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Relevancy: 100%
Collaborative project: Knowledge-based site-specific analysis for environmentally sustainable weed management in integrated crop production - subproject D (Project)
Herbicide application is currently the most-widely used method to control weeds in conventionally managed arable systems. Against the background of negative impacts of chemical plant protection and an ongoing loss of arable weed diversity, there is a pressing need to develop innovative, environmental-friendly methods for weed control. To achieve this, the greatest challenge is creating a balance...
Funding period: 2021 - 2024
Relevancy: 100%
Collaborative project: Knowledge-based site-specific analysis for environmentally sustainable weed management in integrated crop production - subproject C (Project)
Herbicide application is currently the most-widely used method to control weeds in conventionally managed arable systems. Against the background of negative impacts of chemical plant protection and an ongoing loss of arable weed diversity, there is a pressing need to develop innovative, environmental-friendly methods for weed control. To achieve this, the greatest challenge is creating a balance...
Funding period: 2021 - 2024
Relevancy: 100%
Collaborative project: Knowledge-based site-specific analysis for environmentally sustainable weed management in integrated crop production - subproject B (Project)
Herbicide application is currently the most-widely used method to control weeds in conventionally managed arable systems. Against the background of negative impacts of chemical plant protection and an ongoing loss of arable weed diversity, there is a pressing need to develop innovative, environmental-friendly methods for weed control. To achieve this, the greatest challenge is creating a balance...
Funding period: 2021 - 2024
Relevancy: 100%
Collaborative project: Knowledge-based site-specific analysis for environmentally sustainable weed management in integrated crop production - subproject A (Project)
Herbicide application is currently the most-widely used method to control weeds in conventionally managed arable systems. Against the background of negative impacts of chemical plant protection and an ongoing loss of arable weed diversity, there is a pressing need to develop innovative, environmental-friendly methods for weed control. To achieve this, the greatest challenge is creating a balance...
Funding period: 2021 - 2024
Relevancy: 100%
Collaborative project: Joint research project: Identification of optimisation potentials for an environmental friendly production of milk and milk products - subproject 1 (Project)
For the research project 'derivation of environmental optimisation potentials for the production of milk and dairy products' which was founded by the Federal Ministry of Food and Agriculture, a life cycle assessment of the production and use of milk (fresh and UHT), yoghurt (natural and fruit flavour), sliced cheese and powdered milk in Germany was conducted. The impact of individual life cycle...
Funding period: 2012 - 2014
Relevancy: 100%
Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 1 (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
Relevancy: 100%
'Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 2 ' (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 3 (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Ion-selective control for resource-efficient nutrient supply with respect to plant requirements in recirculating, hydroponic indoor vertical farms - subproject C (Project)
Existing agricultural production methods are facing challenges such as climate change, eu-trophication, phosphorus scarcity and water pollution, as well as increasing urbanisation. One solution to this is vertical, hydroponic plant production in urban areas with an efficient water- and nutrient input. The project Nutrient+CtrlIVF therefore aims to establish NUTRI-STAT anal-ysis modules for the...
Funding period: 2022 - 2025
Relevancy: 100%
Collaborative project: Ion-selective control for resource-efficient nutrient supply with respect of plant requirements in recirculating, hydroponic indoor vertical farms - subproject B (Project)
Existing agricultural production methods are facing challenges such as climate change, eu-trophication, phosphorus scarcity and water pollution, as well as increasing urbanisation. One solution to this is vertical, hydroponic plant production in urban areas with an efficient water- and nutrient input. The project Nutrient+CtrlIVF therefore aims to establish NUTRI-STAT anal-ysis modules for the...
Funding period: 2022 - 2025
