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Marine & Wildlife
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Chemical analysis of marine microdebris pollution in macroalgae from the coastal areas of Argentina
The Science of The Total Environment2024
12 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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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,
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,
C.V. Colombo,
Ana D. Forero López,
Guido N. Rimondino
Ana D. Forero López,
Ana D. Forero López,
Guido N. Rimondino
Ana D. Forero López,
M.A. Toniolo,
C.V. Colombo,
M.A. Toniolo,
Ailen M. Poza,
C.V. Colombo,
C.V. Colombo,
Guido N. Rimondino
Ana D. Forero López,
C.V. Colombo,
Ana D. Forero López,
C.V. Colombo,
C.V. Colombo,
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
C.V. Colombo,
C.V. Colombo,
Ana D. Forero López,
Ana D. Forero López,
Ana D. Forero López,
C.V. Colombo,
C.V. Colombo,
C.V. Colombo,
C.V. Colombo,
C.V. Colombo,
C.V. Colombo,
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
N G Morales-Pontet,
N G Morales-Pontet,
Guido N. Rimondino
C.V. Colombo,
N G Morales-Pontet,
C.V. Colombo,
C.V. Colombo,
C.V. Colombo,
Guido N. Rimondino
Guido N. Rimondino
C.V. Colombo,
C.V. Colombo,
Ana D. Forero López,
Guido N. Rimondino
C.V. Colombo,
Ana D. Forero López,
Guido N. Rimondino
Guido N. Rimondino
Guido N. Rimondino
N G Morales-Pontet,
Guido N. Rimondino
Ana D. Forero López,
C.V. Colombo,
Guido N. Rimondino
Guido N. Rimondino
Fabio E. Malanca,
Fabio E. Malanca,
Guido N. Rimondino
Guido N. Rimondino
Guido N. Rimondino
Ana D. Forero López,
Sandra E. Botté,
Guido N. Rimondino
Guido N. Rimondino
Guido N. Rimondino
M.A. Toniolo,
Guido N. Rimondino
Ana D. Forero López,
Guido N. Rimondino
Guido N. Rimondino
Ana D. Forero López,
Ana D. Forero López,
C.V. Colombo,
Fabio E. Malanca,
Fabio E. Malanca,
Fabio E. Malanca,
Fabio E. Malanca,
Fabio E. Malanca,
Fabio E. Malanca,
M.A. Toniolo,
C.V. Colombo,
Fabio E. Malanca,
Sandra E. Botté,
Fabio E. Malanca,
Guido N. Rimondino
Guido N. Rimondino
Fabio E. Malanca,
Fabio E. Malanca,
Guido N. Rimondino
Sandra E. Botté,
Guido N. Rimondino
Fabio E. Malanca,
Fabio E. Malanca,
Fabio E. Malanca,
Guido N. Rimondino
Fabio E. Malanca,
Fabio E. Malanca,
Sandra E. Botté,
Guido N. Rimondino
Fabio E. Malanca,
Sandra E. Botté,
Guido N. Rimondino
Summary
Researchers analyzed marine microdebris contamination in macroalgae and surface waters along the Argentine coast of the Southwest Atlantic. They detected microplastics, antifouling paint particles, and metallic particles across multiple macroalgae species, with chemical characterization revealing the composition of these contaminants. The findings raise concerns about contaminant transfer through the food chain, given the ecological role of macroalgae as primary producers in coastal ecosystems.
Marine microdebris (MDs, <5 mm) and mesodebris (MesDs, 5-25 mm), consist of various components, including microplastics (MPs), antifouling or anticorrosive paint particles (APPs), and metallic particles (Mmps), among others. The accumulation of these anthropogenic particles in macroalgae could have significant implications within coastal ecosystems because of the role of macroalgae as primary producers and their subsequent transfer within the trophic chain. Therefore, the objectives of this study were to determine the abundance of MDs and MesDs pollution in different species of macroalgae (P. morrowii, C. rubrum, Ulva spp., and B. minima) and in surface waters from the Southwest Atlantic coast of Argentina to evaluate the ecological damage. MDs and MesDs were chemically characterized using μ-FTIR and SEM/EDX to identify, and assess their environmental impact based on their composition and degree of pollution by MPs, calculating the Polymer Hazard Index (PHI). The prevalence of MDs was higher in foliose species, followed by filamentous and tubular ones, ranging from 0 to 1.22 items/g w.w. for MPs and 0 to 0.85 items/g w.w. for APPs. It was found that macroalgae accumulate a higher proportion of high-density polymers like PAN and PES, as well as APPs based on alkyd, PMMA, and PE resins, whereas a predominance of CE was observed in surrounding waters. Potentially toxic elements, such as Cr, Cu, and Ti, were detected in APPs and MPs, along with the presence of epiplastic communities on the surface of APPs. According to PHI, the presence of high hazard score polymers, such as PAN and PA, increased the overall risk of MP pollution in macroalgae compared to surrounding waters. This study provided a baseline for MDs and MesDs abundance in macroalgae as well as understanding the environmental impact of this debris and their bioaccumulation in the primary link of the coastal trophic chain.