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Relevancy: 100%
Collaborative project: Development of alternative control strategies and methods for the control of the cicada vector Pentastiridius leporinus of the sugar beet disease 'Syndrome Basses Richesses' to ensure yield stability - subproject D (Project)
The overall objective is to develop effective and sustainable SBR control strategies to ensure the competitiveness of German sugar beet cultivation and to preserve the agronomic advantages of the crop for securing the supply of food and feed. To this end, methods are to be developed and optimized from various sustainable and environmentally friendly areas of integrated crop protection, such as...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Development of alternative control strategies and methods for the control of the cicada vector Pentastiridius leporinus of the sugar beet disease 'Syndrome Basses Richesses' to ensure yield stability - subproject E (Project)
The overall objective is to develop effective and sustainable SBR control strategies to ensure the competitiveness of German sugar beet cultivation and to preserve the agronomic advantages of the crop for securing the supply of food and feed. To this end, methods are to be developed and optimized from various sustainable and environmentally friendly areas of integrated crop protection, such as...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Sustainable crop protection using spores and tailor-made peptide adhesion promoters - Subproject A (Project)
To achieve the project goal in the first step biadhesive peptides will be developed for the antagonistic fungus Clonostachys resea. Afterwards, the developed peptides will be tested for other fungal biocontrol agents like Trichoderma harzianum, Cordyceps fumsosoroseus and Metarhizium brunneum. The production of fungal spores in two different fermentation systems (solid and liquid) is envisaged to...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Sustainable crop protection using spores and tailor-made peptide adhesion promoters - Subproject B (Project)
To achieve the project goal in the first step biadhesive peptides will be developed for the antagonistic fungus Clonostachys resea. Afterwards, the developed peptides will be tested for other fungal biocontrol agents like Trichoderma harzianum, Cordyceps fumsosoroseus and Metarhizium brunneum. The production of fungal spores in two different fermentation systems (solid and liquid) is envisaged to...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Sustainable crop protection using spores and tailor-made peptide adhesion promoters - Subproject C (Project)
To achieve the project goal in the first step biadhesive peptides will be developed for the antagonistic fungus Clonostachys resea. Afterwards, the developed peptides will be tested for other fungal biocontrol agents like Trichoderma harzianum, Cordyceps fumsosoroseus and Metarhizium brunneum. The production of fungal spores in two different fermentation systems (solid and liquid) is envisaged to...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Sustainable crop protection using spores and tailor-made peptide adhesion promoters - Subproject D (Project)
To achieve the project goal in the first step biadhesive peptides will be developed for the antagonistic fungus Clonostachys resea. Afterwards, the developed peptides will be tested for other fungal biocontrol agents like Trichoderma harzianum, Cordyceps fumsosoroseus and Metarhizium brunneum. The production of fungal spores in two different fermentation systems (solid and liquid) is envisaged to...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Knowledge-based measures for sustainable crop protection for long-term sustainment of Plasmopara viticola resistance in fungus-resistant grapevine cultivars - Subproject A (Project)
Fungus-resistant grapevine varieties, so-called PIWIs, are characterized by an increased resistance to pathogens such as Plasmopara viticola, the causative agent of downy mildew of grapevines. Without a minimum of plant protection, the resistance could be broken over time due to the adaptation ability of the pathogen to the host plant. To prevent a break in resistance, the development of adapted...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Knowledge-based measures for sustainable crop protection for long-term sustainment of Plasmopara viticola resistance in fungus-resistant grapevine cultivars - Subproject C (Project)
Fungus-resistant grapevine varieties, so-called PIWIs, are characterized by an increased resistance to pathogens such as Plasmopara viticola, the causative agent of downy mildew of grapevines. Without a minimum of plant protection, the resistance could be broken over time due to the adaptation ability of the pathogen to the host plant. To prevent a break in resistance, the development of adapted...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Knowledge-based measures for sustainable crop protection for long-term sustainment of Plasmopara viticola resistance in fungus-resistant grapevine cultivars - Subproject D (Project)
Fungus-resistant grapevine varieties, so-called PIWIs, are characterized by an increased resistance to pathogens such as Plasmopara viticola, the causative agent of downy mildew of grapevines. Without a minimum of plant protection, the resistance could be broken over time due to the adaptation ability of the pathogen to the host plant. To prevent a break in resistance, the development of adapted...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Development of a silicate-coated agricultural net for ecological control of the cherry vinegar fly - Subproject A (Project)
In the 'SilNet' cooperation project, a non-toxic agricultural textile is being developed that actively protects agricultural goods against the spotted wing drosophila. The environmentally friendly and non-toxic property of the textile is achieved by avoiding the use of toxic chemicals. The active protective function is realised by coating the agricultural textile with silica particles that adsorb...
Funding period: 2024 - 2026
