Fungal Diversity

, Volume 89, Issue 1, pp 1–236 | Cite as

Fungal diversity notes 709–839: taxonomic and phylogenetic contributions to fungal taxa with an emphasis on fungi on Rosaceae

  • Dhanushka N. Wanasinghe
  • Chayanard Phukhamsakda
  • Kevin D. Hyde
  • Rajesh Jeewon
  • Hyang Burm Lee
  • E. B. Gareth Jones
  • Saowaluck Tibpromma
  • Danushka S. Tennakoon
  • Asha J. Dissanayake
  • Subashini C. Jayasiri
  • Yusufjon Gafforov
  • Erio Camporesi
  • Timur S. Bulgakov
  • Anusha H. Ekanayake
  • Rekhani Hansika Perera
  • Milan C. Samarakoon
  • Ishani D. Goonasekara
  • Ausana Mapook
  • Wen-Jing Li
  • Indunil C. Senanayake
  • Junfu Li
  • Chada Norphanphoun
  • Mingkwan Doilom
  • Ali H Bahkali
  • Jianchu Xu
  • Peter E. Mortimer
  • Leif Tibell
  • Sanja Tibell
  • Samantha C. KarunarathnaEmail author


This paper is the seventh in the Fungal Diversity Notes series, where 131 taxa accommodated in 28 families are mainly described from Rosa (Rosaceae) and a few other hosts. Novel fungal taxa are described in the present study, including 17 new genera, 93 new species, four combinations, a sexual record for a species and new host records for 16 species. Bhatiellae, Cycasicola, Dactylidina, Embarria, Hawksworthiana, Italica, Melanocucurbitaria, Melanodiplodia, Monoseptella, Uzbekistanica, Neoconiothyrium, Neopaucispora, Pararoussoella, Paraxylaria, Marjia, Sporormurispora and Xenomassariosphaeria are introduced as new ascomycete genera. We also introduce the new species Absidia jindoensis, Alternaria doliconidium, A. hampshirensis, Angustimassarina rosarum, Astragalicola vasilyevae, Backusella locustae, Bartalinia rosicola, Bhatiellae rosae, Broomella rosae, Castanediella camelliae, Coelodictyosporium rosarum, Comoclathris rosae, C. rosarum, Comoclathris rosigena, Coniochaeta baysunika, C. rosae, Cycasicola goaensis, Dactylidina shoemakeri, Dematiopleospora donetzica, D. rosicola, D. salsolae, Diaporthe rosae, D. rosicola, Endoconidioma rosae-hissaricae, Epicoccum rosae, Hawksworthiana clematidicola, H. lonicerae, Italica achilleae, Keissleriella phragmiticola, K. rosacearum, K. rosae, K. rosarum, Lophiostoma rosae, Marjia tianschanica, M. uzbekistanica, Melanocucurbitaria uzbekistanica, Melanodiplodia tianschanica, Monoseptella rosae, Mucor fluvius, Muriformistrickeria rosae, Murilentithecium rosae, Neoascochyta rosicola, Neoconiothyrium rosae, Neopaucispora rosaecae, Neosetophoma rosarum, N. rosae, N. rosigena, Neostagonospora artemisiae, Ophiobolus artemisiicola, Paraconiothyrium rosae, Paraphaeosphaeria rosae, P. rosicola, Pararoussoella rosarum, Parathyridaria rosae, Paraxylaria rosacearum, Penicillium acidum, P. aquaticum, Phragmocamarosporium rosae, Pleospora rosae, P. rosae-caninae, Poaceicola agrostina, P. arundinicola, P. rosae, Populocrescentia ammophilae, P. rosae, Pseudocamarosporium pteleae, P. ulmi-minoris, Pseudocercospora rosae, Pseudopithomyces rosae, Pseudostrickeria rosae, Sclerostagonospora lathyri, S. rosae, S. rosicola, Seimatosporium rosigenum, S. rosicola, Seiridium rosarum, Setoseptoria arundelensis, S. englandensis, S. lulworthcovensis, Sigarispora agrostidis, S. caryophyllacearum, S. junci, S. medicaginicola, S. rosicola, S. scrophulariae, S. thymi, Sporormurispora atraphaxidis, S. pruni, Suttonomyces rosae, Umbelopsis sinsidoensis, Uzbekistanica rosae-hissaricae, U. yakutkhanika, Wojnowicia rosicola, Xenomassariosphaeria rosae. New host records are provided for Amandinea punctata, Angustimassarina quercicola, Diaporthe rhusicola, D. eres, D. foeniculina, D. rudis, Diplodia seriata, Dothiorella iberica, Lasiodiplodia theobromae, Lecidella elaeochroma, Muriformistrickeria rubi, Neofusicoccum australe, Paraphaeosphaeria michotii, Pleurophoma pleurospora, Sigarispora caulium and Teichospora rubriostiolata. The new combinations are Dactylidina dactylidis (=Allophaeosphaeria dactylidis), Embarria clematidis (=Allophaeosphaeria clematidis), Hawksworthiana alliariae (=Dematiopleospora alliariae) and Italica luzulae (=Dematiopleospora luzulae). This study also provides some insights into the diversity of fungi on Rosa species and especially those on Rosa spines that resulted in the characterisation of eight new genera, 45 new species, and nine new host records. We also collected taxa from Rosa stems and there was 31% (20/65) overlap with taxa found on stems with that on spines. Because of the limited and non-targeted sampling for comparison with collections from spines and stems of the same host and location, it is not possible to say that the fungi on spines of Rosa differ from those on stems. The study however, does illustrate how spines are interesting substrates with high fungal biodiversity. This may be because of their hard structure resulting in slow decay and hence are suitable substrates leading to fungal colonisation. All data presented herein are based on morphological examination of specimens, coupled with phylogenetic sequence data to better integrate taxa into appropriate taxonomic ranks and infer their evolutionary relationships.


Ascomycota Dothideomycetes Eurotiomycetes Italy Lecanoromycetes Mucoromycetes Phylogeny Rosa Rosaceae Russia Sordariomycetes Taxonomy UK Uzbekistan 



The authors extend their appreciation to the International Scientific Partnership Program ISPP at King Saud University for funding this research work through ISPP#0089. We thank the technical staff of Center of Excellence in Fungal Research, Sornram Sukpisit and Wilawan Punyaboon for their invaluable assistance. Dhanushka Wanasinghe would like to thank the Molecular Biology Experimental Center at Kunming Institute of Botany for facilities for molecular work. We are also grateful to Anuruddha Karunarathna, Binu Samarakoon and Digvijayini Bundhun for their valuable assistance. Dhanushka Wanasinghe is also thankful to Hiran Ariyawansa for his valuable suggestions. Hyang Burm Lee was supported by the Graduate Program for the Undiscovered Taxa of Korea, and the Project on Survey and Discovery of Indigenous Fungal Species of Korea funded by NIBR, and the Project on Discovery of Fungi from Freshwater and Collection of Fungarium funded by NNIBR of the Ministry of Environment (MOE), and the Cooperative Research Program for Agriculture Science and Technology Development (PJ012957), Rural Development Administration, Republic of Korea. Chayanard Phukhamsakda would like to thank Royal Golden Jubilee Ph. D. Program under Thailand Research Fund, for the award of a scholarship no. PHD/0020/2557. Ausana Mapook is grateful to Research and Researchers for Industries (RRI) PHD57I0012. R. Jeewon is grateful to University of Mauritius & Mae Fah Luang University for enabling research collaboration. K.D. Hyde thanks to National Research Council of Thailand (Mae Fah Luang University) for grants ‘‘Biodiversity, phylogeny and role of fungal endophytes of Pandanaceae’’ (Grant No: 592010200112) and Thailand Research Fund (TRF) Grant No RSA5980068 entitled ‘‘Biodiversity, phylogeny and role of fungal endophytes on above parts of Rhizophora apiculata and Nypa fruticans’’. National Research Council of Thailand (Mae Fah Luang University) grant no 60201000201 entitled ‘‘Diseases of mangrove trees and maintenance of good forestry practice’’. K.D. Hyde is an Adjunct Professor at Chiang Mai University. Samantha C. Karunarathna thanks Yunnan Provincial Department of Human Resources and Social Security funded postdoctoral project (number 179122) and National Science Foundation of China (NSFC) project code 31750110478. Kevin D. Hyde also thanks to the Chinese Academy of Sciences, project number 2013T2S0030, for the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany. Y.S. Gafforov acknowledges the support from Committee for coordination science and technology development under the Cabinet of Ministers of Uzbekistan (Project No. P3-2014-0830174425). Timur Bulgakov appreciates the Alexander Fateryga and T.I. Vyazemsky Karadag Scientific Station (Karadag State Reserve) for the help in expeditions in Crimean Peninsula. Jianchu Xu thanks Key Research Program of Frontier Sciences of the Chinese Academy of Sciences (Grant No. QYZDY-SSW-SMC014), Key Research Program of the Ministry of Sciences and Technology (Grant No. 2017YFC0505101), CGIAR Research Program 6: Forest, Trees and Agroforestry, the Kunming Institute of Botany, Chinese Academy of Science (CAS) and the Chinese Ministry of Science and Technology, under the 12th 5-year National Key Technology Support Program (NKTSP) 2013BAB07B06 integration and comprehensive demonstration of key technologies on Green Phosphate-mountain construction. Peter E. Mortimer thanks the National Science Foundation of China (NSFC) Project Codes 41761144055 and 41771063. S. Tibell would like to acknowledge support from the grant ‘dha 2016-26 4.3’ from ‘The Swedish Taxonomy Initiative’.


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Copyright information

© School of Science 2018

Authors and Affiliations

  • Dhanushka N. Wanasinghe
    • 1
    • 2
    • 3
    • 4
  • Chayanard Phukhamsakda
    • 2
    • 4
  • Kevin D. Hyde
    • 1
    • 2
    • 3
    • 4
  • Rajesh Jeewon
    • 5
  • Hyang Burm Lee
    • 6
  • E. B. Gareth Jones
    • 7
  • Saowaluck Tibpromma
    • 1
    • 2
    • 3
    • 4
  • Danushka S. Tennakoon
    • 1
    • 2
    • 3
    • 4
    • 17
  • Asha J. Dissanayake
    • 2
    • 8
  • Subashini C. Jayasiri
    • 2
    • 4
  • Yusufjon Gafforov
    • 9
    • 18
  • Erio Camporesi
    • 10
    • 11
    • 12
  • Timur S. Bulgakov
    • 13
  • Anusha H. Ekanayake
    • 1
    • 2
    • 3
    • 4
  • Rekhani Hansika Perera
    • 2
    • 4
  • Milan C. Samarakoon
    • 2
    • 4
    • 14
  • Ishani D. Goonasekara
    • 1
    • 2
    • 3
    • 4
  • Ausana Mapook
    • 1
    • 2
    • 3
    • 4
  • Wen-Jing Li
    • 1
    • 2
    • 3
    • 4
  • Indunil C. Senanayake
    • 2
    • 4
  • Junfu Li
    • 1
    • 2
    • 3
    • 4
  • Chada Norphanphoun
    • 2
    • 4
    • 15
  • Mingkwan Doilom
    • 1
    • 2
    • 3
    • 4
  • Ali H Bahkali
    • 16
  • Jianchu Xu
    • 1
    • 3
  • Peter E. Mortimer
    • 1
  • Leif Tibell
    • 19
  • Sanja Tibell
    • 19
  • Samantha C. Karunarathna
    • 1
    • 3
    Email author
  1. 1.Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of BotanyChinese Academy of ScienceKunmingPeople’s Republic of China
  2. 2.Center of Excellence in Fungal ResearchMae Fah Luang UniversityChiang RaiThailand
  3. 3.World Agroforestry Centre, East and Central AsiaKunmingPeople’s Republic of China
  4. 4.Mushroom Research FoundationChiang MaiThailand
  5. 5.Department of Health Sciences, Faculty of ScienceUniversity of MauritiusReduitMauritius
  6. 6.Environmental Microbiology Lab, Division of Food Technology, Biotechnology & Agrochemistry, College of Agriculture and Life SciencesChonnam National UniversityGwangjuKorea
  7. 7.NantgaredigHampshireUK
  8. 8.Institute of Plant and Environment ProtectionBeijing Academy of Agriculture and Forestry SciencesBeijingPeople’s Republic of China
  9. 9.Laboratory of Mycology, Institute of BotanyAcademy of Sciences of the Republic of UzbekistanTashkentUzbekistan
  10. 10.A.M.B. Gruppo, Micologico Forlivese ‘‘Antonio Cicognani’’ForlìItaly
  11. 11.A.M.B, Circolo Micologico ‘‘Giovanni Carini’’BresciaItaly
  12. 12.Società per gli Studi Naturalistici della RomagnaBagnacavalloItaly
  13. 13.Russian Research Institute of Floriculture and Subtropical CropsSochiRussia
  14. 14.Department of Biology, Faculty of ScienceChiang Mai UniversityChiang MaiThailand
  15. 15.Engineering Research Center of Southwest Bio-Pharmaceutical Resources, Ministry of EducationGuizhou UniversityGuiyangPeople’s Republic of China
  16. 16.Department of Botany and Microbiology, College of ScienceKing Saud UniversityRiyadhSaudi Arabia
  17. 17.Department of Plant MedicineNational Chiayi UniversityChiayi CityTaiwan
  18. 18.Department of EcologyUniversity of KasselKasselGermany
  19. 19.Department of Organismal BiologyUppsala UniversityUppsalaSweden

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