Comparison of analytical techniques for dynamic trace metal speciation in natural freshwaters |
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| Authors: | Sigg Laura Black Frank Buffle Jacques Cao Jun Cleven Rob Davison William Galceran Josep Gunkel Peggy Kalis Erwin Kistler David Martin Michel Noël Stéphane Nur Yusuf Odzak Niksa Puy Jaume Van Riemsdijk Willem Temminghoff Erwin Tercier-Waeber Mary-Lou Toepperwien Stefanie Town Raewyn M Unsworth Emily Warnken Kent W Weng Liping Xue Hanbin Zhang Hao |
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| Affiliation: | Eawag, Swiss Federal Institute for Aquatic Science and Technology, P.O. Box 611, CH-8600 Duebendorf, Switzerland. laura.sigg@eawag.ch |
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| Abstract: | Several techniques for speciation analysis of Cu, Zn, Cd, Pb, and Ni are used in freshwater systems and compared with respect to their performance and to the metal species detected. The analytical techniques comprise the following: (i) diffusion gradients in thin-film gels (DGT); (ii) gel integrated microelectrodes combined to voltammetric in situ profiling system (GIME-VIP); (iii) stripping chronopotentiometry (SCP); (iv) flow-through and hollow fiber permeation liquid membranes (FTPLM and HFPLM); (v) Donnan membrane technique (DMT); (vi) competitive ligand-exchange/stripping voltammetry (CLE-SV). All methods could be used both under hardwater and under softwater conditions, although in some cases problems with detection limits were encountered at the low total concentrations. The detected Cu, Cd, and Pb concentrations decreased in the order DGT > or = GIME-VIP > or = FTPLM > or = HFPLM approximately = DMT (>CLE-SV for Cd), detected Zn decreased as DGT > or = GIME-VIP and Ni as DGT > DMT, in agreement with the known dynamic features of these techniques. Techniques involving in situ measurements (GIME-VIP) or in situ exposure (DGT, DMT, and HFPLM) appear to be appropriate in avoiding artifacts which may occur during sampling and sample handling. |
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