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Marine microdebris pollution in sediments from three environmental coastal areas in the southwestern Argentine Atlantic

The Science of The Total Environment 2023 22 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, C.V. Colombo, Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, C.V. Colombo, Ana D. Forero López, Guido N. Rimondino Ana D. Forero López, C.V. Colombo, C.V. Colombo, M.A. Toniolo, Ana D. Forero López, Guido N. Rimondino Guido N. Rimondino C.V. Colombo, Ana D. Forero López, M.A. Toniolo, C.V. Colombo, Ana D. Forero López, Guido N. Rimondino C.V. Colombo, C.V. Colombo, Guido N. Rimondino Guido N. Rimondino C.V. Colombo, Guido N. Rimondino Ana D. Forero López, Guido N. Rimondino Ana D. Forero López, Guido N. Rimondino Guido N. Rimondino Ana D. Forero López, C.V. Colombo, C.V. Colombo, C.V. Colombo, C.V. Colombo, Ana D. Forero López, C.V. Colombo, C.V. Colombo, C.V. Colombo, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Ana D. Forero López, C.V. Colombo, C.V. Colombo, C.V. Colombo, C.V. Colombo, C.V. Colombo, Guido N. Rimondino C.V. Colombo, C.V. Colombo, Guido N. Rimondino Ana D. Forero López, C.V. Colombo, Ana D. Forero López, Guido N. Rimondino Ana D. Forero López, Ana D. Forero López, Ana D. Forero López, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Ana D. Forero López, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Fabio E. Malanca, Fabio E. Malanca, Diana G. Cuadrado, Diana G. Cuadrado, Fabio E. Malanca, Fabio E. Malanca, Fabio E. Malanca, Guido N. Rimondino Fabio E. Malanca, Fabio E. Malanca, Fabio E. Malanca, Guido N. Rimondino Gerardo M. E. Perillo, Gerardo M. E. Perillo, C.V. Colombo, M.A. Toniolo, Ana D. Forero López, M.A. Toniolo, Ana D. Forero López, C.V. Colombo, Guido N. Rimondino Ana D. Forero López, Guido N. Rimondino Guido N. Rimondino Fabio E. Malanca, Fabio E. Malanca, Fabio E. Malanca, Fabio E. Malanca, Guido N. Rimondino Guido N. Rimondino Fabio E. Malanca, Gerardo M. E. Perillo, Fabio E. Malanca, Fabio E. Malanca, Guido N. Rimondino Fabio E. Malanca, Fabio E. Malanca, Gerardo M. E. Perillo, Guido N. Rimondino Fabio E. Malanca, Guido N. Rimondino

Summary

Researchers analyzed microplastic and antifouling paint particle contamination in coastal sediments at three locations along the southwestern Argentine Atlantic coast. Microplastic concentrations ranged from about 20 to over 1,000 particles per kilogram of sediment, with fibers and small particles dominating. The study provides baseline pollution data for an understudied region of South America, showing that even areas with varying levels of industrial development share significant microplastic contamination.

Polymers

ABS PAN

Microplastics (MPs) and antifouling paint particles (APPs) are important components of marine microdebris (MDs), which constitute a potential environmental risk. This study analyzed baseline contamination levels of MDs and mesodebris (MesDs) in intertidal sediments at different depths, exploring the geomorphological influence in three Argentine coastal environments: Bahía Blanca Estuary (BBE), Los Pocitos (LP) and Puerto Madryn (PM). The MDs and MesDs samples were characterized by μ-FTIR, SEM/EDX and XRD. The abundance of MPs and APPs in sediments, range between 19.78 and 1087.19 and between 0 and 172.93 items/kg d.w., respectively. Despite variations in population and industrial developments in these areas, MPs abundance shows no significant differences in low and high intertidal zones. However, mean MPs concentrations were higher in the surface layer (0-5 cm) compared to the deeper sediments (5-10 cm), indicating recent MPs deposition. Chemical characterization evidenced the presence of cellulose (CE) and denser polymers as acrylonitrile butadiene styrene (ABS) and polyacrylics (PAN), APPs, metallic and black MDs. Surface degradation and heavy metals (Zn, Cr, and Ba) were also detected in APPs and other MDs, either as additives or adhered to their surfaces. Changes in crystallinity were also observed on the MesDs due to weathering. The calculated polymer hazard index (PHI) and the presence of hazardous polymers such as ABS and PAN indicated an increased risk of MPs pollution on the BBE and PM coasts. The pollution load index (PLI) values (from 4.63 to 5.34) suggested unpolluted to moderately polluted levels. These findings offer insights into potential risks associated with MDs in Argentine intertidal sediments, underscoring the critical need to comprehend the geomorphology and the influence of coastal dynamics. This is crucial for effectively addressing challenges linked to MDs pollution guiding the development of robust management and mitigation strategies.

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