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.
2017
Forfattere
Blas Mola-Yudego Javier Arevalo Olalla Díaz-Yáñez Ioannis Dimitriou Elliot Freshwater Antti Haapala Tahamina Khanam Mari SelkimäkiSammendrag
Wood biomass for energy is largely produced in Europe from forest land resulting from silvicultural and management practices or from agricultural land in the form of fast growing plantations. The present paper reviews and compares the estimated current potentials for wood biomass production in 25 countries in Europe. The potentials are divided attending to these sources to identify the most suitable method of wood biomass production on a country level, based on its current forest and agriculture levels of production. Data has been collected and compiled from previous models and estimations. The total aggregated available potential in Europe is 76 Mm3 of wood biomass from the forests, with an additional 90 Mm3 from increasing the utilization of forest lands, and 98 Mm3 from fast growing plantations (dedicating 5% of current agricultural land). Germany and France showed high potentials both from agriculture and forest; Finland and Sweden had most of its potential from forest sources; and Spain, Poland, and UK from fast-growing plantations. When considered together, Europe presents a large potential for wood biomass production for energy, and each country should develop different policy strategies of promotion attending to the most available source to realize this potential efficiently.
Sammendrag
1.A large population increase of the Svalbard-breeding pink-footed goose Anser brachyrhynchus over recent decades has intensified the conflict with agriculture at the spring-staging sites in Norway. Knowledge of the yield loss caused by goose grazing in these northern areas is lacking, and the motivation behind the study was to quantify a relationship between grazing pressure and yield loss of agricultural grasslands and corresponding changes in vegetation composition. 2.Field trials were established on agricultural grasslands at four sites in central Norway. Eight plots were established at each site; four with exclosures to exclude or reduce grazing from geese and four with access for the geese. The exact same plots were followed for 2–4 years. Dropping density, used as a measure of grazing pressure, and compressed sward height were recorded throughout the goose staging periods, and dry matter yield was determined at first and second harvests. Plant samples from first harvests were analysed for vegetation composition. 3.Grazing pressure varied between both years and sites. Exclosures reduced grazing pressure by 75–78% during high-pressure grazing periods and increased first harvest yields by up to 31%. At lower grazing pressure, exclosures prevented grazing completely. Grazing pressure was inversely correlated with dry matter yield at first harvest, but second harvest yields were unaffected. 4.The fraction of sown species declined while the fraction of weeds increased during the study both in open plots and exclosures, but level of grazing pressure did not have any significant influence on the overall fraction of sown species, or in any specific year. 5.Synthesis and applications. As the same plots were measured over several years, it was possible to quantify goose-grazing effects beyond one season. In the context of the wildlife-agriculture conflict, the results demonstrate that some farmers always suffer disproportionately with yearly variations. The relationship between grazing pressure and yield loss may provide knowledge to a regional goose grazing subsidy scheme in the study area, identifying the most affected areas and distributing the subsidies correspondingly. However, the seasonal variations in grazing pressure demonstrate the difficulty of targeting exact areas on a yearly basis. On the other hand, the observed variations may promote another management tool in the form of delayed ploughing of stubble fields before spring sowing, as stubble fields may attract more geese, reducing the grazing pressure on agricultural grasslands and hence the overall conflicts with agricultural interests.
Forfattere
Graham Alan Ormondroyd Gry Alfredsen Raghavalu Thirumalai Durai Prabhakaran Simon F. Curling Bronia K. Stefanowski Morwenna J. Spear Lone RossSammendrag
Microbiological degradation of wood by decay fungi can cause a rapid change in the structural properties of timber which can result in both strength and mass loss. Traditional techniques for the evaluation of decay (e.g. mass loss) lack the sensitivity to evaluate the effects of the very first stages of the decay process. This paper describes the effects of initial brown rot decay, defined by the amount of Poria placenta genomic DNA (gDNA) present in the samples, on the dynamic mechanical properties of the timber. It was found that there is a correlation between the mean storage modulus of the timber and the amount of P. placenta gDNA present, and therefore the level of decay. This shows that using dynamic mechanical analysis is a viable technique that can be used to study initial decay processes.
Sammendrag
The impact of Delphinella shoot blight (Delphinella abietis) and Grovesiella canker (Grovesiella abieticola) on subalpine (Abies lasiocarpa) and corkbark fir (A. lasiocarpa var. arizonica) in a provenance trial in Idaho (ID) was evaluated in 2013. Both pathogens were previously reported from North America on fir species. D. abietis had been found on subalpine fir in USA, but not in ID, and G. abieticola on grand fir (Abies grandis) in ID, but not on subalpine or corkbark fir. D. abietis kills current-year needles and in severe cases buds and shoots, and G. abieticola results in dead shoots and branches and can eventually kill whole trees. Significant differences between provenances in susceptibility to D. abietis and G. abieticola were observed in the provenance trial in ID. In general, subalpine fir was more susceptible to both diseases than corkbark fir. In 2013, D. abietis was also found on subalpine fir in the Puget Sound area of Washington State and G. abieticola was seen on white fir (Abies concolor), but neither disease was detected in native stands of subalpine fir in Washington State. Morphological features of both fungi were described from samples collected in the provenance trial in ID in May 2016.
Sammendrag
Matching high performing varieties of legumes with effective symbiotic N-fixing bacteria can potentially enhance production volumes and economic returns when cultivating grain legumes. We investigated whether field inoculation with local or introduced Rhizobia to six different varieties of faba bean improved growth, nitrogen (N) fixation and protein content in a field experiment in Southern Norway. In 2016, a full factorial experiment featuring three inoculation treatments (a mixture of four morphotypes of Rhizobia isolated from locally grown faba bean, a mix of two efficient and well documented Rhizobium strains from Latvia, and a non-inoculated control treatment) and six faba bean (Vicia faba) genotypes (Agua Dulce, Bauska, Jõgeva, Gloria, Julia, Lielplatones) was set up in an experimental field with sandy loam soil with no recent legume culture history (>10 years). At late flowering/early pod formation stage we quantified N fixation of the crop using the N-15 natural abundance method, using weeds from the same plots as reference plants. We also assessed morphological and phenological characters, seed yields and protein levels at plant maturity. Clear differences were observed, and detailed results from this study will be presented at the conference (analyses are still pending). This research is a part of the EU FP7 project Eurolegume.
Forfattere
Ingunn M. VågenSammendrag
Genetic resources of pea (Pisum sativum) may represent valuable traits for inclusion in breeding programs, but may also be valuable directly due to good adaptation to local agro-climatic conditions, or have market potential as heirloom foods. Grain legume production in Norway is limited compared to many other European countries, but increased acreage is desired and expected for several reasons. A short growing season and the specific agro-climatic conditions makes choice of genotypes important for reliable grain and protein yields. During three years, several evaluation field trials with pea genetic resources were carried out in Southern Norway, assessing morphological and phenological traits, seed yields and protein levels. The trials included pea accessions from Norway(1), Sweden(6), Finland(1), Latvia(8), Estonia(9) and Portugal(1), as well as commercial cultivars(6). The genotypes differed widely in grain yield, time and duration of flowering, maturity, plant height, and resistance to lodging. Seed protein levels ranged from 24.0 to 32.7%. Protein levels for these pea genotypes under Norwegian field conditions appear to be higher than in comparable trials in countries at lower latitudes. The research was supported by the EU FP7 project Eurolegume and NordGen (Nordic Genetic Resource Center).
Forfattere
Ola FlatenSammendrag
Western livestock sectors have shifted towards fewer, larger farms, causing concerns about the appearance of the countryside, ecosystem services, and rural depopulation. This study empirically estimates factors likely to affect exit intentions in sheep farms. Data were collected from specialised sheep farms included in the Norwegian Farm Business Survey. Of the 59 responses, 44 operators believed the farm would be producing sheep in 10 years. A logistic regression model was used to determine the most decisive variables associated with an exit intention, where the interdependence of factors affecting profitability and, subsequently, exit intention were taken into account. This study found that farmers reporting the most positive views of the local farming community were less likely to plan an exit. Exit intentions were not significantly influenced by farming goals, location, off-farm income, or profitability. The primacy of non-economic, community-based factors as an engine to sustain farms, suggests that more attention need to be paid to social processes and relations in local communities. Farmer groups and policy-makers should consider how to encourage supportive local communities when designing policies to retain sheep farms.
Forfattere
Per Arild Aarrestad Hans Blom Tor Erik Brandrud Line Johansen Anders Lyngstad Dag-Inge Øien Marianne EvjuSammendrag
I desember 2016 leverte en faggruppe bestående av eksperter fra Norsk institutt for naturforsk-ning (NINA), Norsk institutt for bioøkonomi (NIBIO) og Vitenskapsmuseet ved NTNU (VM-NTNU) et forslag til 31 naturtyper av nasjonal forvaltningsinteresse (Aarrestad mfl. 2016). I det videre arbeidet med verdisettingsmetodikk ble det behov for å revidere avgrensningen av en del av de foreslåtte naturtypene. Denne rapporten inneholder reviderte naturtypebeskrivelser for de 31 naturtypene, justert i hen-hold til nye avgrensninger av naturtypene, og faktiske feil er rettet opp. Beskrivelsene er i sam-svar med Miljødirektoratets kartleggingsinstruks for kartlegging og verdisetting av naturtyper av nasjonal forvaltningsinteresse, som skal gjennomføres i 2017 i tråd med forslag til verdisettings-metodikk foreslått av Evju mfl. (2017). For hver naturtype presenteres definisjon og avgrensning ift. NiN 2.1, utbredelse i Norge og ellers i Europa, hvorfor naturtypen er viktig og tidligere relevante navnsettinger. I Aarrestad mfl. (2016) ble også viktige variabler for å vurdere tilstand og naturfaglig verdi presentert. Disse ta-bellene er revidert i Evju mfl. (2017) og inkluderes derfor ikke her. Denne rapporten erstatter Aarrestad mfl. (2016) som beskrivelse av et utvalg av naturtypene av nasjonal forvaltningsinteresse. Naturtyper av nasjonal forvaltningsinteresse, Terrestriske naturtyper, Truede og rødlistede naturtyper, Utvalgte naturtyper, Økologiske funksjonsområder, NiN 2.1
Sammendrag
Norges klimagassregnskap for treprodukter - Rapportering av klimagassregnskapet til UNFCCC (United Nations Framework Convention on Climate Change) inkluderer for Norges del både rapportering under FNs klimakonvensjon og Kyotoprotokollen (KP). - Denne rapporten omhandler det som rapporteres for treprodukter (Harvested Wood Products, HWP). Dette rapporteres blant annet som årlige endringer i karbonlager («annual changes in carbon stocks») jamfør retningslinjer fra FN (IPCC 2014a). Endringene er begrenset til det som følger av nasjonal avvirkning. - Klimagassregnskapet til UNFCCC for treprodukter omfatter tre produktkategorier: trelast, trebaserte plater og papir- og kartongprodukter. Det enkelte land krediteres for nasjonalt forbruk og eksport av treprodukter, ikke for import. Nasjonalt forbruk og eksport rapporteres separat. - Aktivitetsdata for de tre produktkategoriene som rapporteres for treprodukter hentes fra FAO. Definisjonerne for de tre produktkategoriene som rapporteres er de samme som FAO bruker. - Norges klimagassregnskap estimerer lagerstørrelsen på nasjonal forbruk etter 1960 til å være 22 613 492 t C (-82 916 kt CO2) per 2014. Dette lageret har hatt en jevn økning etter 1961, siden århundreskiftet har det flatet ut. For eksport var det totale lageret i 2014 6 929 580 t C (-25 408 kt CO2)...
Forfattere
Rasmus Dam Wollenberg Wagma Saei Klaus Ringsborg Westphal Carina Sloth Klitgaard Kåre Lehmann Nielsen Erik Lysøe Donald Max Gardiner Reinhard Wimmer Teis Esben Sondergaard Jens Laurids SørensenSammendrag
Production of chrysogine has been reported from several fungal genera including Penicillium, Aspergillus, and Fusarium. Anthranilic acid and pyruvic acid, which are expected precursors of chrysogine, enhance production of this compound. A possible route for the biosynthesis using these substrates is via a nonribosomal peptide synthetase (NRPS). Through comparative analysis of the NRPSs from genome-sequenced producers of chrysogine we identified a candidate NRPS cluster comprising five additional genes named chry2–6. Deletion of the two-module NRPS (NRPS14 = chry1) abolished chrysogine production in Fusarium graminearum, indicating that the gene cluster is responsible for chrysogine biosynthesis. Overexpression of NRPS14 enhanced chrysogine production, suggesting that the NRPS is the bottleneck in the biosynthetic pathway.