气相色谱-负化学电离质谱法测定食用植物油中5种酰基吡唑类农药残留
|
摘要
建立了气相色谱-负化学电离质谱联用技术测定食用植物油中5种酰基吡唑类农药(呋吡菌胺、吡噻菌胺、氟唑菌苯胺、吡唑特、苄草唑)残留量的检测方法。样品经乙腈冷冻提取,分散固相萃取技术(QuEChERS)净化,采用基质校正曲线外标法定量。在20~1 000μg/L范围内,所有目标物的峰面积与其质量浓度均呈现良好的线性关系,定量限均低于2μg/kg,能满足国内外的限量要求。在0. 01、0. 02、0. 05 mg/kg 3个添加水平下,所有农药的平均回收率均处于82. 7%~112. 4%之间,相对标准偏差≤12. 3%。该法准确度较高,精密度较好,灵敏度高,可用于食用植物油中酰基吡唑类农药残留量的测定。
A method was established for the determination of five acylpyrazole pesticide residues in edible vegetable oils using gas chromatography-negative chemical ionization-mass spectrometry( GC-NCI-MS). The pesticides were extracted from a sample with acetonitrile under freezing conditions. A simple cleanup step known as QuEChERS was then conducted. After being identified by GC-NCI-MS,the extracts were quantified using an external standard method that employs a matrix correction standard curve. The linearity of the method was good between 20 and1 000 μg/L,and all limits of quantification were less than 2 μg/kg. Recoveries of all pesticides were in the range of 82. 7%-112. 4% at the three spiked levels of 0. 01,0. 02,and 0. 05 mg/kg,and all relative standard deviations were not more than 12. 3%. Therefore,this method can be used to determine the residues of acylpyrazole pesticides in edible vegetable oils.
A method was established for the determination of five acylpyrazole pesticide residues in edible vegetable oils using gas chromatography-negative chemical ionization-mass spectrometry( GC-NCI-MS). The pesticides were extracted from a sample with acetonitrile under freezing conditions. A simple cleanup step known as QuEChERS was then conducted. After being identified by GC-NCI-MS,the extracts were quantified using an external standard method that employs a matrix correction standard curve. The linearity of the method was good between 20 and1 000 μg/L,and all limits of quantification were less than 2 μg/kg. Recoveries of all pesticides were in the range of 82. 7%-112. 4% at the three spiked levels of 0. 01,0. 02,and 0. 05 mg/kg,and all relative standard deviations were not more than 12. 3%. Therefore,this method can be used to determine the residues of acylpyrazole pesticides in edible vegetable oils.
引文
[1] Li Y F,Luo H J,Ye Y F,et al. Guangdong Agricultural Science,2010(11):248李艳芳,罗华建,叶瑜霏,等.广东农业科学,2010(11):248
[2] Shen W J,Liu H,Zhang R,et al. Chinese Journal of Chrom ato graphy,2017,35(12):1224沈伟健,柳菡,张睿,等.色谱,2017,35(12):1224
[3] Chen S S,Ding C,Guo L X,et al. Journal of Chinese Mass Spectro m etry So ciety,2013,34(5):274陈珊珊,丁丞,郭立新,等.质谱学报,2013,34(5):274
[4] Xu D M,Lu S Y,Chen D J,et al. Chinese Journal of Chrom ato graphy,2013,31(3):218徐敦明,卢声宇,陈达捷,等.色谱,2013,31(3):218
[5] Ding L P,Guo J,Zheng L,et al. Chinese Journal of Chrom ato graphy,2013,31(8):747丁立平,郭菁,郑铃,等.色谱,2013,31(8):747
[6] Shen Y,Li Z,Ma Q,et al. J Agric Food Chem,2016,64(19):3901
[7] Paradis D,Bérail G,Bonmatin J M,et al. Anal Bioanal Chem,2014,406(2):621
[8] Chen X Z,Xia B Q,Huang F Z,et al. Journal of Instrumental Analysis,2015,34(11):1311陈祥准,夏碧琪,黄芙珍,等.分析测试学报,2015,34(11):1311
[9] Liu J,Zhang X,Shen J,et al. Hubei Agricultural Science,2014,53(19):4698刘军,张仙,沈菁,等.湖北农业科学,2014,53(19):4698
[10] McMahen R L,Strynar M J,Dagnino S,et al. Environ Int,2015,78:16
[11] Lacroix M Z,Puel S,Toutain P L,et al. J Chromatogr B,2010,878:1934
[12] Dong F,Chen X,Liu X,et al. J Chromatogr A,2012,1262(21):98
[13] Wang H,Shen W J,Cai L S,et al. Journal of Instrumental Analysis,2018,37(5):594王红,沈伟健,蔡理胜,等.分析测试学报,2018,37(5):594
[14] Shen W J,Mao Y M,Wu B,et al. Chinese Journal of Analytical Chem ical,2010,38(7):941沈伟健,毛应民,吴斌,等.分析化学,2010,38(7):941
[15] Cai L S,Shen W J,Wang Z P,et al. Chinese Journal of Chro m ato graphy,2017,35(11):1177蔡理胜,沈伟健,王正萍,等.色谱,2017,35(11):1177
[2] Shen W J,Liu H,Zhang R,et al. Chinese Journal of Chrom ato graphy,2017,35(12):1224沈伟健,柳菡,张睿,等.色谱,2017,35(12):1224
[3] Chen S S,Ding C,Guo L X,et al. Journal of Chinese Mass Spectro m etry So ciety,2013,34(5):274陈珊珊,丁丞,郭立新,等.质谱学报,2013,34(5):274
[4] Xu D M,Lu S Y,Chen D J,et al. Chinese Journal of Chrom ato graphy,2013,31(3):218徐敦明,卢声宇,陈达捷,等.色谱,2013,31(3):218
[5] Ding L P,Guo J,Zheng L,et al. Chinese Journal of Chrom ato graphy,2013,31(8):747丁立平,郭菁,郑铃,等.色谱,2013,31(8):747
[6] Shen Y,Li Z,Ma Q,et al. J Agric Food Chem,2016,64(19):3901
[7] Paradis D,Bérail G,Bonmatin J M,et al. Anal Bioanal Chem,2014,406(2):621
[8] Chen X Z,Xia B Q,Huang F Z,et al. Journal of Instrumental Analysis,2015,34(11):1311陈祥准,夏碧琪,黄芙珍,等.分析测试学报,2015,34(11):1311
[9] Liu J,Zhang X,Shen J,et al. Hubei Agricultural Science,2014,53(19):4698刘军,张仙,沈菁,等.湖北农业科学,2014,53(19):4698
[10] McMahen R L,Strynar M J,Dagnino S,et al. Environ Int,2015,78:16
[11] Lacroix M Z,Puel S,Toutain P L,et al. J Chromatogr B,2010,878:1934
[12] Dong F,Chen X,Liu X,et al. J Chromatogr A,2012,1262(21):98
[13] Wang H,Shen W J,Cai L S,et al. Journal of Instrumental Analysis,2018,37(5):594王红,沈伟健,蔡理胜,等.分析测试学报,2018,37(5):594
[14] Shen W J,Mao Y M,Wu B,et al. Chinese Journal of Analytical Chem ical,2010,38(7):941沈伟健,毛应民,吴斌,等.分析化学,2010,38(7):941
[15] Cai L S,Shen W J,Wang Z P,et al. Chinese Journal of Chro m ato graphy,2017,35(11):1177蔡理胜,沈伟健,王正萍,等.色谱,2017,35(11):1177