Abstract
Chiral separation of synthetic pesticides presenting more than one center of asymmetry was performed by multidimensional liquid chromatography. The method consisted of coupling two columns by means of a six‐port valve: an achiral column was used for the separation of the pesticide diastereomers, that were, then, individually switched into the chiral column and resolved as the corresponding enantiomers. In order to obtain optimum resolution conditions for pesticides existing as four (fenvalerate, propiconazole, and triadimenol) and eight (cyfluthrin) optical isomers, a number of coupled‐column systems constituted of an achiral (plain silica gel, γ‐cyanopropyl(CNP)‐, and γ‐aminopropyl(AMP)‐silanized silica gel) and a chiral [containing cellulose tris‐(3,5‐dimethylphenyl‐carbamate), (R)(−)‐N‐(3,5‐dinitrobenzoyl)‐phenylglycine(DNBPG), and (S)‐N‐1‐(α‐naphthyl) ethylaminocarbonyl‐(S)‐ter‐leucine, as the selectors] stationary phases were studied. Coupled‐column liquid chromatography (CC‐LC) proved to be a very effective strategy allowing the full resolution, with the exception of triadimenol, of all the investigated pesticides. The method was used for studying the stereoselective degradation of fenvalerate in soil under simulated laboratory conditions.
Acknowledgments
The present study was supported by the Project “Territorio e Ambiente: Criticità delle disponibilità di acqua da utilizzare a scopi potabili” (CNR, Rome, Italy). Authors are greatly indebted to Alessandro Lentini (ITABC‐CNR) for the characterization of soil samples, and to Gabriele Caponecchi and Antonio Berti for technical assistance.