Copper complexation by natural organic

Holm, T.R. and Curtiss, C.D. (1990) Copper complexation by natural organic matter in ground water. In Chemical Modeling of Aqueous Systems II (eds Melchior, D.C. and Bassett, R.L.). American Chemical Society, Washington DC, pp. 508-518. 

Copper Complexation by Natural Organic Matter in Ground Water... 

Van den Berg, C.M.G., 1982. Determination of copper complexation with natural organic ligands in seawater by equilibration with Mn02- II. Experimental procedures and application to surface seawater. Mar. Chem., 11 323-342. 

Sunda, W.G., and Lewis, J.A.M. (1978) Effects of complexation by natural organic matter on the toxicity of copper to a unicellular alga. Limnol. Oceanogr. 23, 870-876. 

Lu, Y., and Allen, H. E. (2002). Characterization of copper complexation with natural dissolved organic matter (DOM)—Link to acidic moieties of DOM and competition by Ca... 

Table II. Conditional Stability Constants for Complexation of Copper by Natural Organic Ligands...

Van den Berg, C. M. G. (1984) Determination of the Complexing Capacity and Conditional Stability Constants of Complexes of Copper(II) with Natural Organic Ligands in Seawater by Cathodic Stripping Voltammetry of Copper-Catechol Complex Ions, Mar. Chem. 15, 1-18. 

Lu, X.Q. and Jaffe, R. (2001). Interaction between Hg(II) and natural dissolved organic matter A fluorescence spectroscopy based study. Water Res., 35(7), 1793-1803. Luster, J., Lloyd, T., Sposito, G., and Fry, I.V. (1996). Multi-wavelength molecular fluorescence spectrometry for quantitative characterization of copper(II) and aluminum(III) complexation by dissolved organic matter. Environ. Sci. Technol., 30(5), 1565-1574. Ma, J.H., Del Vecchio, R., Golanoski, K.S., Boyle, E.S., and Blough, N.V. (2010). Optical properties of humic substances and CDOM Effects of borohydride reduction. Environ. Sci. Technol, 44(14), 5395-5402. 

A technique for the determination of free cupric ions in seawater has been described by Sunda and Hanson [332], The method is based on sorption of copper onto Sep-Pak Cis cartridges and internal free cupric ion calibration. Calibration is accomplished by adding cupric ion buffers and EDTA, which competes with natural organic ligands for copper complexation. The method was used to establish that 0-2% of the copper occurs as inorganic species and 98-100% occurs as organic complexes. 

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