A Dissipation Pattern of Gibberellic Acid and Its Metabolite, Isogibberellic Acid, during Tea Planting, Manufacturing, and Brewing
文献类型: 外文期刊
第一作者: Jiang, Changling
作者: Jiang, Changling;Han, Haolei;Dai, Jinxia;Wang, Ziqi;Chai, Yunfeng;Lu, Chengyin;Chen, Hongping;Jiang, Changling;Han, Haolei;Dai, Jinxia;Wang, Ziqi;Chai, Yunfeng;Lu, Chengyin;Chen, Hongping
作者机构:
关键词: tea; gibberellic acid; isogibberellic acid; dissipation; transfer rate
期刊名称:JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY ( 影响因子:5.279; 五年影响因子:5.269 )
ISSN: 0021-8561
年卷期: 2020 年 68 卷 49 期
页码:
收录情况: SCI
摘要: As a widely used plant growth regulator, the gibberellic acid (GA(3)) residue in tea has potential risk for human health. Herein, the degradation of GA(3) and its conversion into main metabolites were investigated during tea planting, manufacturing, and brewing using ultrahigh-performance liquid chromatography tandem mass spectrometry. The metabolite iso-GA(3) was first discovered during the tea production chain and identified using Q : Exactive Orbitrap mass spectrometry. GA(3) dissipated following first-order kinetics in tea shoots with half-lives ranging from 2.46 to 2.74 days. It was degraded into iso-GA(3) in tea shoots, which had a longer residual period than GA(3). Meanwhile, external application of GA(3) could increase the proportion of growth-promoting endogenous phytohormones and lead to rapid growth of tea plants. During tea manufacturing, iso-GA(3) was quickly and massively converted from GA(3). Fixing (heat at 220-230 degrees C) played an important role in the dissipation of GA(3) and iso-GA(3) during green tea manufacturing, but there were high residues of iso-GA(3) in black tea. High transfer rates (77.3 to 94.5%) of GA(3) and iso-GA(3) were observed during tea brewing. These results could provide a practical reference for food safety in tea and other agricultural products and the guidance for scientific application of GA(3) in tea planting.
分类号:
- 相关文献
作者其他论文 更多>>
-
Insight into the sorption and desorption pattern of pyrrolizidine alkaloids and their N-oxides in acidic tea ( Camellia sinensis ) plantation soils
作者:Lu, Yuting;Han, Haolei;Chai, Yunfeng;Wang, Chen;Zhang, Xiangchun;Yang, Xiangde;Chen, Hongping;Lu, Yuting;Han, Haolei;Yi, Yuexing;Chai, Yunfeng;Wang, Chen;Zhang, Xiangchun;Chen, Hongping;Chai, Yunfeng;Wang, Chen;Zhang, Xiangchun;Chen, Hongping
关键词:Pyrrolizidine alkaloids; Sorption -desorption behavior; Tea plantation system; Acidic soil; Linear regression model
-
Nitrogen addition alters aboveground C:N:P stoichiometry of plants but not for belowground in an Inner Mongolia grassland
作者:Wang, Ziqi;An, Yixin;Li, Ying;Yu, Qiang;Wang, Jie;Wang, Xu;Wu, Honghui;Yang, Tian;Zhang, Yunlong;Bian, Jianlin;Ren, Haiyan;Lkhagva, Ariuntsetseg
关键词:nitrogen deposition; C:N:P stoichiometry; grassland ecosystem; community level; belowground
-
Formation of EGCG oxidation self-assembled nanoparticles and their antioxidant activity in vitro and hepatic REDOX regulation activity in vivo
作者:Wu, Ximing;Wang, Wei;Wu, Ximing;Wang, Yijun;Yang, Mingchuan;Yang, Lumin;Wang, Fuming;Wu, Ximing;Wang, Ziqi;Zhang, Xiangchun;Wang, Dongxu
关键词:
-
Gas-Phase Alcoholysis of Benzylic Halides in the Atmospheric Pressure Ionization Source
作者:Shen, Shanshan;Feng, Hongru;Pan, Yuanjiang;Shen, Shanshan;Chen, Yue;Chai, Yunfeng
关键词:
-
Engineering Antimicrobial Metal-Phenolic Network Nanoparticles with High Biocompatibility for Wound Healing
作者:Yu, Rongxin;Chen, Hongping;Zheng, Qinqin;Fu, Zhouping;Lu, Chengyin;Zhang, Xiangchun;He, Jian;Zhang, Zhichao;Zhou, Jiajing;Lin, Zhixing;Caruso, Frank
关键词:biofilms; metal-organic materials; polyphenols; quinoprotein; selective antimicrobial
-
Development of a Cation Exchange SPE-HILIC-MS/MS Method for the Determination of Ningnanmycin Residues in Tea and Chrysanthemum
作者:Li, Aiping;Wang, Chen;Wu, Zhenghao;Liu, Yingying;Hao, Zhenxia;Lu, Chengyin;Chen, Hongping;Li, Aiping;Wu, Zhenghao;Liu, Yingying;Wang, Chen;Chen, Hongping;Wang, Chen;Hao, Zhenxia;Lu, Chengyin;Chen, Hongping
关键词:ningnanmycin; tea; chrysanthemum; cation exchange; HILIC-MS/MS
-
MOF-based Ag NPs/Co3O4 nanozyme for colorimetric detection of thiophanate-methyl based on analyte-enhanced sensing mechanism
作者:Huang, Yali;Liang, Ting;Yang, Leiwenxuan;Hu, Gaohua;Zhang, Jianyang;Lu, Chengyin;Chen, Hongping;Ma, Guicen;Zhang, Jianyang;Lu, Chengyin;Chen, Hongping;Ma, Guicen;Huang, Yali;Liang, Ting;Yang, Leiwenxuan;Hu, Gaohua
关键词:MOFs; Nanozyme; Thiophanate-methyl; Analyte-enhanced sensing mechanism; Digital color imaging; Spectrophotometry
