| Summary: | Isomers of hexachlorocyclohexanes (HCHs) and metabolites of dichlorodiphenyltrichloroethanes (DDTs) are still frequently detected worldwide in considerable amounts, even decades after their prohibition. Carbonaceous materials (CMs) have been shown to significantly reduce risks of propagation to humans by binding the hydrophobic organochlorine pesticides (OCPs) present in aquatic sediments. In the present study, black carbons extracted from natural sediments, and artificially produced black carbons, including black carbons by burning rice straw at 450 and 850 °C, and a commercial activated carbon were compared to investigate the factors affecting the sorption of <i>γ</i>-HCH (lindane) and <i>p,p’</i>-dichlorodiphenyldichloroethylene (<i>p,p’</i>-DDE) on CMs. The results indicated that when the proportion of CMs to total organic carbon (<i>ƒ</i><sub>CM</sub>/<i>ƒ</i><sub>OC</sub>) was greater than 0.35, CMs played a leading role in the sorption of lindane and <i>p,p’-DDE</i> by the sediments. The sorption contribution rate of CMs could reach up to 64.7%. When the ratio of <i>ƒ</i><sub>CM</sub>/<i>ƒ</i><sub>OC</sub> was less than 0.10, CMs played a minor role in the sorption. In addition, the nonlinearity of the sorption isotherms was strengthened with the increasing the proportion of CMs to total organic carbon. Our findings show that <i>ƒ</i><sub>CM</sub>/<i>ƒ</i><sub>OC</sub> value is a principal parameter for assessing the sorption capacity of sediments added by CMs for OCPs.
|
|---|
