Contribution of Soil Components on the Sorption of Chlorpyrifos

SAVINI, M., ALVARO, S., NICOTRA, V., YANKELEVICH, J. AND NUDELMAN, N.; LOEWY, R; NICOTRA, V; PAROLO, E

WATER AIR AND SOIL POLLUTION

SPRINGER

Lugar: Berlin; Año: 2017

0049-6979

It is generally assumed that the sorption of a nonionic pesticide on soil depends mainly on the content of soil organic matter (SOM); however, there are other factors that can contribute to this process. The possible causes of variation in the carbon-normalized partition coefficient (KOC) for chlorpyrifos (CPF) for a diverse set of ten soils have been investigated. On the one hand, the analysis of the chemical composition of the SOMwas analyzed, and on the other hand, the likely interactions between the organic matter and the mineral phase were assessed. Sorption experiments of CPF were performed on whole soil, on soils treated with 2%hydrofluoric acid (HF), and onto calcined soil at 550 °C. Organic matter chemistry of soil was determined by 13C CP/MAS NMR spectroscopy; KOC values were positively correlated with aryl C relative proportion and negatively correlated with alkyl C and O-aryl C proportions and Prediction equation of KOC was found (R2 = 0.82, p < 0.001). To evaluate possible organomineral interactions, a mathematical model was proposedwhich calculates the concentration of CPF at equilibrium (Ccal) considering adsorption coefficients for the organic (KDHF) and inorganic (KD550 °C) soil constituents, separately. The comparison between Ccaland the equilibrium concentration obtained from experimental data (Cexp) onto whole soil allowed us to confirm that interactions between the OM and clay affect the adsorption of CPF in whole soil. Such findingsshould be taken into account in the development of predictive models for the evaluation of the fate and transport of this pesticide in soil.