The effectiveness of nitrogen and phosphorus load reduction measures from source to sea, considering the effects of climate change

Food, Bioeconomy & Natural ResourcesHORIZON-CSAID: 101060418
EC Contribution
€19,997
Consortium Size
7 orgs
Start Year
2022
Summary

The central aim of the proposed Source to Sea (NAPSEA) CSA is to support national and local authorities in selecting effective nutrient load reduction measures and to gain political support for the implementation. The consortium partners have been closely involved in applied research and implementation of nutrient reduction measures at local, national and European level. In NAPSEA the current challenges to reduce nutrient pollution, eutrophication and its negative impacts on inland and coastal waters and their ecosystem services will be addressed by an integrated approach addressing nutrient pollution from river source to sea, using the Rhine and Elbe Rivers-North Sea coastal system as case study and integrating three complementary perspectives: governance, nutrient pathways & measures, and ecosystem health. Each of these perspectives provide an essential part of the solution to achieving a healthy ecosystem with measures that are societally acceptable and cost-effective. We will identify options to reach a harmonized approach in nutrient reduction measures across different geographical areas and policy frameworks (governance), select and evaluate nutrient reduction scenarios with an integrated modelling framework from source to sea (nutrient pathways) and define safe ecological boundaries for different types of ecosystems along the continuum from catchment to coast (ecosystem health). NAPSEA will showcase the best practices and consider obstacles on the implementation of socially acceptable, sustainable and effective measures for several local case studies within this geographical scope, also taking into account effects of climate change. These case studies accommodate the variability in potential threats of eutrophication as well as feasibility, effectiveness and implementation of potential measures to represent different ecosystem types, with varying eutrophication symptoms, and address different socio-economic and governance scales from local to European level.

Consortium (7)

Project Results (33)

Source: CORDIS, the EU research results database.

Publications (3)
Are historical conditions reference conditions? Revising the modeled riverine nutrient input into the German North Sea and Baltic Sea around 1880
Environmental Sciences Europe· 2025DOI
Andreas Gericke, Karoline Morling, Ingo Haag, Micha Gebel, Julia Krumm, Georges Bruns, Justus E. E. van Beusekom, Stephan Fuchs, Wera Leujak
Seagrass recovery trajectories and recovery potential in relation to nutrient reduction
Journal of Applied Ecology· 2024DOI
Marieke M. van Katwijk, Justus E. E. van Beusekom, Eelke O. Folmer, Kerstin Kolbe, Dick J. de Jong, Tobias Dolch
Low discharge intensifies nitrogen retention in rivers – A case study in the Elbe River
Science of The Total Environment· 2023DOI
Gesa Schulz, Justus E.E. van Beusekom, Juliane Jacob, Sina Bold, Andreas Schöl, Markus Ankele, Tina Sanders, Kirstin Dähnke
Deliverables (29)
Demonstrators, pilots, prototypes
Data sets, microdata, etc
Documents, reports
Data Management Plan
Documents, reports
Documents, reports
Data Management Plan
Documents, reports
Documents, reports
Data sets, microdata, etc
Documents, reports
Documents, reports
Websites, patent fillings, videos etc.
Documents, reports
Documents, reports
Websites, patent fillings, videos etc.
Documents, reports
Documents, reports
Websites, patent fillings, videos etc.
Other Results (1)
Periodic Reporting for period 1 - NAPSEA (The effectiveness of nitrogen and phosphorus load reduction measures from source to sea, considering the effects of climate change)