REWilding and Restoration of InterTidal sediment Ecosystems for carbon sequestration, climate adaptation and biodiversity support

Climate, Energy & MobilityHORIZON-RIAID: 101081357
EC Contribution
€79,321
Consortium Size
25 orgs
Start Year
2023
Summary

Within European coastal zones, intertidal areas consisting of soft sediment emerging during each low tide, form complex seascapes covering more than 10 000 km2 along the 35 000 km of the tidal coastline. These habitats provide multiple ecosystem services with great potential to cope with the biodiversity-climate crisis by contributing to carbon neutrality, climate resilience and biodiversity support. Nevertheless, these seascapes continue to be fragmented and threatened, resulting in a decrease of their provision of services. Rewilding, a nature-based solution, is a new concept for seascapes to reverse this situation and to “let (again) Nature do the job” ensuring climate resilience, biodiversity support and societal benefit of the future European shoreline.Within a network of 10 demonstrators and 25 partners from 11 European states, including 8 with a tidal coast, plus the UK, Canada and the USA, REWRITE will bring an interdisciplinary consortium of natural and coastal environment and social sciences and humanities experts to address the current ecological and social challenges regarding intertidal seascape rewilding.Expanding innovative approaches, REWRITE will focus on the climate-biodiversity-society nexus, to reach 4 specific objectives: -identify environmental, social and cultural drivers and barrier parameters to rewild intertidal sediment seascapes within the context of climate change; -strongly engage stakeholders to achieve a step-change in their appreciation of the natural function of these seascapes and integrate their interests within a co-design of scenario for future European shoreline; -estimate and upscale trajectories of intertidal seascapes from the local to the European level, following rewilding (passive), restoring (active), “business as usual” or “do nothing” options; -establish tools and methods for successful rewilding to ensure a high ecological and societal co-benefit/low-cost ratio for a climate-neutral and resilient European shoreline.

Consortium (25)

Project Results (15)

Source: CORDIS, the EU research results database.

Publications (10)
Balancing conservation and human access to nature: the impact of a constructed causeway on water levels and sedimentation, North Bull Island, Ireland
Cambridge Prisms: Coastal Futures· 2025DOI
I. Möller, K. O’Leary
Defining marine rewilding can help guide theory and practice in marine conservation
Communications Earth & Environment· 2025DOI
Esther E. Brooker; Gerald Midgley; Neil Burns; Charlotte E. Trotman; Amanda Gregory; Charlotte Rachael Hopkins
Editorial: Coastal rewilding as a nature-based solution
Frontiers in Marine Science· 2025DOI
Cintia O. Quintana, Vona Méléder, Ana I. Sousa, Evangelia G. Drakou, Daphne van der Wal, Dorte Krause-Jensen, Vincent Andreu-Boussut
Mapping intertidal microphytobenthic biomass with very high-resolution remote sensing imagery in an estuarine system
Science of The Total Environment· 2025DOI
Alejandro Román, Simon Oiry, Bede F.R. Davies, Philippe Rosa, Pierre Gernez, Antonio Tovar-Sánchez, Gabriel Navarro, Vona Méléder, Laurent Barillé
A sentinel watching over inter-tidal seagrass phenology across Western Europe and North Africa
Communications Earth & Environment· 2024DOI
Bede Ffinian Rowe Davies; Simon Oiry; Philippe Rosa; Maria Laura Zoffoli; Ana I. Sousa; Oliver R. Thomas; Dan A. Smale; Melanie C. Austen; Lauren Biermann; Martin J. Attrill; Alejandro Roman; Gabriel Navarro; Anne-Laure Barillé; Nicolas Harin; Daniel Clewley; Victor Martinez-Vicente; Pierre Gernez; Laurent Barillé
Enhancing Georeferencing and Mosaicking Techniques over Water Surfaces with High-Resolution Unmanned Aerial Vehicle (UAV) Imagery
Remote Sensing· 2024DOI
Alejandro Román, Sergio Heredia, Anna E. Windle, Antonio Tovar-Sánchez, Gabriel Navarro
High-resolution temporal NDVI data reveal contrasting intratidal, spring-neap and seasonal biomass dynamics in euglenoid- and diatom-dominated biofilms
Science of The Total Environment· 2024DOI
Dorian A. Bas, Koen Sabbe, Daphne van der Wal, Renaat Dasseville, Dimitri Van Pelt, Patrick Meire
Intertidal seagrass extent from Sentinel-2 time-series show distinct trajectories in Western Europe
Remote Sensing of Environment· 2024DOI
Davies, Bede Ffinian Rowe; Oiry, Simon; Rosa, Philippe; Zoffoli, Maria Laura; Sousa, Ana I.; Thomas, Oliver R.; Smale, Dan A.; Austen, Melanie C.; Biermann, Lauren; Attrill, Martin J.; Roman, Alejandro; Navarro, Gabriel; Barillé, Anne-Laure; Harin, Nicolas; Clewley, Daniel; Martinez-Vicente, Victor; Gernez, Pierre; Barillé, Laurent
Warming could shift the phenological responses of benthic microalgae in temperate intertidal zones
Communications Earth & Environment· 2024DOI
Savelli, Raphaël; Le Fouest, Vincent; Becker, Mélanie; Perrois, Garance; Rousset, Fabienne; Dupuy, Christine; Simard, Marc; Menemenlis, Dimitris
Seasonal Growth Dynamics and Blue Carbon Storage of the Intertidal Seagrass Zostera noltei
· 2023
Aidan Jackson
Deliverables (4)
Other Results (1)
Periodic Reporting for period 1 - REWRITE (REWilding and Restoration of InterTidal sediment Ecosystems for carbon sequestration, climate adaptation and biodiversity support)