Impacts of zerovalent iron application on the adsorption behavior of alachlor and metalaxyl in water and soil systems

Alachlor and metalaxyl contaminations of environmental and agricultural water and soil systems cause potential threats to human health. However, information on the pesticide adsorption quantity–intensity ( Q / I ) relationships in water and soil systems is limited. Therefore, adsorption behavior and...

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Bibliographic Details
Published in:Environmental earth sciences 2011-12, Vol.64 (8), p.2295-2302
Main Authors: Chun, Jae-Chul, Lee, Jin-Ho, Shin, Kwang-Mee
Format: Article
Language:English
Subjects:
Adsorption
Alachlor
Biogeosciences
Dechlorination
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Environmental Science and Engineering
Exact sciences and technology
Fungicides
Geochemistry
Geology
Herbicides
Hydrology/Water Resources
Iron
Metal concentrations
Mineralogy
Original Article
Pesticides
Pollution, environment geology
Sandy soils
Silicates
Soil contamination
Soil solution
Soils
Surficial geology
Terrestrial Pollution
Water geochemistry
Water pollution
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Summary:Alachlor and metalaxyl contaminations of environmental and agricultural water and soil systems cause potential threats to human health. However, information on the pesticide adsorption quantity–intensity ( Q / I ) relationships in water and soil systems is limited. Therefore, adsorption behavior and the fate of alachlor and metalaxyl in the systems as influenced by the application of zerovalent iron (ZVI, Fe 0 ) were investigated using the pesticide adsorption Q / I relationships. After treating ZVI in the systems, the concentration of alachlor rapidly decreased within a few days and then it disappeared at approximately 5–7 experiment days; whereas metalaxyl concentration was reduced by approximately 40–45% during the 28 day experimental period. In particular, ZVI adsorbed more metalaxyl in the aqueous system than in the soil-solution system. The alachlor concentration in the water and soil solution drastically decreased with increasing ZVI treatment, while metalaxyl concentration was relatively slow in its decrease. Adsorption mechanism of the pesticides in the soil-solution system was shown as multiple-site adsorption Q / I fitting. Buffering capacity (BC) of the pesticides increased with ZVI treatment in all sorption sites. The BC values in sandy soil were escalated with increasing ZVI application rates, so that the values were rather higher in sandy soil than in clayey soil. In addition, changes in alachlor concentration with applying ZVI were due to both dechlorination and adsorption; whereas metalaxyl concentration was dependent upon adsorption reaction. Thus, the pesticide adsorption Q / I relationships in different soil-solution systems were critically affected by the ZVI treatment.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-011-1162-1