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Relevancy: 100%
Development of MALDI-TOF Expert Spectral Libraries for the rapid identification of plant pathogenic fungi (Project)
This Euphresco project topic proposes to first standardized MALDI-TOF sample extraction/target plate preparation protocol(s) for plant pathogenic fungi which is critical for both the generation of validated species spectra and for routine sample preparation to ensure reliable identifications. The second phase of the project focuses on the development of coordinated process for multi-laboratory...
Funding period: 2024 - 2026
Relevancy: 100%
Collaborative project: The next generation of fish disease diagnostics in German aquaculture on the basis of environmental and minimally invasive samples - Subproject A (Project)
The AQUA-PROBE project aims to develop and implement a new approach for the diagnosis of diseases affecting aquaculture in Germany. It will use a combination of eDNA/eRNA based detection of pathogens and minimally invasive monitoring of stress and health of fish. The new, innovative techniques and approaches will use the unique opportunities afforded by the aquatic environment for early detection...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: Small-scale retrieval of relevant soil parameters by a process-integrated soil sensor system and AI-based data evaluation as the basis for a climate-resilient, small-scale-specific crop production system - subproject D (Project)
The consequences of climate change, e.g. heavy rainfall events, heat periods, drought and dryness have negative effects on crop production. Thus, it is necessary to mitigate these negative consequences of climate change in crop production through climate-adapted production methods. For farmers, it is important to take measures to make crop production climate-resilient. Possible measures are...
Funding period: 2023 - 2026
Relevancy: 100%
Collaborative project: Development of a sustainable control strategy of plant parasitic cyst nematodes by establishing antagonistic fungi in the soil during the cultivation of intermediate crops - Subproject C (Project)
The overall objective of the project is to integrate an innovative biological control method into sugar beet cultivation using endemic nematode-pathogenic fungi in order to support sustainable control of beet cyst nematodes (Heterodera schachtii). For the project, the above-mentioned fungal strains Pc001 and Ex007, which have shown great potential in preliminary trials, are to be introduced into...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: The next generation of fish disease diagnostics in German aquaculture on the basis of environmental and minimally invasive samples - Subproject B (Project)
The AQUA-PROBE project aims to develop and implement a new approach for the diagnosis of diseases affecting aquaculture in Germany. It will use a combination of eDNA/eRNA based detection of pathogens and minimally invasive monitoring of stress and health of fish. The new, innovative techniques and approaches will use the unique opportunities afforded by the aquatic environment for early detection...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: The next generation of fish disease diagnostics in German aquaculture on the basis of environmental and minimally invasive samples - Subproject C (Project)
The AQUA-PROBE project aims to develop and implement a new approach for the diagnosis of diseases affecting aquaculture in Germany. It will use a combination of eDNA/eRNA based detection of pathogens and minimally invasive monitoring of stress and health of fish. The new, innovative techniques and approaches will use the unique opportunities afforded by the aquatic environment for early detection...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: Small-scale retrieval of relevant soil parameters by a process-integrated soil sensor system and AI-based data evaluation as the basis for a climate-resilient, small-scale-specific crop production system - subproject C (Project)
The consequences of climate change, e.g. heavy rainfall events, heat periods, drought and dryness have negative effects on crop production. Thus, it is necessary to mitigate these negative consequences of climate change in crop production through climate-adapted production methods. For farmers, it is important to take measures to make crop production climate-resilient. Possible measures are...
Funding period: 2023 - 2026
Relevancy: 100%
Collaborative project: Disinfection and cleaning of aquacultures using laser technology - Subproject D (Project)
The overall objective of the AquaLas project is to develop and validate an innovative laser process that can be used to disinfect and clean aquacultures under water. By using the laser radiation under water, it can be used during regular operations without the need to relocate the fish. The laser radiation will cause lethal damage to the fouling or the pathogens it contains, resulting in a...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: Disinfection and cleaning of aquacultures using laser technology - Subproject C (Project)
The overall objective of the AquaLas project is to develop and validate an innovative laser process that can be used to disinfect and clean aquacultures under water. By using the laser radiation under water, it can be used during regular operations without the need to relocate the fish. The laser radiation will cause lethal damage to the fouling or the pathogens it contains, resulting in a...
Funding period: 2025 - 2028
Relevancy: 100%
Collaborative project: Disinfection and cleaning of aquacultures using laser technology - Subproject A (Project)
The overall objective of the AquaLas project is to develop and validate an innovative laser process that can be used to disinfect and clean aquacultures under water. By using the laser radiation under water, it can be used during regular operations without the need to relocate the fish. The laser radiation will cause lethal damage to the fouling or the pathogens it contains, resulting in a...
Funding period: 2025 - 2028
