This thesis investigates microplastic dynamics across scales, combining flume experiments on riparian vegetation, polymer-specific quantification with PLE–Py-GC/MS, and a catchment-scale connectivity model. It clarifies MP retention mechanisms, improves analytical reliability, and maps land-to-river MP transport from multiple sources within the Arno basin.

Multidisciplinary analysis of microplastic dynamics: from sources to environmental fate in urban rivers during floods / Martuscelli Daniele. - (2025).

Multidisciplinary analysis of microplastic dynamics: from sources to environmental fate in urban rivers during floods

Martuscelli Daniele
2025

Abstract

This thesis investigates microplastic dynamics across scales, combining flume experiments on riparian vegetation, polymer-specific quantification with PLE–Py-GC/MS, and a catchment-scale connectivity model. It clarifies MP retention mechanisms, improves analytical reliability, and maps land-to-river MP transport from multiple sources within the Arno basin.
2025
Luca Solari, Jan Christensen, Simona Francalanci
Martuscelli Daniele
8a - Tesi di dottorato
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1440353
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