We use cookies on our website. Some are necessary for the operation of the website. You can also allow cookies for statistical purposes. You can adjust the data protection settings or agree to all cookies directly.
Data Protection Declaration
Imprint
Advanced Search
Search results
10 of 24385 ResultsSorting
Relevancy: 100%
Collaborative project: Lure and Monitoring System - Mobile lure and monitoring system for close monitoring of insect pests using an adaptive, fully automatic LED light panel and simultaneous laser control of identified pests - Subproject E (Project)
The aim of this project is to research, design,realise and evaluate an autonomously operating integrated system for the control of herbivorous insects in outdoor agriculture comprising an LED-based light panel to attract and monitor the insects and a laser module for the specific treatment of herbivorous insects. The narrow-band LED light trap can emit various wavelength spectra in different...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Lure and Monitoring System - Mobile lure and monitoring system for close monitoring of insect pests using an adaptive, fully automatic LED light panel and simultaneous laser control of identified pests - Subproject F (Project)
The aim of this project is to research, design,realise and evaluate an autonomously operating integrated system for the control of herbivorous insects in outdoor agriculture comprising an LED-based light panel to attract and monitor the insects and a laser module for the specific treatment of herbivorous insects. The narrow-band LED light trap can emit various wavelength spectra in different...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Lure and Monitoring System - Mobile lure and monitoring system for close monitoring of insect pests using an adaptive, fully automatic LED light panel and simultaneous laser control of identified pests - Subproject G (Project)
The aim of this project is to research, design,realise and evaluate an autonomously operating integrated system for the control of herbivorous insects in outdoor agriculture comprising an LED-based light panel to attract and monitor the insects and a laser module for the specific treatment of herbivorous insects. The narrow-band LED light trap can emit various wavelength spectra in different...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Lure and Monitoring System - Mobile lure and monitoring system for close monitoring of insect pests using an adaptive, fully automatic LED light panel and simultaneous laser control of identified pests - Subproject H (Project)
The aim of this project is to research, design,realise and evaluate an autonomously operating integrated system for the control of herbivorous insects in outdoor agriculture comprising an LED-based light panel to attract and monitor the insects and a laser module for the specific treatment of herbivorous insects. The narrow-band LED light trap can emit various wavelength spectra in different...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Lure and Monitoring System - Mobile lure and monitoring system for close monitoring of insect pests using an adaptive, fully automatic LED light panel and simultaneous laser control of identified pests - Subproject I (Project)
The aim of this project is to research, design,realise and evaluate an autonomously operating integrated system for the control of herbivorous insects in outdoor agriculture comprising an LED-based light panel to attract and monitor the insects and a laser module for the specific treatment of herbivorous insects. The narrow-band LED light trap can emit various wavelength spectra in different...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Method for biological control of vegetable flies using encapsulated entomopathogenic nematodes - Subproject A (Project)
The overall goal of the project is to establish the use of entomopathogenic nematodes for the biological control of vegetable flies in open-field cultures, based on an innovative capsule-based formulation, and to develop application strategies for the resulting new control alternatives. The process is to be developed as an example for the control of the cabbage root fly (Delia radicum) in the...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Method for biological control of vegetable flies using encapsulated entomopathogenic nematodes - Subproject B (Project)
The overall goal of the project is to establish the use of entomopathogenic nematodes for the biological control of vegetable flies in open-field cultures, based on an innovative capsule-based formulation, and to develop application strategies for the resulting new control alternatives. The process is to be developed as an example for the control of the cabbage root fly (Delia radicum) in the...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Method for biological control of vegetable flies using encapsulated entomopathogenic nematodes - Subproject C (Project)
The overall goal of the project is to establish the use of entomopathogenic nematodes for the biological control of vegetable flies in open-field cultures, based on an innovative capsule-based formulation, and to develop application strategies for the resulting new control alternatives. The process is to be developed as an example for the control of the cabbage root fly (Delia radicum) in the...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Adjustment of N-fertilisation according to site specific variation of yield potential and soil N supply- Subproject A (Project)
The aim of the proposed research project is to contribute to the increase in nitrogen utilization efficiency and thus to climate and groundwater protection in arable farming. For this purpose, new model-based algorithms are to be developed that enable demand-based, site-specific determination of nitrogen fertilization for winter wheat, taking into account differences in site-specific yield...
Funding period: 2024 - 2027
Relevancy: 100%
Collaborative project: Adjustment of N-fertilisation according to site specific variation of yield potential and soil N supply- Subproject B (Project)
The aim of the proposed research project is to contribute to the increase in nitrogen utilization efficiency and thus to climate and groundwater protection in arable farming. For this purpose, new model-based algorithms are to be developed that enable demand-based, site-specific determination of nitrogen fertilization for winter wheat, taking into account differences in site-specific yield...
Funding period: 2024 - 2027
