Publications
NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.
2025
Abstract
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.
Authors
Mohammad Tirgariseraji A. Pouyan Nejadhashemi Mahmood Sabouhi Sabouni Yaghoob Jafari Tomas Persson Alisher Mirzabaev Alireza Nikouei Kieron Moller Naser Shahnoushi ForoushaniAbstract
No abstract has been registered
Authors
Monica Sanden Eirill Ager-Wick Johanna Eva Bodin Nur Duale Anne-Marthe Ganes Jevnaker Kristian Prydz Volha Shapaval Ville Erling Sipinen Tage ThorstensenAbstract
The Norwegian Scientific Committee for Food and Environment (VKM) has assessed an application for approval of soy leghemoglobin produced from genetically modified Komagataella phaffii for food uses in the EU. In accordance with an assignment specified by the Norwegian Food Safety Authority (NFSA) and the Norwegian Environment Agency (NEA), VKM assesses whether genetically modified organisms (GMOs) intended for the European market can pose risks to human or animal health, or the environment in Norway. VKM assesses the scientific documentation regarding GMO applications seeking approval for use of GMOs as food and feed, processing, or cultivation. The EU Regulation 1829/2003/EC (Regulation) covers living GMOs that fall under the Norwegian Gene Technology Act, as well as processed food and feed from GMOs (dead material) that fall under the Norwegian Food Act. The regulation is currently not part of the EEA agreement or implemented in Norwegian law. Norway conducts its own assessments of GMO applications in preparation for the possible implementation of the Regulation. In accordance with the assignment by NFSA and NEA, VKM assesses GMO applications during scientific hearings initiated by the European Food Safety Authority (EFSA), as well as after EFSA has published its own risk assessment of a GMO, up until EU member countries vote for or against approval in the EU Commission. The assignment is divided into three stages. Soy leghemoglobin produced from genetically modified Komagataella phaffii This application is submitted to gain authorisation for the use of soy leghemoglobin (the liquid preparation is referred to as “LegH Prep”) produced from genetically modified Komagataella phaffii (yeast) as a flavouring (“meaty taste”) in meat analogue products that will be marketed in the European Union (EU). Soy leghemoglobin is intended for addition to meat analogue products that are for use in foods such as burgers, meatballs, and sausages. Komagataella phaffii-strain employed in the production of soy leghemoglobin contains genetic modifications which allow it to express this protein. Following fermentation, the cells are lysed, and the soy leghemoglobin is concentrated by physical means. The soy leghemoglobin is delivered in a liquid preparation (LegH Prep) that is standardised to contain up to 9% soy leghemoglobin on a wet weight basis and a soy leghemoglobin protein purity of at least 65%. The remainder of the protein fraction in the LegH Prep is accounted for by residual proteins from the Komagataella phaffii production strain. These residual proteins are all endogenous to Komagataella phaffii as the gene coding for the expression of soy leghemoglobin is the only gene from a different organism. VKM has assessed the documentation in application EFSA-GMO- NL-2019-162 and EFSA's scientific opinion for the use of soy leghemoglobin produced from genetically modified Komagataella phaffii. The scientific documentation provided in the application is adequate for risk assessment, and in accordance with the EFSA guidance on risk assessment of genetically modified microorganisms for use in food or feed. The VKM GMO Panel does not consider leghemoglobin from genetically modified Komagataella phaffii to imply potential specific health risks in Norway, compared to EU-countries. The EFSA opinion is adequate also for Norwegian considerations. Therefore, a full risk assessment was not performed by VKM. About the assignment: (...)
Authors
Monica Sanden Eirill Ager-Wick Johanna Eva Bodin Nur Duale Anne-Marthe Ganes Jevnaker Kristian Prydz Volha Shapaval Ville Erling Sipinen Tage ThorstensenAbstract
The Norwegian Scientific Committee for Food and Environment (VKM) has assessed an application for approval of the genetically modified maize DP51291 for food and feed uses, import and processing in the EU. In accordance with an assignment specified by the Norwegian Food Safety Authority (NFSA) and the Norwegian Environment Agency (NEA), VKM assesses whether genetically modified organisms (GMOs) intended for the European market can pose risks to human or animal health, or the environment in Norway. VKM assesses the scientific documentation regarding GMO applications seeking approval for use of GMOs as food and feed, processing, or cultivation. The EU Regulation 1829/2003/EC (Regulation) covers living GMOs that fall under the Norwegian Gene Technology Act, as well as processed food and feed from GMOs (dead material) that fall under the Norwegian Food Act. The regulation is currently not part of the EEA agreement or implemented in Norwegian law. Norway conducts its own assessments of GMO applications in preparation for the possible implementation of the Regulation. In accordance with the assignment by NFSA and NEA, VKM assesses GMO applications during scientific hearings initiated by the European Food Safety Authority (EFSA), as well as after EFSA has published its own risk assessment of a GMO, up until EU member countries vote for or against approval in the EU Commission. The assignment is divided into three stages. Genetically modified maize DP51291 Genetically modified maize DP51291 (application GMFF-2021-0071) was developed via Agrobacterium tumefaciens mediated transformation. DP51291 plants contain the transgenes ipd072Aa and pat which encode the proteins IPD072Aa and PAT (phosphinothricin acetyltransferase). IPD072Aa confers protection against susceptible corn rootworm pests, and the PAT protein confers tolerance to glufosinate herbicide. The phosphomannose isomerase (PMI) protein that was used as a selectable marker. VKM has assessed the documentation in application GMFF-2021-0071 and EFSA's scientific opinion on genetically modified maize DP51291. VKM concludes that the applicant's scientific documentation for the genetically modified maize DP51291 is satisfactory for risk assessment, and in accordance with EFSA guidelines for risk assessment of genetically modified plants for food or feed uses. The genetic modifications in maize DP51291 do not indicate an increased health or environmental risk in Norway compared with EU countries. EFSA's risk assessment is therefore sufficient also for Norwegian conditions. As no specific Norwegian conditions have been identified regarding properties of the genetically modified maize DP51291, VKM's GMO panel has not performed a complete risk assessment of the maize. (...)
Authors
Monica Sanden Eirill Ager-Wick Johanna Eva Bodin Nur Duale Kristian Prydz Volha Shapaval Tage ThorstensenAbstract
The Norwegian Scientific Committee for Food and Environment (VKM) has assessed an application for approval of soy leghemoglobin produced from genetically modified Komagataella phaffii for food uses in the EU. In accordance with an assignment specified by the Norwegian Food Safety Authority (NFSA) and the Norwegian Environment Agency (NEA), VKM assesses whether genetically modified organisms (GMOs) intended for the European market can pose risks to human or animal health, or the environment in Norway. VKM assesses the scientific documentation regarding GMO applications seeking approval for use of GMOs as food and feed, processing, or cultivation. The EU Regulation 1829/2003/EC (Regulation) covers living GMOs that fall under the Norwegian Gene Technology Act, as well as processed food and feed from GMOs (dead material) that fall under the Norwegian Food Act. The regulation is currently not part of the EEA agreement or implemented in Norwegian law. Norway conducts its own assessments of GMO applications in preparation for the possible implementation of the Regulation. In accordance with the assignment by NFSA and NEA, VKM assesses GMO applications during scientific hearings initiated by the European Food Safety Authority (EFSA), as well as after EFSA has published its own risk assessment of a GMO, up until EU member countries vote for or against approval in the EU Commission. The assignment is divided into three stages. Soy leghemoglobin produced from genetically modified Komagataella phaffii This application is submitted to gain authorisation for the use of soy leghemoglobin (the liquid preparation is referred to as “LegH Prep”) produced from genetically modified Komagataella phaffii (yeast) as a flavouring (“meaty taste”) in meat analogue products that will be marketed in the European Union (EU). Soy leghemoglobin is intended for addition to meat analogue products that are for use in foods such as burgers, meatballs, and sausages. Komagataella phaffii-strain employed in the production of soy leghemoglobin contains genetic modifications which allow it to express this protein. Following fermentation, the cells are lysed, and the soy leghemoglobin is concentrated by physical means. The soy leghemoglobin is delivered in a liquid preparation (LegH Prep) that is standardised to contain up to 9% soy leghemoglobin on a wet weight basis and a soy leghemoglobin protein purity of at least 65%. The remainder of the protein fraction in the LegH Prep is accounted for by residual proteins from the Komagataella phaffii production strain. These residual proteins are all endogenous to Komagataella phaffii as the gene coding for the expression of soy leghemoglobin is the only gene from a different organism. VKM has assessed the documentation in application EFSA-GMO- NL-2019-162 and EFSA's scientific opinion for the use of soy leghemoglobin produced from genetically modified Komagataella phaffii. The scientific documentation provided in the application is adequate for risk assessment, and in accordance with the EFSA guidance on risk assessment of genetically modified microorganisms for use in food or feed. The VKM GMO Panel does not consider leghemoglobin from genetically modified Komagataella phaffii to imply potential specific health risks in Norway, compared to EU-countries. The EFSA opinion is adequate also for Norwegian considerations. Therefore, a full risk assessment was not performed by VKM. About the assignment: (...)
Authors
Joachim Paul Töpper Joseph Chipperfield Robert Lewis Liv Guri Velle Dagmar Dorothea Egelkraut Vigdis VandvikAbstract
No abstract has been registered
Authors
Joachim Paul Töpper Joseph Chipperfield Robert Lewis Liv Guri Velle Dagmar Dorothea Egelkraut Vigdis VandvikAbstract
No abstract has been registered
Authors
Stefano Puliti Emily R. Lines Jana Müllerová Julian Frey Zoe Schindler Adrian Straker Matthew J. Allen Lukas Winiwarter Nataliia Rehush Hristina Hristova Brent Murray Kim Calders Nicholas Coops Bernhard Höfle Liam Irwin Samuli Junttila Martin Krůček Grzegorz Krok Kamil Král Shaun R. Levick Linda Luck Azim Missarov Martin Mokroš Harry J. F. Owen Krzysztof Stereńczak Timo P. Pitkänen Nicola Puletti Ninni Saarinen Chris Hopkinson Louise Terryn Chiara Torresan Enrico Tomelleri Hannah Weiser Rasmus AstrupAbstract
No abstract has been registered
Authors
Chi Wu Yuzhu Wang Jihong Liu Clarke Hang Su Liang Wang Olga A. Glazunova Konstantin V. Moiseenko Lan Zhang Liangang Mao Lizhen Zhu Xingang LiuAbstract
No abstract has been registered
Abstract
No abstract has been registered