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http://hdl.handle.net/10553/126955
Título: | A nationwide monitoring of atmospheric microplastic deposition | Autores/as: | Edo, Carlos Fernández-Piñas, Francisca Leganes, Francisco Gómez Cabrera, María Milagrosa Martinez Sanchez,Ico Herrera Ulibarri, Alicia Hernández-Sánchez, Cintia González-Sálamo, Javier Borges, Javier Hernández López-Castellanos, Joaquín Bayo, Javier Romera-Castillo, Cristina Elustondo, David Santamaría, Carolina Alonso, Rocío García-Gómez, Héctor Gonzalez-Cascon, Rosario Martínez-Hernández, Virtudes Landaburu-Aguirre, Junkal Incera, Mónica Gago, Jesús Noya, Beatriz Beiras, Ricardo Muniategui-Lorenzo, Soledad Rosal, Roberto González-Pleiter, Miguel |
Clasificación UNESCO: | 330801 Control de la contaminación atmosférica 331210 Plásticos |
Palabras clave: | Atmosphere Atmospheric deposition Airborne microplastics Sampling methodology Outdoor fallout, et al. |
Fecha de publicación: | 2023 | Publicación seriada: | Science of the Total Environment | Resumen: | Plastic production continues to increase every year, yet it is widely acknowledged that a significant portion of this material ends up in ecosystems as microplastics (MPs). Among all the environmental compartments affected by MPs, the atmosphere remains the least well-known. Here, we conducted a one-year simultaneous monitoring of atmospheric MPs deposition in ten urban areas, each with different population sizes, economic activities, and climates. The objective was to assess the role of the atmosphere in the fate of MPs by conducting a nationwide quantification of atmospheric MP deposition. To achieve this, we deployed collectors in ten different urban areas across continental Spain and the Canary Islands. We implemented a systematic sampling methodology with rigorous quality control/quality assurance, along with particle-oriented identification and quantification of anthropogenic particle deposition, which included MPs and industrially processed natural fibres. Among the sampled MPs, polyester fibres were the most abundant, followed by acrylic polymers, polypropylene, and alkyd resins. Their equivalent sizes ranged from 22 μm to 398 μm, with a median value of 71 μm. The particle size distribution of MPs showed fewer large particles than expected from a three-dimensional fractal fragmentation pattern, which was attributed to the higher mobility of small particles, especially fibres. The atmospheric deposition rate of MPs ranged from 5.6 to 78.6 MPs m−2 day−1, with the higher values observed in densely populated areas such as Barcelona and Madrid. Additionally, we detected natural polymers, mostly cellulosic fibres with evidence of industrial processing, with a deposition rate ranging from 6.4 to 58.6 particles m−2 day−1. There was a positive correlation was found between the population of the study area and the median of atmospheric MP deposition, supporting the hypothesis that urban areas act as sources of atmospheric MPs. Our study presents a systematic methodology for monitoring atmospheric MP deposition. | URI: | http://hdl.handle.net/10553/126955 | ISSN: | 0048-9697 | DOI: | 10.1016/j.scitotenv.2023.166923 | Fuente: | Science of the Total Environment [ISSN 0048-9697], v. 905, (Diciembre 2023) |
Colección: | Artículos |
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