RECYCLE has built an innovative, interdisciplinary research and training framework based on a strong collaboration among key international players in the academic and industrial sectors in the areas of water and environmental engineering. The project has advanced scientific understanding of how contaminants move and transform in natural water systems such as soils, rivers and aquifers.
By combining experimental investigations with advanced numerical modeling, the project developed new tools to analyze contaminant transport across different spatial scales, from local soil processes to regional water systems. The modeling frameworks and environmental datasets generated by the project represent valuable resources for future research and environmental monitoring. These tools can support reliable assessments of pesticide pollution risks and help guide the design of mitigation and remediation strategies in agricultural and water-management contexts. In particular, the mechanistic and quantitative models constructed during the project represent fundamental tools for the development and future implementation of technologies to recover (and, ideally, reuse) pesticides. This is perfectly in line with the European principle of a circular economy and contributes to facing the societal challenge of pesticide shortage in the future.
More broadly, RECYCLE strengthened collaboration between academic institutions and industry partners at the international level, while contributing to the training of researchers in interdisciplinary approaches to water and environmental management. These outcomes support long-term progress toward sustainable management and protection of water resources.