J. Bhat, R. Cheewangkoon, T.K. Goh, E.B.G. Jones, J.C. Kang, R. Jeewon, Z.Y. Liu, S. Lumyong, C.H. Kuo, E.H.C. McKenzie, T.C. Wen, J.Y. Yan and Q. Zhao. 2018. Mycosphere notes 169–224. Mycosphere 9: 271–430.CrossrefGoogle Scholar

  • Jones, E.B.G. 2011. Are there more marine fungi to be described? Bot. Mar. 54: 343–354.Google Scholar

  • Jones, E.B.G. and K.D. Hyde. 1988. Methods for the study of mangrove marine fungi from the mangroves. In: (A.D. Agate, C.V. Subramanian and M. Vannucci, eds) Mangrove microbiology. Role of microorganisms in nutrient cycling of mangrove soils and waters. UNDP. UNESCO, New Delhi. pp. 9–27.Google Scholar

  • Jones, E.B.G. and K.L. Pang. 2012. Introduction. In: (E.B.G. Jones and K.L. Pang, eds) Marine fungi and fungal-like organisms. De Gruyter, Germany. pp. 1–13.Google Scholar

  • Jones, E.B.G. and K.L. Pang. 2017. Recent advances in marine mycology. Bot. Mar. 60: 361–367.Google Scholar

  • Jones, E.B.G., J. Sakayaroj, S. Suetrong, S. Somrithipol and K.L. Pang. 2009. Classification of marine Ascomycota, anamorphic taxa and Basidiomycota. Fungal Divers. 35: 1–187.Google Scholar

  • Jones, E.B.G., S. Suetrong, J. Sakayaroj, A.H. Bahkali, M.A. Abdel-Wahab, T. Boekhout and K.L. Pang. 2015. Classification of marine Ascomycota, Basidiomycota, Blastocladiomycota and Chytridiomycota. Fungal Divers. 73: 1–72.CrossrefGoogle Scholar

  • Jones, E.B.G., K.L. Pang, M.A. Abdel-Wahab, B. Scholz, K.D. Hyde, T. Boekhout, R. Ebel, M.E. Rateb, L. Henderson, J. Sakayaroj, S. Suetrong, M.C. Dayarathne, V. Kumar, S. Raghukumar, K.R. Sridhar, A.H. Bahkali1, F. Gleason and C. Norphanphoun. 2019. An online resource for marine fungi. Fungal Divers. 96: 347–433.CrossrefGoogle Scholar

  • Khan, Z., J. Gené, S. Ahmad, J. Cano, N. Al-Sweih, L. Joseph, R. Chandy and J. Guarro. 2013. Coniochaeta polymorpha, a new species from endotracheal aspirate of a preterm neonate, and transfer of Lecythophora species to Coniochaeta. Anton. van Leeuw. 104: 243–252.CrossrefGoogle Scholar

  • Khao L.V., K. Hatai, A. Yuasa and K. Sawada. 2005. Morphology and molecular phylogeny of Fusarium solani isolated from kuuruma prawn Penaeus japonicas with black gills. Fish Pathol. 40: 103–109.CrossrefGoogle Scholar

  • Kirk, P.M., P.F. Cannon, J.C. David and J.A. Stalpers. 2001. Ainsworth & Bisby’s dictionary of the fungi. 9th edition. CABI Publishing, Wallingford. pp. 655.Google Scholar

  • Kirk, P.M., P.F. Cannon, D.W. Minter and J.A. Stalpers. 2008. Dictionary of the fungi. 10th edition. CABI, Wallingford. pp. 771.Google Scholar

  • Kohlmeyer, J. and B. Volkmann-Kohlmeyer. 1991. Illustrated key to the filamentous higher marine fungi. Bot. Mar. 34: 1–61.CrossrefGoogle Scholar

  • Lechat, C. and A. Rossman. 2017. A new species of Fusicolla (Hypocreales), F. ossicola, from Belgium. Ascomycete.org 9: 225–228.Google Scholar

  • Li, G.J., K.D. Hyde, R.L. Zhao, S. Hongsanan, F.A. Abdel-Aziz, M.A. Abdel-Wahab, P. Alvarado, G. Alves-Silva, S.F. Ammirati, H.A. Ariyawansa, A. Baghela, A.H. Bahkali, M. Beug, D.J. Bhat, D. Bojantchev, T. Boonpratuang, T.S. Bulgakov, E. Camporesi, M.C. Boro, O. Ceska, D. Chakraborty, J.J. Chen, K.W.T. Chethana, P. Chomnunti, G. Consiglio, B.K. Cui, D.Q. Dai, Y.C. Dai, D.A. Daranagama, K. Das, M.C. Dayarathne, E. De Crop, R.J.V. De Oliveira, C.A.F. de Souza, J.I. de Souza, B.T.M. Dentinger, A.J. Dissanayake, M. Doilom, E.R. Drechsler-Santos, M. Ghobad-Nejhad, S.P. Gilmore, A. Góes-Neto, M. Gorczak, C.H. Haitjema, K.K. Hapuarachchi, A. Hashimoto, M.Q. He, J.K. Henske, K. Hirayama, M.J. Iribarren, S.C. Jayasiri, R.S. Jayawardena, S.J. Jeon, G.H. Jerônimo, A.L. Jesus, E.B.G. Jones, J.C. Kang, S.C. Karunarathna, P.M. Kirk, S. Konta, E. Kuhnert, E. Langer, H.S. Lee, H.B. Lee, W.J. Li, X.H. Li, K. Liimatainen, D.X. Lima, C.G. Lin, J.K. Liu, X.Z. Liu, Z.Y. Liu, J.J. Luangsa-ard, R. Lücking, H.T. Lumbsch, S. Lumyong, E.M. Leaño, A.V. Marano, M. Matsumura, E.H.C. McKenzie, S. Mongkolsamrit, P.E. Mortimer, T.T.T. Nguyen, T. Niskanen, C. Norphanphoun, M.A. O’Malley, S. Parnmen, J. Pawłowska, R.H. Perera, R. Phookamsak, C. Phukhamsakda, C.L.A. Pires-Zottarelli, O. Raspé, M.A. Reck, S.C.O. Rocha, A.L.C.M.A. de Santiago, I.C. Senanayake, L. Setti, Q.J. Shang, S.K. Singh, E.B. Sir, K.V. Solomon, J. Song, P. Srikitikulchai, M. Stadler, S. Suetrong, H. Takahashi, T. Takahashi, K. Tanaka, L.P. Tang, K.M. Thambugala, D. Thanakitpipattana, M.K. Theodorou, B. Thongbai, T. Thummarukcharoen, Q. Tian, S. Tibpromma, A. Verbeken, A. Vizzini, J. Vlasák, K. Voigt, D.N. Wanasinghe, Y. Wang, G. Weerakoon, H.A. Wen, T.C. Wen, N.N. Wijayawardene, S. Wongkanoun, M. Wrzosek, Y.P. Xiao, J.C. Xu, J.Y. Yan, J. Yang, S.D. Yang, Y. Hu, J.F. Zhang, J. Zhao, L.W. Zhou, D. Peršoh, A.J.L. Phillips and S.S.N. Maharachchikumbura. 2016. Fungal diversity notes 253–366: taxonomic and phylogenetic contributions to fungal taxa. Fungal Divers. 78: 1–237.CrossrefGoogle Scholar

  • Liu, Y.J., S. Whelen and B.D. Hall. 1999. Phylogenetic relationships among ascomycetes: evidence from an RNA polymerse II subunit. Mol. Biol. Evol. 16: 1799–1808.CrossrefGoogle Scholar

  • Liu, J.K., K.D. Hyde, R. Jeewon, A.J.L. Phillips, S.S.N. Maharachchikumbura, M. Ryberg, Z.Y. Liu and Q. Zhao. 2017. Ranking higher taxa using divergence times: a case study in Dothideomycetes. Fungal Divers. 84: 75–99.CrossrefGoogle Scholar

  • Maharachchikumbura, S.S.N., K.D. Hyde, E.B.G. Jones, E.H.C. McKenzie, S.K. Huang, M.A. Abdel-Wahab, D.A. Daranagama, M. Dayarathne, M.J. D’Souza, I.D. Goonasekara, S. Hongsanan, R.S. Jayawardena, P.M. Kirk, S. Konta, J.K. Liu, Z.Y. Liu, C. Norphanphoun, K.L. Pang, R.H. Perera, I.C. Senanayake, Q. Shang, B.D. Shenoy, Y.P. Xiao, A.H. Bahkali, J.C. Kang, S. Somrothipol, S. Suetrong, T.C. Wen and J.C. Xu. 2015. Towards a natural classification and backbone tree for Sordariomycetes. Fungal Divers. 72: 199–301.CrossrefGoogle Scholar

  • Maharachchikumbura, S.S.N., K.D. Hyde, E.B.G. Jones, E.H.C. McKenzie, J.D. Bhat, M.C. Dayarathne, S.K. Huang, C. Norphanphoun, I.C. Senanayake, R.H. Perera, Q.J. Shang, Y. Xiao, M.J. D’souza, S. Hongsanan, R.S. Jayawardena, D.A. Daranagama, S. Konta, I.D. Goonasekara, W.Y. Zhuang, R. Jeewon, A.J.L. Phillips, M.A. Abdel-Wahab, A.M. Al-Sadi, A.H. Bahkali, S. Boonmee, N. Boonyuen, R. Cheewangkoon, A.J. Dissanayake, J. Kang, Q.R. Li, J.K. Liu, X.Z. Liu, Z.Y. Liu, J.J. Luangsa-ard, K.L. Pang, R. Phookamsak, I. Promputtha, S. Suetrong, M. Stadler, T.C. Wen and N.N. Wijayawardene. 2016. Families of Sordariomycetes. Fungal Divers. 79: 1–317.CrossrefGoogle Scholar

  • Miller, A.N., S.M. Huhndorf and J. Fournier. 2014. Phylogenetic relationships of five uncommon species of Lasiosphaeria and three new species in the Helminthosphaeriaceae (Sordariomycetes). Mycologia 106: 505–524.CrossrefGoogle Scholar

  • Pang, K.L., J.S. Jheng and E.B.G. Jones. 2011. Marine mangrove fungi of Taiwan. National Taiwan Ocean University, Chilung. pp. 1–131.Google Scholar

  • Perdomo, H., D. García, J. Gené, J. Cano, D.A. Sutton, R. Summerbell and J. Guarro. 2013. Phialemoniopsis, a new genus of Sordariomycetes, and new species of Phialemonium and Lecythophora. Mycologia 105: 398–421.CrossrefGoogle Scholar

  • Raghukumar, S. 2017. The marine environment and the role of fungi. In: (S. Raghukumar, ed) Fungi in coastal and oceanic marine ecosystems. Springer, Cham. pp. 17–38.Google Scholar

  • Rehner, S.A. and E. Buckley. 2005. A Beauveria phylogeny inferred from nuclear ITS and EF1-α sequences: evidence for cryptic diversification and links to Cordyceps teleomorphs. Mycologia 97: 84–98.Google Scholar

  • Saccardo, P.A. 1878. Fungi Italici autographice delineati a Prof. P.A. Saccardo. Patavii 1878. – Fascicoli V.-VIII. Michelia 1: 326–350.Google Scholar

  • Samarakoon, M.C., Y. Gafforov, N. Liu, S.S. Maharachchikumbura, J.D. Bhat, J.K. Liu, I. Promputtha and K.D. Hyde. 2018. Combined multi-gene backbone tree for the genus Coniochaeta with two new species from Uzbekistan. Phytotaxa 336: 43–58.CrossrefGoogle Scholar

  • Sarmiento-Ramírez, J.M., E. Abella, M.P. Martín, M.T. Tellería, L.F. López-Jurado, A. Marco and J. Diéguez-Uribeondo. 2010. Fusarium solani is responsible for mass mortalities in nests of loggerhead sea turtle, Caretta caretta, in Boavista, Cape Verde. FEMS Microbiol. Lett. 312: 192−200.CrossrefGoogle Scholar

  • Suetrong, S., C.L. Schoch, J.W. Spatafora, J. Kohlmeyer, B. Volkmann-Kohlmeyer, J. Sakayaroj, S. Phongpaichit, K. Tanaka, K. Hirayama and E.B.G. Jones. 2009. Molecular systematics of the marine Dothideomycetes. Stud. Mycol. 64: 155–173.CrossrefGoogle Scholar

  • Suetrong, S., K.D. Hyde, Y. Zhang, A.H. Bahkali and E.B.G. Jones. 2011. Trematosphaeriaceae fam. nov. (Dothideomycetes, Ascomycota). Cryptog. Mycol. 32: 343−358.CrossrefGoogle Scholar

  • Swofford, D.L. 2002. PAUP*. Phylogenetic analysis using parsimony (*and other methods). Version 4. Sinauer Associates, Sunderland, Massachusetts, USA.Google Scholar

  • Trouillas, F.P., WM. Pitt, M.R. Sosnowski, R. Huang, F. Peduto, A. Loschiavo, S. Savocchia and F.S. Scott. 2011. Taxonomy and DNA phylogeny of Diatrypaceae associated with Vitis vinifera and other woody plants in Australia. Fungal Divers. 49: 203–223.CrossrefGoogle Scholar

  • Troy, G.C., D.L. Panciera, J.P. Pickett, D.A. Sutton, J. Gene, J.F. Cano, J. Guarro, E.H. Thompson and B.L. Wickes. 2013. Mixed infection caused by Lecythophora canina sp. nov. and Plectosphaerella cucumerina in a German shepherd dog. Med. Mycol. 51: 455−460.CrossrefGoogle Scholar

  • Tubaki, K., C. Booth and T. Harada. 1976. A new variety of Fusarium merismoides. Trans. Br. Mycol. Soc. 66: 355−356.CrossrefGoogle Scholar

  • Vázquez-Campos, X., A.S. Kinsela, T.D. Waite, R.N. Collins and B.A. Neilan. 2014. Fodinomyces uranophilus gen. nov. sp. nov. and Coniochaeta fodinicola sp. nov., two uranium mine-inhabiting Ascomycota fungi from northern Australia. Mycologia 106: 1073–1089.CrossrefGoogle Scholar

  • Vilgalys, R. and M. Hester. 1990. Rapid genetic identification and mapping of enzymatically amplified ribosomal DNA from several Cryptococcus species. J. Bacteriol. 172: 4238–4246.CrossrefGoogle Scholar

  • Wanasinghe, D.N., R. Jeewon, S. Tibpromma, E.B.G. Jones and K.D. Hyde. 2017. Saprobic Dothideomycetes in Thailand: Muritestudina gen. et sp. nov. (Testudinaceae) a new terrestrial pleosporalean ascomycete, with hyaline and muriform ascospores. Stud. Fungi 2: 219–234.CrossrefGoogle Scholar

  • Wanasinghe, D.N., C. Phukhamsakda, K.D. Hyde, R. Jeewon, H.B. Lee, E.B.G. Jones, S. Tibpromma, D.S. Tennakoon, A.J. Dissanayake, S.C. Jayasiri, Y. Gafforov, E. Camporesi, T.S. Bulgakov, A.H. Ekanayake, R.H. Perera, M.C. Samarakoon, I.D. Goonasekara, A. Mapook, W.J. Li, I.C. Senanayake, J.F. Li, C. Norphanphoun, M. Doilom, A.H. Bahkali, J.C. Xu, P.E. Mortimer, L. Tibell, S. Tibell and S.C. Karunarathna. 2018. Fungal diversity notes 709–839: taxonomic and phylogenetic contributions to fungal taxa with an emphasis on fungi on Rosaceae. Fungal Divers. 89: 1–236.CrossrefGoogle Scholar

  • Weber, E. 2002. The Lecythophora-Coniochaeta complex I. Morphological studies on Lecythophora species isolated from Picea abies. Nova Hedw. 74: 159–185.CrossrefGoogle Scholar

  • Weber, E., C. Görke and D. Begerow. 2002. The Lecythophora-Coniochaeta complex: II. Molecular studies based on sequences of the large subunit of ribosomal DNA. Nova Hedw. 74: 187–200.CrossrefGoogle Scholar

  • White, T.J., T. Bruns, S. Lee and J. Taylor. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: (M.A. Innis, D.H. Gelfand, J.J. Sninsky and T.J. White, eds) PCR protocols: a guide tomethods and applications. Academic Press, New York. pp. 315–322.Google Scholar

  • Wijayawardene, N.N., K.D. Hyde, K.C. Rajeshkumar, D.L. Hawksworth, H. Madrid, P.M. Kirk, U. Braun, R.V. Singh, P.W. Crous, M. Kukwa, R. Lücking, C.P. Kurtzman, A. Yurkov, D. Haelewaters, A. Aptroot, H.T. Lumbsch, E. Timdal, D. Ertz, J. Etayo, A.J.L. Phillips, J.Z. Groenewald, M. Papizadeh, L. Selbmann, M.C. Dayarathne, G. Weerakoon, E.B.G. Jones, S. Suetrong, Q. Tian, R.F. Castanéda-Ruiz, A.H. Bahkali, K.L. Pang, K. Tanaka, D.Q. Dai, J. Sakayaroj, M. Hujslová, L. Lombard, B.D. Shenoy, A. Suija, S.S.N. Maharachchikumbura, K.M. Thambugala, D.N. Wanasinghe, B.O. Sharma, S. Gaikwad, G. Pandit, L. Zucconi, S. Onofri, E. Egidi, H.A. Raja, R. Kodsueb, M.E.S. Cáceres, S. Pérez-Ortega, P.O. Fiuza, J.S. Monteiro, L.N. Vasilyeva, R.G. Shivas, M. Prieto, M. Wedin, I. Olariaga, A.A. Lateef, Y. Agrawal, S.A.S. Fazeli, M.A. Amoozegar, G.Z. Zhao, W.P. Pfliegler, G. Sharma, M. Oset, M.A. Abdel-Wahab, S. Takamatsu, K. Bensch, N.I. de Silva, A. De Kesel, A. Karunarathna, S. Boonmee, D.H. Pfister, Y.Z. Lu, Z.L. Luo, N. Boonyuen, D.A. Daranagama, I.C. Senanayake, S.C. Jayasiri, M.C. Samarakoon, X.Y. Zeng, M. Doilom, L. Quijada, S. Rampadarath, G. Heredia, A.J. Dissanayake, R.S. Jayawardana, P.H. Perera, L.Z. Tang, C. Phukhamsakda, M. Hernández-Restrepo, X.Y. Ma, S. Tibpromma, L.F.P. Gusmao, D. Weerahewa and S.C. Karunarathna. 2017. Notes for genera: Ascomycota. Fungal Divers. 86: 1–594.CrossrefGoogle Scholar

  • Wijayawardene, N.N., K.D. Hyde, H.T. Lumbsch, J.K. Liu, S.S.N. Maharachchikumbura, A.H. Ekanayaka, Q. Tian and R. Phookamsak. 2018. Outline of Ascomycota: 2017. Fungal Divers. 88: 167–263.CrossrefGoogle Scholar

  • Xu, W., Z.H. Luo, S. Guo and K.L. Pang. 2016. Fungal community analysis in the deep-sea sediments of the Pacific Ocean assessed by comparison of ITS, 18S and 28S ribosomal DNA regions. Deep-Sea Res. I 10: 951–960.Google Scholar

  • Xu, W., S. Guo, K.L. Pang and Z.H. Luo. 2017. Fungi associated with chimney and sulfide samples from a South Mid-Atlantic Ridge hydrothermal site: distribution, diversity and abundance. Deep-Sea Res. I 123: 48–55.CrossrefGoogle Scholar

  • Xu, W., L.F. Gonga, K.L. Pang and Z.H. Luo. 2018. Fungal diversity in deep-sea sediments of a hydrothermal vent system in the Southwest Indian Ridge. Deep-Sea Res. I 131: 16–26.CrossrefGoogle Scholar

  • Zhang, Y., C.L. Schoch, J. Fournier, P.W. Crous, J. de Gruyter, J.H.C. Woudenberg, K. Hirayama, K. Tanaka, S.B. Pointing, J.W. Spatafora and K.D. Hyde. 2009. Multi-locus phylogeny of the Pleosporales: a taxonomic, ecological and evolutionary re-evaluation. Stud. Mycol. 64: 85–102.CrossrefGoogle Scholar

  • Zhang, Y., P.W. Crous, C.L. Schoch and K.D. Hyde. 2012. Pleosporales. Fungal Divers. 53: 1–221.CrossrefGoogle Scholar

  • Zhang, S.N., K.D. Hyde, E.B.G. Jones, R. Jeewon, R. Cheewangkoon and J.K. Li. 2019. Striatiguttulaceae, a new pleosporalean family to accommodate Longicorpus and Striatiguttula gen. nov. from palms. MycoKeys 49: 99–129.CrossrefGoogle Scholar

About the article

Bandarupalli Devadatha

B. Devadatha is a Ph.D student studying fungal biodiversity, taxonomy, molecular phylogeny and anti-quorum sensing potential of secondary metabolites from marine fungi under the supervision of Dr. V. Venkateswara Sarma. Currently a post-doctoral researcher at Centre of Excellence in Fungal Research, Mae Fah Luang University, Chiang Rai, Thailand.

Monika C. Dayarathne

Monika C. Dayarathne is reading her PhD on taxonomy, phylogeny and evolution of marine fungi under the supervision of Prof. Dr. Kevin D. Hyde at Mae Fah Luang University Thailand and the Kunming Institute of Botany, Chinese Academy of Sciences.

Jian-Kui (Jack) Liu

Jian-Kui (Jack) Liu obtained a PhD degree from Mae Fah Luang University (Thailand) in 2014. He is a researcher in fungal diversity, systemic evolution, plant pathogenic fungi diversity, evolution and speciation at the University of Electronic Science and Technology, the executive editor of the international journal Fungal Diversity, and editor of Phytotaxa. He has published 85 SCI papers and with a H-Index of 27.

Ali H. Bahkali

Ali H. Bahkali obtained his PhD degree from the University of Wales, UK in 1983. He is working on various topics in mycology, including ecology, physiology and molecular phylogeny.

Lei Cai

Lei Cai is professor of mycology at the State Key Laboratory of Mycology, Beijing. His research interests are focused on the biodiversity, systematics and evolution of microfungi. Dr. Cai was awarded the prestigious Keisuke Tubaki Medal at the first International Mycological Association Young Mycologist Award for Asia, 2010. He has published circa 170 research articles, with a H-Index of 38.


Received: 2019-03-05

Accepted: 2019-07-16

Published Online: 2019-08-14


Funding Source: China Ocean Mineral Resources R&D Association

Award identifier / Grant number: DY125-22-QY-33

Funding Source: National Natural Science Foundation of China

Award identifier / Grant number: 31600032

E.B. Gareth Jones is supported under the Distinguished Scientist Fellowship Program (DSFP), King Saud University, Kingdom of Saudi Arabia. V. Venkateswara Sarma would like to thank Ministry of Earth Sciences (MOES), Govt. of India (Sanction order: MOES/36/OO1S/Extra/40/2014/PC-IV dt.14.1.2015) for funding the project and Department of Biotechnology, Pondicherry University for providing the facilities. The Tamil Nadu forest department and DFO, Tiruvarur district, Tamil Nadu are thanked for providing permission to collect specimens from Muthupet mangroves. B. Devadatha would like to thank the Pondicherry University and MOES, Govt. of India for providing fellowships. Fang Liu thanks the program of China Ocean Mineral Resources R&D Association (No. DY125-22-QY-33) for financial support. The Swedish Species Initiative (“ArtDatabanken”) is thanked for support within the project “Marine fungi in Sweden” (SLU.dha.2017.4.3-73). Kevin D. Hyde would like to thank the Thailand grants (no. RSA5980068, no. RDG6130001 and no. 60201000201) for supporting research. Jian-Kui Liu thanks the National Natural Science Foundation of China (NSFC 31600032) and Science and Technology Foundation of Guizhou Province (LH [2015]7061).


Citation Information: Botanica Marina, 20190014, ISSN (Online) 1437-4323, ISSN (Print) 0006-8055, DOI: https://doi.org/10.1515/bot-2019-0014.

Export Citation

©2019 Walter de Gruyter GmbH, Berlin/Boston.Get Permission

Comments (0)

Please log in or register to comment.
Log in