Determination of 10 pyrethroid pesticide residues in tea by gas chromatography-tandem mass spectrometry coupled with multi-plug filtration cleanup

doi:10.3724/SP.J.1123.2019.12010

Abstract

Abstract:

A method for the determination of 10 pyrethroid pesticide residues in tea was established by multi-plug filtration cleanup (m-PFC) method combined with gas chromatography-tandem mass spectrometry (GC-MS/MS). Different extraction solvents (acetonitrile, acetone and ethyl acetate) and extraction methods (immersion without water and immersion with water) were compared. The effect of two kinds of QuEChERS pipes and m-PFC column on the purification of tea extracts and the pesticide recoveries were compared. The results showed that the tea samples could be extracted most efficiently when using acetonitrile without immersion in water. The m-PFC column had a good purification effect on the tea extract and could guarantee a high recovery rate. Good linear relationships were observed for the 10 pyrethroid pesticides, and the correlation coefficients (R²) were greater than0.9980. The average recoveries for the 10 pyrethroid pesticides were in the range of 87.5%-111.3% at four spiked levels, and the RSDs were in the range of 2.1%-8.9%. The LODs and LOQs were 0.001-0.015 mg/kg and 0.003-0.05 mg/kg, respectively. The method was applied to the determination of the 10 pyrethroid pesticides in 50 tea samples. The detection rate of the pyrethroid pesticides was 48%, but all the pesticide residues were below the national standard limits. Compared with the traditional QuEChERS and solid phase extraction methods, this method has the advantages of operational simplicity as well as high accuracy and good precision. The establishment of this method provides a new strategy for the rapid detection of pyrethroid pesticide residues in tea.

Key words: gas chromatography-tandem mass spectrometry (GC-MS/MS), multi-plug filtration cleanup (m-PFC), pyrethroid pesticides, tea

HUANG Yunxia, MENG Zhijuan, ZHAO Limin, SUN Wenyi, WANG Dong, FAN Sufang, LI Qiang, ZHANG Yan. Determination of 10 pyrethroid pesticide residues in tea by gas chromatography-tandem mass spectrometry coupled with multi-plug filtration cleanup[J]. Chinese Journal of Chromatography, 2020, 38(7): 798-804.

Figures/Tables 4

References

1	Khan N , Mukhtar H . Life Sciences, 2007, 81 (7): 519
2	Mckay D L , Blumberg J B . J Am Coll Nutr, 2002, 21 (1): 1
3	Rong J F , Wei H , Huang H S , et al. Journal of Instrumental Analysis, 2016, 35 (1): 8
3	荣杰峰, 韦航, 黄伙水, et al. 分析测试学报, 2016, 35 (1): 8
4	GB 2763-2019
5	Roshanak S , Rahimmalek M , Goli S A H . J Food Sci Technol, 2016, 53 (1): 721
6	Huang T T , Tang H , Dong X Q , et al. Food Science, 2018, 39 (6): 315
6	黄田田, 汤桦, 董晓倩, et al. 食品科学, 2018, 39 (6): 315
7	Tian L M , Sun Z Y , Xiang M , et al. Food Science, 2015, 36 (20): 239
7	田丽梅, 孙志勇, 向明, et al. 食品科学, 2015, 36 (20): 239
8	Liu J , Chen Y H , Huang Y J , et al. Journal of Food Safety & Quality, 2019, 10 (10): 3000
8	刘佳, 陈彦宏, 黄亚娟, et al. 食品安全质量检测学报, 2019, 10 (10): 3000
9	Zeng Y , Lang H , Yang Q H , et al. Journal of Tea Science, 2019, 39 (5): 576
9	曾艳, 郎红, 杨巧慧, et al. 茶叶科学, 2019, 39 (5): 576
10	Li S Y , Tang G . Modern Agricultural Sciences and Technology, 2018 (5): 103
10	李世艳, 唐刚. 现代农业科技, 2018 (5): 103
11	Huang J W , Fan W M , Mei Y Q , et al. Chinese Journal of Health Laboratory Technology, 2019, 29 (7): 778
11	黄季维, 樊文明, 梅玉琴, et al. 中国卫生检验杂志, 2019, 29 (7): 778
12	Cao Y L , Li W , Pei X H , et al. Analytical Instrumentation, 2018 (3): 57
12	曹亚林, 李伟, 裴晓华, et al. 分析仪器, 2018 (3): 57
13	Huang W , Li N , Xu R H , et al. Chinese Journal of Chromatography, 2018, 36 (12): 1303
13	黄微, 李娜, 徐瑞晗, et al. 色谱, 2018, 36 (12): 1303
14	Jiang L , Mei W Q , Shao J L , et al. Journal of Anhui Agricultural Sciences, 2017, 45 (13): 92
14	蒋露, 梅文泉, 绍金良, et al. 安徽农业科学, 2017, 45 (13): 92
15	Fang Y , Tian W , Pei F , et al. Food Chem, 2017, 229: 347
16	Song B J , Wei R . Modern Food, 2017, 2 (4): 95
16	宋碧君, 魏荣. 现代食品, 2017, 2 (4): 95
17	Guo B B , Shi Z G , Liu S N , et al. Journal of Anhui Agricultural Sciences, 2017, 45 (26): 87
17	郭保宝, 石志格, 刘胜男, et al. 安徽农业科学, 2017, 45 (26): 87
18	Wu C C . Food Chem, 2017, 229: 580
19	Anastassiades M , Lehotay S J , Stajnbaher D , et al. J AOAC Int, 2003, 86 (2): 412
20	Hao D Y , Xi X J , Chu Q , et al. Chinese Journal of Pesticide Sciences, 2019, 21 (1): 82
20	郝东宇, 席兴军, 初侨, et al. 农药学学报, 2019, 21 (1): 82
21	Qin Y H , Zhao P Y , Fan S F , et al. J Chromatogr A, 2015, 1385: 1
22	Qin Y H , Huang B Y , Zhang J R , et al. J Sep Sci, 2016, 39 (9): 1757
23	Zou N , Han Y T , Li Y J , et al. J Agric Food Chem, 2015, 64 (31): 6061
24	Wang F H , Ren C J , Ma H , et al. Chinese Journal of Chromatography, 2019, 37 (10): 1042
24	王芳焕, 任翠娟, 马辉, et al. 色谱, 2019, 37 (10): 1042
25	Yin X H , Shi Y Y , Zhao S Z , et al. Chinese Journal of Chromatography, 2016, 34 (11): 1097
25	伊雄海, 时逸吟, 赵善贞, et al. 色谱, 2016, 34 (11): 1097

Compound	CAS No.	t_R/min	Quantitative ion pair (m/z) (CE/eV)	Qualitative ion pair 1 (m/z) (CE/eV)	Qualitative ion pair 2 (m/z) (CE/eV)
CE: collision energy.
Bifenthrin	82657-04-3	17.984	181.1/166.1 (12)	181.1/179.1 (12)	181.1/153.1 (8)
Fenpropathrin	39515-41-8	18.184	181.1/152.1 (22)	265.1/210.1 (12)	181.1/127.1 (28)
Cyhalothrin	68085-85-8	18.785, 18.962	208.0/181.0 (8)	197.0/141.0 (12)	197.0/161.0 (8)
Permethrin	52645-53-1	19.775, 19.902	183.1/153.1 (14)	183.1/168.1 (14)	183.1./165.1 (14)
Cyfluthrin	68359-37-5	20.300, 20.398, 20.458, 20.501	163.1/127.1 (6)	163.1/91.0 (14)	22 6.1.0 /206.1 (14)
Cypermethrin	52315-07-8	20.627, 20.730, 20.786, 20.827	163.1/127.1 (6)	163.1/91.0 (14)	181.1/152.1 (22)
Flucythrinate	70124-77-5	20.822, 21.011	199.1/157.1 (10)	157.1/107.1 (12)	199.1/107.1 (22)
Fenvalerate	51630-58-1	21.522, 21.728	225.1/119.1 (20)	225.1/147.1 (10)	419.1/225.1 (6)
Fluvalinate	69409-94-5	21.632, 21.696	250.1/55.0 (20)	250.1/200.0 (20)	252.1/55.0 (20)
Deltamethrin	52918-63-5	22.097, 22.311	180.9/151.9 (22)	252.9/93.0 (20)	252.9/171.9 (8)

Compound	CAS No.	t_R/min	Quantitative ion pair (m/z) (CE/eV)	Qualitative ion pair 1 (m/z) (CE/eV)	Qualitative ion pair 2 (m/z) (CE/eV)
CE: collision energy.
Bifenthrin	82657-04-3	17.984	181.1/166.1 (12)	181.1/179.1 (12)	181.1/153.1 (8)
Fenpropathrin	39515-41-8	18.184	181.1/152.1 (22)	265.1/210.1 (12)	181.1/127.1 (28)
Cyhalothrin	68085-85-8	18.785, 18.962	208.0/181.0 (8)	197.0/141.0 (12)	197.0/161.0 (8)
Permethrin	52645-53-1	19.775, 19.902	183.1/153.1 (14)	183.1/168.1 (14)	183.1./165.1 (14)
Cyfluthrin	68359-37-5	20.300, 20.398, 20.458, 20.501	163.1/127.1 (6)	163.1/91.0 (14)	22 6.1.0 /206.1 (14)
Cypermethrin	52315-07-8	20.627, 20.730, 20.786, 20.827	163.1/127.1 (6)	163.1/91.0 (14)	181.1/152.1 (22)
Flucythrinate	70124-77-5	20.822, 21.011	199.1/157.1 (10)	157.1/107.1 (12)	199.1/107.1 (22)
Fenvalerate	51630-58-1	21.522, 21.728	225.1/119.1 (20)	225.1/147.1 (10)	419.1/225.1 (6)
Fluvalinate	69409-94-5	21.632, 21.696	250.1/55.0 (20)	250.1/200.0 (20)	252.1/55.0 (20)
Deltamethrin	52918-63-5	22.097, 22.311	180.9/151.9 (22)	252.9/93.0 (20)	252.9/171.9 (8)

Compound	Linear range/(mg/L)	Linear equation	R²	LOD/(mg/kg)	LOQ/(mg/kg)	MRL^*/(mg/kg)
y: peak area; x: mass concentration, mg/L; * GB 2763-2019; /: not given.
Bifenthrin	0.0006-0.8	y=1.037×10⁸x-6.011×10⁴	0.9992	0.001	0.003	5
Fenpropathrin	0.002-0.8	y=1.142×10⁸x-2.269×10⁵	0.9990	0.003	0.010	5
Cyhalothrin	0.003-0.8	y=3.208×10⁷x-9.447×10⁴	0.9992	0.004	0.015	15
Permethrin	0.002-0.8	y=2.733×10⁶x-1.007×10³	0.9989	0.003	0.010	20
Cyfluthrin	0.01-0.8	y=6.302×10⁶x-6.217×10⁴	0.9991	0.015	0.050	1
Cypermethrin	0.006-0.8	y=7.343×10⁶x-4.094×10⁴	0.9994	0.010	0.030	20
Flucythrinate	0.004-0.8	y=1.259×10⁷x-4.783×10⁴	0.9995	0.006	0.020	20
Fenvalerate	0.003-0.8	y=2.597×10⁷x-7.495×10⁴	0.9987	0.005	0.015	0.1
Fluvalinate	0.006-0.8	y=5.710×10⁶x-3.221×10⁴	0.9992	0.010	0.030	/
Deltamethrin	0.006-0.8	y=1.293×10⁷x-7.519×10⁴	0.9996	0.010	0.030	10

Compound	Linear range/(mg/L)	Linear equation	R²	LOD/(mg/kg)	LOQ/(mg/kg)	MRL^*/(mg/kg)
y: peak area; x: mass concentration, mg/L; * GB 2763-2019; /: not given.
Bifenthrin	0.0006-0.8	y=1.037×10⁸x-6.011×10⁴	0.9992	0.001	0.003	5
Fenpropathrin	0.002-0.8	y=1.142×10⁸x-2.269×10⁵	0.9990	0.003	0.010	5
Cyhalothrin	0.003-0.8	y=3.208×10⁷x-9.447×10⁴	0.9992	0.004	0.015	15
Permethrin	0.002-0.8	y=2.733×10⁶x-1.007×10³	0.9989	0.003	0.010	20
Cyfluthrin	0.01-0.8	y=6.302×10⁶x-6.217×10⁴	0.9991	0.015	0.050	1
Cypermethrin	0.006-0.8	y=7.343×10⁶x-4.094×10⁴	0.9994	0.010	0.030	20
Flucythrinate	0.004-0.8	y=1.259×10⁷x-4.783×10⁴	0.9995	0.006	0.020	20
Fenvalerate	0.003-0.8	y=2.597×10⁷x-7.495×10⁴	0.9987	0.005	0.015	0.1
Fluvalinate	0.006-0.8	y=5.710×10⁶x-3.221×10⁴	0.9992	0.010	0.030	/
Deltamethrin	0.006-0.8	y=1.293×10⁷x-7.519×10⁴	0.9996	0.010	0.030	10

Compound	Recoveries/% (RSDs/%)
	Green tea				Black tea
	LOQ level	0.05 mg/kg	0.2 mg/kg	2.0 mg/kg	LOQ level	0.05 mg/kg	0.2 mg/kg	2.0 mg/kg
Bifenthrin	91.4 (6.4)	93.7 (7.4)	95.1 (6.2)	98.5 (2.1)	93.8 (6.2)	94.2 (5.9)	97.7 (3.8)	95.4 (4.2)
Fenpropathrin	97.9 (4.9)	102.6 (5.5)	99.9 (7.9)	98.3 (7.0)	107.1 (5.5)	105.9 (6.2)	98.3 (6.6)	97.8 (6.4)
Cyhalothrin	108.2 (5.4)	106.5 (6.1)	99.3 (5.4)	103.2 (7.8)	103.3 (6.1)	101.0 (5.6)	98.4 (6.9)	105.4 (6.4)
Permethrin	92.3 (7.5)	90.1 (8.2)	93.6 (6.6)	95.7 (8.6)	92.1 (6.7)	91.4 (7.0)	94.9 (4.1)	97.1 (6.1)
Cyfluthrin	93.9 (6.9)	93.7 (6.6)	89.8 (4.2)	88.5 (4.7)	94.6 (5.0)	95.7 (3.9)	92.4 (5.6)	97.0 (5.6)
Cypermethrin	94.5 (6.2)	98.2 (7.2)	94.5 (6.9)	101.6 (7.1)	97.2 (7.9)	95.9 (8.6)	97.5 (4.3)	99.4 (8.1)
Flucythrinate	105.0 (8.0)	106.4 (8.6)	107.2 (4.0)	101.3 (8.1)	111.3 (7.8)	108.9 (7.5)	100.2 (5.5)	105.3 (7.4)
Fenvalerate	110.9 (8.2)	108.1 (7.9)	97.8 (7.5)	94.7 (6.4)	107.7 (5.0)	101.7 (6.3)	96.0 (6.1)	96.4 (5.8)
Fluvalinate	94.4 (7.0)	96.7 (7.4)	87.5 (6.2)	90.3 (2.1)	90.3 (5.4)	92.8 (5.6)	88.5 (7.3)	90.1 (3.5)
Deltamethrin	90.5 (8.3)	95.4 (8.9)	88.1 (7.5)	91.6 (5.5)	90.9 (6.4)	90.3 (7.0)	87.6 (5.8)	89.1 (5.3)