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| Crous, P.W.; Wingfield, M.J.; Burgess, , T.I.; Hardy, G.E.St.J.; Barber, P.A.; Alvarado,, P.; Barnes, C.W.; Buchanan, P.K.; Heykoop, M.; Moreno, G.; Vabeikhokhei, J.M.C.; Diepeningen, A.D. van; Hoa, N. van; Tri, M. van; Wiederhold, N.P.; Wrzosek, M.; Zothanzama, J.; Groenewald, J.Z.; Thangavel, R.; Spuy, S. van der; Barili, A.; Barrett, S.; Cacciola, S.O.; Cano-Lira, J.F.; Crane, C.; Decock, C.; Gibertoni, T.B.; Guarro, J.; Guevara-Suarez, M.; Hubka, V.; Kolarík, M.; Lira, C.R.S.; Ordoñez, M.E.; Padamsee, M.; Ryvarden, L.; Soares, A.M.; Stchigel, A.M.; Sutton, D.A.; Vizzini, A.; Weir, B.S.; Acharya, K.; Aloi, F.; Baseia, I.G.; Blanchette, R.A.; Bordallo, J.J.; Bratek, Z.; Butler, T.; Cano-Canals, J.; Carlavilla, J.R.; Chander, J.; Cheewangkoon, R.; Cruz, R.H.S.F.; Silva, M. da; Dutta, A.K.; Ercole, E.; Escobio, V.; Esteve-Raventós, F.; Flores, F.A.; Gené, J.; Góis, J.S.; Haines, L.; Held, B.W.; Horta Jung, M.; Hosaka, K.; Jung, J.; Jurjević, Ž.; Kautman, V.; Kautmanova, I.; Kiyashko, A.A.; Kozanek, M.; Kubátová, A.; Lafourcade, M.; Spada, F. La; Latha, K.P.D.; Madrid, H.; Malysheva, E.F.; Manimohan, P.; Manjón, J.L.; Martín, M.P.; Mata, M.; Merényi, Z.; Morte, A.; Nagy, I.; Normand, A.-C.; Paloi, S.; Pattison, N.; Pawłowska, J.; Pereira, O.L.; Petterson, M.E.; Picillo, B.; Raj, K.N.A.; Roberts, A.; Rodríguez, A.; Rodríguez-Campo, F.J.; Romański, M.; Ruszkiewicz-Michalska, M.; Scanu, B.; Schena, L.; Semelbauer, M.; Sharma, R.; Shouche, Y.S.; Silva, V.; Staniaszek-Kik, M.; Stielow, J.B.; Tapia, C.; Taylor, P.W.J.; Toome-Heller, M.. |
| 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, Davidiellomyces australiensis (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... |
| Tipo: Article / Letter to the editor |
Palavras-chave: ITS nrDNA barcodes; LSU; Novel fungal species; Systematics. |
| Ano: 2017 |
URL: http://www.repository.naturalis.nl/record/631070 |
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| Jung, T.; Scanu, B.; Bakonyi, J.; Seress, D.; Kovács, G.M.; Durán, A.; Sanfuentes von Stowasser, E.; Schena, L.; Mosca, S.; Thu, P.Q.; Nguyen, C.M.; Fajardo, , S.; González, M.; Pérez-Sierra, A.; Rees, H.; Cravador, A.; Maia, C.; Horta Jung, M.. |
| During various surveys of Phytophthora diversity in Europe, Chile and Vietnam slow growing oomycete isolates were obtained from rhizosphere soil samples and small streams in natural and planted forest stands. Phylogenetic analyses of sequences from the nuclear ITS, LSU, β-tubulin and HSP90 loci and the mitochondrial cox1 and NADH1 genes revealed they belong to six new species of a new genus, officially described here as Nothophytophthora gen. nov., which clustered as sister group to Phytophthora. Nothophytophthora species share numerous morphological characters with Phytophthora: persistent (all Nothophytophthora spp.) and caducous (N. caduca, N. chlamydospora, N. valdiviana, N. vietnamensis) sporangia with variable shapes, internal differentiation of... |
| Tipo: Article / Letter to the editor |
Palavras-chave: Breeding system; Caducity; Evolution; Oomycetes; Peronosporaceae; Phylogeny. |
| Ano: 2017 |
URL: http://www.repository.naturalis.nl/record/635416 |
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| Jung, T.; Pérez-Sierra, A.; Durán, A.; Horta Jung, M.; Balci, Y.; Scanu, B.. |
| Most members of the oomycete genus Phytophthora are primary plant pathogens. Both soil- and airborne Phytophthora species are able to survive adverse environmental conditions with enduring resting structures, mainly sexual oospores, vegetative chlamydospores and hyphal aggregations. Soilborne Phytophthora species infect fine roots and the bark of suberized roots and the collar region with motile biflagellate zoospores released from sporangia during wet soil conditions. Airborne Phytophthora species infect leaves, shoots, fruits and bark of branches and stems with caducous sporangia produced during humid conditions on infected plant tissues and dispersed by rain and wind splash. During the past six decades, the number of previously unknown Phytophthora... |
| Tipo: Article / Letter to the editor |
Palavras-chave: Disease management; Epidemic; Forest dieback; Invasive pathogens; Nursery infestation; Root rot. |
| Ano: 2018 |
URL: http://www.repository.naturalis.nl/record/649734 |
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| Jung, T.; Jung, M.H.; Scanu, B.; Seress, D.; Kovács, G.M.; Maia, C.; Pérez-Sierra, A.; Chang, T.-T.; Chandelier, A.; Heungens, K.; Poucke, K. van; Abad-Campos, P.; Léon, M.; Cacciola, S.O.; Bakonyi, J.. |
| During a survey of Phytophthora diversity in natural ecosystems in Taiwan six new species were detected. Multigene phylogeny based on the nuclear ITS, ß-tubulin and HSP90 and the mitochondrial cox1 and NADH1 gene sequences demonstrated that they belong to ITS Clade 7a with P. europaea, P. uniformis, P. rubi and P. cambivora being their closest relatives. All six new species differed from each other and from related species by a unique combination of morphological characters, the breeding system, cardinal temperatures and growth rates. Four homothallic species, P. attenuata, P. flexuosa, P. formosa and P. intricata, were isolated from rhizosphere soil of healthy forests of Fagus hayatae, Quercus glandulifera, Q. tarokoensis, Castanopsis carlesii,... |
| Tipo: Article / Letter to the editor |
Palavras-chave: Biosecurity; Breeding systems; Evolution; Flow cytometry; Phylogeny; Phytophthora cambivora; Radiation. |
| Ano: 2017 |
URL: http://www.repository.naturalis.nl/record/618617 |
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