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Relevancy: 100%
Site-specific modelling of N dynamics for the reduction of gaseous N emissions and further N losses in crop production - SP A (Project)
The focus of the presented project is on the reduction of N2O and NH3 emissions as well as N leaching through predictable, informed and site-adapted management in crop production. The long-term experiments selected for sampling and informing the modelling cover the most important management measures crop rotation incl. catch crops, tillage incl. mulching of crops that have high amounts of N, as...
Funding period: 2023 - 2026
Relevancy: 100%
Site-specific modelling of N dynamics for the reduction of gaseous N emissions and further N losses in crop production - SP B (Project)
The focus of the presented project is on the reduction of N2O and NH3 emissions as well as N leaching through predictable, informed and site-adapted management in crop production. The long-term experiments selected for sampling and informing the modelling cover the most important management measures crop rotation incl. catch crops, tillage incl. mulching of crops that have high amounts of N, as...
Funding period: 2023 - 2026
Relevancy: 100%
Site-specific modelling of N dynamics for the reduction of gaseous N emissions and further N losses in crop production - SP C (Project)
The focus of the presented project is on the reduction of N2O and NH3 emissions as well as N leaching through predictable, informed and site-adapted management in crop production. The long-term experiments selected for sampling and informing the modelling cover the most important management measures crop rotation incl. catch crops, tillage incl. mulching of crops that have high amounts of N, as...
Funding period: 2023 - 2026
Relevancy: 100%
Site-specific modelling of N dynamics for the reduction of gaseous N emissions and further N losses in crop production - SP D (Project)
The focus of the presented project is on the reduction of N2O and NH3 emissions as well as N leaching through predictable, informed and site-adapted management in crop production. The long-term experiments selected for sampling and informing the modelling cover the most important management measures crop rotation incl. catch crops, tillage incl. mulching of crops that have high amounts of N, as...
Funding period: 2023 - 2026
Relevancy: 100%
Site specific modeling of N dynamics aiming at reduction of gaseous N emissions and other N losses from cropping systems - SP E (Project)
The overall objective of the joint project is to reduce N2O and NH3 emissions as well as N leaching through knoeledge-based and site-adapted management in crop production. The specific objective of the sub-project 'Thyrow permanent field trial' is to quantify the effect of organic and mineral N fertilisation on gaseous N losses at a site with clay and humus-poor topsoil, which is unfavourable...
Funding period: 2023 - 2026
Relevancy: 100%
Site-differentiated assessment and crediting of the efficacy of nitrification inhibitors as a climate mitigation measure in crop production - SP A (Project)
Nitrous oxide emissions (N2O emissions) from agriculture are accountable for around 80% of total N2O emissions in Germany and for 45% of greenhouse gas (GHG) emissions from the agricultural sector. The largest source of N2O in agriculture is the use of nitrogen fertilisers (mineral fertilisers and organic manure also including biogas digestates), which causes ca. 60% of total N2O emissions from...
Funding period: 2022 - 2026
Relevancy: 100%
Site-differentiated assessment and crediting of the efficacy of nitrification inhibitors as a climate mitigation measure in crop production - SP B (Project)
Nitrous oxide emissions (N2O emissions) from agriculture are accountable for around 80% of total N2O emissions in Germany and for 45% of greenhouse gas (GHG) emissions from the agricultural sector. The largest source of N2O in agriculture is the use of nitrogen fertilisers (mineral fertilisers and organic manure also including biogas digestates), which causes ca. 60% of total N2O emissions from...
Funding period: 2022 - 2026
Relevancy: 100%
Site-differentiated assessment and crediting of the efficacy of nitrification inhibitors as a climate mitigation measure in crop production (Project)
Nitrous oxide emissions (N2O emissions) from agriculture are accountable for around 80% of total N2O emissions in Germany and for 45% of greenhouse gas (GHG) emissions from the agricultural sector. The largest source of N2O in agriculture is the use of nitrogen fertilisers (mineral fertilisers and organic manure also including biogas digestates), which causes ca. 60% of total N2O emissions from...
Funding period: 2022 - 2026
Relevancy: 100%
Site-differentiated assessment and crediting of the efficacy of nitrification inhibitors as a climate mitigation measure in crop production - SP C (Project)
Nitrous oxide emissions (N2O emissions) from agriculture are accountable for around 80% of total N2O emissions in Germany and for 45% of greenhouse gas (GHG) emissions from the agricultural sector. The largest source of N2O in agriculture is the use of nitrogen fertilisers (mineral fertilisers and organic manure also including biogas digestates), which causes ca. 60% of total N2O emissions from...
Funding period: 2022 - 2026
Relevancy: 100%
Site-differentiated assessment and crediting of the efficacy of nitrification inhibitors as a climate mitigation measure in crop production - SP D (Project)
Nitrous oxide emissions (N2O emissions) from agriculture are accountable for around 80% of total N2O emissions in Germany and for 45% of greenhouse gas (GHG) emissions from the agricultural sector. The largest source of N2O in agriculture is the use of nitrogen fertilisers (mineral fertilisers and organic manure also including biogas digestates), which causes ca. 60% of total N2O emissions from...
Funding period: 2022 - 2026
