Sorption and Displacement of Pyrene in Soils and Sediments

摘要

Sorption isotherms of pyrene on soils and sediments were examined to understand its sorption behavior.All systems examined exhibited nonlinear sorption.Sorption nonlinearity was found to be a function of the polarity index of soil/sediment organic matter (SOM),suggesting that the degree of condensation of SOM,characterized by its polarity index,was correlated with the sorption behavior of pyrene.The polarity index of SOM could be a new factor for explaining the sorption nonlinearity.The sorption affinity of two soils and two sediments for pyrene increased with decreasing SOM polarity.A higher sorption affinity in the two soils was associated with a higher degree of condensation of SOM compared to that of the two sediments.A displacement test was performed after pyrene sorption using phenanthrene as a displacer.Pyrene was displaced in all systems examined,and nonlinearity became less pronounced after displacement.Such an increase in isotherm linearity implied that sorption site energies became more homogeneous after displacement.Furthermore,the site energy distribution F(E) derived from the Freundlich model parameters showed that energy reduction of high-energy sites was more significant than that of low-energy sites after displacement.In addition,a decrease in sorption capacity after displacement could be ascribed to the partial depletion of sorption sites by the displacer.The displacement data indicated that the cocontaminant can have potential effects on the fate and bioavailability of anthropogenic organic pollutants sorbed in soils and sediments,thus affecting their exposure risks.