Publikasjoner
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2022
Forfattere
Guro BrodalSammendrag
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The genus Ceratocystiopsis (Ophiostomatales, Ascomycota) includes 21 species, which can be found mainly in association with bark beetles in the Northern Hemisphere. A survey of Ceratocystiopsis species associated with bark beetles infesting Picea abies and Pinus sylvestris in Norway yielded 126 isolates, representing Ceratocystiopsis neglecta and Ceratocystiopsis rollhanseniana, and four species described herein as Ceratocystiopsis chalcographii, Ceratocystiopsis debeeria, Ceratocystiopsis norroenii and Ceratocystiopsis troendelagii. The new taxa were morphologically characterised and phylogenetically analysed on the basis of sequence data of multiple loci (ITS, LSU, beta-tubulin (TUB2), calmodulin (CAL) and translation elongation factor 1-alpha (TEF1) genes). Ceratocystiopsis norroenii and C. rollhanseniana were the most frequently isolated species, and the latter species had the wider vector range.
Forfattere
Y. P. Tan S. L. Bishop-Hurley R. G. Shivas D.A. Cowan G. Maggs-Kölling Sajeewa S.N. Maharachchikumbura U. Pinruan K.L. Bransgrove S. De la Peña-Lastra E. Larsson T. Lebel S. Mahadevakumar A. Mateos E. R. Osieck A. Rigueiro-Rodríguez S. Sommai K. Ajithkumar A. Akulov F. E. Anderson F. Arenas S. Balashov Á. Bañares D.K. Berger M.V. Bianchinotti S. Bien P. Bilański A. G. Boxshall M. Bradshaw J. Broadbridge F.J.S. Calaça C. Campos-Quiroz J. Carrasco-Fernández J.F. Castro S. Chaimongkol S. Chandranayaka Y. Chen D. Comben J.D.W. Dearnaley A.S. Ferreira-Sá K. Dhileepan M.L. Diaz P.K. Divakar S. Xavier-Santos A. Fernández-Bravo J. Gené F.E. Guard M. Guerra S. Gunaseelan J. Houbraken K. Janik-Superson R. Jankowiak M. Jeppson Ž. Jurjević M. Kaliyaperumal L.A. Kelly K. Kezo A.N. Khalid P. Khamsuntorn D. Kidanemariam M. Kiran E. Lacey G.J. Langer L.V. López-Llorca J. J. Luangsa-ard P. Lueangjaroenkit H.T. Lumbsch J. G. Maciá-Vicente L.S. Mamatha Bhanu T.S. Marney J.E. Marqués-Gálvez A. Morte A. Naseer A. Navarro-Ródenas O. Oyedele S. Peters S. Piskorski L. Quijada G.H. Ramírez K. Raja A. Razzaq V.J. Rico A. Rodríguez M. Ruszkiewicz-Michalska R.M. Sánchez C. Santelices A.S. Savitha M. Serrano L. Leonardo-Silva Halvor Solheim S. Somrithipol M.Y. Sreenivasa H. Stępniewska D. Strapagiel T. Taylor D. Torres-Garcia J. Vauras M. Villarreal C.M Visagie M. Wołkowycki W. Yingkunchao E. Zapora J.Z. Groenewald P.W. CrousSammendrag
Novel species of fungi described in this study include those from various countries as follows: Argentina, Colletotrichum araujiae on leaves, stems and fruits of Araujia hortorum. Australia, Agaricus pateritonsus on soil, Curvularia fraserae on dying leaf of Bothriochloa insculpta, Curvularia millisiae from yellowing leaf tips of Cyperus aromaticus, Marasmius brunneolorobustus on well-rotted wood, Nigrospora cooperae from necrotic leaf of Heteropogon contortus, Penicillium tealii from the body of a dead spider, Pseudocercospora robertsiorum from leaf spots of Senna tora, Talaromyces atkinsoniae from gills of Marasmius crinis-equi and Zasmidium pearceae from leaf spots of Smilax glyciphylla. Brazil, Preussia bezerrensis fromair. Chile, Paraconiothyrium kelleni from the rhizosphere of Fragaria chiloensis subsp. chiloensis f. chiloensis. Finland, Inocybe udicola onsoilinmixedforest with Betula pendula, Populus tremula, Picea abies and Alnus incana. France, Myrmecridium normannianum on dead culm of unidentified Poaceae. Germany, Vexillomyces fraxinicola from symptomless stem wood of Fraxinus excelsior. India, Diaporthe limoniae on infected fruit of Limonia acidissima, Didymella naikii on leaves of Cajanus cajan, and Fulvifomes mangroviensis on basal trunk of Aegiceras corniculatum. Indonesia, Penicillium ezekielii from Zea mays kernels. Namibia, Neocamarosporium calicoremae and Neocladosporium calicoremae on stems of Calicorema capitata, and Pleiochaeta adenolobi on symptomatic leaves of Adenolobus pechuelii. Netherlands, Chalara pteridii on stems of Pteridium aquilinum, Neomackenziella juncicola (incl. Neomackenziella gen. nov.)and Sporidesmiella junci from dead culms of Juncus effusus. Pakistan, Inocybe longistipitata on soil in a Quercus forest. Poland, Phytophthora viadrina from rhizosphere soil of Quercus robur, and Septoria krystynae on leaf spots of Viscum album. Portugal (Azores), Acrogenospora stellata on dead wood or bark. South Africa, Phyllactinia greyiae on leaves of Greyia sutherlandii and Punctelia anae on bark of Vachellia karroo. Spain, Anteaglonium lusitanicum on decaying wood of Prunus lusitanica subsp. lusitanica, Hawksworthiomyces riparius from fluvial sediments, Lophiostoma carabassense endophytic in roots of Limbarda crithmoides, and Tuber mohedanoi from calcareussoils. Spain (Canary Islands), Mycena laurisilvae on stumps and woody debris. Sweden, Elaphomyces geminus from soil under Quercus robur. Thailand, Lactifluus chiangraiensis on soil under Pinus merkusii, Lactifluus nakhonphanomensis and Xerocomus sisongkhramensis on soil under Dipterocarpus trees. Ukraine, Valsonectria robiniae on dead twigs of Robinia hispida. USA, Spiralomyces americanus (incl. Spiralomyces gen. nov.) from office air. Morphological and culture characteristics are supported by DNA barcodes.
Sammendrag
Strawberry powdery mildew, caused by Podosphaera aphanis, can be particularly destructive in glasshouse and plastic tunnel production systems, which generally are constructed of materials that block ultraviolet (UV) solar radiation (about 280 to 400 nm). We compared epidemic progress in replicated plots in open fields and under tunnels constructed of polyethylene, which blocks nearly all solar UV-B, and two formulations of ethylene tetrafluoroethylene (ETFE), one of which contained a UV blocker and another that transmitted nearly 90% of solar UV-B. Disease severity under all plastics was higher than in open-field plots, indicating a generally more favorable environment in containment structures. However, the foliar severity of powdery mildew within the tunnels was inversely related to their UV transmissibility. Among the tunnels tested, incidence of fruit infection was highest under polyethylene and lowest under UV-transmitting ETFE. These effects probably transcend crop, and the blocking of solar UV transmission by glass and certain plastics probably contributes to the widely observed favorability of greenhouse and high-tunnel growing systems for powdery mildew.
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Skadedyr: I 2021 er det utført forsøk med skadedyrmidler i eple, pære, plomme, prydrogn og jordbær. Her er det testet ulike midler mot blodlus, teger, plommevikler, rognebærmøll og bladlus. I tillegg er det utført forsøk for å vurdere om feromon-forvirring kan brukes som planteverntiltak mot viklere i eple. Det er også undersøkt forekomst av sviskade på epleblad etter bruk av vegetabilsk olje. Sjukdommer: Det er utført forsøk med soppmidler i bygg, løk, gulrot og eple. I bygg er det testet ulike varslingsmodeller i VIPS mot byggbrunflekk. I løk er det testet ulike beisemidler. I gulrot er det utført forsøk mot gropflekk og mot ulike lager- og bladflekksjukdommer. I eple er det gjort forsøk for å finne nye midler mot lagersjukdommer.