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.
2024
Sammendrag
To facilitate nutrient management and the use of manure as a feedstock for biogas production, manure is often separated into a solid and a liquid fraction. The former fraction is usually high in P and low in N, so when incorporated in the soil as fertilizer, it needs to be supplemented by N from, e.g., mineral fertilizers or nitrogen-fixing species. To explore strategies to manage N with solid-separated manure, we examined how the amount of digestate and the N:P ratio of pig digestate, i.e., manure that had partially undergone anaerobic digestion, affected the productivity of Westerwolds ryegrass and red clover in a pot experiment with one soil which was rich and another which was poor in plant nutrients. The soil and plant species treatments were combined with four doses of digestate, which gave plant available phosphorus (P) concentrations of 2, 4, 8, or 16 mg P100 g−1 soil. Ammonium nitrate was dosed to obtain factorial combinations of digestate amount and N:P ratios of 1.8, 4, 8, and 16. Clover was harvested once at the beginning of flowering (15 weeks after seeding), while Westerwolds ryegrass was allowed to regrow three times after being cut at the shooting stage (in total, 4 cuts, 6, 9, 12, and 15 weeks after seeding). Ryegrass yield increased by up to 2.9 times with digestate dosage. Interactions with the N:P ratio and soil type were weak. Hence, the effect of increasing the N:P ratio was additive across digestate dosages. Red clover biomass also increased by up to 39% with digestate dosage. Residual nutrients in the soil after red clover cultivation were affected by the initial differences in soil characteristics but not by digestate treatment or biomass of harvested red clover. A targeted N management is required to benefit from the P-rich digestate in grass cultivation, while the long-term effects of red clover culture on N input need further investigation.
Forfattere
Jaime Candelas Bielza Lennart Noordermeer Erik Næsset Terje Gobakken Johannes Breidenbach Hans Ole ØrkaSammendrag
Tree species composition is essential information for forest management and remotely sensed (RS) data have proven to be useful for its prediction. In forest management inventories, tree species are commonly interpreted manually from aerial images for each stand, which is time and resource consuming and entails substantial uncertainty. The objective of this study was to evaluate a range of RS data sources comprising airborne laser scanning (ALS) and airborne and satellite-borne multispectral data for model-based prediction of tree species composition. Total volume was predicted using non-linear regression and volume proportions of species were predicted using parametric Dirichlet models. Predicted dominant species was defined as the species with the greatest predicted volume proportion and predicted species-specific volumes were calculated as the product of predicted total volume multiplied by predicted volume proportions. Ground reference data obtained from 1184 sample plots of 250 m2 in eight districts in Norway were used. Combinations of ALS and two multispectral data sources, i.e. aerial images and Sentinel-2 satellite images from different seasons, were compared. The most accurate predictions of tree species composition were obtained by combining ALS and multi-season Sentinel-2 imagery, specifically from summer and fall. Independent validation of predicted species proportions yielded average root mean square differences (RMSD) of 0.15, 0.15 and 0.07 (relative RMSD of 30%, 68% and 128%) and squared Pearson's correlation coefficient (r2) of 0.74, 0.79 and 0.51 for Norway spruce (Picea abies (L.) Karst.), Scots pine (Pinus sylvestris L.) and deciduous species, respectively. The dominant species was predicted with median values of overall accuracy, quantity disagreement and allocation disagreement of 0.90, 0.07 and 0.00, respectively. Predicted species-specific volumes yielded average values of RMSD of 63, 48 and 23 m3/ha (relative RMSD of 39%, 94% and 158%) and r2 of 0.84, 0.60 and 0.53 for spruce, pine and deciduous species, respectively. In one of the districts with independent validation plots of mean size 3700 m2, predictions of the dominant species were compared to results obtained through manual photo-interpretation. The model predictions gave greater accuracy than manual photo-interpretation. This study highlights the utility of RS data for prediction of tree species composition in operational forest inventories, particularly indicating the utility of ALS and multi-season Sentinel-2 imagery.
Forfattere
Ademir de Oliveira Ferreira João Carlos de Moraes Sá Rattan Lal Gabriel Barth Thiago Inagaki Daniel Ruiz Potma Gonçalves Clever Briedis Aline Roma Tomaz William Ramos da SilvaSammendrag
Land management systems that comprise the principles of conservation agriculture (CA) can lead to soil organic carbon (SOC) gains over time. Nonetheless, how fertilization regimes interfere with their performance in highly weathered soils is still uncertain. This study presents results on SOC storage, crop yield, and soil resilience from a long-term experiment in southern Brazil (Ponta Grossa – Paraná State) 26 years after its establishment in 1989 combining a gradient of soil disturbance through diverse soil management strategies with contrasting fertilization regimes. We hypothesized that preserving soil structure rebuilt over time through no-till system plays a significant role in SOC persistence and the fertilization regime can impact land management performance on soil resilience and crop yield. The experimental design was laid out as a split plot through completely randomized blocks. The main plots comprised the treatments related to soil management systems: 1) conventional plow-based tillage – CT; 2) minimum tillage (Chiselling replacing plowing) – MT; 3) no-till with one chisel plowing every three years – NTch; and 4) continuous no-till system – NTS. The sub-plots comprised full crop fertilization (FCF) for all crops and low crop fertilization (LCF) by suppressing K and P fertilization and maintaining N in broadcast application. SOC stocks significantly improved as the soil disturbance diminished, resulting in higher soil resilience indexes for NTS and NTch. Differences in SOC stocks between the contrasting treatments NTS and CT were higher under low fertilization, resulting in C and N sequestration rates of 1.14 and 0.14 Mg ha−1 year−1 under LCF compared to 0.77 and 0.08 Mg ha−1 yr−1 in FCF at the 0–100 cm layer. Such higher differences were induced by overall higher SOC stocks of CT when under FCF and higher SOC stocks in subsoil depths promoted by NTS when under LCF. High fertilization treatments produced cumulative yields 1.5 times higher for soybeans and 2.5 times higher for corn throughout the 26 years of the experiment. Labile C fractions extracted by hot water (HWEOC) and K-permanganate (POXC) were systematically increased as the disturbance diminished. Gains in labile fractions were promoted in deeper layers in lower disturbance treatments (NTch and NTS). We conclude that combining conservation agriculture principles ultimately defined the potential for SOC sequestration. The high soil resilience under the NTS in this research indicates a considerable potential to reverse the soil degradation and decline of the SOC and labile fractions by conversion to intensive NTS (high and diversified annual C input) associated with absence of soil disturbance.
Forfattere
Yeqing Li Jinglei Zhang Xinran Wen Mahmoud Mazarji Shuo Chen Qiang Liu Shenggeng Zhao Lu Feng Gang Li Hongjun Zhou Junting PanSammendrag
The use of bio-based composites to enhance the methane production in anaerobic digestion has attracted considerable attention. Nevertheless, the study of electron transfer mechanisms and the applications of biochar/MnO2 (MBC) in complex systems remains largely unexplored. Biochar composited with MnO2 at 10:1 mass ratio (MBC10) increased the content of volatile fatty acids by 9.09 % during acidogenic phase. During the methanogenic experiments using acetate, cumulative methane production (CMP) rose by 5.83 %, and in the methanogenic experiments using food waste, CMP increased by 24.32 %. Microbial community analysis indicated an enrichment of Syntrophomonas, Bacilli, and Methanosaetaceae in the MBC10 group. This enrichment occurred mainly due to the redox capability of MnO2 enhancing MBC capacitance, thereby facilitating microbial electron transfer processes. Additionally, under 2 g/L ammonia nitrogen concentration and 30 g/L organic load, the CMP of MBC10 increased by 12.74 % and 9.44 %, respectively, compared to the BC600 group. This study illuminates MBC's electron transfer mechanisms and applications, facilitating its wider practical adoption and fostering future innovations.
Forfattere
Rylee Isitt Andrew M. Liebhold Rebecca M. Turner Andrea Battisti Cleo Bertelsmeier Rachael Blake Eckehard G. Brockerhoff Stephen B. Heard Paal Krokene Bjørn Økland Helen F. Nahrung Davide Rassati Alain Roques Takehiko Yamanaka Deepa S. PureswaranSammendrag
The geographical exchange of non-native species can be highly asymmetrical, with some world regions donating or receiving more species than others. Several hypotheses have been proposed to explain such asymmetries, including differences in propagule pressure, source species (invader) pools, environmental features in recipient regions, or biological traits of invaders. We quantified spatiotemporal patterns in the exchange of non-native insects between Europe, North America, and Australasia, and then tested possible explanations for these patterns based on regional trade (import values) and model estimates of invader pool sizes. Europe was the dominant donor of non-native insect species between the three regions, with most of this asymmetry arising prior to 1950. This could not be explained by differences in import values (1827–2014), nor were there substantial differences in the sizes of modelled invader pools. Based on additional evidence from literature, we propose that patterns of historical plant introductions may explain these asymmetries, but this possibility requires further study.
Sammendrag
The study investigated the production process and properties of a new wood-based material called Bioblocks. This sustainable composite is made from medium-density-fibreboard (MDF) residues, citric acid and either sorbitol or hexanediol. The process involves mixing in-water diluted chemicals with the MDF residues and curing the mixture in a laboratory oven to esterify the sorbitol and wood components with citric acid. A design of experiment was used to determine the influence and optima of the different process factors, and an optimised trial further investigated the material properties. The density distribution, compression strength, and TS after 24 h immersion in water according to EN 317 of the Bioblocks were tested. The first trial showed that mainly the amount of water added impacts the product’s properties. The optimised material achieved a sufficient density distribution with an average density of about 420 kg/m3, a compression strength of up to 3.5 N/mm2, and a TS of about 2%. Therefore, Bioblocks are a promising natural material to use waste MDF and substitute fossil, unsustainable materials.
Sammendrag
Erwinia amylovora, the causative agent of fire blight of pome fruits and other rosaceous plants belongs to the group of regulated quarantine pests. The aim of this work was to characterize the populations of E. amylovora in Norway and their geographical distribution. A total of 238 E. amylovora isolates recovered from symptomatic host plants in Norway between 1986 and 2004 were genotyped by means of a short sequence repeat (SSR) marker (ATTACAGA) on plasmid pEa29. The SSR region was amplified and amplicon size determined using fluorescent labelling and rapid, automated capillary gel electrophoresis. All isolates contained the pEa29 plasmid harbouring the investigated marker. In total, ten genotypes were identified, of which two were detected only once. The number of repeats varied from 3 to 13, with 43% of the isolates containing five repeats. Of 17 isolates collected between 1986 and 1991, all but one contained five repeats, whereas more variation was observed in isolates from the period 2000 to 2004. Most of the isolates (80%) originated from Cotoneaster bullatus, hence no relationship between genotype of the isolate and host species that it was isolated from could be detected. This historic data suggests multiple introductions of E. amylovora to Norway.
Forfattere
Marianne Bechmann Franziska Fischer Øyvind Kaste Hanne Ugstad Simen Wilsher-Lohre Anja Celine Winger Anne Falk ØgaardSammendrag
Undersøkelser viser at de negative miljøeffektene i en rekke områder av Oslofjorden er knyttet til svært høy tilførsel av nitrogen. Nedbørfeltet til Oslofjorden kan derfor identifiseres som sårbart område for nitrat ifølge nitratdirektivet og nitratdirektivet bør derfor gjelde for hele Oslofjordens nedbørfelt. Nitratdirektivet stiller krav om at spredning av husdyrgjødsel per gårdsbruk begrenses til 17 kg nitrogen per dekar jordbruksareal. Det stilles ikke krav til hvor mye nitrogen som kan tilføres med mineralgjødsel. Med dagens spredearealkrav for fosfor er det eiendommer med storfé og slaktesvin som kan ha overskudd av nitrogen i forhold til nitratdirektivets krav. De kan ha henholdsvis 25 og 21 kg nitrogen per dekar fra husdyrgjødsel. Grasproduksjon til storfé krever mye nitrogengjødsel, slik at gårdsbruk med storfé likevel ikke har et nitrogenoverskudd sammenlignet med avlingens behov. Kombinasjonen svin og korn vil ofte heller ikke gi nitrogenoverskudd hvis husdyrgjødsla spres jevnt på gårdens arealer. Flytting av husdyrgjødsel til andre gårdsbruk vil antagelig føre til økt bruk av mineralgjødsel på gården som transporterer vekk husdyrgjødsel. Gjennomføring av nitratdirektivet vil derfor sannsynligvis ikke eller i svært liten grad redusere total mengde nitrogen tilført jordbruksarealet i Oslofjordens nedbørfelt. Erfaring fra dagens sårbare område viser dessuten at det særlig er spredearealkravet med fosfor som følges opp av forvaltningen. Andre land som har iverksatt nitratdirektivet, har utviklet handlingsplaner for reduserte utslipp av nitrogen til vann som omhandler mer enn bare grensen for nitrogentilførsel med husdyrgjødsel.
Forfattere
Yvonne RognanSammendrag
På vegne av Tinfos AS har NIBIO gjennomført overvåking av vannkvalitet i Hovlandsåna i forbindelse med etableringen av nye Flateland kraftverk i Vegusdal. I 4. kvartal 2023 (Q4) har mesteparten av arbeidene vært tilknyttet ferdigstilling av utløpet til overføringstunnelen fra Myklebostad til Kjetevatn, ferdigstilling av dammen i Kjetevatn og trykktunnelen fra Kjetevatn til Flateland. Dette er aktiviteter som har hatt liten grad av påvirkning på vannkjemien i Hovlandsåna. I oktober var det lite nedbør, men høy fyllingsgrad i magasinene oppstrøms Lislevatn bidro til en jevn og relativt høy vannføring med svært lav partikkeltransport i elva. I forbindelse med svært mye nedbør i begynnelsen av november ble det registrert kraftig økende turbiditet ved begge loggerstasjonene og turbiditetssondene målte tidvis svært høye verdier som følge av opphopning av sand, grus og organisk materiale i stålrørene der målesondene er plassert. Loggerne ble tatt inn 09.11.2023 og både kvartalsprøvene tatt samme dag, samt ukesprøvene som ble tatt frem til juleferien, viste jevnt lave konsentrasjoner av nitrogen og fosfor ved de tre stasjonene. Bunndyrprøver ble tatt 13.10.2023 og tilstandsvurdering basert på eutrofieringsindeksen ASPT viste «god» tilstand ved samtlige stasjoner.
Forfattere
Håvard EikemoSammendrag
Formålet med kartleggingsprogrammet «Skadegjørere i potet» er å få kunnskap om status med hensyn til forekomst av planteskadegjørerne lys ringråte (Clavibacter michigaensis spp.), mørk ringråte (Rastonia solancearum), rotgallnematodene Meloidogyne chitwoodi og M. fallax samt potetkreft (Synchytrium endobioticum) i norsk produksjon av mat- og industripotet. Denne rapporten omhandler status for potetkreft. Potetkreft er en fryktet sykdom i potetdyrkingen, siden den kan føre til totalt avlingstap hvis den ikke bekjempes. Den har ikke vært påvist i Norge siden 1994, men økende forekomster i Sverige og Danmark de siste årene har gjort sjukdommen mer aktuell. Utbruddene i Sverige og Danmark har også vært forårsaket av raser som kan angripe mange av de vanligste potetsortene i Norge. Formålet med dette OK-programmet er å sjekke tilstedeværelse av potetkreft i Norge, samt teste metodikken rundt visuell påvisning og molekylær testing for potetkreft. Selv om man regner potetkreft som ikke forekommende i Norge er det viktig å gjennomføre denne typen undersøkelser for å få dokumentert statusen. Totalt ble 291 prøver vurdert i 2023, og alle var negative ved visuell bedømmelse. Det ble heller ikke funnet noe mistenkelig som førte til at prøvene burde kontrolleres ved PCR. Av de 291 prøvene ble 50 prøver tilfeldig valgt ut for kontroll ved hjelp av PCR, og også disse var negative. Resultatene fra 2023 viser at status for potetkreft i Norge i henhold til ISPM 8 er å anse som «Absent: pest no longer present».