氯虫苯甲酰胺在 Rosa roxburghii 中的消散动力学、残留水平和风险评估,以及利用家庭净化技术清除其残留物

Xuefei Zhang, Zhaochun Jiang, Lei Han, Xiaomao Wu
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摘要

鉴于氯虫苯甲酰胺(CAP)被广泛用于防治东方果蠹、蚜虫和粉虱,其在蔷薇果园中的残留和潜在生态风险引起了人们的关注。本研究采用改良的快速、简便、廉价、有效、坚固和安全(QuEChERS)分散固相萃取技术,建立了一种有效的 UPLC-MS/MS 方法,用于定量检测 R. roxburghii 和土壤中的 CAP,平均回收率为 73.89%-96.63%,相对标准偏差小于 15%。2021 年和 2022 年在田间条件下进行的消散动力学和最终残留试验表明,CAP 在罗布麻中的半衰期(2.64-2.70 天)短于在土壤中的半衰期(3.58-3.80 天),其在罗布麻和土壤中的最终残留量分别为 0.034-0.818 mg kg-1 和 0.003-0.015-1。长期膳食和土壤生态风险评估表明,其风险商显著小于 100%,这意味着按推荐剂量在罗布麻上使用 CAP 对消费者和土壤生态系统是安全的,并建议 CAP 在罗布麻中的最大残留限量(MRLs)和收获前安全间隔期分别为 0.7 mg kg-1 和 14 天。使用简单的家庭加工方法去除 R. roxburghii 中 CAP 残留的实验表明,2% 的小苏打水去除效率最高(56.04%-60.33%)。这项研究为确定最高残留限量、在罗汉果生产中安全合理地使用 CAP 以及在食用罗汉果前进行家庭净化提供了基础数据。
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Dissipation kinetics, residue level, and risk assessment of chlorantraniliprole in Rosa roxburghii and its residue removal using household decontamination technique
Rosa roxburghii (R. roxburghii) is edible and medicinal fruit rich in vitamin C. Residues and potentially ecological risks of chlorantraniliprole (CAP) in the R. roxburghii orchard have aroused concern considering its extensive use for controlling oriental fruit moth, aphid, and whitefly of R. roxburghii. In this study, an effective UPLC–MS/MS method was developed for quantitation of CAP in R. roxburghii and soil using modified quick, easy, cheap, effective, rugged, and safe (QuEChERS) dispersive solid-phase extraction with average recoveries of 73.89–96.63% and a relative standard deviation of <15%. Dissipation dynamics and terminal residue trials under the field conditions in 2021 and 2022 showed that half-lives of CAP in R. roxburghii (2.64–2.70 days) were shorter than those in soil (3.58–3.80 days), and its terminal residues in R. roxburghii and soil were 0.034–0.818 mg kg-1 and 0.003–0.015-1, respectively. Long-term dietary and soil ecological risk assessments indicated that the risk quotient was significantly less than 100%, meaning that the use of CAP on R. roxburghii at the recommended dosage was safe to consumers and soil ecology system, and that maximum residue limits (MRLs) and safe pre-harvest intervals of CAP in R. roxburghii were recommended as 0.7 mg kg-1 and 14 days, respectively. Removal experiments of CAP residues from R. roxburghii using simple household processing approaches exhibit that 2% baking soda water had the highest removal efficiency (56.04–60.33%). This study provides the basic data for establishing MRL, the safe and rational use of CAP in R. roxburghii production as well as the household decontamination prior to consumption of R. roxburghii fruits.
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