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Relevancy: 100%
BitterSweet - Stabilisation of alkaloid depletion on low level to ensure sustainable cultivation of white lupin (Project)
currently unavailable
Funding period: 2023 - 2026
Relevancy: 100%
Contribution of orphan crops in building resilient cropping systems in the era of climate change in Manyoni District- Tanzania (Project)
The study aims to i) evaluate the contribution of orphan crops to sustainable and healthy traditional and mixed food systems, ii) evaluate farmers’ willingness to uptake the production of the selected orphan crops and iii) investigate the profitability along the selected orphan crop value chain. Or-Crop targets this knowledge gap by assessing the role that orphan crops play in the face of climate...
Funding period: 2023 - 2026
Relevancy: 100%
Evaluate and effectively utilize climate protection potentials of agroforestry (Project)
Agroforestry systems and hedgerows can greatly contribute to mitigating GHG emissions in agriculture, as tree strips and hedgerows can store carbon in their biomass and increase soil organic. In addition, these systems improve microclimate, reduce wind erosion as well as nutrient leaching, and connect habitats within the agricultural landscapes. To effectively utilize these potentials, we must...
Funding period: 2023 - 2026
Relevancy: 100%
Evaluate and effectively utilize climate protection potentials of agroforestry TP0 JKI-PB (Project)
Agroforestry systems and hedgerows can greatly contribute to mitigating GHG emissions in agriculture, as tree strips and hedgerows can store carbon in their biomass and increase soil organic. In addition, these systems improve microclimate, reduce wind erosion as well as nutrient leaching, and connect habitats within the agricultural landscapes. To ffectively utilize these potentials, we must...
Funding period: 2023 - 2026
Relevancy: 100%
Evaluate and efectively utilize climate protection potentials of agroforestry TP1 JKI_WS (Project)
Agroforestry systems and hedgerows can greatly contribute to mitigating GHG emissions in agriculture, as tree strips and hedgerows can store carbon in their biomass and increase soil organic. In addition, these systems improve microclimate, reduce wind erosion as well as nutrient leaching, and connect habitats within the agricultural landscapes. To effectively utilize these potentials, we must...
Funding period: 2023 - 2026
Relevancy: 100%
Agroforestry reinvented: agroecological, nutrition-sensitive intensification of vegetable production under fruit trees in Western and Eastern Africa (Project)
Agroecological intensification through agroforestry systems (i.e. species-rich combinations of trees and crops) can concurrently address the global challenges of climate change, biodiversity loss and malnutrition. The aim of the proposed project is to develop, test and promote innovative sustainable horticultural agroforestry systems (arbo-market gardens) in a participatory and transdisciplinary...
Funding period: 2023 - 2023
Relevancy: 100%
Sustainable Integrated Farming Systems for Mitigation of Climate Change and Adaptation of Smallholder Farm(er)s to Climate Change in India - Initiation Phase (Project)
A systemic facilitation approach called ‘Sustainable Integrated Farming Systems (SIFS)’ has been developed and implemented by Welthungerhilfe (WHH) and partners in the last decade.The approach moves away from individual crop performance to increased system productivity and nutrient use efficiency by integrating crops, horticulture, agrofo-restry, livestock and aquaculture in an interactive...
Funding period: 2023 - 2023
Relevancy: 100%
FUNGAS - Enzymes of anaerobic fungi improve biogas yields from residues and enable biogas production in small biogas plants in the INTERREG-region (Project)
currently unavailable
Funding period: 2023 - 2026
Relevancy: 100%
Field grazing with sheep (Project)
currently unavailable
Funding period: 2023 - 2026
Relevancy: 100%
Enhancing drought stress adaptation in oilseed rape: yield stability and stress tolerance as selection targets for optimization via physiological phenotyping (Project)
Specifically, STRESS-STOPP uses a network of highly complementary, globally unique phenotyping platforms from the partners IPK, JKI and JLU to record the "physiological phenotypes" over the entire vegetation period. For this purpose, the respective platforms DroughtSpotter XXL (JLU), Plant Culture Hall with Container/PhenoCrane and Rhizotron systems (IPK) and Plantarray (JKI) will set precisely...
Funding period: 2023 - 2026
