Analysis of Residual Pesticides in Farm Products using LC-MS
Applications | | ShimadzuInstrumentation
The monitoring of residual pesticides in agricultural products is critical for food safety and regulatory compliance. Liquid chromatography coupled with mass spectrometry (LC-MS) offers high selectivity and sensitivity, addressing the challenges posed by thermally labile or volatile compounds and complex food matrices.
This study aimed to develop a simultaneous LC-MS method for the quantitation of twenty pesticide residues in various farm products. It evaluated scan and selected ion monitoring (SIM) modes to achieve accurate identification and quantitation across compounds with diverse chemical structures and ionization behaviors.
The analysis employed a Shimadzu Shim-pack VP-ODS column (2.0 mm I.D. × 150 mm) with a water–acetonitrile gradient at 0.2 mL/min. Injection volume was 5 µL and column temperature was maintained at 40 °C. An atmospheric pressure electrospray interface operated in both positive (4.5 kV) and negative (–3.0 kV) ion modes. Desolvation was achieved at 200 °C with a nebulizing gas flow of 4.5 L/min. Mass scanning ranged from m/z 50 to 650 at 1.5 s/scan.
Mass chromatograms demonstrated clear separation of twenty pesticides, with positive and negative modes accommodating compounds with different molecular weights. Calibration curves for pencycuron (12.5–500 pg) and hexaflumuron (25–1,250 pg) exhibited excellent linearity (r2 > 0.9998). SIM reproducibility tests yielded relative standard deviations below 5% for most concentrations, confirming robust method performance. This approach allowed simultaneous quantitation without individual parameter optimization.
Advances in high-resolution MS and automated data processing will further enhance multiplexed pesticide screening. Coupling tandem mass spectrometry and isotope-labelled standards could improve trace-level quantification and expand the method to a broader range of food matrices.
The presented LC-MS method provides a sensitive, reproducible, and efficient platform for simultaneous determination of diverse pesticide residues in farm products, supporting regulatory monitoring and quality assurance in the food industry.
LC/MS, LC/SQ
IndustriesFood & Agriculture
ManufacturerShimadzu
Summary
Significance of the Topic
The monitoring of residual pesticides in agricultural products is critical for food safety and regulatory compliance. Liquid chromatography coupled with mass spectrometry (LC-MS) offers high selectivity and sensitivity, addressing the challenges posed by thermally labile or volatile compounds and complex food matrices.
Objectives and Study Overview
This study aimed to develop a simultaneous LC-MS method for the quantitation of twenty pesticide residues in various farm products. It evaluated scan and selected ion monitoring (SIM) modes to achieve accurate identification and quantitation across compounds with diverse chemical structures and ionization behaviors.
Methodology and Used Instrumentation
The analysis employed a Shimadzu Shim-pack VP-ODS column (2.0 mm I.D. × 150 mm) with a water–acetonitrile gradient at 0.2 mL/min. Injection volume was 5 µL and column temperature was maintained at 40 °C. An atmospheric pressure electrospray interface operated in both positive (4.5 kV) and negative (–3.0 kV) ion modes. Desolvation was achieved at 200 °C with a nebulizing gas flow of 4.5 L/min. Mass scanning ranged from m/z 50 to 650 at 1.5 s/scan.
Main Results and Discussion
Mass chromatograms demonstrated clear separation of twenty pesticides, with positive and negative modes accommodating compounds with different molecular weights. Calibration curves for pencycuron (12.5–500 pg) and hexaflumuron (25–1,250 pg) exhibited excellent linearity (r2 > 0.9998). SIM reproducibility tests yielded relative standard deviations below 5% for most concentrations, confirming robust method performance. This approach allowed simultaneous quantitation without individual parameter optimization.
Benefits and Practical Applications
- High throughput screening of multiple residues in a single analysis.
- Reduced sample preparation complexity due to selective MS detection.
- Regulatory compliance with stringent limits under food safety laws.
Future Trends and Opportunities
Advances in high-resolution MS and automated data processing will further enhance multiplexed pesticide screening. Coupling tandem mass spectrometry and isotope-labelled standards could improve trace-level quantification and expand the method to a broader range of food matrices.
Conclusion
The presented LC-MS method provides a sensitive, reproducible, and efficient platform for simultaneous determination of diverse pesticide residues in farm products, supporting regulatory monitoring and quality assurance in the food industry.
References
- Data acquired in collaboration with Dr. Kimihiko Yoshii and Dr. Yasuhide Tonogai, National Institute of Health Sciences, Osaka branch.
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