Restoration of deep-sea habitats to rebuild European Seas

Lead Participant: PLYMOUTH MARINE LABORATORY

Abstract

REDRESS aims to provide a key contribution to the EU commitments towards restoring degraded ecosystems, especially in the deep sea. REDRESS will provide solutions to prioritize future restoration actions, extend deep-sea restoration to previously neglected habitat types, and demonstrate the feasibility, potential, and value for success of deep-sea ecosystem restoration. The project will focus on habitats that have great potential to contribute to carbon sequestration and climate mitigation but have been degraded by deep-sea fishing, especially trawling. Specifically, we will study vulnerable marine ecosystems, including sea pens and bamboo corals on soft sediments, coral gardens, cold-water coral reefs, sponge fields, and cold seeps. REDRESS will map degraded deep-sea habitats and identify habitat refugia to prioritize restoration efforts that will adapt to future scenarios of climate change. To adopt and adapt cutting-edge solutions for both restoration interventions and monitoring, REDRESS will make a significant technological investment and will benefit from a relevant ship time by in-kind contribution (136 days). REDRESS will offer nature-based solutions to public authorities and operators to advance ecosystem restoration in the deep sea. Building on the MERCES experience, REDRESS will go beyond the state of art, either developing new methodologies, using sophisticated technologies, defining success indicators, and expanding the target habitats also to cold seeps. The results will enable a significant advancement in the EU's marine restoration strategy. The project will also provide socio economic data, protocols, and tools to plan, and upscale restoration interventions in deep-sea habitats. REDRESS will provide novel insights into the advantages and limits of active vs passive deep-sea restoration, and related cost-benefit analysis in different deep-sea habitats supporting policies and decision makers in the future application of the Nature Restoration Law

Lead Participant

Project Cost

Grant Offer

PLYMOUTH MARINE LABORATORY £84,657 £ 84,657

Publications

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