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
Sammendrag
Potato field management in Europe is already optimized for high production and tuber quality; however, numerous environmental challenges remain if the industry is to achieve “green economy” targets, such as less resources utilized, and less nitrate leached to the environment. Strategic co-scheduling irrigation and nitrogen (N) fertilization might increase resource use efficiency while minimizing reactive losses such as nitrate leaching. This study aimed to quantify the combined effect of irrigation and N fertilization on potato production, growth, and resource use efficiencies. A field experiment was conducted from 2017 to 2019 on a coarse sandy soil in Denmark, with a drought event occurring in 2018. Full (Ifull, maximized), deficit (Idef, 70–80 % of Ifull) and low irrigation treatments (Ilow, minimized amount to keep crop survival), each under full (Nfull, maximized) and variable (Nvar, variable amount according to the crops’ needs) N fertilization were applied. The analyses results show that Ilow limited potato growth under a drought-heat event; otherwise, potato growth was comparable between Ifull and Idef treatments, with 31–32 % higher irrigation efficiency (IE) under Idef than under Ifull. Nitrate leaching was variable and not significantly different among the treatments, being in general 9–13 % lower under Idef in absolute terms than under Ifull. Unexpectedly, outcomes from Nvar were statistically lower compared to those from Nfull. Radiation use efficiencies (RUEs) from Ilow and Nvar were significantly lower than from Ifull and Idef (14–19 %), and from Nfull (9–11 %). N use efficiencies (NUE) were comparable between N fertilization treatments but significantly different among different irrigation treatments. Overall, this study confirms that Idef is the best irrigation strategy. Future efforts should focus on developing improved approaches for detecting in-season crop N status and further quantifying N requirements, as well as promoting the co-scheduled management of irrigation and N fertilization. Remote sensing approaches have great potential to assist with this.
2025
Sammendrag
Dette er en oppsummering av en studie på 200 melkeproduksjonsbruk i Midt-Norge. 185 som driver konvensjonelt og 15 som driver økologisk.
Sammendrag
The poor persistence and late flowering of red clover in northern Swedish leys presents challenges for ley longevity and floral resource availability. The inclusion of wild, native legume species with longer persistence, rhizomatous growth, and early flowering in leys could help to resolve these challenges. The nutritive value of four native legume species was evaluated when sown in mixed stands subjected to varying harvest frequencies. Across the first two years of data collection, Vicia sepium and Vicia cracca demonstrated promising nutritive value, while the poor digestibility of Lathyrus pratensis may inhibit its use as a forage for ruminant feed. This study demonstrates promising potential for wild legume species to increase ley diversity while maintaining the quality of the harvested forage.
Forfattere
Martina Paponov Pembi Sherpa Lama Jörg Ziegler Cathrine Lillo Ivan PaponovSammendrag
Det er ikke registrert sammendrag
Forfattere
Hugh Riley Tatiana Francischinelli Rittl Isabell Eischeid Anne-Kristin Løes Trond HenriksenSammendrag
Diverse pedoclimatic zones lead to large variations in soil organic carbon (SOC). Key questions involve how much carbon the soil contains, what is its potential for more storage and whether levels are sufficient to maintain soil structure stability (SSS). We evaluate current SOC levels using ratios of clay/silt fractions to SOC, to identify potential SOC storage areas and to gauge likely SSS status. SOC retention is affected by clay and silt, which protect it from microbial activity. Hassink (1997) used the ratio of clay plus silt <20 µm (fines20) to SOC to indicate this relationship, whilst Dexter et al. (2008) used the ratio of clay to SOC. Jensen et al. (2019) found critical ratios for SSS to be ~10 for clay/SOC and ~20 for fines20/SOC, above which SSS is impaired and below which SOC is less likely to be retained. These ratios appear valid under Norwegian conditions, where greatest declines in SOC have been found in soils with high initial SOC levels and lowest declines in clay soils (Riley & Bakkegard 2008). After 28 years of a cropping system trial in eastern Norway (Riley et al. 2022), equilibrium between SOC gains and losses was at a fines20/SOC ratio of ~18, whilst in the same trial SSS declined sharply in an arable cropping system with a clay/SOC ratio >10, compared to systems with ratios of 6- 8. In western Norway, on grassland soils with generally low fines20/SOC ratios, SOC appears to be declining despite manure inputs, especially in cases with high initial SOC levels (Rittl et al. 2023). To obtain insight into the potential for SOC across Norway, data was used from a study in which SOC and soil texture was analysed on 600 fields in agricultural districts throughout the country. Results are grouped into 13 regions with relatively uniform climate and cropping within each. Greatest proportions of fields with high ratio levels were found in regions around Oslo and east of Oslofjord, with predominantly clay and silty clay loams, where 65% of fields had clay/SOC >10 and 80% had fines20/SOC >20. Proportions of fields with fines20/SOC >20 were somewhat lower west of Oslofjord (65%) and in central Norway (44%), where many soil textures are found, and in an inland region with predominantly silty soils (55%). Proportions of fields with high ratio levels were low in inland regions with loam soil, where 15-20% had clay/SOC >10 and 24% had fines20/SOC >20. All these regions are mainly arable, with some livestock, and mean SOC levels are <3,0%. In the predominantly grassland/livestock regions of southern, western and northern Norway, and in upland areas, the soils are mostly sandy and silty loams, and mean SOC levels are mostly >3,5%. In these regions, the proportion of fields with clay/SOC >10 was below 5% whilst that of fines20/SOC >20 was below 10%. Mean clay/SOC ratios were 1-3 and mean fines20/SOC ratios were 4-10. Arable land has thus greater potential for carbon storage than grassland, whilst at the same time increasing SSS and reducing erosion risk.
Forfattere
Liping Wei Emiel De Lombaerde Thomas Vanneste Pieter Sanczuk Lander Baeten Jonathan Lenoir Karen De Pauw Kris Verheyen Markus Bernhardt-Römermann Antoine Becker-Scarpitta Jörg Brunet Markéta Chudomelová Guillaume Decocq Martin Diekmann Tomasz Durak Radim Hédl Thilo Heinken Peter J. Horchler Bogdan Jaroszewicz Martin Kopecký Martin Macek František Máliš Tobias Naaf Thomas A. Nagel Anna Orczewska Petr Petřík Kamila Reczyńska Fride Høistad Schei Wolfgang Schmidt Jan Šebesta Alina Stachurska-Swakoń Tibor Standovár Krzysztof Świerkosz Balázs Teleki Hans Van Calster Ondřej Vild Donald M. Waller Monika Wulf Pieter De FrenneSammendrag
We face increasing concerns about how the local diversity of native plant communities responds to various drivers of global change, yet often lack comprehensive studies that integrate several components of diversity and the effects of both local and regional drivers of change. We analyzed changes in taxonomic, functional, and phylogenetic diversity across 2681 (semi-)permanent temperate forest understory plots surveyed and resurveyed for all vascular plants over intervals of 15–78 yr, spanning 72 regions distributed across Europe. We quantified temporal changes in these diversity indices and assessed their responses to changes in both local drivers (plot-level overstory cover, indicator values for soil nutrients) and regional shifts in macroclimate and nitrogen deposition. Overall, local changes in taxonomic, functional, and phylogenetic diversity were centered around zero, reflecting – on average – little net change in forest diversity. Observed diversity changes mostly reflected local conditions such as overstory cover change and baseline soil nutrients rather than regional drivers of large-scale change. Changes in phylogenetic diversity correlated positively with changes in taxonomic diversity but negatively with changes in functional diversity. Our findings underscore the importance of local habitat management and multifaceted diversity monitoring for effective biodiversity conservation in temperate forests.
Forfattere
Martin Nopens Imke Greving Silja Flenner Linnea Hesse Jan Lüdtke Michael Altgen Gerald Koch Johannes Beruda Sabrina Heldner Hannes Köhm Sergej Kaschuro Andrea Olbrich Jakob Benedikt Mietner Fabian Scheckenbach Jördis Sieburg-Rockel Andreas KrauseSammendrag
Deep understanding of the structural composition and growth of biological specimens is becoming increasingly important for the development of bio-based and sustainable material systems. Full-field nano-computed tomography is particularly suitable for this purpose as it allows for non-destructive 3D imaging at high spatial resolution. However, most biological samples are functionalized by water and respond sensitively to any changes in climate conditions, specifically relative humidity, by adjusting their material moisture content. To date, only a limited number of tomography instruments offer an in situ climate control option to users. These, however, are limited either by the range of relative humidity states, the long times required to change the climate state, or obstruction or attenuation of the beam. Here, the first fully automatized climate cell for in situ full-field nanotomography is presented. It has been designed, built and integrated at the nanotomography station at the P05 imaging beamline, operated by Hereon at the DESY storage ring PETRA III, Germany. The highly flexible and windowless design allows the humidity dependent swelling and shrinking of lignified plant cell walls to be studied in situ, using phase contrast nanotomography. The concept of this climate chamber can easily be integrated into other setups. It operates in the relative humidity range of 0–90% and can be controlled in a temperature range of 10–50°C. Climate conditions can be adjusted at any time, remotely from the control hutch by using a humidity generator. Results show that the developed setup maintains a stable climate during the entire duration of a tomographic scan at different humidities and does not obstruct the sample or hinder the imaging conditions. During the tomographic investigation the sample remains stable in the flow of the air stream and shows typical cell wall swelling and shrinking behaviour depending on the equilibrium moisture content. This new climate cell is now available to all users of the P05 nanotomography instrument for conditioning samples, serving a wide range of scientific applications.
Forfattere
Pia Marinček Jing Vir Leong Loic Pittet Ètienne Léveillé-Bourret Tommi Nyman Maria Tomoshevich Evgeny Banaev Li He Elvira Hörandl Martin Volf Natascha D. WagnerSammendrag
The spatio-temporal evolution of woody plant lineages in the Holarctic is still understudied, limiting our understanding of evolutionary processes that promote higher diversity at higher latitudes in some lineages, which contradicts the latitudinal gradient hypothesis which predicts higher species richness in the tropics. Shrub willows (Salix subgenus Vetrix) comprise about 350 species of which many are adapted to arctic-alpine ecosystems and thus form an important element across the Holarctic region. In this study, we utilized RAD sequencing to estimate the spatio-temporal evolution of the Vetrix clade based on about 140 species covering most of its morphological and geographical diversity. The resolved phylogeny revealed four lineages: the Pan-Himalayan clade, the North American clade and two clades containing species from Eurasia. Widespread circumpolar species form a hybridogenetic grade between the Eurasian and North American clades. Our results confirm that shrub willows originated in the Tertiary, probably in Asia, and that diversification coincided with the climatic cooling in the Pleistocene. At least two radiations were observed, in the Pan Himalayas and in North America. Speciation was further shaped by migration and dispersal in Eurasia, likely accelerated by the uplift of mountain chains, the closure of the Turgai Strait and expansion of suitable habitats. The dated phylogeny revealed that speciation of arctic lineages predates adaptation to high latitudes, as also evident from the fossil record. Small wind-dispersed seeds enabled shrub willows to colonize the expanding arctic tundra regions in the Miocene and their recolonization after the LGM. Given the high observed number of polyploid species equally distributed in all clades and indications of genetic admixture, we assume that species diversity in shrub willows was additionally increased by hybridization and polyploidization.
Forfattere
Alejandro Sánchez-Gómez Katrin Bieger Christoph Schürz José Manuel Rodríguez-Castellanos Eugenio Molina-NavarroSammendrag
Calibration is essential to ensure hydrological models’ reliability. While performance metrics for simulated variables are often used as the primary indicators of model adequacy, it is equally important to verify that the underlying hydrological processes are realistically represented. This consideration becomes even more critical in complex basins characterized by heterogeneous climatic or geological conditions, where processes variability may necessitate the use of zonal calibration approaches. This study presents a multi-spatial and multi-criteria calibration of a SWAT+ model for the Upper Tagus River basin, a large and geologically diverse catchment. This approach, which includes a sensitivity analysis, has been designed to ensure a realistic simulation of hydrological processes in geologically diverse areas. The daily streamflow simulation performance and its components have been evaluated at 22 gauged areas, as inflows to 12 reservoirs, collectively covering 44 % of the modelled area (all under natural flow regimes). The optimization of the model required a detailed zonation based on geological properties, and a comprehensive validation process, including a fine-tuning, was necessary to obtain a set of parameters resulting in an accurate (considering performance metrics) and realistic (considering the streamflow components) simulation in most of the areas evaluated. The global performance (evaluated aggregating streamflow of the different areas considered) demonstrated a very good daily streamflow simulation performance (NSE > 0.8, PBIAS < 5 %) and an accurate simulation of the daily streamflow components. The developed calibration approach, coded in R, can be effectively applied to other hydrologically complex regions.
Forfattere
Anne-Grete Roer HjelkremSammendrag
Det er ikke registrert sammendrag