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Mercury interactions with algal and plastic microparticles: Comparative role as vectors of metals for the mussel, Mytilus galloprovincialis

Journal of Hazardous Materials 2020 75 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Beatriz Fernández, Juan Santos-Echeandía, José R. Rivera-Hernández, Soledad Garrido, Marina Albentosa

Summary

Researchers compared the role of microplastics and microalgae as mercury vectors in mussels (Mytilus galloprovincialis), finding that microplastic-bound mercury had lower clearance rates (82%) than microalgae-bound mercury (95%) but resulted in higher total Hg accumulation and elimination. Despite facilitating Hg entry, microplastics also promoted faster Hg elimination, with mercury accumulating primarily in the digestive gland rather than the gills of MP-exposed mussels.

The adsorption and desorption of Hg onto and from microplastics (MP) and microalgae (MA) were investigated, and fitted using pseudo-first-order and pseudo-second order kinetics models. Then, the potential role of MP as vector for the entrance and accumulation of Hg (MP-Hg) in comparison to natural pathways (via MA -MA-Hg-, and dissolved -WB-Hg-) was investigated in mussel. Mussels were exposed to a single dose of Hg (2375 ng ind) for 4 h. Although the clearance of MP-Hg was relevant (82 %), it was lower than that of MA (95 %) and MA-Hg (94 %). The amount of the Hg accumulated and eliminated was higher in mussels exposed to MP-Hg (1417 ng Hg) than in those exposed to MA-Hg (882 ng Hg) and WB-Hg (1074 ng Hg). However, Hg accumulation was similar in the three mussel groups (≈800 ng Hg). This was related to the fast elimination of Hg still attached to MP by MP-Hg mussels. Hg was mainly accumulated in digestive gland in MA-Hg and MP-Hg mussels, and in gills in WB-Hg mussels. Overall, the results indicated that MP facilitated the entrance of Hg in mussel but also promoted Hg elimination, which could limit the toxicological risk of Hg adsorbed onto MP.

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