Microplastics in urban water cycles: Looking for a more scientific approach for sampling and characterization in wastewater and drinking water treatment plants
The Science of The Total Environment2024
9 citations
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Score: 45
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Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Francesco Regoli
Lucia Pittura,
Francesco Regoli
Lucia Pittura,
Lucia Pittura,
Francesco Regoli
Alessia Foglia,
Alessia Foglia,
Francesco Regoli
Alessia Foglia,
Alessia Foglia,
Stefania Gorbi,
Lucia Pittura,
Lucia Pittura,
Massimiliano Sgroi,
Alessia Foglia,
Alessia Foglia,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Lucia Pittura,
Francesco Regoli
Lucia Pittura,
Lucia Pittura,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Alessia Foglia,
Veronica Vivani,
Francesco Regoli
Massimiliano Sgroi,
Francesco Regoli
Francesco Regoli
Massimiliano Sgroi,
Francesco Regoli
Veronica Vivani,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Lucia Pittura,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Anna Laura Eusebi,
Stefania Gorbi,
Lucia Pittura,
Francesco Regoli
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Lucia Pittura,
Francesco Regoli
Anna Laura Eusebi,
Stefania Gorbi,
Lucia Pittura,
Lucia De Simoni,
Francesco Regoli
Stefania Gorbi,
Francesco Regoli
Lucia De Simoni,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Lucia Pittura,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Anna Laura Eusebi,
Anna Laura Eusebi,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Anna Laura Eusebi,
Francesco Regoli
Francesco Regoli
Francesco Fatone,
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Stefania Gorbi,
Francesco Fatone,
Anna Laura Eusebi,
Francesco Regoli
Stefania Gorbi,
Francesco Regoli
Francesco Regoli
Lucia Pittura,
Francesco Regoli
Stefania Gorbi,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Lucia Pittura,
Francesco Regoli
Francesco Fatone,
Francesco Fatone,
Francesco Regoli
Francesco Regoli
Francesco Fatone,
Francesco Regoli
Stefania Gorbi,
Francesco Fatone,
Stefania Gorbi,
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Francesco Regoli
Anna Laura Eusebi,
Francesco Regoli
Francesco Regoli
Anna Laura Eusebi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Stefania Gorbi,
Lucia Pittura,
Francesco Regoli
Lucia Pittura,
Stefania Gorbi,
Francesco Regoli
Lucia Pittura,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Stefania Gorbi,
Stefania Gorbi,
Lucia Pittura,
Stefania Gorbi,
Lucia Pittura,
Francesco Regoli
Summary
Researchers monitored microplastics in urban water cycles across three drinking water plants and two wastewater treatment plants using a self-designed large-volume sampler that collected up to 1,000 liters per sample. Raw drinking water and wastewater contained 2 or more microplastic particles per liter, highlighting contamination across the urban water system.
Study Type
Environmental
Specific campaigns to detect microplastics (MPs) in the urban water cycle were carried out in three drinking water plants and two wastewater treatment plants. A self-designed sampler for MPs detection in water matrices was in this study preliminary validated and then tested in long term campaigns sampling up to 1000 L. Raw drinking water and wastewater show microplastics (MPs) concentrations of 2-11 and of 480-801 MPs/m, respectively, and MPs removals of 47-78 % and of 84-98 %, correspondingly. Specific roles of chemical and physical conventional processes in microplastics removals were investigated. Solid-liquid separation, flotation and filtration are the main processes for achieving high microplastics removal. Regarding concentrated matrices, MPs concentrations in sludge samples varied in the range of 5000-500,000 MPs/m. Finally, shapes, size classes and polymers' typologies were investigated in the extracted MPs. The detected sizes are mainly 0.5-0.1 mm in drinking waters while 5-1 mm in wastewaters. Wastewaters were predominated by synthetic fibers (polyester type), while drinking waters were mainly characterized by fragments and the fibers were mostly of natural origin. Finally, the results of this study supported best practices and guidelines for a representative assessment of MPs in water (sampling methods, extraction procedures, characterization and quantification).