Summary
The ocean is a major component of the global carbon cycle absorbing about a quarter of anthropogenic CO2 emissions every year, modulating the rate of accumulation of carbon in the atmosphere and hence global warming. Increased levels of CO2 in the ocean cause a decline in seawater pH, also known as ocean acidification, with now well-known potential ecological consequences. Sustained, long-term in situ observations are, therefore, crucial to better understand and predict the impact of climate change on ocean ecosystems, increase resilience and develop sound mitigation and adaptation strategies. Furthermore, long-term sustained in situ ocean observations are required to support environmental and climate policies, such as the European Green Deal, and related policies aiming to reach net zero carbon and achieve a sustainable blue economy. To meet this challenge, GEORGE will advance the global technological competitiveness of European ocean observing research infrastructures (EMSO, ICOS, Euro-Argo) through the development and demonstration of a state-of-the-art biogeochemical, multi-platform observing system for characterisation of the ocean carbon system. GEORGE will advance the technology readiness level of novel sensors enabling for the first time systematic autonomous, in situ seawater CO2 system characterisation, and CO2 fluxes on moving and fixed platforms. These sensors will be integrated on state-of-the-art platforms augmented with the latest in autonomous technology enabling new observing capability. Technologies, methods and SOPs for carbon observing will be harmonised across a framework for multi-platform, cross-ERIC ocean observing, from sensor to data repositories. GEORGE will build capacity in ERICs through the provision of training in the use of new technologies and SOPs on data handling and reporting to staff and member organisations. Technology will be co-developed between industry and ERICs ensuring direct route to market and potential for scalability.
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| Web resources: | https://cordis.europa.eu/project/id/101094716 |
| Start date: | 01-01-2023 |
| End date: | 30-06-2027 |
| Total budget - Public funding: | 7 705 725,25 Euro - 7 705 725,00 Euro |
Cordis data
Original description
The ocean is a major component of the global carbon cycle absorbing about a quarter of anthropogenic CO2 emissions every year, modulating the rate of accumulation of carbon in the atmosphere and hence global warming. Increased levels of CO2 in the ocean cause a decline in seawater pH, also known as ocean acidification, with now well-known potential ecological consequences. Sustained, long-term in situ observations are, therefore, crucial to better understand and predict the impact of climate change on ocean ecosystems, increase resilience and develop sound mitigation and adaptation strategies. Furthermore, long-term sustained in situ ocean observations are required to support environmental and climate policies, such as the European Green Deal, and related policies aiming to reach net zero carbon and achieve a sustainable blue economy. To meet this challenge, GEORGE will advance the global technological competitiveness of European ocean observing research infrastructures (EMSO, ICOS, Euro-Argo) through the development and demonstration of a state-of-the-art biogeochemical, multi-platform observing system for characterisation of the ocean carbon system. GEORGE will advance the technology readiness level of novel sensors enabling for the first time systematic autonomous, in situ seawater CO2 system characterisation, and CO2 fluxes on moving and fixed platforms. These sensors will be integrated on state-of-the-art platforms augmented with the latest in autonomous technology enabling new observing capability. Technologies, methods and SOPs for carbon observing will be harmonised across a framework for multi-platform, cross-ERIC ocean observing, from sensor to data repositories. GEORGE will build capacity in ERICs through the provision of training in the use of new technologies and SOPs on data handling and reporting to staff and member organisations. Technology will be co-developed between industry and ERICs ensuring direct route to market and potential for scalability.Status
SIGNEDCall topic
HORIZON-INFRA-2022-TECH-01-01Update Date
09-02-2023
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Organisations
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| INTEGRATED CARBON OBSERVATION SYSTEM EUROPEAN RESEARCH INFRASTRUCTURECONSORTIUM (Coördinator)
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| 4H - JENA ENGINEERING GMBH
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| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
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| CLEARWATER SENSORS LTD
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| CONSORCIO PARA EL DISENO, CONSTRUCCION, EQUIPAMIENTO Y EXPLOTACION DE LA PLATAFORMA OCEANICA DE CANA...
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| EURO-ARGO ERIC
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| EUROPEAN MULTIDISCIPLINARY SEAFLOORAND WATER COLUMN OBSERVATORY - EUROPEAN RESEARCH INFRASTRUCTURE C...
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| HELMHOLTZ-ZENTRUM FUR OZEANFORSCHUNG KIEL (GEOMAR)
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| HELSINGIN YLIOPISTO
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| INSTITUT FRANCAIS DE RECHERCHE POUR L'EXPLOITATION DE LA MER
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| ISTITUTO NAZIONALE DI GEOFISICA E VULCANOLOGIA
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| LEIBNIZ-INSTITUT FUR OSTSEEFORSCHUNG WARNEMUNDE
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| MARINE INSTITUTE
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| MYOCEAN RESOURCES LIMITED
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| NATIONAL OCEANOGRAPHY CENTRE