Publikasjoner
NIBIOs ansatte publiserer flere hundre vitenskapelige artikler og forskningsrapporter hvert år. Her finner du referanser og lenker til publikasjoner og andre forsknings- og formidlingsaktiviteter. Samlingen oppdateres løpende med både nytt og historisk materiale. For mer informasjon om NIBIOs publikasjoner, besøk NIBIOs bibliotek.
2007
Forfattere
Dag-Ragnar BlystadSammendrag
Foredraget fokuserte på nye funn av agurkgrønnmosaikkvirus i Norge i 2007. Viruset har ikke vært påvist siden 1983. Mulige smitteveier og aktuelle bekjempelsestiltak ble diskutert.
Forfattere
Dag-Ragnar BlystadSammendrag
Orinetering om mulighetene for vintertest for virus i Norge
Forfattere
Dag-Ragnar BlystadSammendrag
Det er ikke registrert sammendrag
Forfattere
Dag-Ragnar BlystadSammendrag
Kort orientering om hva Bioforsk kan gjøre av vintertesting for virus høsten 2007
Forfattere
Dag-Ragnar BlystadSammendrag
Bringebær er det av bærslagene våre som er mest utsatt for virusproblemer. Det skyldes både at vi har mye villbringebær som fungerer som reservoar for virus og vektorer og at bringebær står lenge i feltet. Bringebær kan infiseres av forskjellige virus med forskjellig spredningsmåte: jordboende, nematodeoverførte virus; bladlusoverførte virus og pollenoverførte virus. Det viktigste bekjempelsestiltaket er å starte med friskt plantemateriale.
Forfattere
Dag-Ragnar BlystadSammendrag
Orinetering om aktuelle karanteneskadegjørere av virus og viroider
Sammendrag
Cereal cyst nematodes, Heterodera spp., are known world wide as parasites of cereals and grasses. Surveys in Norway have revealed that nematodes belonging to the H. avenae complex occur throughout the country. The cereal cyst nematode species so far recorded in Norway are H. avenae, H. filipjevi, H. pratensis, H. bifenestra and H. hordecalis. Within H. avenae the pathotypes, Ha 11 and Ha 12, "Ha- Knislinge", "Ha- Ringsåsen" and "Ha- Våxtorp" have been encountered. H. filipjevi is represented by the pathotype "West" HfW (Holgado et al., 2007). In cereals, peaks in cyst nematode populations and damage occur every 20-30 years, and seem to occur simultaneously throughout the Scandinavian Peninsula. We do not have reliable information on the mechanisms behind these wide spread fluctuations. Crop rotation and the use of cultivars with resistance are important measures for controlling cereal cyst nematodes, but require detailed information on the occurrence and density of species and pathotypes in the fields (Holgado & Andersson 2005, Holgado et al. 2005, 2006ab). In field soils Ha 11,/12, "Ha-Våxtorp" is often found together with HfW. Resistant cultivars are normally resistant to only one of two species or pathotypes in mixed field populations. Consequently the use of resistant cultivars will lead to an increase of the nematode species or pathotype capable of reproduction, which results in peaks of damage distributed in time. Failure in recognizing the time span of this dynamic may leave the farmer without access to appropriate cultivars when damage occurs. Different species and pathotypes of cyst nematodes may occur simultaneously on the same plant root (Holgado & Magnusson, 2007). This would be an unlikely event without mechanisms reducing competition. Differences in temporal, spatial and physiological niche dimensions between species would support diversity. A better knowledge of key-differences in niche parameters of cereal cyst nematode species would allow for an active management of specific populations, and stabilize their population densities at levels below the threshold of economic damage. Management of niches is management of diversity, and this would allow for an optimal selection of cultivars. In this way the unexpected peaks in cereal damage can be avoided to the benefit of a more stable and sustainable production. The dynamics and principles of coexistence of species in mixed populations need a stronger emphasis in management systems for cereal cyst nematodes.
Sammendrag
Cereal cyst nematodes, Heterodera spp., are known world wide as parasites of cereals and grasses. Surveys in Norway have revealed that nematodes belonging to the H. avenae complex occur throughout the country. The cereal cyst nematode species so far recorded in Norway are H. avenae, H. filipjevi, H. pratensis, H. bifenestra and H. hordecalis. Within H. avenae the pathotypes, Ha 11 and Ha 12, "Ha- Knislinge", "Ha- Ringsåsen" and "Ha- Våxtorp" have been encountered. H. filipjevi is represented by the pathotype "West" HfW (Holgado et al., 2007). In cereals, peaks in cyst nematode populations and damage occur every 20-30 years, and seem to occur simultaneously throughout the Scandinavian Peninsula. We do not have reliable information on the mechanisms behind these wide spread fluctuations. Crop rotation and the use of cultivars with resistance are important measures for controlling cereal cyst nematodes, but require detailed information on the occurrence and density of species and pathotypes in the fields (Holgado & Andersson 2005, Holgado et al. 2005, 2006ab). In field soils Ha 11,/12, "Ha-Våxtorp" is often found together with HfW. Resistant cultivars are normally resistant to only one of two species or pathotypes in mixed field populations. Consequently the use of resistant cultivars will lead to an increase of the nematode species or pathotype capable of reproduction, which results in peaks of damage distributed in time. Failure in recognizing the time span of this dynamic may leave the farmer without access to appropriate cultivars when damage occurs. Different species and pathotypes of cyst nematodes may occur simultaneously on the same plant root (Holgado & Magnusson, 2007). This would be an unlikely event without mechanisms reducing competition. Differences in temporal, spatial and physiological niche dimensions between species would support diversity. A better knowledge of key-differences in niche parameters of cereal cyst nematode species would allow for an active management of specific populations, and stabilize their population densities at levels below the threshold of economic damage. Management of niches is management of diversity, and this would allow for an optimal selection of cultivars. In this way the unexpected peaks in cereal damage can be avoided to the benefit of a more stable and sustainable production. The dynamics and principles of coexistence of species in mixed populations need a stronger emphasis in management systems for cereal cyst nematodes.
Sammendrag
Planteparasittære nematoder (rundormer) lever i jord og planter. Nematodene er av mikroskopisk størrelse, og noen arter fremkaller alvorlige skader på kulturplantene ved å suge på røtter og andre plantedeler. Korn kan skades alvorlig av nematodeangrep. Nyere studier viser et stort mangfold av korncystenematoder (Holgado et al., 2004). Vanlige arter og raser i Norge er H. avenae (Ha 11, Ha 12 og Ha Våxtorp) og rugcystenematoden H. filipjevi (rase Vest), mens artene H. pratensis, H. bifenestra og H. hordecalis er mindre hyppig forekommende (Holgado et al., 2007). Vi vet i dag alt for lite om de forandringer på artsnivå som ligger bak disse langsiktige populasjonsbølgene og skadene.
Sammendrag
Snegler har vært det store samtaleemnet på Hageselskapets nettprat i sommer. En kjølig og ikke minst fuktig sommer i sør, har ført til at snegleplagen nærmest har eksplodert mange steder i landet. Artikkelen er i form av et intervju av Arild Andertsen og Solveig Haukeland om snegler og deres bekjempelse.