534 results on '"Wingfield, MJ"'
Search Results
2. CERATOCYSTIS WILT OF ACACIA MANGIUM IN SABAH : UNDERSTANDING THE DISEASE AND REDUCING ITS IMPACT
- Author
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Wingfield, MJ, Wingfield, BD, Warburton, P, Japarudin, Y, Lapammu, M, Rauf, MR Abdul, Boden, D, and Barnes, I
- Published
- 2023
3. VERIFICATION OF TOLERANCE TO INFECTION BY CERATOCYSTIS MANGINECANS IN CLONES OF ACACIA MANGIUM
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Lapammu, M, Warburton, PM, Japarudin, Y, Boden, D, Wingfield, MJ, and Brawner, JT
- Published
- 2023
4. New and Interesting Fungi. 3
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Crous, PW, Wingfield, MJ, Schumacher, RK, Akulov, A, Bulgakov, TS, Carnegie, AJ, Jurjević, Ž, Decock, C, Denman, S, Lombard, L, Lawrence, DP, Stack, AJ, Gordon, TR, Bostock, RM, Burgess, T, Summerell, BA, Taylor, PWJ, Edwards, J, Hou, LW, Cai, L, Rossman, AY, Wöhner, T, Allen, WC, Castlebury, LA, Visagie, CM, and Groenewald, JZ
- Subjects
ITS barcodes ,biodiversity ,multi-gene phylogeny ,new taxa ,systematics ,typification - Abstract
Seven new genera, 26 new species, 10 new combinations, two epitypes, one new name, and 20 interesting new host and / or geographical records are introduced in this study. New genera are: Italiofungus (based on Italiofungus phillyreae) on leaves of Phillyrea latifolia (Italy); Neolamproconium (based on Neolamproconium silvestre) on branch of Tilia sp. (Ukraine); Neosorocybe (based on Neosorocybe pini) on trunk of Pinus sylvestris (Ukraine); Nothoseptoria (based on Nothoseptoria caraganae) on leaves of Caragana arborescens (Russia); Pruniphilomyces (based on Pruniphilomyces circumscissus) on Prunus cerasus (Russia); Vesiculozygosporium (based on Vesiculozygosporium echinosporum) on leaves of Muntingia calabura (Malaysia); Longiseptatispora (based on Longiseptatispora curvata) on leaves of Lonicera tatarica (Russia). New species are: Barrmaelia serenoae on leaf of Serenoa repens (USA); Chaetopsina gautengina on leaves of unidentified grass (South Africa); Chloridium pini on fallen trunk of Pinus sylvestris (Ukraine); Cadophora fallopiae on stems of Reynoutria sachalinensis (Poland); Coleophoma eucalyptigena on leaf litter of Eucalyptus sp. (Spain); Cylindrium corymbiae on leaves of Corymbia maculata (Australia); Diaporthe tarchonanthi on leaves of Tarchonanthus littoralis (South Africa); Elsinoe eucalyptorum on leaves of Eucalyptus propinqua (Australia); Exophiala quercina on dead wood of Quercus sp., (Germany); Fusarium californicum on cambium of budwood of Prunus dulcis (USA); Hypomyces gamsii on wood of Alnus glutinosa (Ukraine); Kalmusia araucariae on leaves of Araucaria bidwillii (USA); Lectera sambuci on leaves of Sambucus nigra (Russia); Melanomma populicola on fallen twig of Populus canadensis (Netherlands), Neocladosporium syringae on branches of Syringa vulgarishorus (Ukraine); Paraconiothyrium iridis on leaves of Iris pseudacorus (Ukraine); Pararoussoella quercina on branch of Quercus robur (Ukraine); Phialemonium pulveris from bore dust of deathwatch beetle (France); Polyscytalum pinicola on needles of Pinus tecunumanii (Malaysia); Acervuloseptoria fraxini on Fraxinus pennsylvanica (Russia); Roussoella arundinacea on culms of Arundo donax (Spain); Sphaerulina neoaceris on leaves of Acer negundo (Russia); Sphaerulina salicicola on leaves of Salix fragilis (Russia); Trichomerium syzygii on leaves of Syzygium cordatum (South Africa); Uzbekistanica vitis-viniferae on dead stem of Vitis vinifera (Ukraine); Vermiculariopsiella eucalyptigena on leaves of Eucalyptus sp. (Australia).
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- 2020
5. Wide variation in aggressiveness and growth in South African Fusarium circinatum isolates with geographical origin as the primary determinant.
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Swalarsk-Parry, BS, De Vos, L, Fru, FF, Santana, QC, van der Nest, MA, Wingfield, BD, Wingfield, MJ, Herron, DA, Ramaswe, JB, Dewing, C, Sayari, M, van der Merwe, NA, van Wyk, S, Lane, FA, Wilson, AM, Adegeye, OO, Soal, NC, Price, J-L, and Steenkamp, ET
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SOUTH Africans ,BIOLOGICAL evolution ,PINE ,PHENOTYPES ,GENOTYPES - Abstract
Fusarium circinatum is a globally important fungal pathogen that causes pitch canker on a wide range of Pinus species. In this study, we considered mycelial growth in culture and aggressiveness of a South African population of F. circinatum isolates. The specific aim was to determine how these phenotypes are correlated with one another and other isolate characteristics, including mating type, host species and geographic origin of the isolates. The study involved the selection of 102 isolates of F. circinatum from five provinces of South Africa based on genotype, mating type and original host from which they were isolated, after which pathogenicity tests were carried out on Pinus patula seedlings. Mycelial growth in culture was also determined for all the isolates at three different temperatures. In the pathogenicity tests, most of the isolates produced significant lesions. While seven had low levels of aggressiveness, other isolates tested were as or more aggressive than a standard set of isolates routinely used for resistance/ tolerance screening. Most F. circinatum isolates grew best at 25 °C, followed by growth at 20 °C and 30 °C. A notable correlation between aggressiveness and the geographical origin was identified. Moreover, the study highlighted a moderately positive relationship between the growth rate of F. circinatum isolates and their reported aggressiveness. The extensive data gathered on the aggressiveness of F. circinatum will offer a broad range of isolates for future comparative studies using other genotypes of F. circinatum and will also aid in the consideration of F. circinatum isolates used for tolerance screening studies. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
6. GUEST EDITORIAL: WHY IUFRO REALLY MATTERS TO TROPICAL FORESTRY RESEARCH
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Wingfield, MJ
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- 2016
7. IMA Genome-F16 Draft genome assemblies of Fusarium marasasianum, Huntiella abstrusa, two Immersiporthe knoxdaviesiana isolates, Macrophomina pseudophaseolina, Macrophomina phaseolina, Naganishia randhawae, and Pseudocercospora cruenta
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Wingfield, BD, De Vos, L, Wilson, AM, Duong, TA, Vaghefi, N, Botes, A, Kharwar, RN, Chand, R, Poudel, B, Aliyu, H, Barbetti, MJ, Chen, S, de Maayer, P, Liu, F, Navathe, S, Sinha, S, Steenkamp, ET, Suzuki, H, Tshisekedi, KA, van der Nest, MA, Wingfield, MJ, Wingfield, BD, De Vos, L, Wilson, AM, Duong, TA, Vaghefi, N, Botes, A, Kharwar, RN, Chand, R, Poudel, B, Aliyu, H, Barbetti, MJ, Chen, S, de Maayer, P, Liu, F, Navathe, S, Sinha, S, Steenkamp, ET, Suzuki, H, Tshisekedi, KA, van der Nest, MA, and Wingfield, MJ
- Published
- 2022
8. IMA genome‑F17 : Draft genome sequences of an Armillaria species from Zimbabwe, Ceratocystis colombiana, Elsinoë necatrix, Rosellinia necatrix, two genomes of Sclerotinia minor, short‑read genome assemblies and annotations of four Pyrenophora teres isolates from barley grass, and a long-read genome assembly of Cercospora zeina.
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Wingfield, BD, Berger, DK, Coetzee, MPA, Duong, TA, Martin, A, Pham, NQ, van den Berg, N, Wilken, PM, Arun-Chinnappa, KS, Barnes, I, Buthelezi, S, Dahanayaka, BA, Durán, A, Engelbrecht, J, Feurtey, A, Fourie, A, Fourie, G, Hartley, J, Kabwe, ENK, Maphosa, M, Narh Mensah, DL, Nsibo, DL, Potgieter, L, Poudel, B, Stukenbrock, EH, Thomas, C, Vaghefi, N, Welgemoed, T, Wingfield, MJ, Wingfield, BD, Berger, DK, Coetzee, MPA, Duong, TA, Martin, A, Pham, NQ, van den Berg, N, Wilken, PM, Arun-Chinnappa, KS, Barnes, I, Buthelezi, S, Dahanayaka, BA, Durán, A, Engelbrecht, J, Feurtey, A, Fourie, A, Fourie, G, Hartley, J, Kabwe, ENK, Maphosa, M, Narh Mensah, DL, Nsibo, DL, Potgieter, L, Poudel, B, Stukenbrock, EH, Thomas, C, Vaghefi, N, Welgemoed, T, and Wingfield, MJ
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- 2022
9. Fungal Planet description sheets: 1383-1435
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Universitat Rovira i Virgili, Crous PW; Boers J; Holdom D; Osieck ER; Steinrucken TV; Tan YP; Vitelli JS; Shivas RG; Barrett M; Boxshall AG; Broadbridge J; Larsson E; Lebel T; Pinruan U; Sommai S; Alvarado P; Bonito G; Decock CA; De la Peña-Lastra S; Delgado G; Houbraken J; Maciá-Vicente JG; Raja HA; Rigueiro-Rodríguez A; Rodríguez A; Wingfield MJ; Adams SJ; Akulov A; AL-Hidmi T; Antonín V; Arauzo S; Arenas F; Armada F; Aylward J; Bellanger JM; Berraf-Tebbal A; Bidaud A; Boccardo F; Cabero J; Calledda F; Corriol G; Crane JL; Dearnaley JDW; Dima B; Dovana F; Eichmeier A; Esteve-Raventós F; Fine M; Ganzert L; García D; Torres-Garcia D; Gené J; Gutiérrez A; Iglesias P; Istel L; Jangsantear P; Jansen GM; Jeppson M; Karun NC; Karich A; Khamsuntorn P; Kokkonen K; Kolarík M; Kubátová A; Labuda R; Lagashetti AC; Lifshitz N; Linde C; Loizides M; Luangsa-Ard JJ; Lueangjaroenkit P; Mahadevakumar S; Mahamedi AE; Malloch DW; Marincowitz S; Mateos A; Moreau PA; Miller AN; Molia A; Morte A; Navarro-Ródenas A; Nebesárová J; Nigrone E; Nuthan BR; Oberlies NH; Pepori AL; R?m? T; Rapley D; Reschke K; Robicheau BM; Roets F; Roux J; Saavedra A; Sakolrak B; Santini A; Ševcíková H; Singh PN; Singh SK; Somrithipol S; Spetik M, Sridhar KR; Starink-Willemse M; Taylor VA; Van Iperen AL; Vauras J; Walker AK; Wingfield BD; Yarden O; Cooke AW; Manners AG; Pegg KG; Groenewald JZ, Universitat Rovira i Virgili, and Crous PW; Boers J; Holdom D; Osieck ER; Steinrucken TV; Tan YP; Vitelli JS; Shivas RG; Barrett M; Boxshall AG; Broadbridge J; Larsson E; Lebel T; Pinruan U; Sommai S; Alvarado P; Bonito G; Decock CA; De la Peña-Lastra S; Delgado G; Houbraken J; Maciá-Vicente JG; Raja HA; Rigueiro-Rodríguez A; Rodríguez A; Wingfield MJ; Adams SJ; Akulov A; AL-Hidmi T; Antonín V; Arauzo S; Arenas F; Armada F; Aylward J; Bellanger JM; Berraf-Tebbal A; Bidaud A; Boccardo F; Cabero J; Calledda F; Corriol G; Crane JL; Dearnaley JDW; Dima B; Dovana F; Eichmeier A; Esteve-Raventós F; Fine M; Ganzert L; García D; Torres-Garcia D; Gené J; Gutiérrez A; Iglesias P; Istel L; Jangsantear P; Jansen GM; Jeppson M; Karun NC; Karich A; Khamsuntorn P; Kokkonen K; Kolarík M; Kubátová A; Labuda R; Lagashetti AC; Lifshitz N; Linde C; Loizides M; Luangsa-Ard JJ; Lueangjaroenkit P; Mahadevakumar S; Mahamedi AE; Malloch DW; Marincowitz S; Mateos A; Moreau PA; Miller AN; Molia A; Morte A; Navarro-Ródenas A; Nebesárová J; Nigrone E; Nuthan BR; Oberlies NH; Pepori AL; R?m? T; Rapley D; Reschke K; Robicheau BM; Roets F; Roux J; Saavedra A; Sakolrak B; Santini A; Ševcíková H; Singh PN; Singh SK; Somrithipol S; Spetik M, Sridhar KR; Starink-Willemse M; Taylor VA; Van Iperen AL; Vauras J; Walker AK; Wingfield BD; Yarden O; Cooke AW; Manners AG; Pegg KG; Groenewald JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia, Agaricus albofoetidus, Agaricus aureoelephanti and Agaricus parviumbrus on soil, Fusarium ramsdenii from stem cankers of Araucaria cunninghamii, Keissleriella sporoboli from stem of Sporobolus natalensis, Leptosphaerulina queenslandica and Pestalotiopsis chiaroscuro from leaves of Sporobolus natalensis, Serendipita petricolae as endophyte from roots of Eriochilus petricola, Stagonospora tauntonensis from stem of Sporobolus natalensis, Teratosphaeria carnegiei from leaves of Eucalyptus grandis × E. camaldulensis and Wongia ficherai from roots of Eragrostis curvula. Canada, Lulworthia fundyensis from intertidal wood and Newbrunswickomyces abietophilus (incl. Newbrunswickomyces gen. nov.) on buds of Abies balsamea. Czech Republic, Geosmithia funiculosa from a bark beetle gallery on Ulmus minor and Neoherpotrichiella juglandicola (incl. Neoherpotrichiella gen. nov.) from wood of Juglans regia. France, Aspergillus rouenensis and Neoacrodontium gallica (incl. Neoacrodontium gen. nov.) from bore dust of Xestobium rufovillosum feeding on Quercus wood, Endoradiciella communis (incl. Endoradiciella gen. nov.) endophytic in roots of Microthlaspi perfoliatum and Entoloma simulans on soil. India, Amanita konajensis on soil and Keithomyces indicus from soil. Israel, Microascus rothbergiorum from Stylophora pistillata. Italy, Calonarius ligusticus on soil. Netherlands, Appendopyricularia juncicola (incl. Appendopyricularia gen. nov.), Eriospora juncicola and Tetraploa juncicola on dead culms of Juncus effusus, Gonatophragmium physciae on Physcia caesia and Paracosmospora physciae (incl. Paracosmospora gen. nov.) on Physcia tenella, Myrmecridium phragmitigenum on dead culm of Phra
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- 2022
10. Unique patterns of mating pheromone presence and absence could result in the ambiguous sexual behaviors of Colletotrichum species
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Dunlap, J, Wilson, AM, Lelwala, R, Taylor, PWJ, Wingfield, MJ, Wingfield, BD, Dunlap, J, Wilson, AM, Lelwala, R, Taylor, PWJ, Wingfield, MJ, and Wingfield, BD
- Abstract
Colletotrichum species are known to engage in unique sexual behaviors that differ significantly from the mating strategies of other filamentous ascomycete species. For example, most ascomycete fungi require the expression of both the MAT1-1-1 and MAT1-2-1 genes to induce sexual reproduction. In contrast, all isolates of Colletotrichum harbor only the MAT1-2-1 gene and yet, are capable of recognizing suitable mating partners and producing sexual progeny. The molecular mechanisms contributing to mating types and behaviors in Colletotrichum are, however, unknown. A comparative genomics approach analyzing 35 genomes, representing 31 Colletotrichum species and two Verticillium species, was used to elucidate a putative molecular mechanism underlying the unique sexual behaviors observed in Colletotrichum species. The existence of only the MAT1-2 idiomorph was confirmed across all species included in this study. Comparisons of the loci harboring the two mating pheromones and their cognate receptors revealed interesting patterns of gene presence and absence. The results showed that these genes have been lost multiple, independent times over the evolutionary history of this genus. These losses indicate that the pheromone pathway no longer plays an active role in mating type determination, suggesting an undiscovered mechanism by which mating partner recognition is controlled in these species. This further suggests that there has been a redirection of the underlying genetic mechanisms that regulate sexual development in Colletotrichum species. This research thus provides a foundation from which further interrogation of this topic can take place.
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- 2021
11. Fungal Planet description sheets: 1042-1111
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Crous, PW, Wingfield, MJ, Chooi, Y-H, Gilchrist, CLM, Lacey, E, Pitt, JI, Roets, F, Swart, WJ, Cano-Lira, JF, Valenzuela-Lopez, N, Hubka, V, Shivas, RG, Stchigel, AM, Holdom, DG, Jurjevic, Z, Kachalkin, AV, Lebel, T, Lock, C, Martin, MP, Tan, YP, Tomashevskaya, MA, Vitelli, JS, Baseia, IG, Bhatt, VK, Brandrud, TE, De Souza, JT, Dima, B, Lacey, HJ, Lombard, L, Johnston, PR, Morte, A, Papp, V, Rodriguez, A, Rodriguez-Andrade, E, Semwal, KC, Tegart, L, Abad, ZG, Akulov, A, Alvarado, P, Alves, A, Andrade, JP, Arenas, F, Asenjo, C, Ballara, J, Barrett, MD, Berna, LM, Berraf-Tebbal, A, Bianchinotti, MV, Bransgrove, K, Burgess, TI, Carmo, FS, Chavez, R, Cmokova, A, Dearnaley, JDW, Santiago, ALCMDA, Freitas-Neto, JF, Denman, S, Douglas, B, Dovana, F, Eichmeier, A, Esteve-Raventos, F, Farid, A, Fedosova, AG, Ferisin, G, Ferreira, RJ, Ferrer, A, Figueiredo, CN, Figueiredo, YF, Reinoso-Fuentealba, CG, Garrido-Benavent, I, Canete-Gibas, CF, Gil-Duran, C, Glushakova, AM, Goncalves, MFM, Gonzalez, M, Gorczak, M, Gorton, C, Guard, FE, Guarnizo, AL, Guarro, J, Gutierrez, M, Hamal, P, Hien, LT, Hocking, AD, Houbraken, J, Hunter, GC, Inacio, CA, Jourdan, M, Kapitonov, VI, Kelly, L, Khanh, TN, Kislo, K, Kiss, L, Kiyashko, A, Kolarik, M, Kruse, J, Kubatova, A, Kucera, V, Kucerova, I, Kusan, I, Lee, HB, Levican, G, Lewis, A, Liem, NV, Liimatainen, K, Lim, HJ, Lyons, MN, Macia-Vicente, JG, Magana-Duenas, V, Mahiques, R, Malysheva, EF, Marbach, PAS, Marinho, P, Matocec, N, McTaggart, AR, Mesic, A, Morin, L, Munoz-Mohedano, JM, Navarro-Rodenas, A, Nicolli, CP, Oliveira, RL, Otsing, E, Ovrebo, CL, Pankratov, TA, Panos, A, Paz-Conde, A, Perez-Sierra, A, Phosri, C, Pintos, A, Posta, A, Prencipe, S, Rubio, E, Saitta, A, Sales, LS, Sanhueza, L, Shuttleworth, LA, Smith, J, Smith, ME, Spadaro, D, Spetik, M, Sochor, M, Sochorova, Z, Sousa, JO, Suwannasai, N, Tedersoo, L, Thanh, HM, Thao, LD, Tkalcec, Z, Vaghefi, N, Venzhik, AS, Verbeken, A, Vizzini, A, Voyron, S, Wainhouse, M, Whalley, AJS, Wrzosek, M, Zapata, M, Zeil-Rolfe, I, Groenewald, JZ, Crous, PW, Wingfield, MJ, Chooi, Y-H, Gilchrist, CLM, Lacey, E, Pitt, JI, Roets, F, Swart, WJ, Cano-Lira, JF, Valenzuela-Lopez, N, Hubka, V, Shivas, RG, Stchigel, AM, Holdom, DG, Jurjevic, Z, Kachalkin, AV, Lebel, T, Lock, C, Martin, MP, Tan, YP, Tomashevskaya, MA, Vitelli, JS, Baseia, IG, Bhatt, VK, Brandrud, TE, De Souza, JT, Dima, B, Lacey, HJ, Lombard, L, Johnston, PR, Morte, A, Papp, V, Rodriguez, A, Rodriguez-Andrade, E, Semwal, KC, Tegart, L, Abad, ZG, Akulov, A, Alvarado, P, Alves, A, Andrade, JP, Arenas, F, Asenjo, C, Ballara, J, Barrett, MD, Berna, LM, Berraf-Tebbal, A, Bianchinotti, MV, Bransgrove, K, Burgess, TI, Carmo, FS, Chavez, R, Cmokova, A, Dearnaley, JDW, Santiago, ALCMDA, Freitas-Neto, JF, Denman, S, Douglas, B, Dovana, F, Eichmeier, A, Esteve-Raventos, F, Farid, A, Fedosova, AG, Ferisin, G, Ferreira, RJ, Ferrer, A, Figueiredo, CN, Figueiredo, YF, Reinoso-Fuentealba, CG, Garrido-Benavent, I, Canete-Gibas, CF, Gil-Duran, C, Glushakova, AM, Goncalves, MFM, Gonzalez, M, Gorczak, M, Gorton, C, Guard, FE, Guarnizo, AL, Guarro, J, Gutierrez, M, Hamal, P, Hien, LT, Hocking, AD, Houbraken, J, Hunter, GC, Inacio, CA, Jourdan, M, Kapitonov, VI, Kelly, L, Khanh, TN, Kislo, K, Kiss, L, Kiyashko, A, Kolarik, M, Kruse, J, Kubatova, A, Kucera, V, Kucerova, I, Kusan, I, Lee, HB, Levican, G, Lewis, A, Liem, NV, Liimatainen, K, Lim, HJ, Lyons, MN, Macia-Vicente, JG, Magana-Duenas, V, Mahiques, R, Malysheva, EF, Marbach, PAS, Marinho, P, Matocec, N, McTaggart, AR, Mesic, A, Morin, L, Munoz-Mohedano, JM, Navarro-Rodenas, A, Nicolli, CP, Oliveira, RL, Otsing, E, Ovrebo, CL, Pankratov, TA, Panos, A, Paz-Conde, A, Perez-Sierra, A, Phosri, C, Pintos, A, Posta, A, Prencipe, S, Rubio, E, Saitta, A, Sales, LS, Sanhueza, L, Shuttleworth, LA, Smith, J, Smith, ME, Spadaro, D, Spetik, M, Sochor, M, Sochorova, Z, Sousa, JO, Suwannasai, N, Tedersoo, L, Thanh, HM, Thao, LD, Tkalcec, Z, Vaghefi, N, Venzhik, AS, Verbeken, A, Vizzini, A, Voyron, S, Wainhouse, M, Whalley, AJS, Wrzosek, M, Zapata, M, Zeil-Rolfe, I, and Groenewald, JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Antarctica, Cladosporium arenosum from marine sediment sand. Argentina, Kosmimatamyces alatophylus (incl. Kosmimatamyces gen. nov.) from soil. Australia, Aspergillus banksianus, Aspergillus kumbius, Aspergillus luteorubrus, Aspergillus malvicolor and Aspergillus nanangensis from soil, Erysiphe medicaginis from leaves of Medicago polymorpha, Hymenotorrendiella communis on leaf litter of Eucalyptus bicostata, Lactifluus albopicri and Lactifluus austropiperatus on soil, Macalpinomyces collinsiae on Eriachne benthamii, Marasmius vagus on soil, Microdochium dawsoniorum from leaves of Sporobolus natalensis, Neopestalotiopsis nebuloides from leaves of Sporobolus elongatus, Pestalotiopsis etonensis from leaves of Sporobolus jacquemontii, Phytophthora personensis from soil associated with dying Grevillea mccutcheonii. Brazil, Aspergillus oxumiae from soil, Calvatia baixaverdensis on soil, Geastrum calycicoriaceum on leaf litter, Greeneria kielmeyerae on leaf spots of Kielmeyera coriacea. Chile, Phytophthora aysenensis on collar rot and stem of Aristotelia chilensis. Croatia, Mollisia gibbospora on fallen branch of Fagus sylvatica. Czech Republic, Neosetophoma hnaniceana from Buxus sempervirens. Ecuador, Exophiala frigidotolerans from soil. Estonia, Elaphomyces bucholtzii in soil. France, Venturia paralias from leaves of Euphorbia paralias. India, Cortinarius balteatoindicus and Cortinarius ulkhagarhiensis on leaf litter. Indonesia, Hymenotorrendiella indonesiana on Eucalyptus urophylla leaf litter. Italy, Penicillium taurinense from indoor chestnut mill. Malaysia, Hemileucoglossum kelabitense on soil, Satchmopsis pini on dead needles of Pinus tecunumanii. Poland, Lecanicillium praecognitum on insects' frass. Portugal, Neodevriesia aestuarina from saline water. Republic of Korea, Gongronella namwonensis from freshwater. Russia, Candida pellucida from Exomias pellucidus, Heterocepha
- Published
- 2020
12. No to Neocosmospora: Phylogenomic and Practical Reasons for Continued Inclusion of the Fusarium solani Species Complex in the Genus Fusarium
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Universitat Rovira i Virgili, O'Donnell K; Al-Hatmi AMS; Aoki T; Brankovics B; Cano-Lira JF; Coleman JJ; de Hoog GS; Di Pietro A; Frandsen RJN; Geiser DM; Gibas CFC; Guarro J; Kim HS; Kistler HC; Laraba I; Leslie JF; López-Berges MS; Lysøe E; Meis JF; Monod M; Proctor RH; Rep M; Ruiz-Roldán C; Šišić A; Stajich JE; Steenkamp ET; Summerell BA; van der Lee TAJ; van Diepeningen AD; Verweij PE; Waalwijk C; Ward TJ; Wickes BL; Wiederhold NP; Wingfield MJ; Zhang N; Zhang SX, Universitat Rovira i Virgili, and O'Donnell K; Al-Hatmi AMS; Aoki T; Brankovics B; Cano-Lira JF; Coleman JJ; de Hoog GS; Di Pietro A; Frandsen RJN; Geiser DM; Gibas CFC; Guarro J; Kim HS; Kistler HC; Laraba I; Leslie JF; López-Berges MS; Lysøe E; Meis JF; Monod M; Proctor RH; Rep M; Ruiz-Roldán C; Šišić A; Stajich JE; Steenkamp ET; Summerell BA; van der Lee TAJ; van Diepeningen AD; Verweij PE; Waalwijk C; Ward TJ; Wickes BL; Wiederhold NP; Wingfield MJ; Zhang N; Zhang SX
- Abstract
This article is to alert medical mycologists and infectious disease specialists of recent name changes of medically important species of the filamentous mold FusariumFusarium species can cause localized and life-threating infections in humans. Of the 70 Fusarium species that have been reported to cause infections, close to one-third are members of the Fusarium solani species complex (FSSC), and they collectively account for approximately two-thirds of all reported Fusarium infections. Many of these species were recently given scientific names for the first time by a research group in the Netherlands, but they were misplaced in the genus Neocosmospora In this paper, we present genetic arguments that strongly support inclusion of the FSSC in Fusarium There are potentially serious consequences associated with using the name Neocosmospora for Fusarium species because clinicians need to be aware that fusaria are broadly resistant to the spectrum of antifungals that are currently available.
- Published
- 2020
13. Abundant secreted hydrolytic enzymes and secondary metabolite gene clusters in genomes of theBotryosphaeriaceaereflect their role as important plant pathogens
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Nagel, JH, primary, Wingfield, MJ, additional, and Slippers, B, additional
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- 2021
- Full Text
- View/download PDF
14. Unique Patterns of Mating Pheromone Presence and Absence could Result in the Ambiguous Sexual Behaviours of Colletotrichum Species
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Wilson, Andrea Melissa, primary, Lelwala, RV, additional, Taylor, PWJ, additional, Wingfield, MJ, additional, and WINGFIELD, BD, additional
- Published
- 2020
- Full Text
- View/download PDF
15. Fungal genomes enhance our understanding of the pathogens affecting trees cultivated in Southern Hemisphere plantations
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Coetzee, MPA, primary, Santana, QC, additional, Steenkamp, ET, additional, Wingfield, BD, additional, and Wingfield, MJ, additional
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- 2020
- Full Text
- View/download PDF
16. Ceratocystis wilt on Eucalyptus: first record from South Africa
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Roux, J, primary, Wingfield, MJ, additional, Fourie, A, additional, Noeth, K, additional, and Barnes, I, additional
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- 2020
- Full Text
- View/download PDF
17. Fungal Planet description sheets: 868–950
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Crous, Pedro W., Carnegie, A.J., Wingfield, MJ, Sharma, R., Mughini, G., Noordeloos, Machiel E., Santini, A, Shouche, YS, Bezerra, JDP, Dima, B, Guarnaccia, V, Imrefi, I, Jurjevic, Z, Knapp, DG, Kovács, Gabor G., Magistà, D, Perrone, G, Rämä, Teppo, Rebriev, Y.A., Shivas, R.G., Singh, S.M., Souza-Motta, C.M., Thangavel, R., Adhapure, N.N., Alexandrova, A.V., Alfenas, R.F., Alvarado, P., Alves, A.L., Andrade, D.A., Andrade, J.P., Barbosa, R.N., Barli, A., Barnes, C.W., Baseia, I.G., Bellanger, J.-M., Berlanas, C., Bessette, A.E., Biketova, A.Yu., Bomfim, F.S., Brandrud, Tor Erik, Bransgrove, K., Brito, A.C.Q., Cano-Lira, J.F., Cantillo, T., Cavalcanti, A.D., Cheewangkoon, R., Chikowski, R.S., Conforto, C., Cordeiro, T.R.L., Craine, J.D., and Cruz, R.
- Subjects
ITS nrDNA barcodes ,LSU ,systematics ,new taxa - Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia, Chaetomella pseudocircinoseta and Coniella pseudodiospyri on Eucalyptus microcorys leaves, Cladophialophora eucalypti, Teratosphaeria dunnii and Vermiculariopsiella dunnii on Eucalyptus dunnii leaves, Cylindrium grande and Hypsotheca eucalyptorum on Eucalyptus grandis leaves, Elsinoe salignae on Eucalyptus saligna leaves, Marasmius lebeliae on litter of regenerating subtropical rainforest, Phialoseptomonium eucalypti (incl. Phialoseptomonium gen. nov.) on Eucalyptus grandis × camaldulensis leaves, Phlogicylindrium pawpawense on Eucalyptus tereticornis leaves, Phyllosticta longicauda as an endophyte from healthy Eustrephus latifolius leaves, Pseudosydowia eucalyptorum on Eucalyptus sp. leaves, Saitozyma wallum on Banksia aemula leaves, Teratosphaeria henryi on Corymbia henryi leaves. Brazil, Aspergillus bezerrae, Backusella azygospora, Mariannaea terricola and Talaromyces pernambucoensis from soil, Calonectria matogrossensis on Eucalyptus urophylla leaves, Calvatia brasiliensis on soil, Carcinomyces nordestinensis on Bromelia antiacantha leaves, Dendryphiella stromaticola on small branches of an unidentified plant, Nigrospora brasiliensis on Nopalea cochenillifera leaves, Penicillium alagoense as a leaf endophyte on a Miconia sp., Podosordaria nigrobrunnea on dung, Spegazzinia bromeliacearum as a leaf endophyte on Tilandsia catimbauensis, Xylobolus brasiliensis on decaying wood. Bulgaria, Kazachstania molopis from the gut of the beetle Molops piceus. Croatia, Mollisia endocrystallina from a fallen decorticated Picea abies tree trunk. Ecuador, Hygrocybe rodomaculata on soil. Hungary, Alfoldia vorosii (incl. Alfoldia gen. nov.) from Juniperus communis roots, Kiskunsagia ubrizsyi (incl. Kiskunsagia gen. nov.) from Fumana procumbens roots. India, Aureobasidium tremulum as laboratory contaminant, Leucosporidium himalayensis and Naganishia indica from windblown dust on glaciers. Italy, Neodevriesia cycadicola on Cycas sp. leaves, Pseudocercospora pseudomyrticola on Myrtus communis leaves, Ramularia pistaciae on Pistacia lentiscus leaves, Neognomoniopsis quercina (incl. Neognomoniopsis gen. nov.) on Quercus ilex leaves. Japan, Diaporthe fructicola on Passiflora edulis × P. edulis f. flavicarpa fruit, Entoloma nipponicum on leaf litter in a mixed Cryptomeria japonica and Acer spp. forest. Macedonia, Astraeus macedonicus on soil. Malaysia, Fusicladium eucalyptigenum on Eucalyptus sp. twigs, Neoacrodontiella eucalypti (incl. Neoacrodontiella gen. nov.) on Eucalyptus urophylla leaves. Mozambique, Meliola gorongosensis on dead Philenoptera violacea leaflets. Nepal, Coniochaeta dendrobiicola from Dendriobium lognicornu roots. New Zealand, Neodevriesia sexualis and Thozetella neonivea on Archontophoenix cunninghamiana leaves. Norway, Calophoma sandfjordenica from a piece of board on a rocky shoreline, Clavaria parvispora on soil, Didymella finnmarkica from a piece of Pinus sylvestris driftwood. Poland, Sugiyamaella trypani from soil. Portugal, Colletotrichum feijoicola from Acca sellowiana. Russia, Crepidotus tobolensis on Populus tremula debris, Entoloma ekaterinae, Entoloma erhardii and Suillus gastroflavus on soil, Nakazawaea ambrosiae from the galleries of Ips typographus under the bark of Picea abies. Slovenia, Pluteus ludwigii on twigs of broadleaved trees. South Africa, Anungitiomyces stellenboschiensis (incl. Anungitiomyces gen. nov.) and Niesslia stellenboschiana on Eucalyptus sp. leaves, Beltraniella pseudoportoricensis on Podocarpus falcatus leaf litter, Corynespora encephalarti on Encephalartos sp. leaves, Cytospora pavettae on Pavetta revoluta leaves, Helminthosporium erythrinicola on Erythrina humeana leaves, Helminthosporium syzygii on a Syzygium sp. bark canker, Libertasomyces aloeticus on Aloe sp. leaves, Penicillium lunae from Musa sp. fruit, Phyllosticta lauridiae on Lauridia tetragona leaves, Pseudotruncatella bolusanthi (incl. Pseudotruncatellaceae fam. nov.) and Dactylella bolusanthi on Bolusanthus speciosus leaves. Spain, Apenidiella foetida on submerged plant debris, Inocybe grammatoides on Quercus ilex subsp. ilex forest humus, Ossicaulis salomii on soil, Phialemonium guarroi from soil. Thailand, Pantospora chromolaenae on Chromolaena odorata leaves. Ukraine, Cadophora helianthi from Helianthus annuus stems. USA, Boletus pseudopinophilus on soil under slash pine, Botryotrichum foricae, Penicillium americanum and Penicillium minnesotense from air. Vietnam, Lycoperdon vietnamense on soil. Morphological and culture characteristics are supported by DNA barcodes.
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- 2019
18. Fungal Planet description sheets: 951-1041
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Crous, PW, Wingfield, MJ, Lombard, L, Roets, F, Swart, WJ, Alvarado, P, Carnegie, AJ, Moreno, G, Luangsa-ard, J, Thangavel, R, Alexandrova, AV, Baseia, IG, Bellanger, J-M, Bessette, AE, Bessette, AR, De la Pena-Lastra, S, Garcia, D, Gene, J, Pham, THG, Heykoop, M, Malysheva, E, Malysheva, V, Martin, MP, Morozova, OV, Noisripoom, W, Overton, BE, Rea, AE, Sewall, BJ, Smith, ME, Smyth, CW, Tasanathai, K, Visagie, CM, Adamcik, S, Alves, A, Andrade, JP, Aninat, MJ, Araujo, RVB, Bordallo, JJ, Boufleur, T, Baroncelli, R, Barreto, RW, Bolin, J, Cabero, J, Cabon, M, Cafa, G, Caffot, MLH, Cai, L, Carlavilla, JR, Chavez, R, de Castro, RRL, Delgat, L, Deschuyteneer, D, Dios, MM, Dominguez, LS, Evans, HC, Eyssartier, G, Ferreira, BW, Figueiredo, CN, Liu, F, Fournier, J, Galli-Terasawa, LV, Gil-Duran, C, Glienke, C, Goncalves, MFM, Gryta, H, Guarro, J, Himaman, W, Hywel-Jones, N, Iturrieta-Gonzalez, I, Ivanushkina, NE, Jargeat, P, Khalid, AN, Khan, J, Kiran, M, Kiss, L, Kochkina, GA, Kolarik, M, Kubatova, A, Lodge, DJ, Loizides, M, Luque, D, Manjon, JL, Marbach, PAS, Massola, NS, Mata, M, Miller, AN, Mongkolsamrit, S, Moreau, P-A, Morte, A, Mujic, A, Navarro-Rodenas, A, Nemeth, MZ, Nobrega, TF, Novakova, A, Olariaga, I, Ozerskaya, SM, Palma, MA, Petters-Vandresen, DAL, Piontelli, E, Popov, ES, Rodriguez, A, Requejo, O, Rodrigues, ACM, Rong, IH, Roux, J, Seifert, KA, Silva, BDB, Sklenar, F, Smith, JA, Sousa, JO, Souza, HG, De Souza, JT, Svec, K, Tanchaud, P, Tanney, JB, Terasawa, F, Thanakitpipattana, D, Torres-Garcia, D, Vaca, I, Vaghefi, N, van Iperen, AL, Vasilenko, OV, Verbeken, A, Yilmaz, N, Zamora, JC, Zapata, M, Jurjevic, Z, Groenewald, JZ, Crous, PW, Wingfield, MJ, Lombard, L, Roets, F, Swart, WJ, Alvarado, P, Carnegie, AJ, Moreno, G, Luangsa-ard, J, Thangavel, R, Alexandrova, AV, Baseia, IG, Bellanger, J-M, Bessette, AE, Bessette, AR, De la Pena-Lastra, S, Garcia, D, Gene, J, Pham, THG, Heykoop, M, Malysheva, E, Malysheva, V, Martin, MP, Morozova, OV, Noisripoom, W, Overton, BE, Rea, AE, Sewall, BJ, Smith, ME, Smyth, CW, Tasanathai, K, Visagie, CM, Adamcik, S, Alves, A, Andrade, JP, Aninat, MJ, Araujo, RVB, Bordallo, JJ, Boufleur, T, Baroncelli, R, Barreto, RW, Bolin, J, Cabero, J, Cabon, M, Cafa, G, Caffot, MLH, Cai, L, Carlavilla, JR, Chavez, R, de Castro, RRL, Delgat, L, Deschuyteneer, D, Dios, MM, Dominguez, LS, Evans, HC, Eyssartier, G, Ferreira, BW, Figueiredo, CN, Liu, F, Fournier, J, Galli-Terasawa, LV, Gil-Duran, C, Glienke, C, Goncalves, MFM, Gryta, H, Guarro, J, Himaman, W, Hywel-Jones, N, Iturrieta-Gonzalez, I, Ivanushkina, NE, Jargeat, P, Khalid, AN, Khan, J, Kiran, M, Kiss, L, Kochkina, GA, Kolarik, M, Kubatova, A, Lodge, DJ, Loizides, M, Luque, D, Manjon, JL, Marbach, PAS, Massola, NS, Mata, M, Miller, AN, Mongkolsamrit, S, Moreau, P-A, Morte, A, Mujic, A, Navarro-Rodenas, A, Nemeth, MZ, Nobrega, TF, Novakova, A, Olariaga, I, Ozerskaya, SM, Palma, MA, Petters-Vandresen, DAL, Piontelli, E, Popov, ES, Rodriguez, A, Requejo, O, Rodrigues, ACM, Rong, IH, Roux, J, Seifert, KA, Silva, BDB, Sklenar, F, Smith, JA, Sousa, JO, Souza, HG, De Souza, JT, Svec, K, Tanchaud, P, Tanney, JB, Terasawa, F, Thanakitpipattana, D, Torres-Garcia, D, Vaca, I, Vaghefi, N, van Iperen, AL, Vasilenko, OV, Verbeken, A, Yilmaz, N, Zamora, JC, Zapata, M, Jurjevic, Z, and Groenewald, JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Antarctica, Apenidiella antarctica from permafrost, Cladosporium fildesense from an unidentified marine sponge. Argentina, Geastrum wrightii on humus in mixed forest. Australia, Golovinomyces glandulariae on Glandularia aristigera, Neoanungitea eucalyptorum on leaves of Eucalyptus grandis, Teratosphaeria corymbiicola on leaves of Corymbia ficifolia, Xylaria eucalypti on leaves of Eucalyptus radiata. Brazil, Bovista psammophila on soil, Fusarium awaxy on rotten stalks of Zea mays, Geastrum lanuginosum on leaf litter covered soil, Hermetothecium mikaniae-micranthae (incl. Hermetothecium gen. nov.) on Mikania micrantha, Penicillium reconvexovelosoi in soil, Stagonosporopsis vannaccii from pod of Glycine max. British Virgin Isles, Lactifluus guanensis on soil. Canada, Sorocybe oblongispora on resin of Picea rubens. Chile, Colletotrichum roseum on leaves of Lapageria rosea. China, Setophoma caverna from carbonatite in Karst cave. Colombia, Lareunionomyces eucalypticola on leaves of Eucalyptus grandis. Costa Rica, Psathyrella pivae on wood. Cyprus, Clavulina iris on calcareous substrate. France, Chromosera ambigua and Clavulina iris var. occidentalis on soil. French West Indies, Helminthosphaeria hispidissima on dead wood. Guatemala, Talaromyces guatemalensis in soil. Malaysia, Neotracylla pini (incl. Tracyllales ord. nov. and Neotracylla gen. nov.) and Vermiculariopsiella pini on needles of Pinus tecunumanii. New Zealand, Neoconiothyrium viticola on stems of Vitis vinifera, Parafenestella pittospori on Pittosporum tenuifolium, Pilidium novae-zelandiae on Phoenix sp. Pakistan, Russula quercus-floribundae on forest floor. Portugal, Trichoderma aestuarinum from saline water. Russia, Pluteus liliputianus on fallen branch of deciduous tree, Pluteus spurius on decaying deciduous wood or soil. South Africa, Alloconiothyrium encephalarti, Phyllosticta encephalarticola and Neothyrostro
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- 2019
19. Genera of phytopathogenic fungi: GOPHY 2
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Marin-Felix, Y, Hernandez-Restrepo, M, Wingfield, MJ, Akulov, A, Carnegie, AJ, Cheewangkoon, R, Gramaje, D, Groenewald, JZ, Guarnaccia, V, Halleen, F, Lombard, L, Luangsa-ard, J, Marincowitz, S, Moslemi, A, Mostert, L, Quaedvlieg, W, Schumacher, RK, Spies, CFJ, Thangavel, R, Taylor, PWJ, Wilson, AM, Wingfield, BD, Wood, AR, Crous, PW, Marin-Felix, Y, Hernandez-Restrepo, M, Wingfield, MJ, Akulov, A, Carnegie, AJ, Cheewangkoon, R, Gramaje, D, Groenewald, JZ, Guarnaccia, V, Halleen, F, Lombard, L, Luangsa-ard, J, Marincowitz, S, Moslemi, A, Mostert, L, Quaedvlieg, W, Schumacher, RK, Spies, CFJ, Thangavel, R, Taylor, PWJ, Wilson, AM, Wingfield, BD, Wood, AR, and Crous, PW
- Abstract
This paper represents the second contribution in the Genera of Phytopathogenic Fungi (GOPHY) series. The series provides morphological descriptions and information regarding the pathology, distribution, hosts and disease symptoms for the treated genera. In addition, primary and secondary DNA barcodes for the currently accepted species are included. This second paper in the GOPHY series treats 20 genera of phytopathogenic fungi and their relatives including: Allantophomopsiella, Apoharknessia, Cylindrocladiella, Diaporthe, Dichotomophthora, Gaeumannomyces, Harknessia, Huntiella, Macgarvieomyces, Metulocladosporiella, Microdochium, Oculimacula, Paraphoma, Phaeoacremonium, Phyllosticta, Proxypiricularia, Pyricularia, Stenocarpella, Utrechtiana and Wojnowiciella. This study includes the new genus Pyriculariomyces, 20 new species, five new combinations, and six typifications for older names.
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- 2019
20. Foliar pathogens of eucalypts
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Crous, PW, Wingfield, MJ, Cheewangkoon, R, Carnegie, AJ, Burgess, TI, Summerell, BA, Edwards, J, Taylor, PWJ, Groenewald, JZ, Crous, PW, Wingfield, MJ, Cheewangkoon, R, Carnegie, AJ, Burgess, TI, Summerell, BA, Edwards, J, Taylor, PWJ, and Groenewald, JZ
- Abstract
Species of eucalypts are commonly cultivated for solid wood and pulp products. The expansion of commercially managed eucalypt plantations has chiefly been driven by their rapid growth and suitability for propagation across a very wide variety of sites and climatic conditions. Infection of foliar fungal pathogens of eucalypts is resulting in increasingly negative impacts on commercial forest industries globally. To assist in evaluating this threat, the present study provides a global perspective on foliar pathogens of eucalypts. We treat 110 different genera including species associated with foliar disease symptoms of these hosts. The vast majority of these fungi have been grown in axenic culture, and subjected to DNA sequence analysis, resolving their phylogeny. During the course of this study several new genera and species were encountered, and these are described. New genera include: Lembosiniella (L. eucalyptorum on E. dunnii, Australia), Neosonderhenia (N. eucalypti on E. costata, Australia), Neothyriopsis (N. sphaerospora on E. camaldulensis, South Africa), Neotrichosphaeria (N. eucalypticola on E. deglupta, Australia), Nothotrimmatostroma (N. bifarium on E. dalrympleana, Australia), Nowamyces (incl. Nowamycetaceae fam. nov., N. globulus on E. globulus, Australia), and Walkaminomyces (W. medusae on E. alba, Australia). New species include (all from Australia): Disculoides fraxinoides on E. fraxinoides, Elsinoe piperitae on E. piperita, Fusculina regnans on E. regnans, Marthamyces johnstonii on E. dunnii, Neofusicoccum corticosae on E. corticosa, Neotrimmatostroma dalrympleanae on E. dalrympleana, Nowamyces piperitae on E. piperita, Phaeothyriolum dunnii on E. dunnii, Pseudophloeospora eucalyptigena on E. obliqua, Pseudophloeospora jollyi on Eucalyptus sp., Quambalaria tasmaniae on Eucalyptus sp., Q. rugosae on E. rugosa, Sonderhenia radiata on E. radiata, Teratosphaeria pseudonubilosa on E. globulus and Thyrinula dunnii on E. dunnii. A new name is also proposed
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- 2019
21. Fungal Planet description sheets: 868–950
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Universitat Rovira i Virgili, Crous PW, Carnegie AJ, Wingfield MJ, Sharma R, Mughini G, Noordeloos ME, Santini A, Shouche YS, Bezerra JDP, Dima B, Guarnaccia V, Imrefi I, Jurjevi? Ž, Knapp DG, Kovács GM, Magistà D, Perrone G, Rämä T, Rebriev YA, Shivas RG, Singh SM, Souza-Motta CM, Thangavel R, Adhapure NN, Alexandrova AV, Alfenas AC, Alfenas RF, Alvarado P, Alves AL, Andrade DA, Andrade JP, Barbosa RN, Barili A, Barnes CW, Baseia IG, Bellanger JM, Berlanas C, Bessette AE, Bessette AR, Biketova AY, Bomfim FS, Brandrud TE, Bransgrove K, Brito ACQ, Cano-Lira JF, Cantillo T, Cavalcanti AD, Cheewangkoon R, Chikowski RS, Conforto C, Cordeiro TRL, Craine JD, Cruz R, Damm U, de Oliveira RJV, de Souza JT, de Souza HG, Dearnaley JDW, Dimitrov RA, Dovana F, Erhard A, Esteve-Raventós F, Félix CR, Ferisin G, Fernandes RA, Ferreira RJ, Ferro LO, Figueiredo CN, Frank JL, Freire KTLS, García D, Gené J, Gêsiorska A, Gibertoni TB, Gondra RAG, Gouliamova DE, Gramaje D, Guard F, Gusmão LFP, Haitook S, Hirooka Y, Houbraken J, Hubka V, Inamdar A, Iturriaga T, Iturrieta-González I, Jadan M, Jiang N, Justo A, Kachalkin AV, Kapitonov VI, Karadelev M, Karakehian J, Kasuya T, Kautmanová I, Kruse J, Kušan I, Kuznetsova TA, Landell MF, Larsson KH, Lee HB, Lima DX, Lira CRS, Machado AR, Madrid H, Magalhães OMC, Majerova H, Malysheva EF, Mapperson RR, Marbach PAS, Martín MP, Martín-Sanz A, Mato?ec N, McTaggart AR, Mello JF, Melo RFR, Meši? A, Michereff SJ, Miller AN, Minoshima A, Molinero-Ruiz L, Morozova OV, Mosoh D, Nabe M, Naik R, Nara K, Nascimento SS, Neves RP, Olariaga I, Oliveira RL, Oliveira TGL, Ono T, Ordoñez ME, Ottoni AM, Paiva LM, Pancorbo F, Pant B, Paw?owska J, Peterson SW, Raudabaugh DB, Rodríguez-Andrade E, Rubio E, Rusevska K, Santiago ALCMA, Santos ACS, Santos C, Sazanova NA, Shah S, Sharma J, Silva BDB, Siqui, Universitat Rovira i Virgili, and Crous PW, Carnegie AJ, Wingfield MJ, Sharma R, Mughini G, Noordeloos ME, Santini A, Shouche YS, Bezerra JDP, Dima B, Guarnaccia V, Imrefi I, Jurjevi? Ž, Knapp DG, Kovács GM, Magistà D, Perrone G, Rämä T, Rebriev YA, Shivas RG, Singh SM, Souza-Motta CM, Thangavel R, Adhapure NN, Alexandrova AV, Alfenas AC, Alfenas RF, Alvarado P, Alves AL, Andrade DA, Andrade JP, Barbosa RN, Barili A, Barnes CW, Baseia IG, Bellanger JM, Berlanas C, Bessette AE, Bessette AR, Biketova AY, Bomfim FS, Brandrud TE, Bransgrove K, Brito ACQ, Cano-Lira JF, Cantillo T, Cavalcanti AD, Cheewangkoon R, Chikowski RS, Conforto C, Cordeiro TRL, Craine JD, Cruz R, Damm U, de Oliveira RJV, de Souza JT, de Souza HG, Dearnaley JDW, Dimitrov RA, Dovana F, Erhard A, Esteve-Raventós F, Félix CR, Ferisin G, Fernandes RA, Ferreira RJ, Ferro LO, Figueiredo CN, Frank JL, Freire KTLS, García D, Gené J, Gêsiorska A, Gibertoni TB, Gondra RAG, Gouliamova DE, Gramaje D, Guard F, Gusmão LFP, Haitook S, Hirooka Y, Houbraken J, Hubka V, Inamdar A, Iturriaga T, Iturrieta-González I, Jadan M, Jiang N, Justo A, Kachalkin AV, Kapitonov VI, Karadelev M, Karakehian J, Kasuya T, Kautmanová I, Kruse J, Kušan I, Kuznetsova TA, Landell MF, Larsson KH, Lee HB, Lima DX, Lira CRS, Machado AR, Madrid H, Magalhães OMC, Majerova H, Malysheva EF, Mapperson RR, Marbach PAS, Martín MP, Martín-Sanz A, Mato?ec N, McTaggart AR, Mello JF, Melo RFR, Meši? A, Michereff SJ, Miller AN, Minoshima A, Molinero-Ruiz L, Morozova OV, Mosoh D, Nabe M, Naik R, Nara K, Nascimento SS, Neves RP, Olariaga I, Oliveira RL, Oliveira TGL, Ono T, Ordoñez ME, Ottoni AM, Paiva LM, Pancorbo F, Pant B, Paw?owska J, Peterson SW, Raudabaugh DB, Rodríguez-Andrade E, Rubio E, Rusevska K, Santiago ALCMA, Santos ACS, Santos C, Sazanova NA, Shah S, Sharma J, Silva BDB, Siqui
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia, Chaetomella pseudocircinoseta and Coniella pseudodiospyri on Eucalyptus microcorys leaves, Cladophialophora eucalypti, Teratosphaeria dunnii and Vermiculariopsiella dunnii on Eucalyptus dunnii leaves, Cylindrium grande and Hypsotheca eucalyptorum on Eucalyptus grandis leaves, Elsinoe salignae on Eucalyptus saligna leaves, Marasmius lebeliae on litter of regenerating subtropical rainforest, Phialoseptomonium eucalypti (incl. Phialoseptomonium gen. nov.) on Eucalyptus grandis × camaldulensis leaves, Phlogicylindrium pawpawense on Eucalyptus tereticornis leaves, Phyllosticta longicauda as an endophyte from healthy Eustrephus latifolius leaves, Pseudosydowia eucalyptorum on Eucalyptus sp. leaves, Saitozyma wallum on Banksia aemula leaves, Teratosphaeria henryi on Corymbia henryi leaves.Brazil, Aspergillus bezerrae, Backusella azygospora, Mariannaea terricola and Talaromyces pernambucoensis from soil, Calonectria matogrossensis on Eucalyptus urophylla leaves, Calvatia brasiliensis on soil, Carcinomyces nordestinensis on Bromelia antiacantha leaves, Dendryphiella stromaticola on small branches of an unidentified plant, Nigrospora brasiliensis on Nopalea cochenillifera leaves, Penicillium alagoense as a leaf endophyte on a Miconia sp., Podosordaria nigrobrunnea on dung, Spegazzinia bromeliacearum as a leaf endophyte on Tilandsia catimbauensis, Xylobolus brasiliensis on decaying wood. Bulgaria, Kazachstania molopis from the gut of the beetle Molops piceus.Croatia, Mollisia endocrystallina from a fallen decorticated Picea abies tree trunk.Ecuador, Hygrocybe rodomaculata on soil. Hungary, Alfoldia vorosii (incl. Alfoldia gen. nov.) from Juniperus communis roots, Kiskunsagia
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- 2019
22. Draft genome sequence of Annulohypoxylon stygium, Aspergillus mulundensis, Berkeleyomyces basicola (syn. Thielaviopsis basicola), Ceratocystis smalleyi, two Cercospora beticola strains, Coleophoma cylindrospora, Fusarium fracticaudum, Phialophora cf. hyalina, and Morchella septimelata
- Author
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Wingfield, BD, Bills, GF, Dong, Y, Huang, W, Nel, WJ, Swalarsk-Parry, BS, Vaghefi, N, Wilken, PM, An, Z, de Beer, ZW, De Vos, L, Chen, L, Duong, TA, Gao, Y, Hammerbacher, A, Kikkert, JR, Li, Y, Li, H, Li, K, Li, Q, Liu, X, Ma, X, Naidool, K, Pethybridge, SJ, Sun, J, Steenkamp, ET, van der Nest, MA, van Wyk, S, Wingfield, MJ, Xiong, C, Yue, Q, Zhang, X, Wingfield, BD, Bills, GF, Dong, Y, Huang, W, Nel, WJ, Swalarsk-Parry, BS, Vaghefi, N, Wilken, PM, An, Z, de Beer, ZW, De Vos, L, Chen, L, Duong, TA, Gao, Y, Hammerbacher, A, Kikkert, JR, Li, Y, Li, H, Li, K, Li, Q, Liu, X, Ma, X, Naidool, K, Pethybridge, SJ, Sun, J, Steenkamp, ET, van der Nest, MA, van Wyk, S, Wingfield, MJ, Xiong, C, Yue, Q, and Zhang, X
- Abstract
Draft genomes of the species Annulohypoxylon stygium, Aspergillus mulundensis, Berkeleyomyces basicola (syn. Thielaviopsis basicola), Ceratocystis smalleyi, two Cercospora beticola strains, Coleophoma cylindrospora, Fusarium fracticaudum, Phialophora cf. hyalina and Morchella septimelata are presented. Both mating types (MAT1-1 and MAT1-2) of Cercospora beticola are included. Two strains of Coleophoma cylindrospora that produce sulfated homotyrosine echinocandin variants, FR209602, FR220897 and FR220899 are presented. The sequencing of Aspergillus mulundensis, Coleophoma cylindrospora and Phialophora cf. hyalina has enabled mapping of the gene clusters encoding the chemical diversity from the echinocandin pathways, providing data that reveals the complexity of secondary metabolism in these different species. Overall these genomes provide a valuable resource for understanding the molecular processes underlying pathogenicity (in some cases), biology and toxin production of these economically important fungi.
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- 2018
23. Fungal Planet description sheets: 785-867
- Author
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Universitat Rovira i Virgili, Crous PW, Luangsa-Ard JJ, Wingfield MJ, Carnegie AJ, Hernández-Restrepo M, Lombard L, Roux J, Barreto RW, Baseia IG, Cano-Lira JF, Martín MP, Morozova OV, Stchigel AM, Summerell BA, Brandrud TE, Dima B, García D, Giraldo A, Guarro J, Gusmão LFP, Khamsuntorn P, Noordeloos ME, Nuankaew S, Pinruan U, Rodríguez-Andrade E, Souza-Motta CM, Thangavel R, van Iperen AL, Abreu VP, Accioly T, Alves JL, Andrade JP, Bahram M, Baral HO, Barbier E, Barnes CW, Bendiksen E, Bernard E, Bezerra JDP, Bezerra JL, Bizio E, Blair JE, Bulyonkova TM, Cabral TS, Caiafa MV, Cantillo T, Colmán AA, Conceição LB, Cruz S, Cunha AOB, Darveaux BA, da Silva AL, da Silva GA, da Silva GM, da Silva RMF, de Oliveira RJV, Oliveira RL, De Souza JT, Dueñas M, Evans HC, Epifani F, Felipe MTC, Fernández-López J, Ferreira BW, Figueiredo CN, Filippova NV, Flores JA, Gené J, Ghorbani G, Gibertoni TB, Glushakova AM, Healy R, Huhndorf SM, Iturrieta-González I, Javan-Nikkhah M, Juciano RF, Jurjevi? Ž, Kachalkin AV, Keochanpheng K, Krisai-Greilhuber I, Li YC, Lima AA, Machado AR, Madrid H, Magalhães OMC, Marbach PAS, Melanda GCS, Miller AN, Mongkolsamrit S, Nascimento RP, Oliveira TGL, Ordoñez ME, Orzes R, Palma MA, Pearce CJ, Pereira OL, Perrone G, Peterson SW, Pham THG, Piontelli E, Pordel A, Quijada L, Raja HA, Rosas de Paz E, Ryvarden L, Saitta A, Salcedo SS, Sandoval-Denis M, Santos TAB, Seifert KA, Silva BDB, Smith ME, Soares AM, Sommai S, Sousa JO, Suetrong S, Susca A, Tedersoo L, Telleria MT, Thanakitpipattana D, Valenzuela-Lopez N, Visagie CM, Zapata M, Groenewald JZ, Universitat Rovira i Virgili, and Crous PW, Luangsa-Ard JJ, Wingfield MJ, Carnegie AJ, Hernández-Restrepo M, Lombard L, Roux J, Barreto RW, Baseia IG, Cano-Lira JF, Martín MP, Morozova OV, Stchigel AM, Summerell BA, Brandrud TE, Dima B, García D, Giraldo A, Guarro J, Gusmão LFP, Khamsuntorn P, Noordeloos ME, Nuankaew S, Pinruan U, Rodríguez-Andrade E, Souza-Motta CM, Thangavel R, van Iperen AL, Abreu VP, Accioly T, Alves JL, Andrade JP, Bahram M, Baral HO, Barbier E, Barnes CW, Bendiksen E, Bernard E, Bezerra JDP, Bezerra JL, Bizio E, Blair JE, Bulyonkova TM, Cabral TS, Caiafa MV, Cantillo T, Colmán AA, Conceição LB, Cruz S, Cunha AOB, Darveaux BA, da Silva AL, da Silva GA, da Silva GM, da Silva RMF, de Oliveira RJV, Oliveira RL, De Souza JT, Dueñas M, Evans HC, Epifani F, Felipe MTC, Fernández-López J, Ferreira BW, Figueiredo CN, Filippova NV, Flores JA, Gené J, Ghorbani G, Gibertoni TB, Glushakova AM, Healy R, Huhndorf SM, Iturrieta-González I, Javan-Nikkhah M, Juciano RF, Jurjevi? Ž, Kachalkin AV, Keochanpheng K, Krisai-Greilhuber I, Li YC, Lima AA, Machado AR, Madrid H, Magalhães OMC, Marbach PAS, Melanda GCS, Miller AN, Mongkolsamrit S, Nascimento RP, Oliveira TGL, Ordoñez ME, Orzes R, Palma MA, Pearce CJ, Pereira OL, Perrone G, Peterson SW, Pham THG, Piontelli E, Pordel A, Quijada L, Raja HA, Rosas de Paz E, Ryvarden L, Saitta A, Salcedo SS, Sandoval-Denis M, Santos TAB, Seifert KA, Silva BDB, Smith ME, Soares AM, Sommai S, Sousa JO, Suetrong S, Susca A, Tedersoo L, Telleria MT, Thanakitpipattana D, Valenzuela-Lopez N, Visagie CM, Zapata M, Groenewald JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Angola, Gnomoniopsis angolensis and Pseudopithomyces angolensis on unknown host plants. Australia, Dothiora corymbiae on Corymbia citriodora, Neoeucasphaeria eucalypti (incl. Neoeucasphaeria gen. nov.) on Eucalyptus sp., Fumagopsis stellae on Eucalyptus sp., Fusculina eucalyptorum (incl. Fusculinaceae fam. nov.) on Eucalyptus socialis, Harknessia corymbiicola on Corymbia maculata, Neocelosporiumeucalypti (incl. Neocelosporium gen. nov., Neocelosporiaceae fam. nov. and Neocelosporiales ord. nov.) on Eucalyptus cyanophylla, Neophaeomoniella corymbiae on Corymbia citriodora, Neophaeomoniella eucalyptigena on Eucalyptus pilularis, Pseudoplagiostoma corymbiicola on Corymbia citriodora, Teratosphaeria gracilis on Eucalyptus gracilis, Zasmidium corymbiae on Corymbia citriodora.Brazil, Calonectria hemileiae on pustules of Hemileia vastatrix formed on leaves of Coffea arabica, Calvatia caatinguensis on soil, Cercospora solani-betacei on Solanum betaceum, Clathrus natalensis on soil, Diaporthe poincianellae on Poincianella pyramidalis, Geastrum piquiriunense on soil, Geosmithia carolliae on wing of Carollia perspicillata, Henningsia resupinata on wood, Penicillium guaibinense from soil, Periconia caespitosa from leaf litter, Pseudocercospora styracina on Styrax sp., Simplicillium filiforme as endophyte from Citrullus lanatus, Thozetella pindobacuensis on leaf litter, Xenosonderheniacoussapoae on Coussapoa floccosa.Canary Islands (Spain), Orbilia amarilla on Euphorbia canariensis.Cape Verde Islands, Xylodon jacobaeus on Eucalyptus camaldulensis.Chile, Colletotrichum arboricola on Fuchsia magellanica.Costa Rica, Lasiosphaeria miniovina on tree branch. Ecuador, Ganoderma chocoense on tree
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- 2018
24. Fungal Planet description sheets: 716-784
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Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, Crous PW, Wingfield MJ, Burgess TI, Hardy GESJ, Gené J, Guarro J, Baseia IG, García D, Gusmão LFP, Souza-Motta CM, Thangavel R, Adam?ík S, Barili A, Barnes CW, Bezerra JDP, Bordallo JJ, Cano-Lira JF, de Oliveira RJV, Ercole E, Hubka V, Iturrieta-González I, Kubátová A, Martín MP, Moreau PA, Morte A, Ordoñez ME, Rodríguez A, Stchigel AM, Vizzini A, Abdollahzadeh J, Abreu VP, Adam?íková K, Albuquerque GMR, Alexandrova AV, Álvarez Duarte E, Armstrong-Cho C, Banniza S, Barbosa RN, Bellanger JM, Bezerra JL, Cabral TS, Cabo? M, Caicedo E, Cantillo T, Carnegie AJ, Carmo LT, Castañeda-Ruiz RF, Clement CR, ?moková A, Conceição LB, Cruz RHSF, Damm U, da Silva BDB, da Silva GA, da Silva RMF, de A Santiago ALCM, de Oliveira LF, de Souza CAF, Déniel F, Dima B, Dong G, Edwards J, Félix CR, Fournier J, Gibertoni TB, Hosaka K, Iturriaga T, Jadan M, Jany JL, Jurjevi? Ž, Kola?ík M, Kušan I, Landell MF, Leite Cordeiro TR, Lima DX, Loizides M, Luo S, Machado AR, Madrid H, Magalhães OMC, Marinho P, Mato?ec N, Meši? A, Miller AN, Morozova OV, Neves RP, Nonaka K, Nováková A, Oberlies NH, Oliveira-Filho JRC, Oliveira TGL, Papp V, Pereira OL, Perrone G, Peterson SW, Pham THG, Raja HA, Raudabaugh DB, ?ehulka J, Rodríguez-Andrade E, Saba M, Schauflerová A, Shivas RG, Simonini G, Siqueira JPZ, Sousa JO, Stajsic V, Svetasheva T, Tan YP, Tkal?ec Z, Ullah S, Valente P, Valenzuela-Lopez N, Abrinbana M, Viana Marques DA, Wong PTW, Xavier de Lima V, Groenewald JZ, Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, and Crous PW, Wingfield MJ, Burgess TI, Hardy GESJ, Gené J, Guarro J, Baseia IG, García D, Gusmão LFP, Souza-Motta CM, Thangavel R, Adam?ík S, Barili A, Barnes CW, Bezerra JDP, Bordallo JJ, Cano-Lira JF, de Oliveira RJV, Ercole E, Hubka V, Iturrieta-González I, Kubátová A, Martín MP, Moreau PA, Morte A, Ordoñez ME, Rodríguez A, Stchigel AM, Vizzini A, Abdollahzadeh J, Abreu VP, Adam?íková K, Albuquerque GMR, Alexandrova AV, Álvarez Duarte E, Armstrong-Cho C, Banniza S, Barbosa RN, Bellanger JM, Bezerra JL, Cabral TS, Cabo? M, Caicedo E, Cantillo T, Carnegie AJ, Carmo LT, Castañeda-Ruiz RF, Clement CR, ?moková A, Conceição LB, Cruz RHSF, Damm U, da Silva BDB, da Silva GA, da Silva RMF, de A Santiago ALCM, de Oliveira LF, de Souza CAF, Déniel F, Dima B, Dong G, Edwards J, Félix CR, Fournier J, Gibertoni TB, Hosaka K, Iturriaga T, Jadan M, Jany JL, Jurjevi? Ž, Kola?ík M, Kušan I, Landell MF, Leite Cordeiro TR, Lima DX, Loizides M, Luo S, Machado AR, Madrid H, Magalhães OMC, Marinho P, Mato?ec N, Meši? A, Miller AN, Morozova OV, Neves RP, Nonaka K, Nováková A, Oberlies NH, Oliveira-Filho JRC, Oliveira TGL, Papp V, Pereira OL, Perrone G, Peterson SW, Pham THG, Raja HA, Raudabaugh DB, ?ehulka J, Rodríguez-Andrade E, Saba M, Schauflerová A, Shivas RG, Simonini G, Siqueira JPZ, Sousa JO, Stajsic V, Svetasheva T, Tan YP, Tkal?ec Z, Ullah S, Valente P, Valenzuela-Lopez N, Abrinbana M, Viana Marques DA, Wong PTW, Xavier de Lima V, Groenewald JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia, Chaetopsina eucalypti on Eucalyptus leaf litter, Colletotrichum cobbittiense from Cordyline stricta × C. australis hybrid, Cyanodermella banksiae on Banksia ericifolia subsp. macrantha, Discosia macrozamiae on Macrozamia miquelii, Elsinoë banksiigena on Banksia marginata, Elsinoë elaeocarpi on Elaeocarpus sp., Elsinoë leucopogonis on Leucopogon sp., Helminthosporium livistonae on Livistona australis, Idriellomyces eucalypti (incl. Idriellomyces gen. nov.) on Eucalyptus obliqua, Lareunionomyces eucalypti on Eucalyptus sp., Myrotheciomyces corymbiae (incl. Myrotheciomyces gen. nov., Myrotheciomycetaceae fam. nov.), Neolauriomyces eucalypti (incl. Neolauriomyces gen. nov., Neolauriomycetaceae fam. nov.) on Eucalyptus sp., Nullicamyces eucalypti (incl. Nullicamyces gen. nov.) on Eucalyptus leaf litter, Oidiodendron eucalypti on Eucalyptus maidenii, Paracladophialophora cyperacearum (incl. Paracladophialophoraceae fam. nov.) and Periconia cyperacearum on leaves of Cyperaceae, Porodiplodia livistonae (incl. Porodiplodia gen. nov., Porodiplodiaceae fam. nov.) on Livistona australis, Sporidesmium melaleucae (incl. Sporidesmiales ord. nov.) on Melaleuca sp., Teratosphaeria sieberi on Eucalyptus sieberi, Thecaphora australiensis in capsules of a variant of Oxalis exilis.Brazil, Aspergillus serratalhadensis from soil, Diaporthe pseudoinconspicua from Poincianella pyramidalis, Fomitiporella pertenuis on dead wood, Geastrum magnosporum on soil, Marquesius aquaticus (incl. Marquesius gen. nov.) from submerged decaying twig and leaves of unidentified plant, Mastigosporella pigmentata from leaves of Qualea parviflorae, Mucor souzae from soil, Mycocalia aquaphila on decaying wood f
- Published
- 2018
25. Fungal Planet description sheets: 558-624
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Crous, PW, Wingfield, MJ, Burgess, TI, Hardy, GESJ, Barber, PA, Alvarado, P, Barnes, CW, Buchanan, PK, Heykoop, M, Moreno, G, Thangavel, R, van der Spuy, S, Barili, A, Barrett, S, Cacciola, SO, Cano-Lira, JF, Crane, C, Decock, C, Gibertoni, TB, Guarro, J, Guevara-Suarez, M, Hubka, V, Kolarik, M, Lira, CRS, Ordonez, ME, Padamsee, M, Ryvarden, L, Soares, AM, Stchigel, AM, Sutton, DA, Vizzini, A, Weir, BS, Acharya, K, Aloi, F, Baseia, IG, Blanchette, RA, Bordallo, JJ, Bratek, Z, Butler, T, Cano-Canals, J, Carlavilla, JR, Chander, J, Cheewangkoon, R, Cruz, RHSF, da Silva, M, Dutta, AK, Ercole, E, Escobio, V, Esteve-Raventos, F, Flores, JA, Gene, J, Gois, JS, Haines, L, Held, BW, Jung, MH, Hosaka, K, Jung, T, Jurjevic, Z, Kautman, V, Kautmanova, I, Kiyashko, AA, Kozanek, M, Kubatova, A, Lafourcade, M, La Spada, F, Latha, KPD, Madrid, H, Malysheva, EF, Manimohan, P, Manjon, JL, Martin, MP, Mata, M, Merenyi, Z, Morte, A, Nagy, I, Normand, A-C, Paloi, S, Pattison, N, Pawlowska, J, Pereira, OL, Petterson, ME, Picillo, B, Raj, KNA, Roberts, A, Rodriguez, A, Rodriguez-Campo, FJ, Romanski, M, Ruszkiewicz-Michalska, M, Scanu, B, Schena, L, Semelbauer, M, Sharma, R, Shouche, YS, Silva, V, Staniaszek-Kik, M, Stielow, JB, Tapia, C, Taylor, PWJ, Toome-Heller, M, Vabeikhokhei, JMC, van Diepeningen, AD, Van Hoa, N, Van Tri, M, Wiederhold, NP, Wrzosek, M, Zothanzama, J, Groenewald, JZ, Crous, PW, Wingfield, MJ, Burgess, TI, Hardy, GESJ, Barber, PA, Alvarado, P, Barnes, CW, Buchanan, PK, Heykoop, M, Moreno, G, Thangavel, R, van der Spuy, S, Barili, A, Barrett, S, Cacciola, SO, Cano-Lira, JF, Crane, C, Decock, C, Gibertoni, TB, Guarro, J, Guevara-Suarez, M, Hubka, V, Kolarik, M, Lira, CRS, Ordonez, ME, Padamsee, M, Ryvarden, L, Soares, AM, Stchigel, AM, Sutton, DA, Vizzini, A, Weir, BS, Acharya, K, Aloi, F, Baseia, IG, Blanchette, RA, Bordallo, JJ, Bratek, Z, Butler, T, Cano-Canals, J, Carlavilla, JR, Chander, J, Cheewangkoon, R, Cruz, RHSF, da Silva, M, Dutta, AK, Ercole, E, Escobio, V, Esteve-Raventos, F, Flores, JA, Gene, J, Gois, JS, Haines, L, Held, BW, Jung, MH, Hosaka, K, Jung, T, Jurjevic, Z, Kautman, V, Kautmanova, I, Kiyashko, AA, Kozanek, M, Kubatova, A, Lafourcade, M, La Spada, F, Latha, KPD, Madrid, H, Malysheva, EF, Manimohan, P, Manjon, JL, Martin, MP, Mata, M, Merenyi, Z, Morte, A, Nagy, I, Normand, A-C, Paloi, S, Pattison, N, Pawlowska, J, Pereira, OL, Petterson, ME, Picillo, B, Raj, KNA, Roberts, A, Rodriguez, A, Rodriguez-Campo, FJ, Romanski, M, Ruszkiewicz-Michalska, M, Scanu, B, Schena, L, Semelbauer, M, Sharma, R, Shouche, YS, Silva, V, Staniaszek-Kik, M, Stielow, JB, Tapia, C, Taylor, PWJ, Toome-Heller, M, Vabeikhokhei, JMC, van Diepeningen, AD, Van Hoa, N, Van Tri, M, Wiederhold, NP, Wrzosek, M, Zothanzama, J, and Groenewald, JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia: Banksiophoma australiensis (incl. Banksiophoma gen. nov.) on Banksia coccinea, Davidiellomycesaustraliensis (incl. Davidiellomyces gen. nov.) on Cyperaceae, Didymocyrtis banksiae on Banksia sessilis var. cygnorum, Disculoides calophyllae on Corymbia calophylla, Harknessia banksiae on Banksia sessilis, Harknessia banksiae-repens on Banksia repens, Harknessia banksiigena on Banksia sessilis var. cygnorum, Harknessia communis on Podocarpus sp., Harknessia platyphyllae on Eucalyptus platyphylla, Myrtacremonium eucalypti (incl. Myrtacremonium gen. nov.) on Eucalyptus globulus, Myrtapenidiella balenae on Eucalyptus sp., Myrtapenidiella eucalyptigena on Eucalyptus sp., Myrtapenidiella pleurocarpae on Eucalyptuspleurocarpa, Paraconiothyrium hakeae on Hakea sp., Paraphaeosphaeria xanthorrhoeae on Xanthorrhoea sp., Parateratosphaeria stirlingiae on Stirlingia sp., Perthomyces podocarpi (incl. Perthomyces gen. nov.) on Podocarpus sp., Readeriella ellipsoidea on Eucalyptus sp., Rosellinia australiensis on Banksia grandis, Tiarosporella corymbiae on Corymbia calophylla, Verrucoconiothyriumeucalyptigenum on Eucalyptus sp., Zasmidium commune on Xanthorrhoea sp., and Zasmidium podocarpi on Podocarpus sp. Brazil: Cyathus aurantogriseocarpus on decaying wood, Perenniporia brasiliensis on decayed wood, Perenniporia paraguyanensis on decayed wood, and Pseudocercospora leandrae-fragilis on Leandrafragilis.Chile: Phialocephala cladophialophoroides on human toe nail. Costa Rica: Psathyrella striatoannulata from soil. Czech Republic: Myotisia cremea (incl. Myotisia gen. nov.) on bat droppings. Ecuador: Humidicutis dictiocephala from soil, Hygrocybe macrosiparia from soil, Hygrocybe sangayensis from soil, and Polycephalomyces onorei on stem of Etlingera sp. France: Westerdykella centenaria from soil. Hungary: Tuber magentipunctatum from soil. India: Ganoderma mizoramense on decaying wo
- Published
- 2017
26. Impact of indigenous storage systems and insect infestation on the contamination of maize with fumonisins
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Fandohan, P, Gnonlonfin, B, Hell, K, Marasas, WFO, and Wingfield, MJ
- Subjects
Maize, storage systems, Fusarium, fumonisins, insect infestation - Abstract
Four storage systems of maize commonly used by farmers in Benin, West Africa, were tested to determine their impact on infection of maize by Fusarium and subsequent contamination with fumonisins. The study showed that Fusarium incidence was significantly higher when maize was stored on a cemented floor in a house, a non ventilated facility (40.3 ± 17.4%), than in the other tested systems (p < 0.05). The lowest Fusarium incidence was recorded when maize was stored in a bamboo granary that is a ventilated facility (25.5 ± 13.5%) (p < 0.05). All maize samples from the tested storage systems were found to be fumonisin positive, with levels ranging from 0.6 to 2.4 mg/kg. Fumonisin level, overall, was found to decrease over the storage period, but not significantly in all the tested storage systems. Damage by lepidopterous pests was significantly and positively correlated with both infection of maize with Fusarium and contamination by fumonisin. In contrary, damage by coleopterous insects was significantly and negatively correlated with infection of maize with Fusarium and contamination by fumonisin. Avoiding the use of non-ventilated systems to store maize and reducing insect infestation in field and during storage are very important recommendations for farmers.Keywords: Maize, storage systems, Fusarium, fumonisins, insect infestation
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- 2016
27. The forgotten Calonectria collection: Pouring old wine into new bags
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Lombard, L, Wingfield, MJ, Alfenas, AC, Crous, PW, Lombard, L, Wingfield, MJ, Alfenas, AC, and Crous, PW
- Abstract
The genus Calonectria with its Cylindrocladium asexual morphs has been subject to several taxonomic revisions in the past. These have resulted in the recognition of 116 species, of which all but two species (C. hederae and C. pyrochroa) are supported by ex-type cultures and supplemented with DNA barcodes. The present study is based on a large collection of unidentified Calonectria isolates that have been collected over a period of 20 years from various substrates worldwide, which has remained unstudied in the basement of the CBS-KNAW Fungal Biodiversity Centre. Employing a polyphasic approach, the identities of these isolates were resolved and shown to represent many new phylogenetic species. Of these, 24 are newly described, while C. uniseptata is reinstated at species level. We now recognise 141 species that include some of the most important plant pathogens globally.
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- 2016
28. Fungal Planet description sheets: 400-468
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Crous, PW, Wingfield, MJ, Richardson, DM, Le Roux, JJ, Strasberg, D, Edwards, J, Roets, F, Hubka, V, Taylor, PWJ, Heykoop, M, Martin, MP, Moreno, G, Sutton, DA, Wiederhold, NP, Barnes, CW, Carlavilla, JR, Gene, J, Giraldo, A, Guarnaccia, V, Guarro, J, Hernandez-Restrepo, M, Kolarik, M, Manjon, JL, Pascoe, IG, Popov, ES, Sandoval-Denis, M, Woudenberg, JHC, Acharya, K, Alexandrova, AV, Alvarado, P, Barbosa, RN, Baseia, IG, Blanchette, RA, Boekhout, T, Burgess, TI, Cano-Lira, JF, Cmokova, A, Dimitrov, RA, Dyakov, MY, Duenas, M, Dutta, AK, Esteve-Raventos, F, Fedosova, AG, Fournier, J, Gamboa, P, Gouliamova, DE, Grebenc, T, Groenewald, M, Hanse, B, Hardy, GESJ, Held, BW, Jurjevic, Z, Kaewgrajang, T, Latha, KPD, Lombard, L, Luangsa-ard, JJ, Lyskova, P, Mallatova, N, Manimohan, P, Miller, AN, Mirabolfathy, M, Morozova, OV, Obodai, M, Oliveira, NT, Ordonez, ME, Otto, EC, Paloi, S, Peterson, SW, Phosri, C, Roux, J, Salazar, WA, Sanchez, A, Sarria, GA, Shin, H-D, Silva, BDB, Silva, GA, Smith, MT, Souza-Motta, CM, Stchigel, AM, Stoilova-Disheva, MM, Sulzbacher, MA, Telleria, MT, Toapanta, C, Traba, JM, Valenzuela-Lopez, N, Watling, R, Groenewald, JZ, Crous, PW, Wingfield, MJ, Richardson, DM, Le Roux, JJ, Strasberg, D, Edwards, J, Roets, F, Hubka, V, Taylor, PWJ, Heykoop, M, Martin, MP, Moreno, G, Sutton, DA, Wiederhold, NP, Barnes, CW, Carlavilla, JR, Gene, J, Giraldo, A, Guarnaccia, V, Guarro, J, Hernandez-Restrepo, M, Kolarik, M, Manjon, JL, Pascoe, IG, Popov, ES, Sandoval-Denis, M, Woudenberg, JHC, Acharya, K, Alexandrova, AV, Alvarado, P, Barbosa, RN, Baseia, IG, Blanchette, RA, Boekhout, T, Burgess, TI, Cano-Lira, JF, Cmokova, A, Dimitrov, RA, Dyakov, MY, Duenas, M, Dutta, AK, Esteve-Raventos, F, Fedosova, AG, Fournier, J, Gamboa, P, Gouliamova, DE, Grebenc, T, Groenewald, M, Hanse, B, Hardy, GESJ, Held, BW, Jurjevic, Z, Kaewgrajang, T, Latha, KPD, Lombard, L, Luangsa-ard, JJ, Lyskova, P, Mallatova, N, Manimohan, P, Miller, AN, Mirabolfathy, M, Morozova, OV, Obodai, M, Oliveira, NT, Ordonez, ME, Otto, EC, Paloi, S, Peterson, SW, Phosri, C, Roux, J, Salazar, WA, Sanchez, A, Sarria, GA, Shin, H-D, Silva, BDB, Silva, GA, Smith, MT, Souza-Motta, CM, Stchigel, AM, Stoilova-Disheva, MM, Sulzbacher, MA, Telleria, MT, Toapanta, C, Traba, JM, Valenzuela-Lopez, N, Watling, R, and Groenewald, JZ
- Abstract
Novel species of fungi described in the present study include the following from Australia: Vermiculariopsiella eucalypti, Mulderomyces natalis (incl. Mulderomyces gen. nov.), Fusicladium paraamoenum, Neotrimmatostroma paraexcentricum, and Pseudophloeospora eucalyptorum on leaves of Eucalyptus spp., Anungitea grevilleae (on leaves of Grevillea sp.), Pyrenochaeta acaciae (on leaves of Acacia sp.), and Brunneocarpos banksiae (incl. Brunneocarpos gen. nov.) on cones of Banksia attenuata. Novel foliicolous taxa from South Africa include Neosulcatispora strelitziae (on Strelitzia nicolai), Colletotrichum ledebouriae (on Ledebouria floridunda), Cylindrosympodioides brabejum (incl. Cylindrosympodioides gen. nov.) on Brabejum stellatifolium, Sclerostagonospora ericae (on Erica sp.), Setophoma cyperi (on Cyperus sphaerocephala), and Phaeosphaeria breonadiae (on Breonadia microcephala). Novelties described from Robben Island (South Africa) include Wojnowiciella cissampeli and Diaporthe cissampeli (both on Cissampelos capensis), Phaeotheca salicorniae (on Salicornia meyeriana), Paracylindrocarpon aloicola (incl. Paracylindrocarpon gen. nov.) on Aloe sp., and Libertasomyces myopori (incl. Libertasomyces gen. nov.) on Myoporum serratum. Several novelties are recorded from La Réunion (France), namely Phaeosphaeriopsis agapanthi (on Agapanthus sp.), Roussoella solani (on Solanum mauritianum), Vermiculariopsiella acaciae (on Acacia heterophylla), Dothiorella acacicola (on Acacia mearnsii), Chalara clidemiae (on Clidemia hirta), Cytospora tibouchinae (on Tibouchina semidecandra), Diaporthe ocoteae (on Ocotea obtusata), Castanediella eucalypticola, Phaeophleospora eucalypticola and Fusicladium eucalypticola (on Eucalyptus robusta), Lareunionomyces syzygii (incl. Lareunionomyces gen. nov.) and Parawiesneriomyces syzygii (incl. Parawiesneriomyces gen. nov.) on leaves of Syzygium jambos. Novel taxa from the USA include Meristemomyces arctostaphylos (on Arctostaphylos patula), Ochroconis
- Published
- 2016
29. Neotypification of Dothistroma septosporum and epitypification of D. pini, causal agents of Dothistroma needle blight of pine
- Author
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Woodward, S, Barnes, I, van der Nest, A, Mullett, MS, Crous, PW, Drenkhan, R, Musolin, DL, Wingfield, MJ, Woodward, S, Barnes, I, van der Nest, A, Mullett, MS, Crous, PW, Drenkhan, R, Musolin, DL, and Wingfield, MJ
- Abstract
Summary Dothistroma needle blight (DNB) is one of the most devastating needle diseases on Pinus spp. worldwide. Ever since the description of the causal agent of the disease in Europe in 1911 as Cytosporina septospora, and independently in the USA in 1941 as Dothistroma pini, there has been considerable taxonomic discordance regarding the name of the pathogen used in literature. This was compounded both by the proposal of different varieties of the pathogen based on differences in spore size and the application of dual nomenclature where three names, Scirrhia pini, Eruptio pini and Mycosphaerella pini, were used to describe the sexual morph of the fungus. More recent studies using sequence‐based methods revealed that DNB can be caused by either one of two distinct species, that is D. septosporum and D. pini. These important species have not been adequately typified, and this perpetuates lack of stability for their names. In this study, these names are fixed to reference sequences linked to living cultures representing type specimens. To achieve this goal, we designate an epitype for D. pini and a neotype for D. septosporum. The known polymorphism in the ITS region, the barcoding gene for these fungi, is characterized and a complete taxonomic history is provided for the genus Dothistroma.
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- 2016
30. Fungal planet description sheets: 400–468
- Author
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Universitat Rovira i Virgili, Crous PW; Wingfield MJ; Richardson DM; Le Roux JJ; Strasberg D; Edwards J; Roets F; Hubka V; Taylor PWJ; Heykoop M; Martín MP; Moreno G; Sutton DA; Wiederhold NP; Barnes CW; Carlavilla JR; Gené J; Giraldo A; Guarnaccia V; Guarro J; Hernández-Restrepo M; Kolařík M; Manjón JL; Pascoe IG; Popov ES; Sandoval-Denis M; Woudenberg JHC; Acharya K; Alexandrova AV; Alvarado P; Barbosa RN; Baseia IG; Blanchette RA; Boekhout T; Burgess TI; Cano-Lira JF; Čmoková A; Dimitrov RA; Dyakov MY; Dueñas M, Universitat Rovira i Virgili, and Crous PW; Wingfield MJ; Richardson DM; Le Roux JJ; Strasberg D; Edwards J; Roets F; Hubka V; Taylor PWJ; Heykoop M; Martín MP; Moreno G; Sutton DA; Wiederhold NP; Barnes CW; Carlavilla JR; Gené J; Giraldo A; Guarnaccia V; Guarro J; Hernández-Restrepo M; Kolařík M; Manjón JL; Pascoe IG; Popov ES; Sandoval-Denis M; Woudenberg JHC; Acharya K; Alexandrova AV; Alvarado P; Barbosa RN; Baseia IG; Blanchette RA; Boekhout T; Burgess TI; Cano-Lira JF; Čmoková A; Dimitrov RA; Dyakov MY; Dueñas M
- Abstract
© 2015-2016 Naturalis Biodiversity Center & Centraalbureau voor Schimmelcultures. Novel species of fungi described in the present study include the following from Australia: Vermiculariopsiella eucalypti, Mulderomyces natalis (incl. Mulderomyces gen. nov.), Fusicladium paraamoenum, Neotrimmatostroma paraexcentricum, and Pseudophloeospora eucalyptorum on leaves of Eucalyptus spp., Anungitea grevilleae (on leaves of Grevillea sp.), Pyrenochaeta acaciae (on leaves of Acacia sp.), and Brunneocarpos banksiae (incl. Brunneocarpos gen. nov.) on cones of Banksia attenuata. Novel foliicolous taxa from South Africa include Neosulcatispora strelitziae (on Strelitzia nicolai), Colletotrichum ledebouriae (on Ledebouria floridunda), Cylindrosympodioides brabejum (incl. Cylindrosympodioides gen. nov.) on Brabejum stellatifolium, Sclerostagonospora ericae (on Erica sp.), Setophoma cyperi (on Cyperus sphaerocephala), and Phaeosphaeria breonadiae (on Breonadia microcephala). Novelties described from Robben Island (South Africa) include Wojnowiciella cissampeli and Diaporthe cissampeli (both on Cissampelos capensis), Phaeotheca salicorniae (on Salicornia meyeriana), Paracylindrocarpon aloicola (incl. Paracylindrocarpon gen. nov.) on Aloe sp., and Libertasomyces myopori (incl. Libertasomyces gen. nov.) on Myoporum serratum. Several novelties are recorded from La Réunion (France), namely Phaeosphaeriopsis agapanthi (on Agapanthus sp.), Roussoella solani (on Solanum mauritianum), Vermiculariopsiella acaciae (on Acacia heterophylla), Dothiorella acacicola (on Acacia mearnsii), Chalara clidemiae (on Clidemia hirta), Cytospora tibouchinae (on Tibouchina semidecandra), Diaporthe ocoteae (on Ocotea obtusata), Castanediella eucalypticola, Phaeophleospora eucalypticola and Fusicladium eucalyptico
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- 2016
31. Fungal Planet description sheets: 469-557.
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Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, Crous PW, Wingfield MJ, Burgess TI, Hardy GE, Crane C, Barrett S, Cano-Lira JF, Le Roux JJ, Thangavel R, Guarro J, Stchigel AM, Martín MP, Alfredo DS, Barber PA, Barreto RW, Baseia IG, Cano-Canals J, Cheewangkoon R, Ferreira RJ, Gené J, Lechat C, Moreno G, Roets F, Shivas RG, Sousa JO, Tan YP, Wiederhold NP, Abell SE, Accioly T, Albizu JL, Alves JL, Antoniolli ZI, Aplin N, Araújo J, Arzanlou M, Bezerra JD, Bouchara JP, Carlavilla JR, Castillo A, Castroagudín VL, Ceresini PC, Claridge GF, Coelho G, Coimbra VR, Costa LA, da Cunha KC, da Silva SS, Daniel R, de Beer ZW, Dueñas M, Edwards J, Enwistle P, Fiuza PO, Fournier J, García D, Gibertoni TB, Giraud S, Guevara-Suarez M, Gusmão LF, Haituk S, Heykoop M, Hirooka Y, Hofmann TA, Houbraken J, Hughes DP, Kautmanová I, Koppel O, Koukol O, Larsson E, Latha KP, Lee DH, Lisboa DO, Lisboa WS, López-Villalba Á, Maciel JL, Manimohan P, Manjón JL, Marincowitz S, Marney TS, Meijer M, Miller AN, Olariaga I, Paiva LM, Piepenbring M, Poveda-Molero JC, Raj KN, Raja HA, Rougeron A, Salcedo I, Samadi R, Santos TA, Scarlett K, Seifert KA, Shuttleworth LA, Silva GA, Silva M, Siqueira JP, Souza-Motta CM, Stephenson SL, Sutton DA, Tamakeaw N, Telleria MT, Valenzuela-Lopez N, Viljoen A, Visagie CM, Vizzini A, Wartchow F, Wingfield BD, Yurchenko E, Zamora JC, Groenewald JZ, Ciències Mèdiques Bàsiques, Universitat Rovira i Virgili, and Crous PW, Wingfield MJ, Burgess TI, Hardy GE, Crane C, Barrett S, Cano-Lira JF, Le Roux JJ, Thangavel R, Guarro J, Stchigel AM, Martín MP, Alfredo DS, Barber PA, Barreto RW, Baseia IG, Cano-Canals J, Cheewangkoon R, Ferreira RJ, Gené J, Lechat C, Moreno G, Roets F, Shivas RG, Sousa JO, Tan YP, Wiederhold NP, Abell SE, Accioly T, Albizu JL, Alves JL, Antoniolli ZI, Aplin N, Araújo J, Arzanlou M, Bezerra JD, Bouchara JP, Carlavilla JR, Castillo A, Castroagudín VL, Ceresini PC, Claridge GF, Coelho G, Coimbra VR, Costa LA, da Cunha KC, da Silva SS, Daniel R, de Beer ZW, Dueñas M, Edwards J, Enwistle P, Fiuza PO, Fournier J, García D, Gibertoni TB, Giraud S, Guevara-Suarez M, Gusmão LF, Haituk S, Heykoop M, Hirooka Y, Hofmann TA, Houbraken J, Hughes DP, Kautmanová I, Koppel O, Koukol O, Larsson E, Latha KP, Lee DH, Lisboa DO, Lisboa WS, López-Villalba Á, Maciel JL, Manimohan P, Manjón JL, Marincowitz S, Marney TS, Meijer M, Miller AN, Olariaga I, Paiva LM, Piepenbring M, Poveda-Molero JC, Raj KN, Raja HA, Rougeron A, Salcedo I, Samadi R, Santos TA, Scarlett K, Seifert KA, Shuttleworth LA, Silva GA, Silva M, Siqueira JP, Souza-Motta CM, Stephenson SL, Sutton DA, Tamakeaw N, Telleria MT, Valenzuela-Lopez N, Viljoen A, Visagie CM, Vizzini A, Wartchow F, Wingfield BD, Yurchenko E, Zamora JC, Groenewald JZ
- Abstract
Novel species of fungi described in this study include those from various countries as follows: Australia: Apiognomonia lasiopetali on Lasiopetalum sp., Blastacervulus eucalyptorum on Eucalyptus adesmophloia, Bullanockia australis (incl. Bullanockia gen. nov.) on Kingia australis, Caliciopsis eucalypti on Eucalyptus marginata, Celerioriella petrophiles on Petrophile teretifolia, Coleophoma xanthosiae on Xanthosia rotundifolia, Coniothyrium hakeae on Hakea sp., Diatrypella banksiae on Banksia formosa, Disculoides corymbiae on Corymbia calophylla, Elsinoë eelemani on Melaleuca alternifolia, Elsinoë eucalyptigena on Eucalyptus kingsmillii, Elsinoë preissianae on Eucalyptus preissiana, Eucasphaeria rustici on Eucalyptus creta, Hyweljonesia queenslandica (incl. Hyweljonesia gen. nov.) on the cocoon of an unidentified microlepidoptera, Mycodiella eucalypti (incl. Mycodiella gen. nov.) on Eucalyptus diversicolor, Myrtapenidiella sporadicae on Eucalyptus sporadica, Neocrinula xanthorrhoeae (incl. Neocrinula gen. nov.) on Xanthorrhoea sp., Ophiocordyceps nooreniae on dead ant, Phaeosphaeriopsis agavacearum on Agave sp., Phlogicylindrium mokarei on Eucalyptus sp., Phyllosticta acaciigena on Acacia suaveolens, Pleurophoma acaciae on Acacia glaucoptera, Pyrenochaeta hakeae on Hakea sp., Readeriella lehmannii on Eucalyptus lehmannii, Saccharata banksiae on Banksia grandis, Saccharata daviesiae on Daviesia pachyphylla, Saccharata eucalyptorum on Eucalyptus bigalerita, Saccharata hakeae on Hakea baxteri, Saccharata hakeicola on Hakea victoria, Saccharata lambertiae on Lambertia ericifolia, Saccharata petrophiles on Petrophile sp., Saccharata petrophilicola on Petrophile fastigiata, Sphaerellopsis hakeae on Hakea sp., and Teichospora kingiae on Kingia australis.Brazil: Adautomilanezia
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- 2016
32. Draft genome sequences of Chrysoporthe austroafricana, Diplodia scrobiculata, Fusarium nygamai, Leptographium lundbergii, Limonomyces culmigenus, Stagonosporopsis tanaceti, and Thielaviopsis punctulata
- Author
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Wingfield, BD, Ades, PK, Al-Naemi, FA, Beirn, LA, Bihon, W, Crouch, JA, de Beer, ZW, De Vos, L, Duong, TA, Fields, CJ, Fourie, G, Kanzi, AM, Malapi-Wight, M, Pethybridge, SJ, Radwan, O, Rendon, G, Slippers, B, Santana, QC, Steenkamp, ET, Taylor, PWJ, Vaghefi, N, van der Merwe, NA, Veltri, D, Wingfield, MJ, Wingfield, BD, Ades, PK, Al-Naemi, FA, Beirn, LA, Bihon, W, Crouch, JA, de Beer, ZW, De Vos, L, Duong, TA, Fields, CJ, Fourie, G, Kanzi, AM, Malapi-Wight, M, Pethybridge, SJ, Radwan, O, Rendon, G, Slippers, B, Santana, QC, Steenkamp, ET, Taylor, PWJ, Vaghefi, N, van der Merwe, NA, Veltri, D, and Wingfield, MJ
- Abstract
The genomes of Chrysoporthe austroafricana, Diplodia scrobiculata, Fusarium nygami, Leptographium lundbergii, Limonomyces culmigenus, Stagonosporopsis tanaceti, and Thielaviopsis punctulata are presented in this genome announcement. These seven genomes are from endophytes, plant pathogens and economically important fungal species. The genome sizes range from 26.6 Mb in the case of Leptographium lundbergii to 44 Mb for Chrysoporthe austroafricana. The availability of these genome data will provide opportunities to resolve longstanding questions regarding the taxonomy of species in these genera, and may contribute to our understanding of the lifestyles through comparative studies with closely related organisms.
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- 2015
33. Fungal Planet description sheets: 371-399
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Crous, PW, Wingfield, MJ, Le Roux, JJ, Richardson, DM, Strasberg, D, Shivas, RG, Alvarado, P, Edwards, J, Moreno, G, Sharma, R, Sonawane, MS, Tan, YP, Altes, A, Barasubiye, T, Barnes, CW, Blanchette, RA, Boertmann, D, Bogo, A, Carlavilla, JR, Cheewangkoon, R, Daniel, R, de Beer, ZW, de Jesus Yanez-Morales, M, Duong, TA, Fernandez-Vicente, J, Geering, ADW, Guest, DI, Held, BW, Heykoop, M, Hubka, V, Ismail, AM, Kajale, SC, Khemmuk, W, Kolarik, M, Kurli, R, Lebeuf, R, Levesque, CA, Lombard, L, Magista, D, Manjon, JL, Marincowitz, S, Mohedano, JM, Novakova, A, Oberlies, NH, Otto, EC, Paguigan, ND, Pascoe, IG, Perez-Butron, JL, Perrone, G, Rahi, P, Raja, HA, Rintoul, T, Sanhueza, RMV, Scarlett, K, Shouche, YS, Shuttleworth, LA, Taylor, PWJ, Thorn, RG, Vawdrey, LL, Solano-Vidal, R, Voitk, A, Wong, PTW, Wood, AR, Zamora, JC, Groenewald, JZ, Crous, PW, Wingfield, MJ, Le Roux, JJ, Richardson, DM, Strasberg, D, Shivas, RG, Alvarado, P, Edwards, J, Moreno, G, Sharma, R, Sonawane, MS, Tan, YP, Altes, A, Barasubiye, T, Barnes, CW, Blanchette, RA, Boertmann, D, Bogo, A, Carlavilla, JR, Cheewangkoon, R, Daniel, R, de Beer, ZW, de Jesus Yanez-Morales, M, Duong, TA, Fernandez-Vicente, J, Geering, ADW, Guest, DI, Held, BW, Heykoop, M, Hubka, V, Ismail, AM, Kajale, SC, Khemmuk, W, Kolarik, M, Kurli, R, Lebeuf, R, Levesque, CA, Lombard, L, Magista, D, Manjon, JL, Marincowitz, S, Mohedano, JM, Novakova, A, Oberlies, NH, Otto, EC, Paguigan, ND, Pascoe, IG, Perez-Butron, JL, Perrone, G, Rahi, P, Raja, HA, Rintoul, T, Sanhueza, RMV, Scarlett, K, Shouche, YS, Shuttleworth, LA, Taylor, PWJ, Thorn, RG, Vawdrey, LL, Solano-Vidal, R, Voitk, A, Wong, PTW, Wood, AR, Zamora, JC, and Groenewald, JZ
- Abstract
Novel species of fungi described in the present study include the following from Australia: Neoseptorioides eucalypti gen. & sp. nov. from Eucalyptus radiata leaves, Phytophthora gondwanensis from soil, Diaporthe tulliensis from rotted stem ends of Theobroma cacao fruit, Diaporthe vawdreyi from fruit rot of Psidium guajava, Magnaporthiopsis agrostidis from rotted roots of Agrostis stolonifera and Semifissispora natalis from Eucalyptus leaf litter. Furthermore, Neopestalotiopsis egyptiaca is described from Mangifera indica leaves (Egypt), Roussoella mexicana from Coffea arabica leaves (Mexico), Calonectria monticola from soil (Thailand), Hygrocybe jackmanii from littoral sand dunes (Canada), Lindgomyces madisonensis from submerged decorticated wood (USA), Neofabraea brasiliensis from Malus domestica (Brazil), Geastrum diosiae from litter (Argentina), Ganoderma wiiroense on angiosperms (Ghana), Arthrinium gutiae from the gut of a grasshopper (India), Pyrenochaeta telephoni from the screen of a mobile phone (India) and Xenoleptographium phialoconidium gen. & sp. nov. on exposed xylem tissues of Gmelina arborea (Indonesia). Several novelties are introduced from Spain, namely Psathyrella complutensis on loamy soil, Chlorophyllum lusitanicum on nitrified grasslands (incl. Chlorophyllum arizonicum comb. nov.), Aspergillus citocrescens from cave sediment and Lotinia verna gen. & sp. nov. from muddy soil. Novel foliicolous taxa from South Africa include Phyllosticta carissicola from Carissa macrocarpa, Pseudopyricularia hagahagae from Cyperaceae and Zeloasperisporium searsiae from Searsia chirindensis. Furthermore, Neophaeococcomyces is introduced as a novel genus, with two new combinations, N. aloes and N. catenatus. Several foliicolous novelties are recorded from La Réunion, France, namely Ochroconis pandanicola from Pandanus utilis, Neosulcatispora agaves gen. & sp. nov. from Agave vera-cruz, Pilidium eucalyptorum from Eucalyptus robusta, Strelitziana syzygii from Syzygiu
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- 2015
34. Pruning quality affects infection of Acacia mangium and A. crassicarpa by Ceratocystis acaciivora and Lasiodiplodia theobromae
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Tarigan, M, Wingfield, MJ, van Wyk, M, Tjahjono, B, and Roux, J
- Abstract
Pruning (singling) is a common silvicultural practice in commercial Acacia plantations because these trees tend to have multiple stems. The wounds resulting from pruning are susceptible to infection by pathogens. Ceratocystis acaciivora and Lasiodiplodia theobromae have been shown recently to be important pathogens of A. mangium in Indonesia, where they are commonly associated with wounds on trees. The aim of this study was to determine the impact of different wound types on infection of A. mangium and A. crassicarpa by these two pathogens. Isolates of C. acaciivora and L. theobromae, found to be the most pathogenic in a prior study, were used to inoculate pruning wounds. Results showed that pruning conducted in a manner to reduce stem damage, resulted in lower levels of fungal infection. Where pruning resulted in tearing of the bark, there were higher levels of infection and disease occurred even without artificial inoculation. Inoculation of pruning wounds with C. acaciivora and L. theobromae showed that both fungi have the potential to cause disease. However, C. acaciivora was most virulent. Results of this study showed conclusively that careful pruning will result in lower levels of disease in young A. mangium and A. crassicarpa plantations.Keywords: Botryosphaeriaceae, Ceratocystis, disease management, silviculture, wound-infecting pathogensSouthern Forests 2011, 73(3&4): 187–191
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- 2012
35. Lasiodiplodia species associated with dying Euphorbia ingens in South Africa
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van der Linde, JA, Six, DL, Wingfield, MJ, and Roux, J
- Abstract
Various species of Euphorbia occur in South Africa, including herbaceous, succulent and woody types. The largest of the succulent Euphorbia spp. in South Africa is Euphorbia ingens. These trees have been dying at an alarming rate in the Limpopo province during the course of the last 15 years. Investigations into the possible causes of the death have included the possible role of fungal pathogens. Amongst the fungi isolated from diseased trees were species in the Botryosphaeriaceae. The aim of this study was to identify these fungi using morphology and DNA sequence data of two gene regions (TEF 1-α and ITS). Results showed that Lasiodiplodia theobromae and L. mahajangana were present, representing the first report of Lasiodiplodia species on a succulent Euphorbia species. Pathogenicity studies showed that these Lasiodiplodia species can cause infections on healthy E. ingens trees, implicating them as contributors to the decline of E. ingens.Keywords: Botryosphaeriaceae, candelabra trees, climate change, insect infestations, tree diseasesSouthern Forests 2011, 73(3&4): 165–173
- Published
- 2012
36. A single dominant Ganoderma species is responsible for root rot of Acacia mangium and Eucalyptus in Sumatra
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Coetzee, MPA, Wingfield, BD, Golani, GD, Tjahjono, B, Gafur, A, and Wingfield, MJ
- Abstract
Ganoderma root rot is the most serious disease affecting commercially planted Acacia mangium in plantations in Indonesia. Numerous Ganoderma spp. have been recorded from diseased trees of this species and to a lesser extent Eucalyptus, causing confusion regarding the primary cause of the disease. In this study, a large collection of Ganoderma isolates were obtained from the roots of A. mangium showing early signs of root rot in disease centres in South Sumatra plantations. Isolates were also collected from Eucalyptus roots at Lake Toba in North Sumatra showing similar symptoms as well as from sporocarps connected to these samples. Phylogenetic analyses showed that a single Ganoderma sp., identified as G. philippii, is the major causal agent of Ganoderma root rot on A. mangium. Results from this study also showed that the isolates obtained for Eucalyptus trees in North Sumatra belong to G. philippii. Isolates from roots and connected fruiting bodies together with the morphology of the fruiting structures confirmed this identification. Symptoms associated with this pathogen are obvious and it should not be confused with other diseases. Other Ganoderma spp. found in disease centres are considered to be of minor importance and management strategies for root rot should be focused on G. philippii.Keywords: Acacia mangium, Eucalyptus, Ganoderma philippii, Ganoderma root rot, IndonesiaSouthern Forests 2011, 73(3&4): 175–180
- Published
- 2012
37. The pitch canker fungus, Fusarium circinatum: implications for South African forestry
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Mitchell, RG, Steenkamp, ET, Coutinho, TA, and Wingfield, MJ
- Abstract
Fusarium circinatum, the causal agent of pitch canker of mature pines and root/collar rot of pine seedlings/cuttings, has resulted in large-scale losses to pine forestry in various parts of the world. The disease caused by this fungus is now regarded as one of the most important threats to pine plantations by a pathogen. Fusarium circinatum was first discovered in South Africa in 1990 where it infected Pinus patula seedlings in a nursery. Subsequently, the pathogen spread to pine nurseries in all other parts of the country, where it affects several Pinus species. Fusarium circinatum then appeared in the field where it has resulted in large-scale mortality of mostly young P. patula seedlings after planting. Pitch canker first appeared on mature P. radiata in 2006 and sporadic outbreaks of the disease have occurred subsequently on this species and on P. greggii in the western, southern and north-eastern Cape. Pinus patula is the most important softwood species grown in South Africa, comprising 50% of all softwoods planted, and is highly susceptible to F. circinatum. The pathogen, therefore, poses a potentially devastating threat to the future sustainability of the South African softwood industry. Strategic measures to minimise further spread are urgently needed. This review presents an overview of the impact that F. circinatum has had on South African forestry, and it considers the long-term prospects for pine forestry in the country as this relates to the presence of the pitch canker fungus.Keywords: disease management, economic impact, host tolerance, Pinus patula, South AfricaSouthern Forests 2011, 73(1): 1–13
- Published
- 2011
38. Comparison of procedures to evaluate the pathogenicity of Ceratocystis fimbriata sensu lato isolates from Eucalyptus in South Africa
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van Wyk, M, Heath, RN, Tarigan, M, Vermeulen, M, and Wingfield, MJ
- Abstract
Ceratocystis fimbriata sensu lato(s.l.) is an important pathogen of Eucalyptus. Pathogenicity of isolates has typically been evaluated by inoculating seedlings under greenhouse conditions. It is, however, not clear how accurately this reflects pathogenicity under field conditions. In this study, five techniques to potentially screen C. fimbriata isolates for their relative pathogenicity to Eucalyptus were compared. These included: in vitro growth comparisons on artificial media; inoculations on apples; inoculation on Eucalyptus seedlings in a greenhouse; inoculations on Eucalyptus bolts freshly cut from stems of young trees; and field inoculations on young trees. Eight isolates of C. fimbriata s.l. collected from various areas in South Africa were used. There was considerable variation in growth in culture and aggressiveness of the eight isolates. Field inoculations on young trees were best correlated with inoculations of bolts (r = 0.76). Lower correlation coefficients were obtained with seedlings (r = 0.59), apple inoculations (r = 0.56), and in vitro colony growth (r = 0.42). Inoculation of bolts provides a rapid and reliable method to screen isolates of C. fimbriata s.l. for pathogenicity to Eucalyptus. Southern Forests 2010, 72(2): 56–61
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- 2010
39. Fungal Planet description sheets: 214-280
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Universitat Rovira i Virgili, Crous PW; Shivas RG; Quaedvlieg W; van der Bank M; Zhang Y; Summerell BA; Guarro J; Wingfield MJ; Wood AR; Alfenas AC; Braun U; Cano-Lira JF; García D; Marin-Felix Y; Alvarado P; Andrade JP; Armengol J; Assefa A; den Breeÿen A; Camele I; Cheewangkoon R; De Souza JT; Duong TA; Esteve-Raventós F; Fournier J; Frisullo S; García-Jiménez J; Gardiennet A; Gené J; Hernández-Restrepo M; Hirooka Y; Hospenthal DR; King A; Lechat C; Lombard L; Mang SM; Marbach PAS; Marincowitz S; Montaño-Mata NJ, Universitat Rovira i Virgili, and Crous PW; Shivas RG; Quaedvlieg W; van der Bank M; Zhang Y; Summerell BA; Guarro J; Wingfield MJ; Wood AR; Alfenas AC; Braun U; Cano-Lira JF; García D; Marin-Felix Y; Alvarado P; Andrade JP; Armengol J; Assefa A; den Breeÿen A; Camele I; Cheewangkoon R; De Souza JT; Duong TA; Esteve-Raventós F; Fournier J; Frisullo S; García-Jiménez J; Gardiennet A; Gené J; Hernández-Restrepo M; Hirooka Y; Hospenthal DR; King A; Lechat C; Lombard L; Mang SM; Marbach PAS; Marincowitz S; Montaño-Mata NJ
- Abstract
Novel species of microfungi described in the present study include the following from South Africa: Cercosporella dolichandrae from Dolichandra unguiscati, Seiridium podocarpi from Podocarpus latifolius, Pseudocercospora parapseudarthriae from Pseudarthria hookeri, Neodevriesia coryneliae from Corynelia uberata on leaves of Afrocarpus falcatus, Ramichloridium eucleae from Euclea undulata and Stachybotrys aloeticola from Aloe sp. (South Africa), as novel member of the Stachybotriaceae fam. nov. Several species were also described from Zambia, and these include Chaetomella zambiensis on unknown Fabaceae, Schizoparme pseudogranati from Terminalia stuhlmannii, Diaporthe isoberliniae from Isoberlinia angolensis, Peyronellaea combreti from Combretum mossambiciensis, Zasmidium rothmanniae and Phaeococcomyces rothmanniae from Rothmannia engleriana, Diaporthe vangueriae from Vangueria infausta and Diaporthe parapterocarpi from Pterocarpus brenanii. Novel species from the Netherlands include: Stagonospora trichophoricola, Keissleriella trichophoricola and Dinemasporium trichophoricola from Trichophorum cespitosum, Phaeosphaeria poae, Keissleriella poagena, Phaeosphaeria poagena, Parastagonospora poagena and Pyrenochaetopsis poae from Poa sp., Septoriella oudemansii from Phragmites australis and Dendryphion europaeum from Hedera helix (Germany) and Heracleum sphondylium (the Netherlands). Novel species from Australia include: Anungitea eucalyptorum from Eucalyptus leaf litter, Beltraniopsis neolitseae and Acrodontium neolitseae from Neolitsea australiensis, Beltraniella endiandrae from Endiandra introrsa, Phaeophleospora parsoniae from Parsonia straminea, Penicillifer martinii from Cynodon dactylon, Ochroconis macrozamiae from Macrozamia leaf litter, Triposporium cycadicola, Circi
- Published
- 2014
40. A diverse assemblage of Botryosphaeriaceae infect Eucalyptus in native and non-native environments
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Slippers, B, Burgess, T, Pavlic, D, Ahumada, R, Maleme, H, Mohali, S, Rodas, C, and Wingfield, MJ
- Abstract
The Botryosphaeriaceae cause endophytic infections of leaves and bark of various trees, including Eucalyptus, and they apparently persist in this state for extended periods of time. Under conditions of stress, these fungi cause many different disease symptoms on Eucalyptus, of which stem and branch cankers and die-back are the most prominent. Given their cryptic, endophytic nature, the Botryosphaeriaceae are easily overlooked when moving seeds and plants around the world. It is, therefore, not surprising to see a growing number of examples of introductions of Botryosphaeriaceae into new environments. In the past, three species were commonly reported from Eucalyptus, namely Botryosphaeria dothidea, Neofusicoccum ribis (reported as B. ribis) and Lasiodiplodia theobromae. It is now known that B. dothidea and N. ribis are generally rare on Eucalyptus, and that Aplosporella yalgorensis, B. mamane, N. parvum, N. eucalyptorum, N. eucalypticola, N. australe, N. macroclavatum, N. andinum, N. mangiferum, Dichomera eucalypti, Dichomera versiformis, Fusicoccum ramosum, Pseudofusicoccum stromaticum, P. adansoniae, P. ardesiarum, P. kimberleyense, Lasiodiplodia crassispora, L. gonubiensis, L. pseudotheobromae and L. rubropurpurea also infect this host. Interestingly, different species dominate on Eucalyptus in different regions of the world, irrespective of whether other species occur in that environment or not. As examples, in parts of eastern Australia, N. eucalyptorum and N. eucalypticola dominate, although N. australe is common on Acacia spp. in this area, while in Western Australia N. australe dominates. In South Africa and Chile N. parvum, N eucalyptorum and N. eucalypticola are common, despite the presence of N. ribis and N. australe on related hosts such as Syzygium. In Venezuela, there are five other species not common on Eucalyptus elsewhere, but L. theobromae dominates. In Colombia, B. dothidea and N. ribis, and in Uganda and Ethiopia, L. theobromae and N. parvum, are most common. These fascinating patterns of distribution are explored, while their pathogenicity and potential influence on Eucalyptus plantations and surrounding native plant communities are considered. Southern Forests 2009, 71(2): 101–110
- Published
- 2009
41. Ceratocystis species: emerging pathogens of non-native plantation Eucalyptus and Acacia species
- Author
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Roux, J and Wingfield, MJ
- Abstract
The fungal genus Ceratocystis includes many economically important tree pathogens. Until the 1980s, this genus of plant pathogens was not known from non-native plantation-grown forestry species. However, during the course of the last 20 years, a number of reports have been made of Ceratocystis spp. causing death of non-native plantation-grown forestry species from several locations worldwide. Affected trees include both Australian Acacia spp. and Eucalyptus spp. The first report of disease caused by a Ceratocystis sp. on Eucalyptus was made less than 10 years ago from Central Africa and, shortly thereafter, the disease was reported from Brazil. Subsequently, a number of other reports of Ceratocystis diseases have emerged from Africa, South America and Asia. These diseases are characterised by rapid wilt and death of trees and they have been reported to affect coppice stems as well as mature trees. In many cases, infection is associated with pruning wounds or other mechanical damage. The causal agent has been reported as Ceratocystis fimbriata s.l., but the Eucalyptus pathogen most likely represents a number of previously undescribed species. Ceratocystis spp. are vectored by wood- and bark-associated insects and typically those that visit fresh wounds, which act as infection courts. The fungi infect woody tissue and produce fruity aromas, which are attractive to insects. In this way, they can easily spread between countries and continents, thus posing a considerable quarantine threat. The biology of Ceratocystis spp. is such that diseases caused by this group of fungi are likely to become more common in the future. Southern Forests 2009, 71(2): 115–120
- Published
- 2009
42. Quambalaria species: increasing threat to eucalypt plantations in Australia
- Author
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Pegg, GS, Carnegie, AJ, Wingfield, MJ, and Drenth, A
- Abstract
Spotted gum Corymbia citriodora subsp . variegata and C. maculata) is a valuable source of commercial timber and suitable for a wide range of different soil types in eastern Australia. The main biological constraint to further expansion of spottedgum plantations is Quambalaria shoot blight caused by the fungus Quambalaria pitereka. Surveys conducted to evaluate the impact of Quambalaria shoot blight have shown that the disease is present in all spotted gum plantations and on a range of Corymbia species and hybrids in subtropical and tropical regions surveyed in eastern Australia. More recently, Q. eucalypti has also been identified from a range of Eucalyptus species in these regions. Both pathogens have also been found associated with foliage blight and die-back of amenity trees and Q. pitereka in native stands of Corymbia species, which is the probable initial infection source for plantations. Infection by Q. pitereka commonly results in the repeated destruction of the growing tips and the subsequent formation of a bushy crown or death of trees in severe cases. In comparison, Q. eucalypti causes small, limited lesions and has in some cases been associated with insect feeding. It has not been recorded as causing severe shoot and stem blight. A better understanding of factors influencing disease development and host–pathogen interactions is essential in the development of a disease management strategy for these poorly understood but important pathogens in the rapidly expanding eucalypt (Corymbia and Eucalyptus spp.) plantation industry in subtropical and tropical eastern Australia. Southern Forests 2009, 71(2): 111–114
- Published
- 2009
43. Fungal planet description sheets: 154-213
- Author
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Universitat Rovira i Virgili, Crous PW; Wingfield MJ; Guarro J; Cheewangkoon R; van der Bank M; Swart WJ; Stchigel AM; Cano-Lira JF; Roux J; Madrid H; Damm U; Wood AR; Shuttleworth LA; Hodges CS; Munster M; de jesús yáñez-Morales M; Zúñiga-Estrada L; Cruywagen EM; de Hoog GS; Silvera C; Najafzadeh J; Davison EM; Davison PJN; Barrett MD; Barrett RL; Manamgoda DS; Minnis AM; Kleczewski NM; Flory SL; Castlebury LA; Clay K; Hyde KD; Maússe-Sitoe SND; Chen S; Lechat C; Hairaud M; Lesage-Meessen L; Pawłowska J; Wilk M; Śliwińska-Wyrzychowska A, Universitat Rovira i Virgili, and Crous PW; Wingfield MJ; Guarro J; Cheewangkoon R; van der Bank M; Swart WJ; Stchigel AM; Cano-Lira JF; Roux J; Madrid H; Damm U; Wood AR; Shuttleworth LA; Hodges CS; Munster M; de jesús yáñez-Morales M; Zúñiga-Estrada L; Cruywagen EM; de Hoog GS; Silvera C; Najafzadeh J; Davison EM; Davison PJN; Barrett MD; Barrett RL; Manamgoda DS; Minnis AM; Kleczewski NM; Flory SL; Castlebury LA; Clay K; Hyde KD; Maússe-Sitoe SND; Chen S; Lechat C; Hairaud M; Lesage-Meessen L; Pawłowska J; Wilk M; Śliwińska-Wyrzychowska A
- Abstract
Novel species of microfungi described in the present study include the following from South Africa: Camarosporium aloes, Phaeococcomyces aloes and Phoma aloes from Aloe, C. psoraleae, Diaporthe psoraleae and D. psoraleae-pinnatae from Psoralea, Colletotrichum euphorbiae from Euphorbia, Coniothyrium prosopidis and Peyronellaea prosopidis from Prosopis, Diaporthe cassines from Cassine, D. diospyricola from Diospyros, Diaporthe maytenicola from Maytenus, Harknessia proteae from Protea, Neofusicoccum ursorum and N. cryptoaustrale from Eucalyptus, Ochrocladosporium adansoniae from Adansonia, Pilidium pseudoconcavum from Greyia radlkoferi, Stagonospora pseudopaludosa from Phragmites and Toxicocladosporium ficiniae from Ficinia. Several species were also described from Thailand, namely: Chaetopsina pini and C. pinicola from Pinus spp., Myrmecridium thailandicum from reed litter, Passalora pseudotithoniae from Tithonia, Pallidocercospora ventilago from Ventilago, Pyricularia bothriochloae from Bothriochloa and Sphaerulina rhododendricola from Rhododendron. Novelties from Spain include Cladophialophora multiseptata, Knufia tsunedae and Pleuroascus rectipilus from soil and Cyphellophora catalaunica from river sediments. Species from the USA include Bipolaris drechsleri from Microstegium, Calonectria blephiliae from Blephilia, Kellermania macrospora (epitype) and K. pseudoyuccigena from Yucca. Three new species are described from Mexico, namely Neophaeosphaeria agaves and K. agaves from Agave and Phytophthora ipomoeae from Ipomoea. Other African species include Calonectria mossambicensis from Eucalyptus (Mozambique), Harzia cameroonensis from an unknown creeper (Cameroon), Mastigosporella anisophylleae from Anisophyllea (Zambia) and Teratosphaeria terminaliae from Terminalia (Zimb
- Published
- 2013
44. Potential ofPhytophthora pinifoliato spread via sawn green lumber: a preliminary investigation
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Ahumada, R, primary, Rotella, A, additional, Slippers, B, additional, and Wingfield, MJ, additional
- Published
- 2012
- Full Text
- View/download PDF
45. Future outlook forPinus patulain South Africa in the presence of the pitch canker fungus (Fusarium circinatum)
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Mitchell, RG, primary, Coutinho, TA, additional, Steenkamp, E, additional, Herbert, M, additional, and Wingfield, MJ, additional
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- 2012
- Full Text
- View/download PDF
46. Tolerance ofPinus patulafull-sib families toFusarium circinatumin a greenhouse study
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Mitchell, RG, primary, Wingfield, MJ, additional, Steenkamp, ET, additional, and Coutinho, TA, additional
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- 2012
- Full Text
- View/download PDF
47. The pitch canker fungus,Fusarium circinatum: implications for South African forestry
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Mitchell, RG, primary, Steenkamp, ET, additional, Coutinho, TA, additional, and Wingfield, MJ, additional
- Published
- 2011
- Full Text
- View/download PDF
48. A diverse assemblage of Botryosphaeriaceae infectEucalyptusin native and non-native environments
- Author
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Slippers, B, primary, Burgess, T, additional, Pavlic, D, additional, Ahumada, R, additional, Maleme, H, additional, Mohali, S, additional, Rodas, C, additional, and Wingfield, MJ, additional
- Published
- 2009
- Full Text
- View/download PDF
49. Quambalariaspecies: increasing threat to eucalypt plantations in Australia
- Author
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Pegg, GS, primary, Carnegie, AJ, additional, Wingfield, MJ, additional, and Drenth, A, additional
- Published
- 2009
- Full Text
- View/download PDF
50. Eucalypt pests and diseases: growing threats to plantation productivity
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Wingfield, MJ, primary, Slippers, B, additional, Hurley, BP, additional, Coutinho, TA, additional, Wingfield, BD, additional, and Roux, J, additional
- Published
- 2008
- Full Text
- View/download PDF
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