Establishment of a QuEChERS-UPLC-MS/MS Method for Simultaneously Detecting Tolfenpyrad and Its Metabolites in Tea
文献类型: 外文期刊
第一作者: Wang, Zihan
作者: Wang, Zihan;Wang, Xinru;Wang, Min;Li, Ziqiang;Zhang, Xinzhong;Zhou, Li;Sun, Hezhi;Yang, Mei;Lou, Zhengyun;Chen, Zongmao;Luo, Fengjian;Wang, Xinru;Zhang, Xinzhong;Zhou, Li;Sun, Hezhi;Yang, Mei;Lou, Zhengyun;Chen, Zongmao;Luo, Fengjian;Wang, Min;Li, Ziqiang
作者机构:
关键词: pesticide residue; analytical method; metabolites; tea
期刊名称:AGRONOMY-BASEL ( 影响因子:3.949; 五年影响因子:4.117 )
ISSN:
年卷期: 2022 年 12 卷 10 期
页码:
收录情况: SCI
摘要: An analytical method simultaneously detecting pesticide and its metabolites, especially with higher toxicity, was urgently needed for supervision and safety evaluation of agricultural products. In the present study, a modified QuEChERS method coupled with a ultra-high performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) for simultaneous determination of tolfenpyrad (TFP) and its metabolites in tea matrices (fresh tea shoots, green tea, black tea, green tea infusion and black tea infusion) was established. The method validation showed good linearity (correlation coefficients >= 0.9945), accuracy (recoveries in 75.38-109.90%), sensitivity (limits of quantification <= 0.05 mg kg(-1)), and precision (relative standard deviations <= 19.09%). The established method was then applied to detect 40 market samples, resulting in 60.0% positive rate of TFP, besides, two metabolites including PT-CA, which is more toxic than the parent TFP, and PT-OH were also detected in the samples with high TFP residue (>= 0.048 mg kg(-1)). The method established in the present work was thus of significant importance in comprehensive monitoring and of TFP in tea products.
分类号:
- 相关文献
作者其他论文 更多>>
-
Natural variation in ZmNRT2.5 modulates husk leaf width and promotes seed protein content in maize
作者:Wang, Qi;Wang, Min;Wang, Jin-Yu;Tan, Wei-Ming;He, Yan;Xia, Ai-Ai;Wang, Zi;Luo, Jin-Hong;He, Yan;Xu, Tao;Jia, De-Tao;Lu, Ming
关键词:maize; GWAS; husk leaf width; seed protein content;
ZmNRT2.5 -
Novel synthesis of sulfur-doped Ag3PO4 photocatalyst for efficient degradation of cylindrospermopsin
作者:Zhang, Xu;Zhou, Li;Zou, Guoyan;Zhang, Xu;Chu, Huaqiang;Zhou, Xuefei;Zhang, Yalei;Liu, Yiyang;Hengchao, E.;Zhao, Zhiyong;Zhang, Xu
关键词:Cylindrospermopsin; S-doped Ag3PO4; Calcination; Degradation mechanisms; Toxicity
-
Metabolomic and Transcriptomic Analyses of Flavonoid Biosynthesis in Different Colors of Soybean Seed Coats
作者:Fan, Yuanfang;Wang, Xianshu;Yang, Mei;Zhong, Xiaojuan;Zhou, Yonghang;Xiang, Chao;Fan, Yuanfang;Wang, Xianshu;Yang, Mei;Zhong, Xiaojuan;Zhou, Yonghang;Xiang, Chao;Hussain, Sajad;Tao, Lei;Li, Jing
关键词:soybean; flavonoid; transcriptome; metabolome; seed coat color
-
Evaluation of the strategy for insecticidal crystal encapsulation with cell wall in industrial processes
作者:Hou, Yujia;Zhang, Xin;Xu, Yanrong;Zhu, Yuanhong;Yan, Tinglu;Peng, Qi;Song, Fuping;Zhang, Xin;Zhou, Li;Liu, Huamei
关键词:
Bacillus thuringiensis ; industrial processes; mother cell lysis; insecticidal crystal encapsulation; UV resistance -
Encapsulation of pterostilbene in pea protein isolate-fucoidan-quaternary ammonium chitosan complex nanoparticles to enhance its stability, antioxidant activity and intestinal permeability
作者:Liu, Qianyuan;Wang, Zihan;Kan, Jia;Sun, Rongxue;Wang, Cheng;Jiang, Ning;Liu, Qianyuan;Wang, Zihan;Kan, Jia;Sun, Rongxue;Wang, Cheng;Jiang, Ning
关键词:Pterostilbene; Pea protein isolate; Fucoidan; Quaternary ammonium chitosan; Complex nanoparticles; Delivery system
-
Ubiquitination of OsCSN5 by OsPUB45 activates immunity by modulating the OsCUL3a-OsNPR1 module
作者:Zhang, Chongyang;Fang, Liang;He, Feng;You, Xiaoman;Wang, Min;Zhao, Tianxiao;Hou, Yanyan;Wang, Ruyi;Ning, Yuese;Zhang, Chongyang;Ruan, Jue;Fang, Liang;Francis, Frederic;Xiao, Ning;Li, Aihong;Yang, Jian;Wang, Guo-Liang
关键词:
-
Modeling Short-Term Drought for SPEI in Mainland China Using the XGBoost Model
作者:Zeng, Fanchao;Gao, Qing;Rao, Zhilong;Wang, Zihan;Yao, Fuqi;Wu, Lifeng;Zhang, Xinjian;Sun, Jinwei
关键词:CPSO-XGBoost model; standardized precipitation evapotranspiration index; multi-timescale analysis; drought prediction; swarm intelligence optimization; China
