Mobility of Cd and Cu in formulated sediments coated with iron hydroxides and/or humic acids: A DGT and DGT-PROFS modeling approach

• Published in: Chemosphere (Oxford) Vol. 85; no. 9; pp. 1496 - 1504
• Main Authors: Nia, Y., Garnier, J.-M., Rigaud, S., Hanna, K., Ciffroy, P.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.11.2011; Elsevier
• Subjects: adsorption; Aging effects; Analytical chemistry; Applied sciences; binding sites; Cadmium; Cadmium - chemistry; Chemical and Process Engineering; Chemical engineering; Chemical Sciences; coatings; Copper; Copper - chemistry; DGT-PROFS and DIFS model; Engineering Sciences; Environmental Engineering; Environmental Monitoring; Environmental Sciences; Exact sciences and technology; Ferric Compounds - chemistry; ferrihydrite; Formulated sediments; Geologic Sediments - chemistry; goethite; Humic acids; Humic Substances - analysis; Hydroxides; Hydroxyapatite; Iron; Iron Compounds - chemistry; Iron hydroxides; Kinetics; Metal mobility; Minerals - chemistry; Models, Chemical; Pollution; Porosity; Sediments; Thermodynamics; Time Factors; Iron hydroxides; Formulated sediments; Humic acids; Metal mobility; DGT-PROFS and DIFS model; Aging effects; Cadmium; Organic matter; Multimedia model; Mobility; Iron; Sediments; Modeling; Interstitial water; Heavy metal; Trace element; Pollution; Adsorption; Diffusive gradient in thin film; Kinetics; Copper
• ISSN: 0045-6535; 1879-1298
• DOI: 10.1016/j.chemosphere.2011.08.045

► We evaluated the availability of Cd and Cd in contaminated formulated sediments. ► From DGT Tools, we estimated the kinetic metal resupply from the particulate phase. ► Kinetic DGT results were interpreted using our multi-compartmental model (DGT-PROFS). The diffusive gradients technique in thin films (DGT) was used to investigate the kinetic resupply of Cd and Cu to pore water from the solid phase. For the sake of simplification, experiments were performed using formulated sediments that differed in the presence or absence of humic acids (HA) and/or of iron hydroxides (i.e., goethite and ferrihydrite). The effects of the time after the contamination of the solid phase (aging effect) on formulated sediments that were coated with goethite and HA and spiked with Cd were also evaluated. Kinetic DGT results were interpreted using the newly developed, multi-compartmental model DGT-PROFS. Due to Cu humate formation, the addition of HA slightly increased the Cu concentration in the pore water independent of the effect of the iron hydroxide coating on the formulated sediments and slightly decreased that of Cd. The impact of 8–190 d of aging resulted in a significant decrease in the Cd concentration of the pore water over an increasing incubation time. Modeling our results with DGT-PROFS led to the following conclusions concerning the impact of HA and iron hydroxides on Cd and Cu availability. First, in the presence of HA and absence of iron hydroxides, Cd is associated mainly with weak sites, while Cu is bound to strong sites. Similarly, in the presence of both iron hydroxides and HA, Cu appeared to be more heavily associated with the strong sites than did Cd. When the incubation time increased from 8 to 190 d, a proportion of Cd initially adsorbed onto weak sites transferred to the strong sites, suggesting that the adsorption of Cd on sediments is controlled partially by slow kinetic processes.