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Residue degradation, transfer and risk assessment of pyriproxyfen and its metabolites from tea garden to cup by ultra performance liquid chromatography tandem mass spectrometry

Hongxia Li, Qing Zhong, Min Wang, Fengjian Luo, Xinru Wang, Li Zhou, Xinzhong Zhang

2022Journal of the Science of Food and Agriculture15 citationsDOI

Abstract

BACKGROUND: Tea is one of the most popular drinks in the world. The growth of tea plant is inseparable from the control of pesticides on diseases and pests. Pyriproxyfen is used as a pesticide substitute to control insect pests in tea gardens, but little is known about its residue degradation. Here, we performed an integrative study of the degradation and metabolism of pyriproxyfen from the tea garden to the cup. RESULTS: The dissipation half-life of pyriproxyfen during tea growth was 2.74 days, and five metabolites PYPAC, PYPA, DPH-Pyr, 5''-OH-Pyr, and 4'-OH-Pyr were generated. The total processing factors for pyriproxyfen in green tea and black tea were 2.41-2.83 and 2.77-3.70, respectively. The residues of pyriproxyfen and its metabolites were affected by different processing steps. The total leaching rates of pyriproxyfen from green tea and black tea into their infusions were 9.8-12.3% and 5.3-13.8%, respectively. The leaching rates of the five metabolites were higher than that of pyriproxyfen and increased the intake risk. CONCLUSION: and the pre-harvest interval can be set to 5 days. © 2022 Society of Chemical Industry.

Topics & Concepts

PyriproxyfenChemistryPesticideResidue (chemistry)Food scienceToxicologyAcceptable daily intakeBiochemistryBiologyAgronomyPesticide Residue Analysis and SafetyPharmaceutical Quality and CounterfeitingTea Polyphenols and Effects
Residue degradation, transfer and risk assessment of pyriproxyfen and its metabolites from tea garden to cup by ultra performance liquid chromatography tandem mass spectrometry | Litcius