NORDBALT-ECOSAFE project has applied a harmonized method to calculate nutrient reference conditions in different freshwater bodies (lakes and rivers) in the Nordic-Baltic region and compared the achieved nutrient reference conditions with the existing nationally applied reference conditions. NORDBALT-ECOSAFE has also developed new boundaries for good/moderate conditions for total N and total P concentrations for a range of river and lake types in the Nordic-Baltic region (Thrane et al., 2025).
The project has delivered seven policy briefs and a joint policy brief with two sister projects NAPSEA and NEW-HARMONICA.
A novel software (SENTEM-QC) for cleaning of high-frequency sensor data has also been developed as part of the project and made public through ZENODO platform (van't Veen et al., 2025). A supporting guidance for the best practices in sensor monitoring has been developed (Rozemeijer et al., 2025) and Monte-Carlo tests of the advantages of using high-frequency sensor technology for river monitoring of nitrogen, suspended sediment and phosphorus has been conducted (van't Veen et al., 2025; Skarbøvik et al., 2025).
The project has tested a new method to apply stoichiometry for nitrogen (N), phosphorus (P) and silicium (Si) in riverine waters for evaluation of the eutrophication potential in marine waters on a large river monitoring dataset from the Nordic-Baltic Region (Futter et al, 2025).
Calibration and validation of the SWAT+ model on six river basins in the Nordic-Baltic region has been conducted and the six SWAT+ setups made available through a depository.
NORDBALT-ECOSAFE has developed a classification framework considering various factors that are essential for selecting, designing, and evaluating a particular measure has been developed in NORDBALT-ECOSAFE. In combination with the SWAT+ modelling in WP4, the classification framework can help to identify the most suitable measures and optimize their placement in a given river basin/catchment. NORDBALT-ECOSAFE has also developed examples of Info Sheets that enables end-users to compare between the six NORDBALT-ECOSAFE countries established knowledge on NBSs and MMs.
A novel model support system for running scenarios with SWAT+ has been developed 'CatchmanSS'. A test of the novel model support system has been run on river Odense Basin (Bieger et al., 2025).