Our Work Packages
OceanSOS integrates cutting-edge marine and climate sciences with socio-economic assessments to address emerging high-seas threats. By combining ocean-basin modeling, deep-sea exploration, and international policy expertise, the project establishes scalable frameworks to identify quantitative boundaries for preserving ocean integrity. Ultimately, these seven interconnected workstreams translate robust environmental data into actionable global governance mechanisms and public ocean literacy programs.
  • WP1 will use an innovative threat intelligence lifecycle approach to aggregate open-source data and regional expert knowledge on emerging anthropogenic threats, profiling food web vulnerabilities over short-, medium-, and long-term timescales to deliver tailored precautionary management guidance.
  • WP4 will develop fully coupled surface-to-seafloor trophodynamic food web models (Ecopath with Ecosim) to define quantitative thresholds of ecosystem stability. At the same time, WP4 will analyse the socioeconomic trade-offs of future ocean uses through multi-country public surveys, applying these intergenerational equity baselines to perform monetary cost-benefit and social-cost-of-carbon analyses.
  • WP2 will create novel global and regional unstructured-grid ocean models to perform eddy-resolving physical and biogeochemical climate simulations to the year 2100, integrating high-resolution seamount mapping to reveal how mesoscale and sub-mesoscale hydrodynamics drive vertical bentho-pelagic coupling.
  • Informed directly by these ecological and economic boundaries, WP5 will downscale the global Planetary Boundaries framework to build fully operational regional Safe Operating Space (SOS) models across three target current systems, engaging regional and international management bodies to implement these safe limits into global treaty frameworks.
  • WP3 will use state-of-the-art offshore observation technologies (including sediment traps, in situ cameras, and molecular gut-content analysis) to comprehensively characterise pelagic-to-benthic carbon sinks, deploying Linear Inverse Models (LIMs) to stress-test how emerging threat scenarios impact the efficiency of the biological carbon pump.
  • WP6 will implement a comprehensive Open Science data infrastructure adhering to FAIR and TRUST principles, securely archiving essential variables in trusted public repositories while developing a web-based "What-If" simulation dashboard for interactive scenario-testing.
  • The execution, cruise logistics, and multi-sector interactions of WPs 1–6 will be continuously monitored and coordinated by WP7, which also drives the project's educational legacy through early-career fellowships, floating university curricula, and an immersive digital planetarium show for global public outreach.
Work Package Overview
The OceanSOS project (Grant Agreement No. 101273576) is funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Executive Agency (REA). Neither the European Union nor the granting authority can be held responsible for them.