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Optimization of a new multi-reagent procedure for quantitative mussel digestion in microplastic analysis

Marine Pollution Bulletin 2021 22 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Giuseppe Egidio De Benedetto, Sérgio Rossi Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Silvia Fraissinet, Giuseppe Egidio De Benedetto, Silvia Fraissinet, Giuseppe Egidio De Benedetto, Cosimino Malitesta, Cosimino Malitesta, Giuseppe Egidio De Benedetto, Silvia Fraissinet, Antonio Pennetta, Cosimino Malitesta, Cosimino Malitesta, Giuseppe Egidio De Benedetto, Sérgio Rossi Sérgio Rossi Sérgio Rossi Antonio Pennetta, Sérgio Rossi Giuseppe Egidio De Benedetto, Cosimino Malitesta, Cosimino Malitesta, Giuseppe Egidio De Benedetto, Giuseppe Egidio De Benedetto, Giuseppe Egidio De Benedetto, Cosimino Malitesta, Cosimino Malitesta, Cosimino Malitesta, Giuseppe Egidio De Benedetto, Cosimino Malitesta, Sérgio Rossi Silvia Fraissinet, Silvia Fraissinet, Cosimino Malitesta, Sérgio Rossi Sérgio Rossi Sérgio Rossi Sérgio Rossi Antonio Pennetta, Giuseppe Egidio De Benedetto, Giuseppe Egidio De Benedetto, Sérgio Rossi Sérgio Rossi

Summary

This study optimized a chemical digestion protocol for extracting microplastics from mussel tissue by testing combinations of multiple reagents, aiming to completely destroy biological material while preserving plastic particles for analysis. The optimized method improved microplastic recovery compared to single-reagent approaches. Accurate extraction methods are critical for reliably measuring microplastic contamination in mussels, a widely consumed shellfish and important food safety indicator.

Polymers

PA PE PET PP PS

Models

Invertebrate other

Over the last few years, different digestion protocols have been proposed to extract microplastics from mussels, an important product from aquaculture and a relevant economic resource, always scrutinized as a potential pollutant concentrator. In this study, a full factorial experimental design technique has been employed to achieve efficiency in removing biological materials while maximizing the recoveries of five common microplastics (polyethylene, polystyrene, polyethylene terephthalate, polypropylene and polyamide). A robust setpoint was calculated, 2.5% potassium hydroxide at 60 °C for 3 h with 5% hydrogen peroxide and 2.7% of methanol, permitting the quantitative digestion of mussel tissues and recovery of microplastics. These experimental conditions were successfully used to digest whole mussels bought from a local market, which possess high levels of microplastic contamination (41 items/g dry weight). The results highlight the importance of optimizing protocols to develop robust, easy to use and cheap quantitative approaches for analysing microplastic accumulation in edible organisms.

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