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
Forfattere
Juozas Lanauskas Ilze Gravite Darius KviklysSammendrag
This study evaluated the agronomic performance of 15 plum cultivars grafted on both P. cerasifera and ‘Wangenheim Prune’ (P. domestica) seedling rootstocks over nine years at the Lithuanian Research Centre for Agriculture and Forestry. Trees on P. cerasifera were planted 4.5 m × 2.5 m apart, while those on ‘Wangenheim Prune’ were 4 m × 1.5 m apart. On average, trees on ‘Wangenheim Prune’ developed 23% smaller trunk diameters and produced 42% less pruning mass than those on P. cerasifera yet demonstrated higher yield efficiency, except for the ‘Valor’ cultivar, which performed better on P. cerasifera. Mean plot yield was about 40% higher on ‘Wangenheim Prune’. Based on productivity, survival, and fruit quality, the most promising cultivars for Nordic climates are ‘Čačanska Najbolja’ and ‘Jubileum’ on ‘Wangenheim Prune’, while ‘Valor’ was productive on both rootstocks. Leaf nutrient analyses revealed rootstock-dependent differences: leaves on P. cerasifera contained more P, K, Ca, and Mn, whereas Mg, Cu, and Zn were higher on ‘Wangenheim Prune’. Regardless of rootstock, trees grown in calcareous, high-pH soils were deficient in Fe and Mn.
Forfattere
Desalegn Chala Diress Tsegaye Alemu Habtamu Alem Belachew Asalf Tadesse Melesse Eshetu_Moges Nega Tassie Abate Ayalew Wondie Aklilu Tilahun Tadesse Abebayehu Aticho Alemu Gonsamo Lanhui Wang Erick Lundgren Jeffrey Kerby Jens Christian SvenningSammendrag
Abstract Water hyacinth is among the world’s most damaging aquatic invasive plants, forming dense mats that disrupt ecosystem functioning, fisheries, navigation, and livelihoods across tropical and subtropical freshwater systems. Its rapid spread is driven by clonal propagation, short life cycles, and prolific seed production, particularly under nutrient-enriched conditions. Although mechanical, chemical, and biological control methods are widely applied, their long-term effectiveness remains uncertain when underlying eutrophication persists. Here, we present a large-scale, one-time water hyacinth removal campaign in Lake Tana, Ethiopia’s largest lake and a UNESCO Biosphere Reserve, as a representative nutrient-rich tropical freshwater system. Using high-resolution satellite imagery, we quantified coverage one month before removal, one month after removal, and one year later. We integrated SWOT (Strengths, Weaknesses, Opportunities, Threats) analysis with a socio-ecological system map to assess mitigation mechanisms and identify sustainable management pathways capable of providing long-term solutions to halt water hyacinth proliferation in freshwater bodies. The campaign removed over 75% (~1271 ha) of water hyacinth, yet within one year the plant resurged to levels ~18% higher than pre-removal. This rebound highlights the ecological resilience of water hyacinth and the limitations of short term, noncontinuous control strategies. Our analysis identifies unmanaged catchment nutrient inputs as the primary driver of proliferation. Lake Tana serves as a model system demonstrating that water hyacinth functions less as a traditional invader and more as a bioindicator of eutrophication. We propose a transferable conceptual and methodological framework combining continuous removal, catchment-based nutrient management, and circular bioeconomy approaches, offering globally relevant lessons for sustainable management of nutrient-enriched tropical freshwater systems.
Sammendrag
Integrated decision support systems are fundamental for addressing complex issues related to forest ecosystems and the land use sector, such as climate, biodiversity or disturbances, and their impact on industry and society. Therefore, it is important to develop and use tools that can better incorporate potential challenges to forest ecosystems, socio-economic trends and political choices, and show their consequences for multiple natural resources. SiTree is a flexible, cross-platform and open-source individual-tree simulator framework written in R. Simulations produced using SiTree are currently and actively being used to inform policy decisions and in research, from carbon uptake under different management options to the provision of different forest ecosystem services, such as timber production and biodiversity. An overview of the current state with practical examples where SiTree simulation tool is being used will be presented. Future possibilities and capabilities for the development of SiTree will be discussed, with a focus, among others, on better linking land use to social trends and policy-making, predicting large-scale disturbances in forests and estimating the provision of forest ecosystem services.
Forfattere
Akhil Reddy Pashapu Sigridur Dalmannsdottir Marit Jørgensen Mallikarjuna Rao Kovi Odd Arne RognliSammendrag
Timothy is the most important perennial forage grass species in northern Norway, a region that is predicted to experience variable winter weather conditions due to climate change. Knowledge about how timothy cultivars respond to a changing climate is crucial for safeguarding forage production at higher latitudes. In the current study, we investigated changes in gene expression under freezing and ice encasement stresses and SNP allele frequencies between temporal populations (seed generations) of the two northern-adapted timothy cultivars Engmo and Noreng. In general, there was a decrease in freezing tolerance (defined as LT 50 , the temperature lethal to 50% of the population) and an increase in ice encasement tolerance (defined as LD 50 , the duration lethal to 50% of the population) over time. Comparative transcriptome analyses identified several genes known to be involved in stress responses, such as ethylene-responsive transcription factors, dehydration-responsive element binding transcription factors, reversion to ethylene sensitivity 1, and abscisic acid repressor 1, as differentially expressed between the temporal populations of Noreng under freezing stress. Several loci with large allele frequency changes were observed to be in close proximity to the genes displaying patterns resembling shifts over time in Noreng. Very few gene expression differences between populations of both cultivars under ice encasement stress could be due to weak selection pressure during seed multiplication. There was a gradual decline in genetic diversity in populations of both cultivars over time. The results indicate that phytohormone-mediated transcriptional regulation might be one of the key mechanisms for adaptation to changing winter weather conditions at higher latitudes. These findings underscore the importance of monitoring genetic shifts during seed multiplication to maintain cultivar stability and suggest that the identified stress-responsive genes could serve as valuable targets for breeding climate-resilient forage crops.
Forfattere
Maria Oldeman LundSammendrag
Det er ikke registrert sammendrag
Forfattere
Maria Oldeman LundSammendrag
Det er ikke registrert sammendrag
Forfattere
Maria Oldeman LundSammendrag
Det er ikke registrert sammendrag
Forfattere
Maria Oldeman LundSammendrag
Det er ikke registrert sammendrag
Forfattere
Paloma Sánchez-Argüello Gema Sáez-Salto Alice Budai Pierre-Adrien Rivier Simon Weldon Antonio Martín-EstebanSammendrag
Compost application is a widely recommended practice to maintain and improve soil fertility. However, such a practice could be a main entry path for plastic into soil. Accordingly, in the present work, two different compost samples, obtained with and without biochar, were analyzed to investigate how composting can affect the presence of microplastics (MPs). The substrate of both samples (consisting of a mixture of household food waste and animal manure) was also analyzed for comparative purposes. Samples were processed by oxidation, flotation, and filtration. MPs on the filters were observed, counted, and size-calibrated using both a stereomicroscope and an inverted microscope. MPs larger than 1 mm were further characterized by attenuated total reflectance Fourier-transformed infrared spectroscopy (ATR-FTIR). In parallel, mesoplastics (0.5–2 cm) were recovered from substrate and compost and extracted in methanol for testing in vitro cytotoxicity. The estimated concentration of MPs ranged from 820 to 1340 fragments/kg of dry sample, depending upon the sample. Three polymers represented the totality of identified plastic items: polyethylene (PE, including both low and high density), polyethylene terephthalate (PET), and polypropylene (PP) in order of abundance. Nevertheless, cytotoxicity was only observed in mesoplastic extracts from the substrate and could not be attributed to the identified plastic items themselves, suggesting that cytotoxic effects could have been caused by contaminants adsorbed to plastics or by the leaching of plastic additives during the extraction process. In summary, the composting process reduced the cytotoxicity of plastic extracts and the presence of MPs in compost, which could be attributed to the fragmentation of plastics.
Forfattere
Colin Sinclair Jemma Louise Wadham Laura Jaakola Sabina Strmic PalinkasSammendrag
In recent years, rock powders have received renewed interest as slow-release fertilizers that can provide soils and crops with a range of macro- and micronutrients. Glacial flour is a naturally occurring, fine-grained rock powder that is found in glaciated regions worldwide. Formed from the erosion of bedrock, the physical and chemical properties of different glacial flours vary widely by source, influencing their effectiveness as fertilizers. This study aimed to analyze eight lithologically diverse glacial flours collected from glaciers in Iceland, Svalbard, and Norway for their exchangeable and total nutrient concentrations, trace metal concentrations and mineralogy. The flours were then applied to a nutrient-depleted, artificial soil at three application rates in a greenhouse experiment set up to mimic an Arctic/subarctic growing season for the crop, peas (Pisum sativum L.). The flours contained low amounts of plant-available N and P, while total P was highly variable. Glacial flour treatments, even at the lowest application rate of 2 tha-1, improved pea biomass and yield over the control, and were comparable to a low dose of a synthetic PK fertilizer. Increasing the application rate further was in some cases associated with an increase in biomass and yield. Trial results indicate that peas benefited from glacial flour amendment over a single growing season under conditions of severe nutrient limitation. Preliminary results suggest that glacial flour has potential utility in organic and regenerative agriculture, but suitable flours must be identified based on total nutrient concentrations, nutrient availability, dissolution rate, and potentially harmful trace metal concentrations