Abstract
In this research, fifteen carbamate pesticide residues were systematically analyzed by ultra-high performance liquid chromatography–quadrupole-linear ion trap mass spectrometry on a QTRAP 5500 system in both multiple reaction monitoring (MRM) and enhanced product ion (EPI) scan modes. The carbamate pesticide residues were extracted from a variety of samples by QuEChERS method and separated by a popular reverse phase column (Waters BEH C18). Except for the current conformation criteria including selected ion pairs, retention time and relative intensities from MRM scan mode, the presence of carbamate pesticide residues in diverse samples, especially some doubtful cases, could also be confirmed by the matching of carbamate pesticide spectra via EPI scan mode. Moreover, the fragmentation routes of fifteen carbamates were firstly explained based on the mass spectra obtained by a QTRAP system; the characteristic fragment ion from a neutral loss of CH3NCO (−57 Da) could be observed. The limits of detection and quantification for fifteen carbamates were 0.2–2.0 μg kg−1 and 0.5–5.0 μg kg−1, respectively. For the intra- (n = 3) and inter-day (n = 15) precisions, the recoveries of fifteen carbamates from spiked samples ranged from 88.1% to 118.4%, and the coefficients of variation (CVs) were all below 10%. The method was applied to pesticide residues detection in fruit, vegetable and green tea samples taken from local markets, in which carbamates were extensively detected but all below the standard of maximum residue limit.
Highlights
N-methyl carbamate esters share with organophosphates the capacity to kill insects by inhibiting the enzyme acetylcholinesterase (AChE) and show lower toxicity to human being [1,2,3]
This study developed a new analytical strategy to combine QuEChERS
For the instrumental analysis, based on traditional conformation criteria including selected ion pairs, retention time and relative intensities between transitions from multiple reaction monitoring (MRM) scan mode, the presence of carbamate pesticides in doubtful samples was further confirmed by the matching of carbamate pesticide spectra via enhanced product ion (EPI) scan mode
Summary
N-methyl carbamate esters share with organophosphates the capacity to kill insects by inhibiting the enzyme acetylcholinesterase (AChE) and show lower toxicity to human being [1,2,3]. They have become one kind of most popular pesticides in agriculture to guarantee food production. The improper use of carbamate pesticides have adversely affected food safety g [4,5]. Meeting the challenge of many samples in daily work, developing a best concise, highly specific and sensitive analytical method to detect the carbamate residues in diverse samples from the area of food safety is important The legitimate content has brought chronic and continuous intake of carbamate residues that could be relevant to multiple ailments and further pose a threat to public health [7,8,9].
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