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.
2021
Forfattere
Marit Almvik Fengshou Dong Roger Holten Agnethe Christiansen Ole Martin Eklo Marianne Stenrød Yanbo LiSammendrag
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Sammendrag
Det er ikke registrert sammendrag
Sammendrag
Det er ikke registrert sammendrag
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Det er ikke registrert sammendrag
Sammendrag
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Forfattere
Gunnhild Jaastad Jorunn Børve Ingunn Øvsthus Tage Thorstensen Erik J. Joner Ivar PettersenSammendrag
Det er ikke registrert sammendrag
Sammendrag
Simple Summary The bird cherry-oat aphid and the fungal plant pathogen causing stagonospora nodorum blotch (SNB) are common pests of wheat. Plants are under constant attack by multiple pests and diseases but there are limited studies on the interaction between several pests on wheat. We therefore conducted controlled greenhouse and laboratory experiments to determine how these pests affected each other on a wheat plant. We found that aphid feeding predisposed wheat to fungal disease, but that aphids preferred and reproduced better on leaves that had not been infected by the fungal pathogen. These results are important to understand the interactions between multiple pests on wheat and how to develop new control strategies in future integrated pest management (IPM). Abstract Wheat plants are under constant attack by multiple pests and diseases. Until now, there are no studies on the interaction between the aphid Rhopalosiphum padi and the plant pathogenic fungus Parastagonospora nodorum causal agent of septoria nodorum blotch (SNB) on wheat. Controlled experiments were conducted to determine: (i) The preference and reproduction of aphids on P. nodorum inoculated and non-inoculated wheat plants and (ii) the effect of prior aphid infestation of wheat plants on SNB development. The preference and reproduction of aphids was determined by releasing female aphids on P. nodorum inoculated (SNB+) and non-inoculated (SNB−) wheat leaves. The effect of prior aphid infestation of wheat plants on SNB development was determined by inoculating P. nodorum on aphid-infested (Aphid+) and aphid free (Aphid−) wheat plants. Higher numbers of aphids moved to and settled on the healthy (SNB−) leaves than inoculated (SNB+) leaves, and reproduction was significantly higher on SNB− leaves than on SNB+ leaves. Aphid infestation of wheat plants predisposed the plants to P. nodorum infection and colonization. These results are important to understand the interactions between multiple pests in wheat and hence how to develop new strategies in future integrated pest management (IPM).
Forfattere
Kjell Wærnhus Therese With Berge Agnethe Christiansen Inger Sundheim Fløistad Wiktoria Kaczmarek-Derda Kirsten Tørresen Trygve S. AamlidSammendrag
I denne rapporten presenteres resultater fra biologisk veiledningsprøving av ugrasmidler i gras- og kløverfrøeng, vår- og høstkorn, åkerbønne, potet, blomkål, gulrot under plast og på friland, rotpersille og jordbær.
Forfattere
Live Lingaas Nesse Kristin Forfang Marianne Stenrød Jannice Schau Slettemeås Girum Tadesse Tessema Snorre Hagen Madeleine Norström Abdelhameed Elameen Gro Skøien Johannessen Marianne Sunde Marit Almvik Hans Geir EikenSammendrag
Denne studien ble utført på oppdrag fra Miljødirektoratet for å kartlegge antibiotikaresistens i terrestriske miljø basert på ulik eksponering av resistensdrivere. Hensikten var å få en mer helhetlig forståelse av miljøets rolle i utvikling og spredning av antibiotikaresistens. Totalt 644 prøver fra jord, rødkløver, snegler, mus/spissmus og meitemark ble samlet inn fra ulike miljøer i løpet av 2019-20 og analysert for forekomst av antibiotikaresistens, samt potensielle drivere som antibiotika, pesticider og tungmetaller i jord.
Sammendrag
In addition to the rapidly expanding field of using microalgae for food and feed, microalgae represent a tremendous potential for new bioactive compounds with health-promoting effects. One field where new therapeutics is needed is cancer therapy. As cancer therapy often cause severe side effects and loose effect due to development of drug resistance, new therapeutic agents are needed. Treating cancer by modulating the immune response using peptides has led to unprecedented responses in patients. In this review, we want to elucidate the potential for microalgae as a source of new peptides for possible use in cancer management. Among the limited studies on anti-cancer effects of peptides, positive results were found in a total of six different forms of cancer. The majority of studies have been performed with different strains of Chlorella, but effects have also been found using peptides from other species. This is also the case for peptides with immunomodulating effects and peptides with other health-promoting effects (e.g., role in cardiovascular diseases). However, the active peptide sequence has been determined in only half of the studies. In many cases, the microalga strain and the cultivation conditions used for producing the algae have not been reported. The low number of species that have been explored, as opposed to the large number of species available, is a clear indication that the potential for new discoveries is large. Additionally, the availability and cost-effectiveness of microalgae make them attractive in the search for bioactive peptides to prevent cancer.