Partitioning of copper onto suspended particulate matter in river waters

Suspended particles and river water from the Susquehanna River, White Clay Creek and the Delaware River were collected to experimentally study the partitioning of copper. The effects of many factors that may influence the partitioning coefficient (K-d) including pH, total suspended solids (TSS), total copper concentration ([Cu](T)), dissolved organic matter (DOM), particulate organic matter (DOM), hardness, and ionic strength were investigated by performing batch adsorption experiments. The results implied that organic matter binding sites in both the aqueous and solid phases play the most important role in controlling copper partitioning. Other major factors governing the partitioning are pH and TSS. K-d increases with pH in the pH range 3-8. TSS increases caused decreases in K-d values, which may be attributed to the decrease in the quantity of available binding sites caused by interparticle interactions, rather than by the redistribution of organic matter between solid and solution phases with the variation of TSS. K-d decreases slightly when total Cu concentration increases; however, K-d can be considered to be independent of Cu concentration when TSS is high. The effects of calcium competition and ionic strength on partitioning are small. (C) 2001 Elsevier Science B.V. All rights reserved.