Faculty of Engineering and Applied Science, University of Regina, Regina, Saskatchewan, Canada S4S 0A2.
Chemosphere. 2010 Dec;81(11):1423-9. doi: 10.1016/j.chemosphere.2010.09.012. Epub 2010 Oct 16.
The effects of five short-chain organic acids (SCOAs) on the behaviors of pyrene in soil-water system were investigated. The influences of the quantity and species of organic acids, pH, and soil dissolved organic matter were considered. The results showed the presence of SCOAs inhibited the adsorption and promoted the desorption of pyrene in the following order: citric acid>oxalic acid>tartaric acid>lactic acid>acetic acid. The decreased extents of pyrene adsorption performance enhanced with increasing SCOA concentrations, while the decreasing rate became less pronounced at high SCOA concentrations. In the presence of organic acids, the adsorption ability of pyrene decreased with increasing pH. However, there was a slight increase of pyrene adsorption with the addition of oxalic acid, tartaric acid and citric acid above pH 8. The capacity for pyrene retention differentiated significantly between the soils with and without dissolved organic matter. The presence of SCOAs was also favorable for the decrease of pyrene adsorption on soil without dissolved organic matter. The results of this study have important implications for the remediation of persistent organic pollutants in soil and groundwater.
研究了五种短链有机酸(SCOAs)对土壤-水系统中芘行为的影响。考虑了有机酸的数量和种类、pH 值和土壤溶解有机质的影响。结果表明,SCOAs 的存在抑制了芘的吸附,并促进了芘的解吸,顺序为:柠檬酸>草酸>酒石酸>乳酸>乙酸。随着 SCOA 浓度的增加,芘吸附性能的降低程度增加,而在高 SCOA 浓度下,降低速率变得不那么明显。在有机酸存在下,随着 pH 值的增加,芘的吸附能力降低。然而,在 pH 值高于 8 时,添加草酸、酒石酸和柠檬酸会导致芘吸附略有增加。有和没有溶解有机质的土壤之间对芘保留的能力有明显的差异。SCOAs 的存在也有利于减少无溶解有机质土壤对芘的吸附。本研究结果对土壤和地下水中持久性有机污染物的修复具有重要意义。