Abstract
The dissipation and residue levels of thiacloprid, spirotetramat and its four metabolites residues in cowpeas were investigated under field conditions. The QuEChERS technique with high-performance liquid chromatography tandem mass spectrometry (HPLC–MS/MS) was used to detect thiacloprid, spirotetramat and its four metabolites residues content in cowpeas. The recoveries were 81.3–95.1% at a spike level of 0.005–0.5 mg/kg, the relative standard deviations (RSDs) were 2.1–9.5%. The dissipation kinetics data showed that thiacloprid and spirotetramat in cowpeas were degraded with the half-lives of 1.14–1.54 days and 1.25–2.79 days. The terminal residues of thiacloprid and spirotetramat were 0.0255–0.4570 mg kg−1 and 0.0314–0.3070 mg kg−1 after application 2 times with a pre-harvest interval (PHI) of 3 days under the designed dosages. The chronic and acute dietary exposure assessment risk quotient (RQ) values of thiacloprid in cowpeas for different consumers were 2.44–4.41% and 8.72–15.78%, respectively, and those of spirotetramat were 1.03–1.87% and 0.18–0.32%, respectively, all of the RQ values were lower than 100%. The dietary risk of thiacloprid through cowpeas to consumers was higher than spirotetramat. The results from this study are important reference for Chinese governments to develop criteria for the safe and rational use of thiacloprid and spirotetramat, setting maximum residue levels (MRLs), monitoring the quality safety of agricultural products and protecting consumer health.
Highlights
The dissipation and residue levels of thiacloprid, spirotetramat and its four metabolites residues in cowpeas were investigated under field conditions
It is necessary to carry out the assessment of the residue level and dissipation behavior of pesticides after applying to vegetables, and establish the corresponding maximum residue limit (MRL) through these basic data
The extraction efficiency results showed that when acetonitrile was used as the extraction solvent, the extraction rate of the six target pesticides was 81.7–102.3%, when ethyl acetate and acetonitrile-ethyl acetate was used as the extraction solvent, the recovery rate of B-enol were only 43% and 23.3%
Summary
The dissipation and residue levels of thiacloprid, spirotetramat and its four metabolites residues in cowpeas were investigated under field conditions. The results from this study are important reference for Chinese governments to develop criteria for the safe and rational use of thiacloprid and spirotetramat, setting maximum residue levels (MRLs), monitoring the quality safety of agricultural products and protecting consumer health. Several new systemic insecticides, including thiacloprid and spirotetramat, have been proved to have good control effects on sucking pests[7,8] These pesticides will accumulate in agricultural products, causing potential ecological and food safety risks. Thiacloprid, (Z)-3-(6-chloro-3-pyridylmethyl)-1,3-thiazolidin-2-ylidenecyanamide (IUPAC), the first chloronicotinyl insecticide, is a nicotinic acetylcholine receptor agonist in the central nervous system, disturbing synaptic signal transmission It can control sucking pests, such as aphids and whiteflies, and weevils, leafminers and various species of beetles, and is numerously used in China[9,10]. Spirotetramat-enol (B-enol), spirotetramat-mono-hydroxy (B-mono), and spirotetramat-keto-hydroxy (B-keto) and spirotetramat-enol-glucoside (B-glu) are the main metabolites of spirotetramat in p lants[11]
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