Robinia pseudoacacia L. (Black Locust) Leaflets as Biomonitors of Airborne Microplastics
Biology2023
8 citations
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Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Lisa Grifoni,
Stefano Loppi,
Mehriban Jafarova,
Mehriban Jafarova,
Mehriban Jafarova,
Mehriban Jafarova,
Mehriban Jafarova,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Lisa Grifoni,
Mehriban Jafarova,
Julian Aherne
Tecla Bentivoglio,
Julian Aherne
Serena Anselmi,
Serena Anselmi,
Monia Renzi,
Serena Anselmi,
Julian Aherne
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi,
Serena Anselmi,
Mehriban Jafarova,
Monia Renzi,
Serena Anselmi,
Julian Aherne
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Julian Aherne
Julian Aherne
Tecla Bentivoglio,
Julian Aherne
Julian Aherne
Lisa Grifoni,
Julian Aherne
Julian Aherne
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Mehriban Jafarova,
Serena Anselmi,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Julian Aherne
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Stefano Loppi,
Lisa Grifoni,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Julian Aherne
Serena Anselmi,
Monia Renzi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Julian Aherne
Serena Anselmi,
Stefano Loppi,
Tecla Bentivoglio,
Monia Renzi,
Stefano Loppi,
Tecla Bentivoglio,
Julian Aherne
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Stefano Loppi,
Serena Anselmi,
Monia Renzi,
Monia Renzi,
Tecla Bentivoglio,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Julian Aherne
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Monia Renzi,
Serena Anselmi,
Monia Renzi,
Julian Aherne
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Tecla Bentivoglio,
Serena Anselmi,
Serena Anselmi,
Stefano Loppi,
Serena Anselmi,
Monia Renzi,
Monia Renzi,
Julian Aherne
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Stefano Loppi,
Stefano Loppi,
Stefano Loppi,
Aldo Winkler,
Tecla Bentivoglio,
Tecla Bentivoglio,
Tecla Bentivoglio,
Serena Anselmi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Stefano Loppi,
Serena Anselmi,
Serena Anselmi,
Serena Anselmi,
Monia Renzi,
Luigi Antonello Di Lella,
Monia Renzi,
Stefano Loppi,
Serena Anselmi,
Serena Anselmi,
Luigi Antonello Di Lella,
Monia Renzi,
Lilla Spagnuolo,
Serena Anselmi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Serena Anselmi,
Monia Renzi,
Monia Renzi,
Lilla Spagnuolo,
Stefano Loppi,
Monia Renzi,
Tecla Bentivoglio,
Monia Renzi,
Julian Aherne
Monia Renzi,
Tecla Bentivoglio,
Monia Renzi,
Stefano Loppi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Monia Renzi,
Julian Aherne
Summary
Black locust tree leaflets collected near roadsides in Siena, Italy accumulated significantly more microplastics—especially tyre wear particles—than those from urban parks, demonstrating that leaves can serve as passive biomonitors for airborne microplastic deposition. Using vegetation to map the spatial distribution of airborne tyre and other plastic particles provides a low-cost tool for assessing human inhalation exposure in different environments.
Here we investigate the suitability of <i>Robinia pseudoacacia</i> L. (black locust) leaflets as a novel biomonitor of airborne microplastics (MPs) including tyre wear particles (TWPs). Leaflets were collected from rural roadside locations (ROs, <i>n</i> = 5) and urban parks (UPs, <i>n</i> = 5) in Siena, Italy. MPs were removed by washing, identified by stereomicroscope, and analysed for polymer type by Fourier transform infrared spectroscopy. Daily MP deposition was estimated from leaf area. The mass magnetic susceptibility and the bioaccumulation of traffic-related potentially toxic elements (PTEs) were also analysed. The total number of MPs at ROs was significantly higher at 2962, dominated by TWPs, compared with 193 in UPs, where TWPs were not found. In contrast, total microfibres were significantly higher in UPs compared with ROs (185 vs. 86). Daily MP deposition was estimated to range from 4.2 to 5.1 MPs/m<sup>2</sup>/d across UPs and 29.9-457.6 MPs/m<sup>2</sup>/d across ROs. The polymer types at ROs were dominated by rubber (80%) from TWPs, followed by 15% polyamide (PA) and 5% polysulfone (PES), while in UPs the proportion of PES (44%) was higher than PA (22%) and polyacrylonitrile (11%). The mean mass magnetic susceptibility, a proxy of the bioaccumulation of traffic-related metallic particles, was higher at ROs (0.62 ± 0.01 10<sup>-8</sup> m<sup>3</sup>/kg) than at UPs (-0.50 ± 0.03 10<sup>-8</sup> m<sup>3</sup>/kg). The content of PTEs was similar across sites, except for significantly higher concentrations of Sb, a tracer of vehicle brake wear, at ROs (0.308 ± 0.008 µg/g) compared with UPs (0.054 ± 0.006 µg/g). Our results suggest that the waxy leaflets and easy determination of surface area make <i>Robinia</i> an effective biomonitor for airborne MPs including TWPs.