Publications
NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.
2021
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Trygve S. Aamlid Anne Falk Øgaard Karin Juul Hesselsøe T. Krogstad M. Woods Yajun Chen K. Sintorn S Nilsson N. Dokkuma K. Donkers Wolfgang PrämassingAbstract
STERF Research and Development Yearbook 2020
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Tatsiana Espevig Trygve S. Aamlid Karin Normann Marina Usoltseva Åslög Dahl Jo Anne Crouch Kate EntwistleAbstract
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Hans Martin Hanslin Ellen Johanne Svalheim Harald Bratli J. Wissmann Geir Kjølberg Knudsen J. Kollmann Trygve S. AamlidAbstract
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Denne rapporten gir resultater fra første år i prosjektet ‘ROBO-GOLF: Bedre gresskvalitet, redusert gjødselkostnad og mindre bruk av fossil energi ved bruk av robotklipper på fairway og semi-rough’ I arbeidspakke (WP) 1 ble forsøk med sammenlikning av robotklipper og manuell klipper (sylinder-klipper på fairway, 15 mm klippehøyde; rotorklipper på semi-rough, 35 mm klippehøyde) til ulike grasarter anlagt på NIBIO Landvik i 2020. Foreløpige resultater fra perioden 11.august - 30.oktober 2020 (etter at grasdekket var etablert) viste bedre helhetsinntrykk med robotklipping enn med manuell klipping på fairway, spesielt i engkvein (Agrostis capillaris) som ble mindre angrepet av mikrodochiumflekk. På semi-rough var derimot skuddtettheten mindre og bladbredden større, og engrapp (Poa pratensis) ble mer invadert av tunrapp og mer angrepet av rust ved robotklipping enn ved manuell klipping.
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Tatsiana Espevig Kristine Sundsdal Trygve S. Aamlid Jo Anne Crouch Karin Normann Marina Usoltseva Kate Entwistle Torfinn Torp May Bente BrurbergAbstract
Dollar spot, caused by at least five Clarireedia species (formerly Sclerotinia homoeocarpa F. T. Benn.), is one of the economically most important turfgrass diseases worldwide. The disease was detected for the first time in Scandinavia in 2013. There is no available information from Scandinavian variety trials on resistance to dollar spot in turfgrass species and cultivars (http://www.scanturf.org/). Our in vitro screening (in glass vials) of nine turfgrass species comprising a total of 20 cultivars showed that on average for ten Clarireedia isolates of different origin, the ranking for dollar spot resistance in turfgrass species commonly found on Scandinavian golf courses was as follows: perennial ryegrass = slender creeping red fescue > strong creeping red fescue > Kentucky bluegrass = velvet bentgrass > colonial bentgrass = Chewings fescue ≥ creeping bentgrass = annual bluegrass. Significant differences in aggressiveness among Clarireedia isolates of different origin were found in all turfgrass species except annual bluegrass (cv. Two Putt). The U.S. C. jacksonii isolate MB-01 and Canadian isolate SH44 were more aggressive than C. jacksonii isolates from Denmark and Sweden (14.10.DK, 14.15.SE, and 14.16.SE) in velvet bentgrass and creeping bentgrass. The Swedish isolate 14.112.SE was generally more aggressive than 14.12.NO despite the fact that they most likely belong to the same Clarireedia sp. The U.S. C. monteithiana isolate RB-19 had similar aggressiveness as the Scandinavian C. jacksonii isolates, but was less aggressive than two U.S. C. jacksonii isolates MB-01 and SH44. Thus, aggressiveness of Clarireedia isolates was more impacted by their geographic origin and less by species of the isolate and/or the host turfgrass species.