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Permeable pavements: A possible sink for tyre wear particles and other microplastics?

The Science of The Total Environment 2023 70 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Jeanette Lykkemark, Lasse Abraham Rasmussen, Lasse Abraham Rasmussen, Lasse Abraham Rasmussen, Jes Vollertsen Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Lasse Abraham Rasmussen, Lasse Abraham Rasmussen, Jeanette Lykkemark, Jeanette Lykkemark, Lasse Abraham Rasmussen, Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Theis Raaschou Andersen, Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jeanette Lykkemark, Jeanette Lykkemark, Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen Jes Vollertsen

Summary

Researchers sampled approximately 100 kg of particulate material from seven roads and parking lots to analyze microplastic content including tire wear particles. The study found that tire wear constituted the dominant fraction of microplastics at 0.09% of dry mass, with polypropylene as the most common non-tire plastic type, and that permeable pavements may act as sinks trapping these particles before they reach waterways.

Polymers

PP rubber

In this study, seven roads and parking lots were sampled by a road surface cleaning truck and approximately 100 kg of particulate material was collected per site. Thereafter, the samples were analysed for microplastics, including tyre wear particles. The analyses revealed that tyre wear constituted 0.09 % of the dry mass of the samples on average. Other plastic types were also identified in the samples, but at on average 49 times lower concentrations compared to tyre wear particles. Although the roads and parking lots were used for residential, industrial, and commercial purposes, no correlation between land use and the total concentrations of microplastics was identified. Of microplastics other than tyre wear particles, polypropylene constituted an important fraction in all samples, whereas other polymers were present at various degrees. The contents of heavy metals, sulphur, and total organic carbon were also measured in the samples, but no correlation between them and microplastics was determined. A back-of-the-envelope estimation indicated that the tyre wear material retained by permeable pavements constituted a non-negligible fraction of the total mass of microplastics released on roads and parking lots. Therefore, permeable pavements can serve as a tool for the management of this pollutant.

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