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Adsorption and movement of carbaryl in soils: A verification of cosolvent theory and comparison of batch equilibrium and soil thin layer chromatography results
Authors:R.P. Singh  S.A. Nabi  Sujata Singh
Affiliation:1. Faculty of Life Sciences, Department of Botany, Laboratories of Soil Science , Aligarh Muslim University , Aligarh, 02 002, Uttar Pradesh, India rpsinghamu@gmail.com rpsingh@softhome.net;3. Faculty of Science, Department of Chemistry , Aligarh Muslim University , Aligarh, 202 002, Uttar Pradesh, India
Abstract:
Batch equilibrium and soil thin layer chromatography (TLC) techniques were used to investigate the influence of different volume fractions of organic cosolvents (acetone and methanol) on the adsorption and movement of carbaryl in four different types of Indian soils. L-shaped isotherms were obtained for both the cosolvent–water mixtures at all f s values and were in close agreement with the Freundlich equation. Higher adsorption was observed on F.R.I. soil (FSL) followed by Alampur soil (ASL), Kalai soil (KL), and Bhoran soil (BSL) at all f s values for both the cosolvent systems as was anticipated from the K and K D values. The K and K D values also confirmed that carbaryl adsorption was higher in methanol–water mixture than acetone–water mixture and decreased with increasing f s values. The frontal R f values obtained from soil TLC studies were inversely proportional to the K and K D values for both the cosolvent systems. The higher K and K D values and lower R f values in methanol–water mixtures relative to acetone–water mixtures for all the soils indicated that acetone had a greater potential for ground water contamination compared to methanol. The adsorption data were used to evaluate the cosolvent theory for describing adsorption of carbaryl in acetone–water and methanol–water mixtures. The aqueous phase partition coefficients, K DW (mol g?1), normalized with respect to f oc for carbaryl was evaluated by extrapolating f s → 0.
Keywords:adsorption  carbaryl  cosolvents  movement  partition coefficient  soil TLC
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