Effects of γ-irradiation of original and organic matter-amended soils on the sorption of triclosan and diuron from aqueous solutions

Effects of γ-irradiation of original and organic matter-amended soils on the sorption of triclosan and diuron from aqueous solutions

Soil γ-irradiation is a well-known method of inhibiting microbial activity in studies of the soil sorption of organic compounds. However, few studies have addressed the possible effect of γ-irradiation on the sorptive ability of soils enriched with different types of organic matter (OM). The objecti...

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Veröffentlicht in:Chemosphere (Oxford) 2016-06, Vol.152, p.62-70
Hauptverfasser: Borisover, Mikhail, Keren, Yonatan, Usyskin, Alla, Bukhanovsky, Nadezhda
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Biosolid
Cobalt Radioisotopes
Cobalt-60
Diuron - chemistry
Food Industry
Gamma Rays
Industrial Waste
Olea
Pesticides - chemistry
Sewage
Soil - chemistry
Soil Pollutants - chemistry
Soil sterilization
Solutions
Sorption
Triclosan - chemistry
Waste Water
Wastewater
γ-Irradiation
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creator Borisover, Mikhail
Keren, Yonatan
Usyskin, Alla
Bukhanovsky, Nadezhda
description Soil γ-irradiation is a well-known method of inhibiting microbial activity in studies of the soil sorption of organic compounds. However, few studies have addressed the possible effect of γ-irradiation on the sorptive ability of soils enriched with different types of organic matter (OM). The objective of this study was to probe the effect of soil γ-irradiation on organic compound–soil interactions in two different situations representing adding OM to soils through land disposal of (a) OM-rich sewage sludge-originating biosolids and (b) olive mill wastewater (OMW). Both situations describe frequent environmental and agricultural scenarios. Comparisons of aqueous sorption on cobalt-60 γ-irradiated and non-irradiated soil sorbents were carried out for (a) triclosan (in a series of three soils and their lab-incubated mixtures with three different types of biosolids), and (b) the pesticide diuron (in two different untreated and OMW-affected soils). In each case, sodium azide was used as a biocide. Soil γ-irradiation affected the sorption of organic compounds by a factor generally not exceeding 2–3. Specifically, for triclosan, the sorbed concentration ratio between irradiated and non-irradiated soils when averaged over all the soil samples was 0.94. No significant effects of γ-irradiation on soil organic carbon or total nitrogen contents were observed. The effect of γ-irradiation on a soil sorbent may be less important when a rough estimate of a soil sorption coefficient of an organic compound is needed. However, it may need to be taken into account in mechanistic sorption studies, specifically, when the shape of sorption isotherms is of interest. [Display omitted] •γ-Irradiation of OM-enriched soils affects soil sorption of triclosan and diuron.•Effects of soil γ-irradiation on sorption did not exceed generally a factor of 2–3.•No significant effects of γ-irradiation on soil OC or total N contents were observed.•Soil changes are less important for rough estimating soil sorption coefficients.•Changes in SOM may need to be taken into account in mechanistic sorption studies.
doi_str_mv 10.1016/j.chemosphere.2016.02.091
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However, few studies have addressed the possible effect of γ-irradiation on the sorptive ability of soils enriched with different types of organic matter (OM). The objective of this study was to probe the effect of soil γ-irradiation on organic compound–soil interactions in two different situations representing adding OM to soils through land disposal of (a) OM-rich sewage sludge-originating biosolids and (b) olive mill wastewater (OMW). Both situations describe frequent environmental and agricultural scenarios. Comparisons of aqueous sorption on cobalt-60 γ-irradiated and non-irradiated soil sorbents were carried out for (a) triclosan (in a series of three soils and their lab-incubated mixtures with three different types of biosolids), and (b) the pesticide diuron (in two different untreated and OMW-affected soils). In each case, sodium azide was used as a biocide. Soil γ-irradiation affected the sorption of organic compounds by a factor generally not exceeding 2–3. Specifically, for triclosan, the sorbed concentration ratio between irradiated and non-irradiated soils when averaged over all the soil samples was 0.94. No significant effects of γ-irradiation on soil organic carbon or total nitrogen contents were observed. The effect of γ-irradiation on a soil sorbent may be less important when a rough estimate of a soil sorption coefficient of an organic compound is needed. However, it may need to be taken into account in mechanistic sorption studies, specifically, when the shape of sorption isotherms is of interest. [Display omitted] •γ-Irradiation of OM-enriched soils affects soil sorption of triclosan and diuron.•Effects of soil γ-irradiation on sorption did not exceed generally a factor of 2–3.•No significant effects of γ-irradiation on soil OC or total N contents were observed.•Soil changes are less important for rough estimating soil sorption coefficients.•Changes in SOM may need to be taken into account in mechanistic sorption studies.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>26963237</pmid><doi>10.1016/j.chemosphere.2016.02.091</doi><tpages>9</tpages></addata></record>
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source MEDLINE; Elsevier ScienceDirect Journals Complete
subjects Adsorption
Biosolid
Cobalt Radioisotopes
Cobalt-60
Diuron - chemistry
Food Industry
Gamma Rays
Industrial Waste
Olea
Pesticides - chemistry
Sewage
Soil - chemistry
Soil Pollutants - chemistry
Soil sterilization
Solutions
Sorption
Triclosan - chemistry
Waste Water
Wastewater
γ-Irradiation
title Effects of γ-irradiation of original and organic matter-amended soils on the sorption of triclosan and diuron from aqueous solutions
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