Summary
The food security on the planet is still a challenge. Experts predict that we will need to double food production in order to feed a population projected to reach 9,2 billion by 2050. Crop improvement should not only focus on species such as maize, wheat and soybean. Many other crops contribute to food security.
The Cucurbitaceae family is positioned in front list of plant families for the number of species used as human food and for cultural, medicinal, and botanical significance. According to FAO estimate, despite a large growing area improving yield of many Cucurbitaceae crops could significantly add to food security.
F1 hybrid cultivars have made a significant contribution to the world's food supply. Yet, one of the continuing challenges of plant breeding is still to master production of F1 hybrid seeds in many crops. The production of F1 hybrid seeds requires controlled pollination to ensure that the seed descent is indeed resulting from a crossing and not from a self-fertilization.
Most of cultivated Cucurbitaceae species are monoecious or andromonoecious. The use of these two sexual morphs for F1 hybrid production requires hand emasculation and hand pollination of the female parental line. Furthermore, monoecious and andromonoecious sexual morphs are usually hurdles for yield improvement and yield stability.
HybridSeed project aims to engineer plant prototypes with the goal to (i) reduce the cost of F1 hybrid seed production, (ii) improve yields of F1 hybrid plants, and (iii) simplify the itinerary of the crops, from the seed companies to the producers. HybridSeed technology is built on the knowledge of the genes controlling the development of unisexual and hermaphrodite flowers and their use to engineer sexual types that do not exist in nature, or more stable than those currently existing. The produced plant prototypes will be grown in conditions approaching seed companies and producer conditions and evaluated for yield and yield stability.
The Cucurbitaceae family is positioned in front list of plant families for the number of species used as human food and for cultural, medicinal, and botanical significance. According to FAO estimate, despite a large growing area improving yield of many Cucurbitaceae crops could significantly add to food security.
F1 hybrid cultivars have made a significant contribution to the world's food supply. Yet, one of the continuing challenges of plant breeding is still to master production of F1 hybrid seeds in many crops. The production of F1 hybrid seeds requires controlled pollination to ensure that the seed descent is indeed resulting from a crossing and not from a self-fertilization.
Most of cultivated Cucurbitaceae species are monoecious or andromonoecious. The use of these two sexual morphs for F1 hybrid production requires hand emasculation and hand pollination of the female parental line. Furthermore, monoecious and andromonoecious sexual morphs are usually hurdles for yield improvement and yield stability.
HybridSeed project aims to engineer plant prototypes with the goal to (i) reduce the cost of F1 hybrid seed production, (ii) improve yields of F1 hybrid plants, and (iii) simplify the itinerary of the crops, from the seed companies to the producers. HybridSeed technology is built on the knowledge of the genes controlling the development of unisexual and hermaphrodite flowers and their use to engineer sexual types that do not exist in nature, or more stable than those currently existing. The produced plant prototypes will be grown in conditions approaching seed companies and producer conditions and evaluated for yield and yield stability.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101062521 |
| Start date: | 01-01-2024 |
| End date: | 30-06-2025 |
| Total budget - Public funding: | - 150 000,00 Euro |
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Original description
The food security on the planet is still a challenge. Experts predict that we will need to double food production in order to feed a population projected to reach 9,2 billion by 2050. Crop improvement should not only focus on species such as maize, wheat and soybean. Many other crops contribute to food security.The Cucurbitaceae family is positioned in front list of plant families for the number of species used as human food and for cultural, medicinal, and botanical significance. According to FAO estimate, despite a large growing area improving yield of many Cucurbitaceae crops could significantly add to food security.
F1 hybrid cultivars have made a significant contribution to the world's food supply. Yet, one of the continuing challenges of plant breeding is still to master production of F1 hybrid seeds in many crops. The production of F1 hybrid seeds requires controlled pollination to ensure that the seed descent is indeed resulting from a crossing and not from a self-fertilization.
Most of cultivated Cucurbitaceae species are monoecious or andromonoecious. The use of these two sexual morphs for F1 hybrid production requires hand emasculation and hand pollination of the female parental line. Furthermore, monoecious and andromonoecious sexual morphs are usually hurdles for yield improvement and yield stability.
HybridSeed project aims to engineer plant prototypes with the goal to (i) reduce the cost of F1 hybrid seed production, (ii) improve yields of F1 hybrid plants, and (iii) simplify the itinerary of the crops, from the seed companies to the producers. HybridSeed technology is built on the knowledge of the genes controlling the development of unisexual and hermaphrodite flowers and their use to engineer sexual types that do not exist in nature, or more stable than those currently existing. The produced plant prototypes will be grown in conditions approaching seed companies and producer conditions and evaluated for yield and yield stability.
Status
SIGNEDCall topic
ERC-2022-POC1Update Date
31-07-2023
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