Recent publications
938.
- titre
- Position paper: Common mistakes and solutions for a better use of correlation- and regression-based approaches in environmental sciences
- auteur
- Damien Tedoldi, Boram Kim, Santiago Sandoval, Nicolas Forquet, Bruno Tassin
- article
- , 2025, 192, pp.106526. ⟨10.1016/j.envsoft.2025.106526⟩
- titre
- Do suspended particles matter for wastewater-based epidemiology?
- auteur
- Gauthier Bernier-Turpin, Régis Moilleron, Chloé Cenik, Fabrice Alliot, Sabrina Guérin-Rechdaoui, Thomas Thiebault
- article
- , In press, 280, pp.123543. ⟨10.1016/j.watres.2025.123543⟩
- titre
- Plastic debris dataset on the Seine riverbanks: up to 38 000 pre-production plastic pellets reported per square meter
- auteur
- Romain Tramoy, Laurent Colasse, Johnny Gasperi, Bruno Tassin
- article
- , 2025, pp.111735. ⟨10.1016/j.dib.2025.111735⟩
- titre
- La persistance des champs d’épandage d’eaux usées de l’agglomération parisienne au cours du second XXe siècle
- auteur
- Etienne Dufour
- article
- , 2025, ⟨10.56698/metropolitiques.2174⟩
- titre
- Stock and vertical distribution of microplastics and tire and road wear particles into the soils of a high-traffic roadside biofiltration swale
- auteur
- Max Beaurepaire, Tiago de Oliveira, Johnny Gasperi, Romain Tramoy, Mohamed Saad, Bruno Tassin, Rachid Dris
- article
- , 2025, 373, pp.126092. ⟨10.1016/j.envpol.2025.126092⟩
Research themes 2019-2024
Les activités scientifiques du Leesu se structurent de 2019 à 2024 autour de trois thématiques :

Innovations for the sustainable management of water and of the city
The goal of this research theme is to analyze sociotechnical innovations related to urban water and sanitation management and the associated sectors; and to evaluate their performances, optimize their operation, characterize the conditions and impacts of their potential use

Functioning, resilience and adaptation of urban water management
This research theme will study the impact of global changes, the resilience and adaptation of urban systems, through a systemic approach of the continuum socio-technique/sector/global system to evaluate at the urban scale the effect of various scenarios of change and the impacts of a deployment of technical solutions and practices

Ecosystems and natural resources
This research theme will study anthropic pressures and impacts on the environment by developing new indicators of health and environmental impacts on water resources. The approach associating «physical dynamics» and «ecological dynamics» that was developed for urban lakes will be extended to other environmental bodies such as rivers, drainage water and soils.