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.
2026
Redaktører
Harald SolbergSammendrag
Denne boka, den 34. i rekken, inneholder som vanlig resultater fra forsøks- og utviklingsarbeid innenfor korn, olje- og belgvekster, jordbruksfrø og potet. Her finner du de store linjene, sammendrag for resultatene i ulike forsøksserier og konklusjoner fra prosjekter.
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Sammendrag
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Det er ikke registrert sammendrag
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Forfattere
Shumaila Khatri Hanne Kathrine Sjølie Kristina Bringedal Gedde Lizhen Huang Per Kr. Rørstad Roja Modaresi Lone RossSammendrag
This report summarizes the main findings of the research conducted within the CircWOOD project during the period 2026 and presents key recommendations for decision-makers towards wood reuse in the construction sector. CircWOOD aimed to enable and support a transition to a sustainable, competitive, and technologically optimized circular wood value chain through a transdisciplinary research approach. The project was carried out by five research institutions and universities, exploring technical, environmental, economic, and social dimensions in the value chain. Our research findings demonstrate potentials for wood reuse, while also highlighting a variety of practical and market-related challenges. The report presents eight key recommendations for policymakers, industry stakeholders, and other decisionmakers to drive wood reuse. Improving sorting systems and quality control for wood waste from construction and demolition activities and prioritizing deconstruction over demolition can enable reuse. Developing supporting infrastructure such as material banks, reuse centers, and logistics systems is also important. Wood reuse can create new opportunities for businesses, while continued research, better data, and AI can strengthen decision-making and support a more resource-efficient built environment.
Forfattere
K.R. Everett N. Alkan C.L. Lennox M. Wenneker R.R. Burlakoti R.W.A. Scheper S.G. Aćimović D. Adora L. Aragón E. Baldassarre Svecova M. Bannister A. Bernasconi S. Bhatia I. Block Jorunn Børve A. Casas M. Chillet E.K. Dann G. Derrick S. Droby M. van Dyk J. Faust S. Gabioud Rebeaud M. Guizzardi J.L. Henriquez S. Kabir S. Kandel G.S. Karaoglanidis R. Kilmister F. Khodadadi A. Licheter P.-H. Lo K. Ludman-Mihaly D. Marinkovich G. Makhathini Mkhwanazi J.C. Meitz-Hopkins J.M. van Niekerk I. Nokdy L. Palou J. Parra G. Parton K. Peter S. Pushparajah W. du Plooy S. Rivera G. Romanazzi F.R. Shiraz S. Testempasis K. Tomingas C. de Villiers X. XuSammendrag
A workshop was held during the VII International Symposium on Postharvest Pathology (held in conjunction with the IX International Postharvest Symposium and the X International Symposium on Human Health Effects of Fruit and Vegetables) to discuss reducing fungicides in orchards for controlling postharvest diseases. This article summarizes the discussion that was guided by four convenors (Burlakoti, Wenneker, Lennox, Alkan), stimulated by the two organizers (Scheper, Everett), and contributed to by 45 workshop participants. Alternative treatments and procedures discussed included the importance of an elucidated disease cycle and knowledge of pathogen biology to target control strategies. Also discussed were novel/unconventional controls such as inducing a defense response or RNA interference, biocontrol including new knowledge of the microbiome, manipulation of the environment and physical treatments. Given the complexity of fruit decay and pathogen resistance processes, a combination of treatments is likely to be the best solution. For instance, combining physical treatments like UV-C exposure with biological priming or chemical agents could result in synergistic effects that enhance resistance more effectively than any single treatment alone.
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Sammendrag
Core rot in apple has only been considered a problem in a limited number of cultivars and has not been a focus in Norway, or in many other countries. There is currently a high demand for apple juice and cider in Norway. As core rot is not detectable on the fruit surface until the rot reaches the outer fruit flesh, it is possible for infected fruit to be used for juice without noticing the rot. Since Fusarium spp., one of the known causes of core rot, is a known producer of mycotoxins, precautionary investigations are needed. Over several seasons it was found that both pre- and postharvest rot of Fusarium spp. were common on most of the cultivars grown in Norway. As in other countries, Fusarium avenaceum has dominated so far, but Fusarium paeoniae was also identified on apple. Inoculation experiments with attached fruit and in storage were successful both in establishing core rot and detecting different mycotoxins from the fruit. There were differences between isolates of F. avenaceum in both the type of mycotoxins produced and the amount. A potential life cycle for Fusarium spp. on apple fruit in Norway is suggested, and possible ways of reducing the incidence both pre- and postharvest are discussed.