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.
2025
Forfattere
Anne-Grete Roer HjelkremSammendrag
Det er ikke registrert sammendrag
Forfattere
Samuel L. Zelinka Samuel V. Glass Natalia Farkas Emil E. Thybring Michael Altgen Lauri Rautkari Simon Curling Jinzhen Cao Yujiao Wang Tina Künniger Gustav Nyström Christopher Hubert Dreimol Ingo Burgert Mark G. Roper Darren P. Broom Matthew Schwarzkopf Arief Yudhanto Mohammad Subah Gilles Lubineau Maria Fredriksson Wiesław Olek Jerzy Majka Nanna Bjerregaard Pedersen Daniel J. Burnett Armando R. Garcia Frieder Dreisbach Louis Waguespack Jennifer Schott Luis G. Esteban Alberto García‑Iruela Thibaut Colinart Romain Rémond Brahim Mazian Patrick Perré Lukas EmmerichSammendrag
Abstract Many studies that use an automated sorption balance to determine a water vapor sorption isotherm for wood collect data until the moisture content change is less than or equal to 0.002% min −1 (20 µg g −1 min −1 ). This stop criterion has been claimed to give errors in equilibrium moisture content (EMC) predictions of less than 0.001 g g −1 but over the past 10 years, studies have shown that the actual errors can be greater than 0.01 g g −1 because the measurements are stopped well before equilibrium is reached. Despite the large errors associated with this stop criterion, it remains popular due to the speed at which isotherms can be measured. This paper utilizes data from a worldwide interlaboratory study on automated sorption balances to develop a correction method for estimating EMC of western larch ( Larix occidentalis Nutt.) from the moisture content corresponding to the 20 µg g −1 min −1 criterion. The study uses data from 72 relative humidity absorption steps with hold times of 7–10 days from 21 different laboratories and eight different instrument models. EMC is defined based on the inherent mass stability of automated sorption balances determined in the first part of this interlaboratory study. On average the sorption process is less than 80% complete when the 20 µg g −1 min −1 criterion is reached, resulting in a mean absolute error (MAE) of 0.006 g g −1 . The correction equation for estimating EMC reduces the MAE to 0.001 g g −1 . The analysis presented in this paper, along with the correction equation, can be considered for certain use cases to reduce systematic errors and shorten measurement times.
Forfattere
Alexey Mikaberidze C. D. Cruz Ayalsew Zerihun Abel Barreto Pieter Simon A Beck Rocío Calderón Carlos Camino Rebecca E. Campbell Stephanie K.L. Delalieux Frédéric Fabre Elin Falla Stuart Fraser Kaitlin M. Gold Carlos Gongora-Canul Frédéric Hamelin Dalphy Ondine Camira Harteveld Cheng Fang Hong Melen Leclerc Da Young Lee Murillo Lobo Anne Katrin Mahlein Emily McLay Paul Melloy Stephen Parnell Uwe Rascher Jack Rich Irene Salotti Samuel Soubeyrand Susan Sprague Antony Surano Sandhya D. Takooree Thomas H. Taylor Suzanne Touzeau Pablo J. Zarco-Tejada Nik J. CunniffeSammendrag
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Forfattere
Ludmila Sromek Kevin P. Johnson Mervi Kunnasranta Aqqalu Rosing-Asvid Britt Marie Bäcklin Aselle Tasmagambetova Adylkhan Tovassarov Olga Rusinek Heather L. Ziel Ana Rubio-García Tommi NymanSammendrag
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Forfattere
Vincent Biard Piia Mutka Mairi Young Marja Niemi Tommi Nyman Milaja Nykänen Mervi KunnasrantaSammendrag
Det er ikke registrert sammendrag
Forfattere
Maxime Eeraerts Julia Osterman Péter Batáry Alexandra Maria Klein Matthias Albrecht Georg K.S. Andersson András Báldi Olivia M. Bernauer Leah Blechschmidt Eleanor J. Blitzer Paulo A.V. Borges Jordi Bosch Katherine L.W. Burns Alistair J. Campbell Sílvia Castro James M. Cook Robin Daelemans Bryan N. Danforth Arjen G. de Groot Kinley Dorji Rita Földesi Hannah R. Gaines Day Daniel García Lucas A. Garibaldi Michael P.D. Garratt Andrew Gonzalez Heather Grab Claudio Gratton Maren Kristine Koffeld Halvorsen Peter A. Hambäck Bjørn Arild Hatteland Olivier Honnay Eva Hulsmans Sandra Kaasen Vestheim David Kleijn Anikó Kovács-Hostyánszki Martin J. Lechowicz Nicolas Leclercq Yunhui Liu João Loureiro Rachel E. Mallinger Leon Marshall Ivan Meeus Marcos Miñarro Diego N. Nabaes Jodar Adara Pardo Mia G. Park Robert J. Paxton Néstor Pérez-Méndez Rafael A. Pincante De Carvalho Paavo Pirttilehto Matti Pisman Simon G. Potts Nigel E. Raine James R. Reilly Laura Roquer-Beni Ulrika Samnegård Dara A. Stanley Louis Sutter Kyle Teixeira-Martins Simon M. Tierney Ruan Veldtman Nicolas J. Vereecken Felix Wäckers Timothy Weekers Julianna K. Wilson Panlong Wu Kris VerheyenSammendrag
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Sammendrag
Recycling nutrients and organic matter available as waste in urban areas may close nutrient gaps and improve soil quality, but the concentrations of potentially toxic elements (PTEs) are commonly higher than in mineral fertilisers. How quickly may the limits for soil quality be exceeded, and for which elements, if such materials are applied intensively? For a rough answer to this question, we used soil data from ten case farms near Oslo and Bergen (Norway) to estimate how PTE concentrations increased when the demand for nitrogen (N), phosphorus (P) and potassium (K) in a theoretical carrot crop produced every year was covered by compost or digestate from source-separated food waste, or composted garden waste, compared with manure from horses and poultry which are often kept in peri-urban areas. With the intensive fertilisation assumed here, the Norwegian soil quality limits for PTEs were reached within 20–85 years, and faster for soil with more organic matter since regulatory limits set by weight discriminate soils with low bulk density. The limits were reached frst for Cu and Zn, which are both essential micronutrients for crop plants. The concentrations of macronutrients in the urban waste-based fertilisers were not well balanced. Rates covering the K demand would lead to high surpluses of P and N. In peri-urban vegetable growing, high applications of compost are not unusual, but more balanced fertilisation is required. The Norwegian regulations for PTEs in organic soil amendments and agricultural soil are stricter than in the EU, and do not support recycling of organic matter and nutrients from urban waste. Many materials which can only be applied with restricted amounts to Norwegian agricultural soil, may be applied according to crop demand in the EU. Growers utilising urban waste-based fertilisers intensively should monitor the soil regularly, including PTE analyses. Soil sampling should occur on fxed sampling points to reveal changes in concentrations over time. Norwegian authorities should consider a revision of the organic fertiliser regulation to support recycling of valuable organic materials. There is a need for more data on the PTE concentrations in agricultural soil and organic fertiliser materials
Sammendrag
Coastal communities are grappling with challenges from the climate crisis, rural depopulation, and economic pressures. The BlueRev initiative addresses these issues by empowering coastal communities, reimagining policy frameworks and fostering adaptable governance structures. BlueRev aims to drive social and environmental impact within local communities across pilot regions (Denmark/Greenland, Italy, Estonia) by establishing sustainable and socially responsible business models in the blue bio-based sector. This report highlights best practices from pilot regions in fish by-products valorisation, showcasing innovative business models in Greenland, Denmark, Estonia, and Sicily. • Greenland: Transforming fish processing waste into dog food. • Denmark: Developing an Omega-3 enriched functional beverage. • Estonia: Utilizing red algae for nutraceutical and cosmetic applications. • Sicily: Promoting the sustainable valorisation of by-catch, specifically The Ritunnu. The guidelines developed in this report will serve as a foundation for scaling these practices within the blue bioeconomy and beyond. They provide practical, actionable steps for implementing sustainable business models and are intended to support future efforts to expand the adoption of circular economy principles in the blue bio-based sector
Sammendrag
Det er ikke registrert sammendrag
Forfattere
Gunnhild SøgaardSammendrag
Videoforedrag på «Innføringskurs i klimagasser fra landbruket», et etter/-videreutdanningskurs i regi av Senter for etter- og videreutdanning (SEVU) ved NMBU.