Abstract
In this work, an easy and fast procedure for the selective multiresidue determination of 14 highly polar pesticides (including glyphosate, glufosinate, ethephon and fosetyl) and metabolites in beverages is presented. After an initial sample dilution (1:1, v/v), the extract is shaken and centrifuged, further diluted and then injected directly into the LC-MS/MS system, using hydrophilic interaction liquid chromatography (HILIC) and tandem mass spectrometry. No clean-up procedure was needed. The method was validated according to the current European guidelines for pesticide residue analysis in food and feed and linearity, limits of detection and quantification, matrix effects, trueness and precision were assessed. For plant-based milk, wine and beer samples, 10, 11 and 12 analytes, respectively, out of 14 were fully validated at 10 µg kg−1, the lowest spike level tested. The matrix effect was negative in most of the cases, showing for some compounds, such as HEPA, up to 80% suppression when compared to the response from standards in solvent. The use of isotopically labelled internal standards is required for the optimal quantification, as it compensates for high and varying matrix effects and also for recovery losses during extraction.
Highlights
Herbicides are widely used in agriculture in order to increase the yield and quality of crops
Aminomethylphosphonic acid (AMPA) is the major metabolite of glyphosate and its toxicity is comparable to its precursor [3]
In our previous published work [22], we have proven that considerable dilution of extracts before injection is essential to obtain better retention time stability, peak shapes and reduction of matrix effects for fruits, vegetables and cereals
Summary
Herbicides are widely used in agriculture in order to increase the yield and quality of crops. They act by reducing/inhibiting weeds growth and play an important role as desiccant in several crops as cereals Aminomethylphosphonic acid (AMPA) is the major metabolite of glyphosate and its toxicity is comparable to its precursor [3]. Glyphosate is currently the most produced herbicide in the world and its use has increased in the last few years since genetically modified crops were introduced to be resistant to glyphosate [4]. Chlorate has pesticide and biocide activities and, as perchlorate, can be produced as by-product of disinfection agents of drinking water. In plant-based beverages, chlorate and perchlorate could arise from the chlorinated water. On the other hand, can be present in food samples from natural sources [5,6]
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