Degradation of Chlorpyrifos and Fipronil in Rice from Farm to Fork and Risk Assessment

文献类型: 外文期刊

第一作者: Zhang Cun-zheng

作者: Zhang Cun-zheng;Liu Xian-jin;Tian Zi-hua;He Dan-jun;Zhang Xin-ming

作者机构:

关键词: rice;risk assessment;pesticide residue;chlorpyrifos;fipronil

期刊名称:AGRICULTURAL SCIENCES IN CHINA ( 影响因子:0.82; 五年影响因子:0.997 )

ISSN: 1671-2927

年卷期: 2010 年 9 卷 5 期

页码:

收录情况: SCI

摘要: Degradation of pesticide residues (chlorpyrifos and fipronil) in rice from farm to fork and risk assessment for human health were studied to reveal the magnitude of risks faced by different populations of interest, so that appropriate measures can be taken to control the risks, and to refine and update the human health risk assessment data while helping to determine the maximum residue level (MRL) value and harvest interval Different dosages and treatments were used in field trials for the harvest residue test Residue levels of postharvest-applied chlorpyrifos and fipronil during storage, exposure to sunlight, washing and boiling processes (boiled rice) were investigated for brown rice The dietary exposure evaluation model (DEEM) was employed to estimate acute and chronic risks faced by different populations of Interest Percent of reference dose (POR) and margin of exposure (MOE) were calculated A positive correlation between pesticide residues and the dosage and application frequency of pesticide was found in the field trials Risk quotients indicate that multiple applications and double dosages of chlorpyrifos increase the risks to the entire population and prolong exposures to toxic concentrations The concentration of pesticide residues decreased as a function of time, after sunlight exposure, storage, washing, and boiling processes 91 6 and 96 16% degradations were achieved at the end of the experimental period for fipronil and chlorpyrifos, respectively The boiling process played an important role in the degradation of these pesticides The result of risk assessment to human health showed that harvest residues of chlorpyrifos in rice and acute dietary risks of chlopyrifos were of concern The acute dietary (food only) risk estimated for chlorpyrifos as percent of acute population adjusted dose (aPAD) was frequently over 100%. The risk faced by boys under the age of 14 was higher than that for girls of the same age For the subpopulation above age 14, the risk reversed The chronic dietary risk from food alone showed that dietary exposures with fipronil were below the level of concern for the entire population, including children The risk faced by rural residents was more serious than that for urbanite residents with the most sensitive populations being children and male residents who faced higher acute dietary risk than the other subpopulation groups The harvest interval was found to be the critical measure to mitigate risk for all populations for safe rice eating All risk levels decreased to acceptable levels when the harvest Interval was extended to 14 d. To address these risks, a number of measures including reduced application rates (should not be doubled at single application), increased retreatment intervals (longer than 7 d) and extended interval of harvest (at least 14 d) will be needed The MRL for fipronil in rice is recommended to be 0 01 mg kg(-1) in accordance with Codex (ref)

分类号:

  • 相关文献

[1]Controlled Release Study on Microencapsulated Mixture of Fipronil and Chlorpyrifos for the Management of White Grubs (Holotrichia parallela) in Peanuts (Arachis hypogaea L.). Yang, Daibin,Yan, Xiaojing,Yuan, Huizhu,Li, Guangxing. 2014

[2]Chlorpyrifos Residual Behaviors in Field Crops and Transfers during Duck Pellet Feed Processing. Li, Rui,Wei, Wei,Ji, Xiaofeng,Zhou, Yu,Wang, Qiang,He, Liang,Hao, Lili.

[3]Risk assessment and ranking of pesticide residues in Chinese pears. Li Zhi-xia,Nie Ji-yun,Yan Zhen,Xu Guo-feng,Kuang Li-xue,Pan Li-gang,Pan Li-gang,Xie Han-zhong,Wang Cheng,Liu Chuan-de,Zhao Xu-bo,Guo Yong-ze. 2015

[4]Health risks of consuming apples with carbendazim, imidacloprid, and thiophanate-methyl in the Chinese population: Risk assessment based on a nonparametric probabilistic evaluation model. Ye, Mengliang,Nie, Jiyun,Li, Zhixia,Cheng, Yang,Zheng, Lijing,Xu, Guofeng,Yan, Zhen,Ye, Mengliang,Nie, Jiyun,Li, Zhixia,Cheng, Yang,Zheng, Lijing,Xu, Guofeng,Yan, Zhen,Ye, Mengliang,Nie, Jiyun,Li, Zhixia,Cheng, Yang,Zheng, Lijing,Xu, Guofeng,Yan, Zhen.

[5]Potential Dermal Exposure and Risk Assessment for Applicators of Chlorothalonil and Chlorpyrifos in Cucumber Greenhouses in China. An, Xuehua,Ji, Xiaofeng,Jiang, Jinhua,Wang, Yanhua,Wu, Changxing,Zhao, Xueping.

[6]Chlorpyrifos residue levels on field crops (rice, maize and soybean) in China and their dietary risks to consumers. Li, Rui,Wei, Wei,Ji, Xiaofeng,Zhou, Yu,Wang, Qiang,He, Liang,Hao, Lili.

[7]Efficacy of endosulfan and fipronil and joint toxic action of endosulfan mixtures against Leptinotarsa decemlineata (Say). Shi, Xiao-qin,Xiong, Man-Hui,Jiang, Wei-Hua,Wang, Zhi-Tian,Li, Guo-Qing,Guo, Wen-Chao,Xia, Zhen-Han,Fu, Wen-Jun. 2012

[8]Differential fipronil susceptibility and metabolism in two rice stem borers from China. Ye, Gong-Yin,Yao, Hong-Wei,Cheng, Jia-An,Akhtar, Zunnu-Raen,Huang, Cheng-Hua.

[9]Differential resistance and cross-resistance to three phenylpyrazole insecticides in the planthopper nilaparvata lugens (Hemiptera: Delphacidae). Zhao, Xinghua,Ning, Zuoping,Shen, Jinliang,Su, Jianya,Gao, Congfen,Zhao, Xinghua,Ning, Zuoping,Shen, Jinliang,Su, Jianya,Gao, Congfen,Zhao, Xinghua,He, Yueping.

[10]Development and validation of an ultra performance liquid chromatography Q-Exactive Orbitrap mass spectrometry for the determination of fipronil and its metabolites in tea and chrysanthemum. Liu, Xin,Lu, Chengyin. 2018

[11]TOXICITIES OF FIPRONIL ENANTIOMERS TO THE HONEYBEE APIS MELLIFERA L. AND ENANTIOMERIC COMPOSITIONS OF FIPRONIL IN HONEY PLANT FLOWERS. Bao, Chen,Tao, Shu,Yang, Daibin,Zheng, Mingqi,Li, Xuefeng.

[12]Oxidative injury is involved in fipronil-induced G2/M phase arrest and apoptosis in Spodoptera frugiperda (Sf9) cell line. Wang, Xin-quan,Zhang, Hu,Wang, Xiang-yun,Qi, Pei-pei,Xu, Hao,Li, You-gui,Zhong, Shi. 2013

[13]Susceptibility to neonicotinoids and risk of resistance development in the brown planthopper, Nilaparvata lugens (St(a)over-circlel) (Homoptera: Delphacidae). Zhu, Yu Cheng,Wang, Yanhua,Chen, Jin,Ma, Chongyong,Huang, Yue,Shen, Jinliang,Wang, Yanhua. 2008

[14]Fipronil resistance in the whitebacked planthopper (Sogatella furcifera): possible resistance mechanisms and cross-resistance. Li, Jian,Shao, Ying,Liu, Zewen,Tang, Jian,Yang, Baojun.

[15]Rapid and sensitive detection of fipronil and its metabolites in edible oils by solid-phase extraction based on humic acid bonded silica combined with gas chromatography with electron capture detection. Peng, Xi-Tian,Xia, Hong,Peng, Li-Jun,Li, Yu-Nan,Feng, Yu-Qi.

[16]Identification of glutathione S-transferase genes in Leptinotarsa decemlineata and their expression patterns under stress of three insecticides. Han, Jin-Bo,Li, Guo-Qing,Zhu, Tao-Tao,Meng, Qing-Wei,Wan, Pin-Jun.

[17]Determination and Dissipation of Fipronil and Its Metabolites in Peanut and Soil. Li, Minghui,Li, Puyu,Wang, Lin,Feng, Mengyuan,Han, Lijun,Li, Minghui,Wang, Lin.

[18]Identification of carboxylesterase genes and their expression profiles in the Colorado potato beetle Leptinotarsa decemlineata treated with fipronil and cyhalothrin. Lu, Feng-Gong,Fu, Kai-Yun,Li, Qian,Li, Guo-Qing,Guo, Wen-Chao,Ahmat, Tursun.

[19]Determination of 4 Pesticides Residues in Citrus and Essential Oil by Ultra Performance Liquid Chromatography-Mass Spectrometry. Kong Zhi-Qiang,Dong Feng-Shou,Liu Xin-Gang,Xu Jun,Zheng Yong-Quan,Gong Yong,Shan Wei-Li. 2012

[20]Bagging Technology Reduces Pesticide Residues in Table Grapes. Wan, Yizhen,Hou, Qi-Rui,Wen, Yan,Wang, Lei,Lu, Quanyou,Wan, Yizhen,Hou, Qi-Rui,Wen, Yan,Wang, Lei,Lu, Quanyou.

作者其他论文 更多>>

微信小程序