Simultaneous determination of 30 antibiotics in soil by ultra-high performance liquid chromatography-tandem mass spectrometry

doi:10.3724/SP.J.1123.2021.02019

Abstract

Abstract:

The complexity of the soil matrix, as well as the wide spectrum and trace levels of antibiotic residues in soil, make highly sensitive instrumental methods, efficient purification and enrichment methods, and simultaneous determination of multiple antibiotics key and challenging aspects in the analysis of antibiotics in soil. In this study, a solid phase extraction-ultra-high performance liquid chromatography-tandem mass spectrometry (SPE-UHPLC-MS/MS) method was developed for the simultaneous determination of 30 antibiotics (grouped into seven categories: sulfonamides, fluoroquinolones, tetracyclines, macrolides, β-lactams, amphenicols, and lincosamides) in soil samples.
In the UHPLC-MS/MS experiment, florfenicol and chloramphenicol were analyzed in the negative ionization multiple-reaction monitoring (MRM) mode, and the other 28 target analytes were analyzed in the positive MRM mode. Sensitive MS conditions were realized by optimizing the instrumental parameters such as collision energy and declustering potential. The effects of the injection solvent (proportion of methanol to water) and mobile phase (types and compositions of the solvents) on the shape and intensity of the chromatographic peaks were studied. The optimized UHPLC conditions were as follows: injection solvent, 10%(v/v) methanol aqueous solution; chromatographic column, BEH-C18 column; mobile phase, methanol and water both containing 0.1%(v/v) formic acid; flow rate, 0.4 mL/min; sample injection volume, 5.0 μL. The effects of the extraction solution (the types and compositions of solvents) and clean-up processes (pH of the loading solution, as well as the types and compositions of the rinse solution and elution solvent) on the method performance were investigated. The acetonitrile/Na₂EDTA-McIlvaine buffer showed better extraction efficiency for fluoroquinolones than did the methanol/Na₂EDTA-McIlvaine buffer. Improved recoveries of sulfonamides, macrolides, tetracyclines, and β-lactams were observed when the pH of the loading solution was set to 8.0. The recoveries of sulfadiazine and amoxicillin increased with a decrease in the proportion of methanol to water for the rinse solution. Compared to individual methanol or acetonitrile, the methanol-acetonitrile (1∶1, v/v) mixture showed better elution efficiency for the target analytes. The optimized pretreatment conditions were determined as follows: the soil sample was spiked with mixed internal standards, and then extracted with 10 mL of acetonitrile/Na₂EDTA-McIlvaine buffer (1∶1, v/v) by shaking for 30 min and ultrasonication for 15 min. The extraction was repeated three times. The sample extract was adjusted to pH 8.0 and loaded onto an Oasis HLB cartridge for purification. The cartridge was rinsed with 10 mL of water to remove impurities and eluted with 10 mL of methanol-acetonitrile (1∶1, v/v). Quantitative analysis was conducted using the isotope internal standard method. The method limits of detection and quantification were in the range of 0.013-1.21 and 0.043-4.04 μg/kg, respectively. The correlation coefficients of the calibration curve were 0.992-1.00, suggesting good linearity of the method. At three spiked levels (20, 100, and 200 μg/kg), the average recoveries of most target antibiotics were 44.8% to 164%, and the relative standard deviations were 0.700% to 14.8%. The method was successfully applied to the analysis of the 30 antibiotics in six soil samples. Seventeen antibiotics were detected in the soil samples, and the total contents of the antibiotics in each sample ranged from 73.4 to 184 μg/kg. Twelve antibiotics with a detection frequency of 100% included roxithromycin, clarithromycin, ciprofloxacin, norfloxacin, enrofloxacin, ofloxacin, fleroxacin, lomefloxacin, oxytetracycline, doxycycline, tetracycline, and penicillin G. Ciprofloxacin and norfloxacin were the predominant antibiotics in the soils, with contents in the range of 13.7-32.1 and 15.6-43.6 μg/kg, respectively.
The developed method is simple, rapid, and solvent-saving, and it shows promise for use in the simultaneous determination of trace levels of the 30 antibiotics in soil.

Key words: ultra-high performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS), solid phase extraction (SPE), antibiotics, soil

CLC Number:

O658

HU Yu, ZHU Qingqing, HU Ligang, LIAO Chunyang. Simultaneous determination of 30 antibiotics in soil by ultra-high performance liquid chromatography-tandem mass spectrometry[J]. Chinese Journal of Chromatography, 2021, 39(8): 878-888.

Figures/Tables 8

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Compound	Ion mode	Precursor ion (m/z)	Product ion (m/z)	CE/ eV	DP/ V	Compound	Ion mode	Precursor ion (m/z)	Product ion (m/z)	CE/ eV	DP/ V
Sulfamonomethoxine	ESI⁺	281.2	156.2^*	25	90	Lomefloxacin	ESI⁺	352.1	308.4^*	25	20
(SMM)			92.2	40	90	(LOM)			265.3	30	20
Sulfamethoxazole	ESI⁺	254.2	156.2^*	23	20	Fleroxacin	ESI⁺	370.2	326.3^*	25	80
(SMX)			92.2	35	20	(FLE)			269.1	35	80
Sulfaquinoxaline	ESI⁺	301.2	156.1^*	24	100	Roxithromycin	ESI⁺	837.7	679.5^*	30	20
(SQX)			92.2	38	100	(RTM)			158.3	42	20
Sulfameter	ESI⁺	281.3	156.2^*	25	40	Clarithromycin	ESI⁺	748.7	590.4^*	25	60
(SFM)			92.2	40	40	(CTM)			158.3	35	60
Trimethoprim	ESI⁺	291.3	230.3^*	32	10	Erythromycin-H₂O	ESI⁺	716.6	558.5^*	35	40
(TMP)			123.3	30	10	(ETM-H₂O)			158.3	33	40
Sulfamethazine	ESI⁺	279.2	186.3^*	24	80	Tylosin	ESI⁺	916.7	772.6^*	40	20
(SMZ)			156.2	26	80	(TYL)			174.3	45	20
Sulfadiazine	ESI⁺	251.2	156.2^*	20	20	Oxytetracycline	ESI⁺	461.3	443.2	22	60
(SDZ)			92.2	30	20	(OTC)			426.3^*	27	60
Sulfamethizole	ESI⁺	279.2	156.3^*	20	17	Chlortetracycline	ESI⁺	479.3	462.3	25	40
(SMTZ)			92.3	35	17	(CTC)			444.2^*	30	40
Sulfachlorpyridazine	ESI⁺	285.2	156.2^*	20	20	Doxycycline	ESI⁺	445.3	428.3	25	40
(SCP)			108.2	30	20	(DC)			410.3^*	27	40
Ciprofloxacin	ESI⁺	332.3	314.4^*	30	60	Tetracycline	ESI⁺	445.3	427.2	20	40
(CIP)			288.4	25	60	(TC)			410.2^*	30	35
Norfloxacin	ESI⁺	320.3	302.4^*	30	60	Amoxicillin	ESI⁺	366.2	349.3^*	12	35
(NOR)			276.3	25	60	(AMX)			114.3	30	20
Ofloxacin	ESI⁺	362.3	318.4	37	10	Penicillin-G	ESI⁺	335.2	217.3^*	20	190
(OFL)			261.3^*	27	10	(PCN-G)			202.2	47	130
Enrofloxacin	ESI⁺	360.4	316.4^*	25	20	Lincomycin	ESI⁺	407.2	359.4^*	27	20
(ENR)			245.3	35	20	(LCM)			126.3	35	20
Difloxacin	ESI⁺	400.3	382.4^*	30	40	Florfenicol	ESI^-	355.6	185.1^*	-25	-80
(DIF)			356.4	27	40	(FF)			119.1	-45	-80
Pefloxacin	ESI⁺	334.3	316.3^*	30	40	Chloramphenicol	ESI^-	321.3	257.0^*	-15	-80
(PEF)			290.3	25	40	(CAP)			152.2	-22	-80

Compound	Ion mode	Precursor ion (m/z)	Product ion (m/z)	CE/ eV	DP/ V	Compound	Ion mode	Precursor ion (m/z)	Product ion (m/z)	CE/ eV	DP/ V
Sulfamonomethoxine	ESI⁺	281.2	156.2^*	25	90	Lomefloxacin	ESI⁺	352.1	308.4^*	25	20
(SMM)			92.2	40	90	(LOM)			265.3	30	20
Sulfamethoxazole	ESI⁺	254.2	156.2^*	23	20	Fleroxacin	ESI⁺	370.2	326.3^*	25	80
(SMX)			92.2	35	20	(FLE)			269.1	35	80
Sulfaquinoxaline	ESI⁺	301.2	156.1^*	24	100	Roxithromycin	ESI⁺	837.7	679.5^*	30	20
(SQX)			92.2	38	100	(RTM)			158.3	42	20
Sulfameter	ESI⁺	281.3	156.2^*	25	40	Clarithromycin	ESI⁺	748.7	590.4^*	25	60
(SFM)			92.2	40	40	(CTM)			158.3	35	60
Trimethoprim	ESI⁺	291.3	230.3^*	32	10	Erythromycin-H₂O	ESI⁺	716.6	558.5^*	35	40
(TMP)			123.3	30	10	(ETM-H₂O)			158.3	33	40
Sulfamethazine	ESI⁺	279.2	186.3^*	24	80	Tylosin	ESI⁺	916.7	772.6^*	40	20
(SMZ)			156.2	26	80	(TYL)			174.3	45	20
Sulfadiazine	ESI⁺	251.2	156.2^*	20	20	Oxytetracycline	ESI⁺	461.3	443.2	22	60
(SDZ)			92.2	30	20	(OTC)			426.3^*	27	60
Sulfamethizole	ESI⁺	279.2	156.3^*	20	17	Chlortetracycline	ESI⁺	479.3	462.3	25	40
(SMTZ)			92.3	35	17	(CTC)			444.2^*	30	40
Sulfachlorpyridazine	ESI⁺	285.2	156.2^*	20	20	Doxycycline	ESI⁺	445.3	428.3	25	40
(SCP)			108.2	30	20	(DC)			410.3^*	27	40
Ciprofloxacin	ESI⁺	332.3	314.4^*	30	60	Tetracycline	ESI⁺	445.3	427.2	20	40
(CIP)			288.4	25	60	(TC)			410.2^*	30	35
Norfloxacin	ESI⁺	320.3	302.4^*	30	60	Amoxicillin	ESI⁺	366.2	349.3^*	12	35
(NOR)			276.3	25	60	(AMX)			114.3	30	20
Ofloxacin	ESI⁺	362.3	318.4	37	10	Penicillin-G	ESI⁺	335.2	217.3^*	20	190
(OFL)			261.3^*	27	10	(PCN-G)			202.2	47	130
Enrofloxacin	ESI⁺	360.4	316.4^*	25	20	Lincomycin	ESI⁺	407.2	359.4^*	27	20
(ENR)			245.3	35	20	(LCM)			126.3	35	20
Difloxacin	ESI⁺	400.3	382.4^*	30	40	Florfenicol	ESI^-	355.6	185.1^*	-25	-80
(DIF)			356.4	27	40	(FF)			119.1	-45	-80
Pefloxacin	ESI⁺	334.3	316.3^*	30	40	Chloramphenicol	ESI^-	321.3	257.0^*	-15	-80
(PEF)			290.3	25	40	(CAP)			152.2	-22	-80

Compound	LOD/ (μg/kg)	LOQ/ (μg/kg)	Linear range/ (μg/L)	r	RSDs (intra-day)/%			RSDs (inter-day)/%
Compound	LOD/ (μg/kg)	LOQ/ (μg/kg)	Linear range/ (μg/L)	r	2 μg/L	20 μg/L	100 μg/L	2 μg/L	20 μg/L	100 μg/L
SMM	0.116	0.388	0.01-100	0.997	9.63	2.08	0.619	6.33	5.87	2.08
SMX	0.0459	0.153	0.01-200	0.999	8.81	3.23	1.36	3.26	3.52	2.16
SQX	0.0278	0.0926	0.01-100	0.999	11.3	2.61	1.38	4.52	3.43	1.53
SFM	0.107	0.356	0.01-200	0.999	1.24	1.42	2.59	5.86	4.70	4.49
TMP	0.0388	0.129	0.01-100	0.999	8.68	6.95	1.09	3.95	2.65	2.21
SMZ	0.0284	0.0946	0.01-200	0.999	1.07	1.88	0.613	4.38	1.04	4.06
SDZ	0.0130	0.0433	0.01-200	0.999	5.69	0.730	2.56	2.63	0.507	2.97
SMTZ	0.0325	0.108	0.02-100	1.000	5.48	0.274	3.22	8.68	6.11	12.2
SCP	0.0612	0.204	0.01-100	0.996	11.8	3.11	2.40	6.08	6.00	3.04
RTM	0.0673	0.224	0.01-100	0.999	1.41	6.96	3.83	3.86	10.1	1.19
CTM	0.0492	0.164	0.01-100	0.999	4.76	2.84	3.25	13.1	10.7	1.74
ETM-H₂O	0.0313	0.104	0.02-100	0.999	5.98	2.42	4.44	13.1	4.53	4.97
TYL	0.104	0.347	0.5-200	1.000	3.36	3.58	0.515	14.0	13.8	14.2
CIP	0.623	2.08	2-200	0.998	10.1	3.13	13.7	7.17	13.9	6.54
NOR	0.619	2.06	2-200	0.997	1.36	4.43	12.1	2.86	9.70	12.9
OFL	0.112	0.373	1-200	0.992	9.05	3.38	6.28	9.97	12.8	5.54
ENR	0.104	0.348	1-200	0.999	11.6	3.04	8.07	12.0	8.67	1.15
DIF	0.147	0.492	0.02-200	0.998	10.5	3.11	4.19	9.96	3.37	3.62
PEF	0.197	0.658	0.2-200	0.998	6.00	2.22	12.4	10.0	3.70	4.64
FLE	0.0513	0.171	0.1-100	0.999	9.41	5.31	1.36	3.55	14.0	7.65
LOM	0.129	0.429	0.2-100	0.998	11.9	4.38	3.58	11.4	5.12	13.9
OTC	0.122	0.407	0.5-200	0.995	4.89	4.03	8.99	8.81	3.79	8.31
CTC	1.21	4.04	0.02-200	0.998	11.5	5.23	2.51	13.7	7.91	6.42
DC	0.168	0.560	0.1-200	0.997	14.1	1.82	5.05	13.3	1.60	14.5
TC	0.209	0.698	0.02-200	0.997	11.3	4.66	3.81	7.28	2.85	14.3
AMX	0.119	0.395	0.5-200	0.999	0.964	1.55	8.62	2.96	14.4	13.5
PCN-G	0.134	0.446	0.2-200	1.000	10.4	1.54	4.59	14.3	11.0	11.7
LCM	0.0251	0.0836	0.02-200	0.998	11.4	4.74	0.476	11.4	8.93	6.44
CAP	1.06	3.55	0.01-200	0.998	2.67	2.84	0.238	10.8	12.5	8.81
FF	0.166	0.553	0.01-200	0.998	2.42	1.39	4.90	13.1	9.88	7.60

Compound	LOD/ (μg/kg)	LOQ/ (μg/kg)	Linear range/ (μg/L)	r	RSDs (intra-day)/%			RSDs (inter-day)/%
Compound	LOD/ (μg/kg)	LOQ/ (μg/kg)	Linear range/ (μg/L)	r	2 μg/L	20 μg/L	100 μg/L	2 μg/L	20 μg/L	100 μg/L
SMM	0.116	0.388	0.01-100	0.997	9.63	2.08	0.619	6.33	5.87	2.08
SMX	0.0459	0.153	0.01-200	0.999	8.81	3.23	1.36	3.26	3.52	2.16
SQX	0.0278	0.0926	0.01-100	0.999	11.3	2.61	1.38	4.52	3.43	1.53
SFM	0.107	0.356	0.01-200	0.999	1.24	1.42	2.59	5.86	4.70	4.49
TMP	0.0388	0.129	0.01-100	0.999	8.68	6.95	1.09	3.95	2.65	2.21
SMZ	0.0284	0.0946	0.01-200	0.999	1.07	1.88	0.613	4.38	1.04	4.06
SDZ	0.0130	0.0433	0.01-200	0.999	5.69	0.730	2.56	2.63	0.507	2.97
SMTZ	0.0325	0.108	0.02-100	1.000	5.48	0.274	3.22	8.68	6.11	12.2
SCP	0.0612	0.204	0.01-100	0.996	11.8	3.11	2.40	6.08	6.00	3.04
RTM	0.0673	0.224	0.01-100	0.999	1.41	6.96	3.83	3.86	10.1	1.19
CTM	0.0492	0.164	0.01-100	0.999	4.76	2.84	3.25	13.1	10.7	1.74
ETM-H₂O	0.0313	0.104	0.02-100	0.999	5.98	2.42	4.44	13.1	4.53	4.97
TYL	0.104	0.347	0.5-200	1.000	3.36	3.58	0.515	14.0	13.8	14.2
CIP	0.623	2.08	2-200	0.998	10.1	3.13	13.7	7.17	13.9	6.54
NOR	0.619	2.06	2-200	0.997	1.36	4.43	12.1	2.86	9.70	12.9
OFL	0.112	0.373	1-200	0.992	9.05	3.38	6.28	9.97	12.8	5.54
ENR	0.104	0.348	1-200	0.999	11.6	3.04	8.07	12.0	8.67	1.15
DIF	0.147	0.492	0.02-200	0.998	10.5	3.11	4.19	9.96	3.37	3.62
PEF	0.197	0.658	0.2-200	0.998	6.00	2.22	12.4	10.0	3.70	4.64
FLE	0.0513	0.171	0.1-100	0.999	9.41	5.31	1.36	3.55	14.0	7.65
LOM	0.129	0.429	0.2-100	0.998	11.9	4.38	3.58	11.4	5.12	13.9
OTC	0.122	0.407	0.5-200	0.995	4.89	4.03	8.99	8.81	3.79	8.31
CTC	1.21	4.04	0.02-200	0.998	11.5	5.23	2.51	13.7	7.91	6.42
DC	0.168	0.560	0.1-200	0.997	14.1	1.82	5.05	13.3	1.60	14.5
TC	0.209	0.698	0.02-200	0.997	11.3	4.66	3.81	7.28	2.85	14.3
AMX	0.119	0.395	0.5-200	0.999	0.964	1.55	8.62	2.96	14.4	13.5
PCN-G	0.134	0.446	0.2-200	1.000	10.4	1.54	4.59	14.3	11.0	11.7
LCM	0.0251	0.0836	0.02-200	0.998	11.4	4.74	0.476	11.4	8.93	6.44
CAP	1.06	3.55	0.01-200	0.998	2.67	2.84	0.238	10.8	12.5	8.81
FF	0.166	0.553	0.01-200	0.998	2.42	1.39	4.90	13.1	9.88	7.60

Compound	Recoveries (RSDs)/% (n=4)			Matrix effect/%	Compound	Recoveries (RSDs)/% (n=4)			Matrix effect/%
Compound	20 μg/kg	100 μg/kg	200 μg/kg	Matrix effect/%	Compound	20 μg/kg	100 μg/kg	200 μg/kg	Matrix effect/%
SMM	79.0 (3.02)	53.0 (12.0)	51.4 (5.69)	48.0-56.2	OFL	126.0 (2.67)	87.1 (14.8)	75.2 (10.2)	73.9-110
SMX	94.4 (3.71)	72.3 (12.6)	82.1 (11.3)	51.5-65.3	ENR	78.0 (14.4)	77.0 (12.9)	70.7 (6.53)	68.4-110
SQX	45.2 (4.39)	31.5 (13.7)	27.1 (7.26)	27.7-34.2	DIF	109.0 (2.57)	78.8 (12.0)	63.3 (5.48)	61.4-73.7
SFM	111.0 (8.60)	76.3 (8.21)	70.9 (10.1)	67.8-78.1	PEF	128.0 (5.61)	125.0 (12.5)	88.0 (11.3)	94.6-138
TMP	123.0 (2.77)	84.4 (13.1)	70.6 (10.0)	68.0-78.0	FLE	90.2 (6.56)	51.9 (14.5)	44.8 (10.0)	45.5-71.7
SMZ	101.0 (5.05)	66.4 (8.97)	68.5 (7.88)	62.5-75.6	LOM	71.4 (13.5)	69.5 (10.3)	55.8 (12.7)	64.6-78.0
SDZ	94.2 (14.4)	87.6 (14.8)	75.5 (9.10)	71.5-86.7	OTC	164.0 (6.40)	121.0 (11.0)	87.8 (4.86)	73.3-116
SMTZ	101.0 (6.75)	57.4 (11.3)	53.7 (11.7)	63.1-72.9	CTC	136.0 (15.2)	122.0 (17.3)	143.0 (7.58)	48.3-67.3
SCP	90.5 (2.51)	57.9 (10.1)	55.3 (8.06)	56.7-65.5	DC	138.0 (6.29)	74.5 (7.50)	70.7 (5.52)	69.6-115
RTM	89.5 (9.01)	73.7 (8.46)	60.9 (3.43)	68.3-133	TC	146.0 (11.5)	79.2 (12.8)	69.5 (8.45)	73.8-119
CTM	54.5 (10.1)	53.1 (10.3)	45.3 (3.64)	56.8-81.1	AMX	29.6 (6.11)	45.1 (5.39)	43.0 (9.40)	66.5-91.0
ETM-H₂O	57.8 (12.8)	57.6 (13.4)	48.9 (0.700)	53.7-70.9	PCN-G	78.5 (3.31)	29.1 (2.76)	30.6 (8.90)	38.3-40.0
TYL	67.3 (8.16)	75.5 (11.0)	70.8 (3.99)	91.5-115	LCM	70.9 (7.37)	74.9 (4.17)	55.3 (5.69)	74.5-88.4
CIP	45.8 (11.9)	82.9 (10.9)	69.0 (6.11)	91.4-134	FF	96.5 (5.94)	59.9 (11.7)	46.9 (8.50)	44.4-52.4
NOR	64.2 (5.17)	107.0 (11.9)	89.1 (7.73)	137.0-172	CAP	146.0 (8.11)	95.3 (13.5)	80.9 (5.79)	69.4-81.6