Non-targeted screening of triazole fungicides in tomatoes by ultra-high performance liquid chromatography-quadrupole-time of flight mass spectrometry

doi:10.3724/SP.J.1123.2019.12020

Abstract

Abstract:

In order to cope with the differences in international trade regulations, it is necessary to establish a rapid non-targeted screening method for triazole fungicides in food. Therefore, a non-targeted method based on ultra-high performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF-MS) was established for the rapid screening of triazole fungicides in tomatoes. Tomato samples were extracted with acetonitrile and then purified by QuEChERS. The purified solution was separated on a BEH C₁₈ column (100 mm×2.1 mm, 1.7 μm) using a gradient mobile phase consisting of acetonitrile and water (both containing 0.1% formic acid). Full information tandem mass spectrometry (MS^E) acquisition using electrospray ion source under positive ion mode was performed. The 19 triazole fungicides were divided into eight groups based on their structural differences. The secondary mass fragments of eight typical standards in the eight groups of triazole fungicides were analyzed, and then, the regularities of the characteristic fragment ions and neutral loss fragments produced by collision-induced dissociation of the triazole fungicides were summarized. The fragmentation regularity was further verified by the other 11 triazole fungicides. A total of 16 tomato samples collected from local supermarkets in Beijing were screened using this non-targeted method. Diniconazole was identified and confirmed in one sample, which demonstrated that the method could achieve rapid and accurate non-targeted screening of triazole fungicides in tomatoes. The proposed method is highly efficient, sensitive, and accurate, thus providing a reference for screening triazole fungicide residues in food.

Key words: ultra-high performance liquid chromatography (UPLC), electrospray ionization (ESI), time of flight mass spectrometry (TOF-MS), triazole fungicides, fragmentation regularity, non-targeted screening

LEI Ruqing, NIU Yumin, GUO Qiaozhen, SHAO Bing, DING Xiaojing. Non-targeted screening of triazole fungicides in tomatoes by ultra-high performance liquid chromatography-quadrupole-time of flight mass spectrometry[J]. Chinese Journal of Chromatography, 2020, 38(7): 805-816.

Figures/Tables 8

References

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No.	Compound	China/ (mg/kg)	United States/ (mg/kg)	European Union/ (mg/kg)
-: no clear limits of triazole fungicides in tomatoes.
1	tricyclazole (三环唑)	-	-	0.01
2	ametoctradin (唑嘧菌胺)	-	1.5	2
3	imibenconazole (亚胺唑)	-	0.6	2
4	flusilazole (氟硅唑)	0.2	-	0.01
5	penconazole (戊菌唑)	0.2	-	0.1
6	triadimefon (三唑酮)	1	-	0.01
7	diniconazole (烯唑醇)	-	-	0.01
8	uniconazole (烯效唑)	-	0.01	-
9	paclobutrazol (多效唑)	-	-	0.02
10	tebuconazole (戊唑醇)	0.2	1.3	0.9
11	cyproconazole (环丙唑醇)	-	-	0.05
12	flutriafol (粉唑醇)	-	1	0.8
13	tetraconazole (四氟醚唑)	-	0.3	0.1
14	myclobutanil (腈菌唑)	1	0.3	0.3
15	fenbuconazole (腈苯唑)	-	-	0.5
16	epoxiconazole (氟环唑)	-	-	0.05
17	bromuconazole (糠菌唑)	-	-	0.05
18	difenoconazole (苯醚甲环唑)	0.5	0.6	2
19	propiconazole (丙环唑)	3	3	3

No.	Compound	China/ (mg/kg)	United States/ (mg/kg)	European Union/ (mg/kg)
-: no clear limits of triazole fungicides in tomatoes.
1	tricyclazole (三环唑)	-	-	0.01
2	ametoctradin (唑嘧菌胺)	-	1.5	2
3	imibenconazole (亚胺唑)	-	0.6	2
4	flusilazole (氟硅唑)	0.2	-	0.01
5	penconazole (戊菌唑)	0.2	-	0.1
6	triadimefon (三唑酮)	1	-	0.01
7	diniconazole (烯唑醇)	-	-	0.01
8	uniconazole (烯效唑)	-	0.01	-
9	paclobutrazol (多效唑)	-	-	0.02
10	tebuconazole (戊唑醇)	0.2	1.3	0.9
11	cyproconazole (环丙唑醇)	-	-	0.05
12	flutriafol (粉唑醇)	-	1	0.8
13	tetraconazole (四氟醚唑)	-	0.3	0.1
14	myclobutanil (腈菌唑)	1	0.3	0.3
15	fenbuconazole (腈苯唑)	-	-	0.5
16	epoxiconazole (氟环唑)	-	-	0.05
17	bromuconazole (糠菌唑)	-	-	0.05
18	difenoconazole (苯醚甲环唑)	0.5	0.6	2
19	propiconazole (丙环唑)	3	3	3

No.	Compound	Formula	t/ min	Theoretical m/z	Full-scan		MS/MS
No.	Compound	Formula	t/ min	Theoretical m/z	Measured m/z	△mDa	Measured m/z	Formula	Structural feature
1	tricyclazole	C₉H₈N₃S	2.83	190.0433	190.0431	-0.2	163.0322	C₈H₇N₂S	[M+H-HCN]⁺
							136.0214	C₇H₆NS	[M+H-HCN-HCN]⁺
2	ametoctradin	C₁₅H₂₆N₅	4.31	276.2183	276.2182	-0.1	249.2082	C₁₄H₂₅N₄	[M+H-HCN]⁺
							149.0813	C₇H₉N₄	[M+H-HCN-C₇H₁₆]⁺
							176.0928	C₈H₁₀N₅	[M+H-C₇H₁₆]⁺
3	imibenconazole	C₁₇H₁₄C_l3N₄O	5.26	410.9999	410.9996	-0.3	341.9669	C₁₅H₁₁Cl₃NS	[M+H-C₂H₃N₃]⁺
							229.9591	C₉H₆Cl₂NS	[M+H-C₂H₃N₃-C₆H₅Cl]⁺
							125.0150	C₇H₆Cl	[M+H-C₂H₃N₃-C₈H₅Cl₂NS]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₈H₅Cl₂NS-HCl]⁺
4	flusilazole	C₁₆H₁₆F₂N₃Si	4.53	316.1076	316.1072	-0.4	247.0744	C₁₄H₁₃F₂Si	[M+H-C₂H₃N₃]⁺
							227.0682	C₁₄H₁₂FSi	[M+H-C₂H₃N₃-HF]⁺
							300.0767	C₁₅H₁₁F₂N₃Si	[M+H-CH₄]⁺
							219.0431	C₁₂H₉F₂Si	[M+H-CH₄-C₃H₃N₃]⁺
							123.0058	C₆H₃FSi	[M+H-CH₄-C₃H₃N₃-C₆H₅F]⁺
5	penconazole	C₁₃H₁₆Cl₂N₃	4.66	284.0716	284.0714	-0.2	215.0385	C₁₁H₁₃Cl₂	[M+H-C₂H₃N₃]⁺
							172.9919	C₈H₇Cl₂	[M+H-C₂H₃N₃-C₃H₆]⁺
							158.9762	C₇H₅Cl₂	[M+H-C₂H₃N₃-C₄H₈]⁺
							122.9996	C₇H₄Cl	[M+H-C₂H₃N₃-C₄H₈-HCl]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₄H₈-HCl+2H-HCl]⁺
10	tebuconazole	C₁₆H₂₂ClN₃O	4.55	308.1524	308.1521	-0.3	239.0545	C₁₄H₂₀ClO	[M+H-C₂H₃N₃]⁺
							181.0593	C₁₀H₁₀ClO	[M+H-C₂H₃N₃-C₄H₁₀]⁺
							151.0310	C₉H₈Cl	[M+H-C₂H₃N₃-C₄H₁₀-HCHO]⁺
							125.0153	C₇H₆Cl	[M+H-C₂H₃N₃-C₄H₁₀-HCHO-C₂H₂]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₄H₁₀-HCHO-C₂H₂-HCl]⁺
14	myclobutanil	C₁₅H₁₈ClN₄	4.38	289.1215	289.1212	-0.3	220.0885	C₁₃H₁₅ClN	[M+H-C₂H₃N₃]⁺
							178.0417	C₁₀H₉ClN	[M+H-C₂H₃N₃-C₃H₆]⁺
							151.0307	C₉H₈Cl	[M+H-C₂H₃N₃-C₃H₆-HCN]⁺
							125.0152	C₇H₆Cl	[M+H-C₂H₃N₃-C₂H₄-HCN-C₂H₂]⁺
							89.0383	C₇H₅	[M+H-C₂H₃N₃-C₂H₄-HCN-C₂H₂-HCl]⁺
							164.0261	C₉H₇ClN	[M+H-C₂H₃N₃-C₄H₈]⁺
							192.0571	C₁₁H₁₁ClN	[M+H-C₂H₃N₃-C₂H₄]⁺
17	bromuconazole	C₁₃H₁₃BrCl₂N₃O	4.31	375.9614	375.9612	-0.2	306.9289	C₁₁H₁₀BrCl₂O	[M+H-C₂H₃N₃]⁺
							227.0027	C₁₁H₉Cl₂O	[M+H-C₂H₃N₃-HBr]⁺
							199.0069	C₁₀H₉Cl₂	[M+H-C₂H₃N₃-HBr-CO]⁺
							158.9763	C₇H₅Cl₂	[M+H-C₂H₃N₃-HBr-CO-C₃H₄]⁺
							122.9996	C₇H₄Cl	[M+H-C₂H₃N₃-HBr-CO-C₃H₄-HCl]⁺
							144.9606	C₆H₃Cl₂	[M+H-C₂H₃N₃-HBr-CO-C₄H₆]⁺

No.	Compound	Formula	t/ min	Theoretical m/z	Full-scan		MS/MS
No.	Compound	Formula	t/ min	Theoretical m/z	Measured m/z	△mDa	Measured m/z	Formula	Structural feature
1	tricyclazole	C₉H₈N₃S	2.83	190.0433	190.0431	-0.2	163.0322	C₈H₇N₂S	[M+H-HCN]⁺
							136.0214	C₇H₆NS	[M+H-HCN-HCN]⁺
2	ametoctradin	C₁₅H₂₆N₅	4.31	276.2183	276.2182	-0.1	249.2082	C₁₄H₂₅N₄	[M+H-HCN]⁺
							149.0813	C₇H₉N₄	[M+H-HCN-C₇H₁₆]⁺
							176.0928	C₈H₁₀N₅	[M+H-C₇H₁₆]⁺
3	imibenconazole	C₁₇H₁₄C_l3N₄O	5.26	410.9999	410.9996	-0.3	341.9669	C₁₅H₁₁Cl₃NS	[M+H-C₂H₃N₃]⁺
							229.9591	C₉H₆Cl₂NS	[M+H-C₂H₃N₃-C₆H₅Cl]⁺
							125.0150	C₇H₆Cl	[M+H-C₂H₃N₃-C₈H₅Cl₂NS]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₈H₅Cl₂NS-HCl]⁺
4	flusilazole	C₁₆H₁₆F₂N₃Si	4.53	316.1076	316.1072	-0.4	247.0744	C₁₄H₁₃F₂Si	[M+H-C₂H₃N₃]⁺
							227.0682	C₁₄H₁₂FSi	[M+H-C₂H₃N₃-HF]⁺
							300.0767	C₁₅H₁₁F₂N₃Si	[M+H-CH₄]⁺
							219.0431	C₁₂H₉F₂Si	[M+H-CH₄-C₃H₃N₃]⁺
							123.0058	C₆H₃FSi	[M+H-CH₄-C₃H₃N₃-C₆H₅F]⁺
5	penconazole	C₁₃H₁₆Cl₂N₃	4.66	284.0716	284.0714	-0.2	215.0385	C₁₁H₁₃Cl₂	[M+H-C₂H₃N₃]⁺
							172.9919	C₈H₇Cl₂	[M+H-C₂H₃N₃-C₃H₆]⁺
							158.9762	C₇H₅Cl₂	[M+H-C₂H₃N₃-C₄H₈]⁺
							122.9996	C₇H₄Cl	[M+H-C₂H₃N₃-C₄H₈-HCl]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₄H₈-HCl+2H-HCl]⁺
10	tebuconazole	C₁₆H₂₂ClN₃O	4.55	308.1524	308.1521	-0.3	239.0545	C₁₄H₂₀ClO	[M+H-C₂H₃N₃]⁺
							181.0593	C₁₀H₁₀ClO	[M+H-C₂H₃N₃-C₄H₁₀]⁺
							151.0310	C₉H₈Cl	[M+H-C₂H₃N₃-C₄H₁₀-HCHO]⁺
							125.0153	C₇H₆Cl	[M+H-C₂H₃N₃-C₄H₁₀-HCHO-C₂H₂]⁺
							89.0384	C₇H₅	[M+H-C₂H₃N₃-C₄H₁₀-HCHO-C₂H₂-HCl]⁺
14	myclobutanil	C₁₅H₁₈ClN₄	4.38	289.1215	289.1212	-0.3	220.0885	C₁₃H₁₅ClN	[M+H-C₂H₃N₃]⁺
							178.0417	C₁₀H₉ClN	[M+H-C₂H₃N₃-C₃H₆]⁺
							151.0307	C₉H₈Cl	[M+H-C₂H₃N₃-C₃H₆-HCN]⁺
							125.0152	C₇H₆Cl	[M+H-C₂H₃N₃-C₂H₄-HCN-C₂H₂]⁺
							89.0383	C₇H₅	[M+H-C₂H₃N₃-C₂H₄-HCN-C₂H₂-HCl]⁺
							164.0261	C₉H₇ClN	[M+H-C₂H₃N₃-C₄H₈]⁺
							192.0571	C₁₁H₁₁ClN	[M+H-C₂H₃N₃-C₂H₄]⁺
17	bromuconazole	C₁₃H₁₃BrCl₂N₃O	4.31	375.9614	375.9612	-0.2	306.9289	C₁₁H₁₀BrCl₂O	[M+H-C₂H₃N₃]⁺
							227.0027	C₁₁H₉Cl₂O	[M+H-C₂H₃N₃-HBr]⁺
							199.0069	C₁₀H₉Cl₂	[M+H-C₂H₃N₃-HBr-CO]⁺
							158.9763	C₇H₅Cl₂	[M+H-C₂H₃N₃-HBr-CO-C₃H₄]⁺
							122.9996	C₇H₄Cl	[M+H-C₂H₃N₃-HBr-CO-C₃H₄-HCl]⁺
							144.9606	C₆H₃Cl₂	[M+H-C₂H₃N₃-HBr-CO-C₄H₆]⁺

No.	Compound	Formula	Theoretical m/z	Measured m/z	Common fragment ions (m/z)	Common neutral losses
6	triadimefon	C₁₄H₁₇ClN₃O₂	294.10038	294.10032	89.0386, 125.0153	C₂H₃N₃
7	diniconazole	C₁₅H₁₈Cl₂N₃O	326.08214	326.08293	70.0340, 89.0386, 122.9996, 125.0153	C₂H₃N₃, C₄H₈, C₇H₆, CO, HCl
8	uniconazole	C₁₅H₁₉ClN₃O	292.12112	292.12070	70.0340, 89.0386, 122.9996, 125.0153	C₂H₃N₃, C₄H₁₀, C₄H₈, CO
9	paclobutrazol	C₁₅H₂₁ClN₃O	294.13667	294.13656	70.0340, 89.0386, 125.0153	C₄H₁₀
11	cyproconazole	C₁₅H₁₉ClN₃O	292.12112	292.12152	70.0340, 89.0386, 125.0153	HCl
12	flutriafol	C₁₆H₁₄F₂N₃O	302.10994	302.10967	70.0340, 89.0386	C₂H₃N₃, C₃H₄, C₇H₆
13	tetraconazole	C₁₃H₁₂Cl₂F₄N₃O	372.02881	372.02846	70.0340, 89.0386, 122.9996, 125.0153	C₂H₃N₃, HCl
15	fenbuconazole	C₁₉H₁₈ClN₄	337.12145	337.12131	70.0340, 89.0386, 125.0153	C₂H₃N₃, HCN
16	epoxiconazole	C₁₇H₁₄ClFN₃O	330.08039	330.08014	70.0340, 89.0386, 125.0153	C₂H₃N₃, HCHO, HCl, HCN
18	difenoconazole	C₁₉H₁₈Cl₂N₃O₃	406.07197	406.07160	70.0340, 89.0386, 122.9996, 125.0153	C₂H₃N₃, C₄H₆, HCl
19	propiconazole	C₁₅H₁₈Cl₂N₃O₂	342.07706	342.07759	89.0386, 122.9996	C₂H₃N₃, HCl