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Relevancy: 100%
Collaborative project: Development of a silicate-coated agricultural net for ecological control of the cherry vinegar fly - Subproject B (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
Relevancy: 100%
Collaborative project: Development of a silicate-coated agricultural net for ecological control of the cherry vinegar fly - Subproject C (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
Relevancy: 100%
Collaborative project: Development of a coating containing silica particles on an agricultural mesh for ecological pest control of the cherry vinegar - Subproject D (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
Relevancy: 100%
Collaborative project: Development of a reliable disinfection concept for the production of healthy vine propagation material - Subproject A (Project)
Regarding infestations by phylloxera (Dactylosphaera vitifoliae), only grafted material possessing high resistance to this pathogen are allowed for planting. During the propagation process losses of plant material are particularly caused by contaminations with different mould fungi. To avoid these contaminations, chemical treatments are used to disinfect the wood surface of the material at...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Development of a reliable disinfection concept for the production of healthy vine propagation material - Subproject B (Project)
Regarding infestations by phylloxera (Dactylosphaera vitifoliae), only grafted material possessing high resistance to this pathogen are allowed for planting. During the propagation process losses of plant material are particularly caused by contaminations with different mould fungi. To avoid these contaminations, chemical treatments are used to disinfect the wood surface of the material at...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Development of a reliable disinfection concept for the production of healthy vine propagation material - Subproject C (Project)
Regarding infestations by phylloxera (Dactylosphaera vitifoliae), only grafted material possessing high resistance to this pathogen are allowed for planting. During the propagation process losses of plant material are particularly caused by contaminations with different mould fungi. To avoid these contaminations, chemical treatments are used to disinfect the wood surface of the material at...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Development of a reliable disinfection concept for the production of healthy vine propagation material - Subproject D (Project)
Regarding infestations by phylloxera (Dactylosphaera vitifoliae), only grafted material possessing high resistance to this pathogen are allowed for planting. During the propagation process losses of plant material are particularly caused by contaminations with different mould fungi. To avoid these contaminations, chemical treatments are used to disinfect the wood surface of the material at...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: RNA-based crop protection technologies for sustainable control of rapeseed flea beetle in canola cultivation - Subproject A (Project)
The cabbage-stem flea beetle (Psylliodes chrysocephala) causes significant yield losses in rapeseed cultivation and conventional insecticides can no longer ensure yield protection in the future due to regulations and resistance development. An environmentally friendly alternative to conventional broad-spectrum pesticides is RNA interference (RNAi) technology. By sequence-specific silencing of...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: RNA-based crop protection technologies for sustainable control of rapeseed flea beetle in canola cultivation - Subproject B (Project)
The cabbage-stem flea beetle (Psylliodes chrysocephala) causes significant yield losses in rapeseed cultivation and conventional insecticides can no longer ensure yield protection in the future due to regulations and resistance development. An environmentally friendly alternative to conventional broad-spectrum pesticides is RNA interference (RNAi) technology. By sequence-specific silencing of...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: RNA-based crop protection technologies for sustainable control of rapeseed flea beetle in canola cultivation - Subproject C (Project)
The cabbage-stem flea beetle (Psylliodes chrysocephala) causes significant yield losses in rapeseed cultivation and conventional insecticides can no longer ensure yield protection in the future due to regulations and resistance development. An environmentally friendly alternative to conventional broad-spectrum pesticides is RNA interference (RNAi) technology. By sequence-specific silencing of...
Funding period: 2024 - 2027
