Summary
There is a need for a ground-breaking technology to radically increase crop yields in Europe and beyond. Improved photosynthesis will be the foundation of these radical yield increases. We are an alliance of European plant breeding companies, a phenotyping technology developer and academic plant scientists. Our project aims to translate major advances in photosynthetic improvement from model plant species into three important crop species. We will capitalize on the three most promising strategies in model plants to identify the genetic resources needed to improve the photosynthetic properties of crop plants: (I) tuning of the Calvin cycle, (II) the kinetics of photosynthetic responses to changes in irradiance, and (III) tuning leaf chlorophyll content, thus providing new tools with which to increase the rate of CO2 fixation. To do so, we aim to discover the genetic basis for natural variation in traits associated with each strategy as well as use gene editing and transgenic engineering to improve photosynthesis in three major European crops: barley, tomato and maize. The findings will be used to build a complete roadmap including the feasibility of each specific technique to improve photosynthetic efficiency. Based on precedent, we expect that improving our targeted traits will result in increases in photosynthesis of 10% or more, and there will be added benefits in sustainability via better resource-use efficiency of water and nitrogen. A public dialogue programme will be used to ensure stakeholder engagement and explore further the societal limits to the acceptability of a range of technologies as potential routes to crop improvement. Looking to the 2030 horizon, this project will develop an adaptable strategy able to achieve 10% improvement in photosynthetic efficiency across a wide range of environments.
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| Web resources: | https://cordis.europa.eu/project/id/862201 |
| Start date: | 01-04-2020 |
| End date: | 30-11-2024 |
| Total budget - Public funding: | 8 917 645,00 Euro - 8 573 894,00 Euro |
Cordis data
Original description
There is a need for a ground-breaking technology to radically increase crop yields in Europe and beyond. Improved photosynthesis will be the foundation of these radical yield increases. We are an alliance of European plant breeding companies, a phenotyping technology developer and academic plant scientists. Our project aims to translate major advances in photosynthetic improvement from model plant species into three important crop species. We will capitalize on the three most promising strategies in model plants to identify the genetic resources needed to improve the photosynthetic properties of crop plants: (I) tuning of the Calvin cycle, (II) the kinetics of photosynthetic responses to changes in irradiance, and (III) tuning leaf chlorophyll content, thus providing new tools with which to increase the rate of CO2 fixation. To do so, we aim to discover the genetic basis for natural variation in traits associated with each strategy as well as use gene editing and transgenic engineering to improve photosynthesis in three major European crops: barley, tomato and maize. The findings will be used to build a complete roadmap including the feasibility of each specific technique to improve photosynthetic efficiency. Based on precedent, we expect that improving our targeted traits will result in increases in photosynthesis of 10% or more, and there will be added benefits in sustainability via better resource-use efficiency of water and nitrogen. A public dialogue programme will be used to ensure stakeholder engagement and explore further the societal limits to the acceptability of a range of technologies as potential routes to crop improvement. Looking to the 2030 horizon, this project will develop an adaptable strategy able to achieve 10% improvement in photosynthetic efficiency across a wide range of environments.Status
SIGNEDCall topic
BIOTEC-02-2019Update Date
27-10-2022
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Organisations
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| WAGENINGEN UNIVERSITY (Coördinator)
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| AMHARA NATIONAL REGION AGRICULTURALRESEARCH INSTITUTE
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| BEN-GURION UNIVERSITY OF THE NEGEV
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| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
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| CERATIUM BV
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| CERATIUM LIMITED
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| JULIUS KUHN-INSTITUT BUNDESFORSCHUNGSINSTITUT FUR KULTURPFLANZEN
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| KWS SAAT SE & CO KGAA
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| LEIBNIZ - INSTITUT FUER PFLANZENGENETIK UND KULTURPFLANZENFORSCHUNG
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| LIMAGRAIN NEDERLAND BV
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| NUNHEMS BV
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| PSI (PHOTON SYSTEMS INSTRUMENTS), SPOL. SRO
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| STICHTING VU
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| Sant’Anna School of Advanced Studies - Scuola Superiore di Studi Universitari e di Perfezionamento...