Overviewing the Ground Reality of Microplastic Effects on Seafoods, Including Fish, Shrimps and Crabs: Future Research Directions

Gopal, Judy; Sivanesan, Iyyakkannu; Muthu, Manikandan; Oh, Jae-Wook

doi:10.3390/foods11243976

Cited by 6 publications

(1 citation statement)

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“…The most investigated crustacean for the presence of MPs was shrimps (Gopal et al., 2022; Vitali et al., 2023). Necessary precautions were taken to prevent MP contamination from the analysis environment in all studies.…”

Section: Mp Contamination In Foods and Beveragesmentioning

confidence: 99%

Assessing the inconsistency of microplastic measurements in foods and beverages

Canga,

Gowen,

2024

Comp Rev Food Sci Food Safe

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The widespread occurrence of microplastics (MPs) in the food chain has gained substantial recognition as a pressing concern, highlighting the inevitability of human exposure through ingestion of foodborne MPs, coupled with the release of MPs from plastic packaging. However, there are notable disparities in the reported numbers of MPs in foods and beverages, warranting a thorough investigation into the factors contributing to these discrepancies. Table salt is one of the major sources of MPs, and there was an approximately hundred‐fold difference between the reviewed studies that reported the highest and lowest number of MPs. In addition, more noticeable discrepancies were discovered between studies on MPs released from teabags. One study reported that approximately 15 billion MPs were released into a cup of tea from a single teabag, whereas another research paper found only approximately 106.3 ± 14.6 MP/teabag after brewing. This comprehensive review focuses on the inconsistencies observed across studies examining MPs, shedding light on the plausible factors underlying these variations. Furthermore, the review outlines areas in analytical procedures that require enhancement and offers recommendations to promote accuracy and standardization in future research efforts, such as employing analytical methods capable of confirming the presence of MPs, using appropriate filter sizes, considering representative sample sizes when extrapolation is involved, and so on. By pinpointing the detection processes leading to the inconsistent results observed in MP studies, this comparative analysis will contribute to the development of reliable analytic methods for understanding the extent of microplastic contamination in the human food chain.

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Section: Mp Contamination In Foods and Beveragesmentioning

confidence: 99%