Artículo
Macro, meso, micro and nanoplastics in horticultural soils in Argentina: Abundance, size distribution and fragmentation mechanism
Berenstein, Giselle Anahí
; Cordoba, Paulina Andrea
; Díaz, Yamila B.; González, Nicolás; Ponce, María Belén; Montserrat, Javier Marcelo
Fecha de publicación:
01/2024
Editorial:
Elsevier
Revista:
Science of the Total Environment
ISSN:
0048-9697
e-ISSN:
1879-1026
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Soil contamination with plastics is a major worldwide concern. However, data on plastic pollution in horticultural soils from Latin America is scarce. Furthermore, there is limited information on the fragmentation process that plastics undergo in environmental conditions. In this study, we investigated the abundance of macro, meso, micro and nano plastics in a previously studied horticultural soil (2015) from Buenos Aires, that has not been used for any productive activity since. Although the mass of macroplastics was conserved, the number of plastic fragments per square meter increased significantly, indicating a possible natural fragmentation process. Black polyethylene (PE) mulch film was the most abundant plastic found. For this material, when considering the mass of plastic fragments per square meter, the relative abundance was, in decreasing order: macroplastics (65.1–79.1 %) > mesoplastics (15.6–24.8 %) > microplastics (5.3–12.4 %) > nanoplastics (0.1 %). However, when considering the number of plastic items per square meter, the order was: microplastics (2383–3815) > mesoplastics (1019–1076) > nanoplastics (509–550) > macroplastics (25–46). The size distribution of plastic debris was analyzed using the natural logarithm of abundance versus the square root of the mean decile area, with good linear correlations (0.7749 < R2 < 0.9785). These results provide evidence for an ongoing dynamic fragmentation process (Mott model). We hypothesize that the breakdown of plastic into smaller pieces could be explained by a random fragmentation process based on soil volume changes between natural hydration/dehydration states. These data suggest that soil under natural conditions could act as an ‘environmental plastic grinder’.
Palabras clave:
MACROPLASTICS
,
MICROPLASTICS
,
FRAGMENTATION
,
HORTICULTURAL SOIL
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Colecciones
Articulos(SEDE CENTRAL)
Articulos de SEDE CENTRAL
Articulos de SEDE CENTRAL
Citación
Berenstein, Giselle Anahí; Cordoba, Paulina Andrea; Díaz, Yamila B.; González, Nicolás; Ponce, María Belén; et al.; Macro, meso, micro and nanoplastics in horticultural soils in Argentina: Abundance, size distribution and fragmentation mechanism; Elsevier; Science of the Total Environment; 906; 1-2024; 1-11
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