Summary
A deeper understanding of the interactions between soils and plants, especially at the root zone, where they take up water
and nutrients may support sustainable intensification of agricultural production. Research is indicating that a greater
understanding of roots and soil functions may lead to increases in crop yields, reductions in greenhouse gas emissions from
soils, enhanced productivity in grasslands and reductions in fertilizer requirements to land. However, data gaps remain in our
understanding of how plant roots interact with their environment from a physiological and phenotypic perspective. Plant
Phenotyping has been described as the bottleneck to food security, yet the real bottleneck to plant phenotyping is thought to
be image analysis and processing. The challenge of ensuring food security provides the impetus for ROOTED (Root
Phenotyping Integrated Educational Doctoral Network). ROOTED will apply deep learning and artificial
intelligence to speed up data generation in root phenotyping. Agriculture is increasingly using digital technologies, but
currently 44% of the European workforce do not have these basic skills. This is a severe skills gap that Europe needs to
close urgently to avoid economic downturn. ROOTED will consolidate the complimentary expertise of an international,
interdisciplinary, multisectoral team to train a new generation of creative, resilient, adaptive multi-skilled scientists capable of
innovating the fields of plant and soil sciences to actively contribute to the goal of doubling food production in a sustainable
manner by 2050. Soil health and food is one of the 5 mission areas for Horizon Europe and the findings from ROOTED
would be directly applicable to the EU’s Green deal and a Soil Deal for Europe. ROOTED graduates will have a level of scientific, communication and digital skills mastery that enables them to move straight into employment in agri-food businesses, seed and breeding
companies, advisory and scientific roles.
and nutrients may support sustainable intensification of agricultural production. Research is indicating that a greater
understanding of roots and soil functions may lead to increases in crop yields, reductions in greenhouse gas emissions from
soils, enhanced productivity in grasslands and reductions in fertilizer requirements to land. However, data gaps remain in our
understanding of how plant roots interact with their environment from a physiological and phenotypic perspective. Plant
Phenotyping has been described as the bottleneck to food security, yet the real bottleneck to plant phenotyping is thought to
be image analysis and processing. The challenge of ensuring food security provides the impetus for ROOTED (Root
Phenotyping Integrated Educational Doctoral Network). ROOTED will apply deep learning and artificial
intelligence to speed up data generation in root phenotyping. Agriculture is increasingly using digital technologies, but
currently 44% of the European workforce do not have these basic skills. This is a severe skills gap that Europe needs to
close urgently to avoid economic downturn. ROOTED will consolidate the complimentary expertise of an international,
interdisciplinary, multisectoral team to train a new generation of creative, resilient, adaptive multi-skilled scientists capable of
innovating the fields of plant and soil sciences to actively contribute to the goal of doubling food production in a sustainable
manner by 2050. Soil health and food is one of the 5 mission areas for Horizon Europe and the findings from ROOTED
would be directly applicable to the EU’s Green deal and a Soil Deal for Europe. ROOTED graduates will have a level of scientific, communication and digital skills mastery that enables them to move straight into employment in agri-food businesses, seed and breeding
companies, advisory and scientific roles.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101072588 |
| Start date: | 01-01-2023 |
| End date: | 31-12-2026 |
| Total budget - Public funding: | - 2 740 521,00 Euro |
Cordis data
Original description
A deeper understanding of the interactions between soils and plants, especially at the root zone, where they take up waterand nutrients may support sustainable intensification of agricultural production. Research is indicating that a greater
understanding of roots and soil functions may lead to increases in crop yields, reductions in greenhouse gas emissions from
soils, enhanced productivity in grasslands and reductions in fertilizer requirements to land. However, data gaps remain in our
understanding of how plant roots interact with their environment from a physiological and phenotypic perspective. Plant
Phenotyping has been described as the bottleneck to food security, yet the real bottleneck to plant phenotyping is thought to
be image analysis and processing. The challenge of ensuring food security provides the impetus for ROOTED (Root
Phenotyping Integrated Educational Doctoral Network). ROOTED will apply deep learning and artificial
intelligence to speed up data generation in root phenotyping. Agriculture is increasingly using digital technologies, but
currently 44% of the European workforce do not have these basic skills. This is a severe skills gap that Europe needs to
close urgently to avoid economic downturn. ROOTED will consolidate the complimentary expertise of an international,
interdisciplinary, multisectoral team to train a new generation of creative, resilient, adaptive multi-skilled scientists capable of
innovating the fields of plant and soil sciences to actively contribute to the goal of doubling food production in a sustainable
manner by 2050. Soil health and food is one of the 5 mission areas for Horizon Europe and the findings from ROOTED
would be directly applicable to the EU’s Green deal and a Soil Deal for Europe. ROOTED graduates will have a level of scientific, communication and digital skills mastery that enables them to move straight into employment in agri-food businesses, seed and breeding
companies, advisory and scientific roles.
Status
SIGNEDCall topic
HORIZON-MSCA-2021-DN-01-01Update Date
09-02-2023
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Geographical location(s)
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Organisations
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| University College Dublin (UCD) (Coördinator)
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| AARHUS UNIVERSITET (AU)
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| BIOSYSTEMS ENGINEERING LIMITED
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| COMMUNAUTE D' UNIVERSITES ET ETABLISSEMENTS UNIVERSITE BOURGOGNE - FRANCHE - COMTE
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| DLF SEEDS AS
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| FORSCHUNGSZENTRUM JULICH GMBH (JUELICH)
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| HELMHOLTZ-ZENTRUM FUR UMWELTFORSCHUNG GMBH - UFZ
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| INSTITUT NATIONAL DE RECHERCHE POUR L'AGRICULTURE, L'ALIMENTATION ET L'ENVIRONNEMENT
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| Institute for Advanced Manufacturing - University of Nottingham
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| MARTIN-LUTHER-UNIVERSITAT HALLE-WITTENBERG
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| NIAB
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| ORIGIN ENTERPRISES PUBLIC LIMITED COMPANY
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| TARTU ULIKOOL
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| UNIVERSITE CATHOLIQUE DE LOUVAIN (UCL)
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| WAGENINGEN UNIVERSITY