top of page
Véronique Garçon & Solveig Ólafsdóttir.P

Human-made global change will have significant impacts at regional and coastal scales on marine systems, dependent socioeconomies and ocean services. These can strongly interact with regional and local human-activity induces pressures such as fishing, pollution, and eutrophication. The challenges of understanding climate and ocean change at European and global scales require expertise exceeding that available from one single nation. CE2COAST adds transnational value by strategically combining national expertise across the disciplines of oceanography, marine biogeochemistry, marine ecology, data and database management, earth system, marine and ecosystem modelling and science and policy communication. 


The primary novelty of CE2COAST will be an observation-driven synthesis of statistical and dynamical downscaling methodology. The higher process resolution and detailed system representations are tailored address environmental pressures and services in regional and coastal domains. The researchers will analyze fit-for-purpose (driven) marine datasets from existing and new case study observations of ocean climate, biogeochemistry and ecosystems.


CE2COAST will deliver benchmarked single and ensemble Earth System Model simulations. These will be downscaled to study regional and coastal ocean domains by hindcasting changes in the physical, biogeochemical and climatic fields over the past 40 years and projecting them up to 80 years into the future. This will enable CE2COAST to deliver estimates of natural and forced variability of oceanic processes as well as regional and local mean states and trends of pressures on ocean services. 


A capacity to understand and predict these impacts on regional seas and coasts is essential for developing robust strategies for adaptation and mitigation. To inform adaptation policies to oceanic and coastal change, CE2COAST will deliver key knowledge to end-users through a range of dissemination activities. Stakeholder clusters will enable participation in decision making throughout the project and facilitate co-production of science products tailored to specific scientific, management, regulatory, industrial and ecosystem service assessments. Crucially, CE2COAST has a strong educational and early researcher focus with a dedicated postdoctoral position. Plans include to develop a Continuous Professional Development module and to organise a summer school.


To combat the consequences of ocean change CE2COAST will pursue strategic coherence of national observation strategies where collective learning and slipstreaming leads to faster progress, ultimately delivering an integrated European evaluation of marine health and challenges. As such, CE2COAST has the potential to contribute knowledge for the alleviation of economic, scientific and social disparity across Europe. The project’s targets for knowledge transfer and information sharing include JPI Climate, JPI Oceans, IPCC, UN Sustainable development goals, IPBES, UN DECADES, MSP, CFP, MSFD, WFD and the Arctic Council.

About the project

A capacity to understand and predict climate impacts on regional seas and coasts is essential for developing robust strategies for adaptation and mitigation.

Study regions

The model domains of CE2COAST will constitute the research areas for pressure evaluations on ocean services.

The study areas have been identified based on the inherited observational and modelling portfolios of the consortium.

They represent all of the European Shelf Seas, the Arctic and NE Atlantic Ocean, the Humboldt region and, with external collaborators are extended to cover Southern Australia, the Great Barrier Reef and the East China Sea.

Model domains.jpg
A co-production approach, incorporating stakeholder input and local observations into climate science, can provide improved and better-focused knowledge and management of ocean pressures and services at appropriate scales in European seas, and facilitate scientific dissemination.
bottom of page