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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.

NIBIO POP → NIBIO Rapport → NIBIO Bok → Våre poenggivende vitenskapelige publikasjoner →

2025

Forfattere

Payel Bhattacharjee Mari Talgø Syvertsen Igor A. Yakovlev Torgeir Rhoden Hvidsten Torstein Tengs Mallikarjuna Rao Kovi Marcos Viejo Carl Gunnar Fossdal Jorunn Elisabeth Olsen

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Peter Horvath Lasse Torben Keetz Anne B. Nilsen Adam Eindride Naas

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Guro Brodal A. Gallo R. R. Santos

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Ulrike Bayr Svein Olav Krøgli Sebastian Eiter

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Urban agriculture (UA) is increasingly recognized as a key component of sustainable cities. Commercial farmers in urban areas benefit from a large customer base, short transport distances, and access to diverse sales channels. However, high pressure on land resources makes it difficult for farmers and decision makers to find suitable areas for UA. This study ranks urban and peri-urban farmland areas based on their suitability for urban agriculture (UA) and identifies opportunities for extending the area for UA to currently unused farmland. Through collaboration with urban farmers, we identified four key themes and eleven criteria, which were weighted for two sales scenarios: on-farm and off-farm. We performed a GIS-based multi-criteria decision analysis (MCDA) and assessed suitability using the technique of order preference similarity to the ideal solution (TOPSIS) on 1 × 1 km grid cells. By overlaying the suitability maps with presumably unused farmland (PUF), we identified areas with high potential for extending UA. In the City of Bergen, 15.3 % (on-farm; off-farm=14 %) of the total farmland is both unused and highly suitable for UA, compared to only 2.8 % (on-farm; off-farm=2.4 %) in Oslo. Assessing the suitability of agricultural land for UA can support spatial planning, protect agricultural topsoil from urban expansion, and help achieve global, national, and local goals for urban farming and sustainable land use.

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Jonas Schmidinger Sebastian Vogel Viacheslav Barkov Anh-Duy Pham Robin Gebbers Hamed Tavakoli Jose Correa Tiago R. Tavares Patrick Filippi Edward J. Jones Vojtech Lukas Eric Boenecke Joerg Ruehlmann Ingmar Schroeter Eckart Kramer Stefan Paetzold Masakazu Kodaira Alexandre M.J.-C. Wadoux Luca Bragazza Konrad Metzger Jingyi Huang Domingos S.M. Valente Jose L. Safanelli Eduardo L. Bottega Ricardo S.D. Dalmolin Csilla Farkas Alexander Steiger Taciara Z. Horst Leonardo Ramirez-Lopez Thomas Scholten Felix Stumpf Pablo Rosso Marcelo M. Costa Rodrigo S. Zandonadi Johanna Wetterlind Martin Atzmueller

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Andres Perea Sajidur Rahman Huiying Chen Andrew Cox Shelemia Nyamuryekung'e Mehmet Bakir Huping Cao Richard Estell Brandon Bestelmeyer Andres F. Cibils Santiago A. Utsumi

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Olle Anderbrant Hanh Huynh Ann-Kristin Isaksson Line Beate Lersveen Myhre Christer Löfstedt Sigrid Mogan Elisabeth Öberg Marja Rantanen Gunda Thöming Glenn P. Svensson

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Glenn P. Svensson Hanh Huynh Ann-Kristin Isaksson Line Beate Lersveen Myhre Christer Löfstedt Sigrid Mogan Elisabeth Öberg Marja Rantanen Nina Trandem Olle Anderbrant

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Zahra Bitarafan Melissa Magerøy Rafael de Andrade Moral Najmeh Salehan Kristian Schmidt Nielsen Christian Andreasen

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Christian Kuehne Kobra Maleki Morgane Merlin Aksel Granhus

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Data from the Norwegian national forest inventory spanning from 1994 to 2022 were analyzed to explore the growth dynamics of pure and mixed stands of Norway spruce and Scots pine. The derived large dataset enabled the development of models designed to assess how stand characteristics and drought interactively affect volume increment at the stand and individual tree level. The analysis revealed that pine-dominated stands outperform spruce-dominated stands at lower site qualities, while the opposite was true at higher site qualities. Mixed stands exhibited overyielding, with productivity exceeding the expected combined pure stand productivity of the individual species components. Based on model predictions, relative overyielding increased with stand age and declined with increasing site quality. Transgressive overyielding, where mixed stands outperform pure stands of either species, was predicted for medium site qualities. Drought-induced productivity losses increased with spruce proportion, especially at lower site qualities, and with stand density. The presence of pine in mixed stands mitigated the negative effects of drought on spruce. The findings of this study suggest that pure spruce stands should be avoided on lower-quality sites while mixed stands with appropriate thinning interventions should be promoted to maintain productivity under changing climatic conditions.