Multi-class, multi-residue analysis of pesticide residues in fishery products using LC and GC-MS/MS

Pesticide residues in agricultural products and the environment have been studied extensively over the years. Through the excessive or illegal use of pesticides, residues enter the surrounding environment and are absorbed by animals. Livestock and fishery products are subject to pesticide residue re...

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Bibliographic Details
Published inFood control Vol. 168; p. 110959
Main Authors Park, Dahae, Kim, Ji Young, Choi, Jang-Duck, Moon, Guiim, Shin, Dong Woo
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2025
Subjects
Bioaccumulation
Contamination
eel
ethoxyquin
fisheries
Food safety
gas chromatography
liquid chromatography
livestock
macroalgae
Mass spectrometry
metabolites
multiresidue analysis
pesticide residues
Pleuronectiformes
pollution
QuEChERS
Ruditapes philippinarum
shrimp
Simultaneous analysis
tandem mass spectrometry
Food safety
Bioaccumulation
Mass spectrometry
Simultaneous analysis
Contamination
QuEChERS
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Summary:Pesticide residues in agricultural products and the environment have been studied extensively over the years. Through the excessive or illegal use of pesticides, residues enter the surrounding environment and are absorbed by animals. Livestock and fishery products are subject to pesticide residue regulation, which includes the establishment of maximum residue limits. However, currently, fishery products are regulated only for ethoxyquin, neglecting the potential for bioaccumulation. This study aims to develop a method for the multi-class, multi-residue analysis of pesticide residues in fishery products—flatfish, eel, shrimp, and Manila clam—based on the QuEChERS method. A total of 327 compounds, including 263 pesticides and their metabolites, were identified using liquid chromatography and gas chromatography–tandem mass spectrometry. The method can quantify 263 pesticide residues in flatfish, 265 in eel, 264 in shrimp, and 263 in Manila clam, respectively. Additionally, the method can be applied to quantify 244 pesticide residues in seaweed. The method proves effective and useful for monitoring both food safety and environmental contamination. •There is a risk of marine pollution due to the use of pesticides.•Simultaneous analysis is needed due to the rise in regulated pesticide residues.•A multi-class, multi-residue analysis method of pesticide was developed.•This method can determine 263 pesticide residues in four types of fishery products.•Additionally, the method can be applied for quantification in seaweed.
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ISSN:0956-7135
DOI:10.1016/j.foodcont.2024.110959