Effective Affinity Distribution for the Binding of Metal Ions to a Generic Fulvic Acid in Natural Waters

The effective distribution of affinities (Conditional Affinity Spectrum, CAS) seen by a metal ion binding to a humic substance under natural water conditions is derived and discussed within the NICA−Donnan model. Analytical expressions for the average affinity of these distributions in general multi...

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Bibliographic Details
Published in:Environmental science & technology 2009-10, Vol.43 (19), p.7184-7191
Main Authors: Rey-Castro, Carlos, Mongin, Sandrine, Huidobro, César, David, Calin, Salvador, José, Garcés, Josep Lluís, Galceran, Josep, Mas, Francesc, Puy, Jaume
Format: Article
Language:English
Subjects:
Applied sciences
Benzopyrans - chemistry
Ecology - methods
Ecosystem
Environmental Monitoring
Exact sciences and technology
Freshwater
Hydrogen Bonding
Ions
Metals - chemistry
Pollution
Rivers
Water - chemistry
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Summary:The effective distribution of affinities (Conditional Affinity Spectrum, CAS) seen by a metal ion binding to a humic substance under natural water conditions is derived and discussed within the NICA−Donnan model. Analytical expressions for the average affinity of these distributions in general multi-ion mixtures are reported here for the first time. These expressions enable a simple evaluation of the effect of all interfering cations on the affinity distribution of a given one. We illustrate this methodology by plotting the affinity spectra of a generic fulvic acid for 14 different cations in the presence of major inorganic ions and trace metals at pH and concentration values representative of a river water. The distribution of occupied sites and their average affinity at the typical freshwater conditions are also reported for each ion. The CAS allows us to distinguish three groups of cations: (a) Al, H, Pb, Hg, and Cr, which are preferentially bound to the phenolic sites of the fulvic ligand; (b) Ca, Mg, Cd, Fe(II), and Mn, which display a greater effective affinity for carboxylic sites, in contrast to what would be expected from their individual complexation parameters; and (c) Fe(III), Cu, Zn, and Ni, for which phenolic and carboxylic distributions are overlapped.
ISSN:0013-936X
1520-5851
DOI:10.1021/es803006p