Sorption interactions of organic compounds with soils affected by agricultural olive mill wastewater

Sorption interactions of organic compounds with soils affected by agricultural olive mill wastewater

[Display omitted] •Soil application of olive mill wastewater (OMW) enhances soil–pesticide interactions.•The OMW effect on pesticide sorption is not explained by soil OC content changes.•Wastewater has different effects on pesticide–soil sorption mechanisms.•Cooperative pesticide–soil interactions a...

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Veröffentlicht in:Chemosphere (Oxford) 2015-11, Vol.138, p.462-468
Hauptverfasser: Keren, Yonatan, Borisover, Mikhail, Bukhanovsky, Nadezhda
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Agriculture
Cooperative sorption
Isotherm
Land
Olive mill wastewater (OMW)
Olive Oil - chemistry
Olives
Organic Chemicals - chemistry
Organic compounds
Pesticide
S-shape
Soil - chemistry
Soil organic matter
Soil Pollutants - chemistry
Soils
Sorption
Uptakes
Waste water
Waste Water - chemistry
Wastes
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Borisover, Mikhail
Bukhanovsky, Nadezhda
description [Display omitted] •Soil application of olive mill wastewater (OMW) enhances soil–pesticide interactions.•The OMW effect on pesticide sorption is not explained by soil OC content changes.•Wastewater has different effects on pesticide–soil sorption mechanisms.•Cooperative pesticide–soil interactions are suggested.•Sigmoidal soil sorption isotherms are explained by the Hill model. The organic compound–soil interactions may be strongly influenced by changes in soil organic matter (OM) which affects the environmental fate of multiple organic pollutants. The soil OM changes may be caused by land disposal of various OM-containing wastes. One unique type of OM-rich waste is olive mill-related wastewater (OMW) characterized by high levels of OM, the presence of fatty aliphatics and polyphenolic aromatics. The systematic data on effects of the land-applied OMW on organic compound–soil interactions is lacking. Therefore, aqueous sorption of simazine and diuron, two herbicides, was examined in batch experiments onto three soils, including untreated and OMW-affected samples. Typically, the organic compound–soil interactions increased following the prior land application of OMW. This increase is associated with the changes in sorption mechanisms and cannot be attributed solely to the increase in soil organic carbon content. A novel observation is that the OMW application changes the soil–sorbent matrix in such a way that the solute uptake may become cooperative or the existing ability of a soil sorbent to cooperatively sorb organic molecules from water may become characterized by a larger affinity. The remarkable finding of this study was that in some cases a cooperative uptake of organic molecules by soils makes itself evident in distinct sigmoidal sorption isotherms rarely observed in soil sorption of non-ionized organic compounds; the cooperative herbicide-soil interactions may be characterized by the Hill model coefficients. However, no single trend was found for the effect of applied OMW on the mechanisms of organic compound–soil interactions.
doi_str_mv 10.1016/j.chemosphere.2015.06.085
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The organic compound–soil interactions may be strongly influenced by changes in soil organic matter (OM) which affects the environmental fate of multiple organic pollutants. The soil OM changes may be caused by land disposal of various OM-containing wastes. One unique type of OM-rich waste is olive mill-related wastewater (OMW) characterized by high levels of OM, the presence of fatty aliphatics and polyphenolic aromatics. The systematic data on effects of the land-applied OMW on organic compound–soil interactions is lacking. Therefore, aqueous sorption of simazine and diuron, two herbicides, was examined in batch experiments onto three soils, including untreated and OMW-affected samples. Typically, the organic compound–soil interactions increased following the prior land application of OMW. This increase is associated with the changes in sorption mechanisms and cannot be attributed solely to the increase in soil organic carbon content. 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source MEDLINE; Elsevier ScienceDirect Journals
subjects Adsorption
Agriculture
Cooperative sorption
Isotherm
Land
Olive mill wastewater (OMW)
Olive Oil - chemistry
Olives
Organic Chemicals - chemistry
Organic compounds
Pesticide
S-shape
Soil - chemistry
Soil organic matter
Soil Pollutants - chemistry
Soils
Sorption
Uptakes
Waste water
Waste Water - chemistry
Wastes
title Sorption interactions of organic compounds with soils affected by agricultural olive mill wastewater
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