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Accelerated Development of multiple-stress tolerAnt PoTato

Project description

Growing potatoes under diverse environmental conditions

The potato is one of the most important food crops in the world. However, its vulnerability to environmental stresses raises major concerns about food security. While there is limited knowledge of combined stress-signalling pathways in model plants like Arabidopsis, we have no such knowledge in crops, due to their particular metabolic mechanisms. The EU-funded ADAPT project will study the dynamics of complex signalling and response mechanisms, to identify the molecular mechanisms of adaptation to combined stress in potato. The project will develop new strategies for increased productivity, stability and quality under multiple stress conditions. It will combine molecular biology, stress physiology, systems biology and analytics with engineering and molecular breeding, engaging user-driven agencies for testing and implementation of the project's results.

Objective

ADAPT identifies molecular mechanisms of adaptation to combined stress in potato to develop new strategies for the improvement of productivity, yield stability and product quality under multiple stress conditions. Potato is one of the most important food crops worldwide and a major constraint to secure yield is its sensitivity to environmental stresses, particularly heat and drought, which is often followed by flooding in the field. Whilst limited knowledge of combined stress signalling pathways is available in model plants such as Arabidopsis, this knowledge is almost completely lacking in crops. These adaptation mechanisms require metabolic reprogramming that is triggered by different signalling pathways. To understand the dynamics of complex signalling and response mechanisms our approach will utilise several technological advances (for example high throughput phenotyping and novel sensor plants). These tools will guide us to the key developmental stages and tissues for in depth analysis allowing unprecedented dissection of these processes. The approach requires complementary expertise from 10 leading academic research institutions with 4 major potato breeders, and a screening technology developer. This unique combination of molecular biology, stress physiology, systems biology and analytics with engineering and molecular breeding as well as the active participation of end-user driven agencies for variety testing and potato trading ensure translation of ADAPT results. Arising from our mechanistic understanding, our expected results will include new breeding targets and the potential to match potato varieties to specific environmental conditions. Knowledge from our research will directly reach the most relevant stakeholders and end-users feeding into breeding programmes and guiding technology development for improved crop management strategies. Thus we anticipate that ADAPT will have a game changing impact on potato breeding and management strategies.

Call for proposal

H2020-SFS-2018-2020

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Sub call

H2020-SFS-2019-2

Coordinator

UNIVERSITAT WIEN
Net EU contribution
€ 767 500,00
Address
UNIVERSITATSRING 1
1010 Wien
Austria

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Region
Ostösterreich Wien Wien
Activity type
Higher or Secondary Education Establishments
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Total cost
€ 767 500,00

Participants (16)