COMPLEXATION OF IRON(III) BY NATURAL ORGANIC-LIGANDS IN THE CENTRAL NORTH PACIFIC AS DETERMINED BY A NEW COMPETITIVE LIGAND EQUILIBRATION ADSORPTIVE CATHODIC STRIPPING VOLTAMMETRIC METHOD

A highly sensitive voltammetric technique was developed to examine Fe speciation in seawater. The technique involves adding an Fe(III)-complexing ligand, salicylaldoxime, which competitively equilibrates with inorganic and organic Fe(III) species in ambient seawater. The Fe(III)-salicylaldoxime complex then is measured by adsorptive cathodic stripping voltammetry (ACSV). This new method revealed that 99.97% of the dissolved Fe(III) in central North Pacific surface waters is chelated by natural organic ligands. The total concentration of Fe-binding ligands is approximately 2 nM, a value greatly in excess of ambient dissolved iron concentrations. The titration data can be modeled as consisting of two classes of Fe-binding ligands, a strong ligand class (L(1)) with an average surface-water concentration equal to 0.44 nM with a conditonal stability constant K-L1/Fe'(cond) = 1.2 X 10(13) M(-1), and a weaker ligand class (L(2)) with an average concentration equal to 1.5 nM with K-L2/Fe'(cond) = 3.0 X 10(11) M(-1). The low concentration of dissolved Fe present in surface waters (similar to 0.2 nM), coupled with the excess of strong Fe-chelators, results in extremely low equilibrium concentrations of dissolved inorganic iron, [Fe'] approximate to 0.07 pM. In the deeper waters there is a 2 nM excess of Fe-binding ligands with a stability constant similar to that of the L(2) class of ligands observed in surface waters, resulting in dissolved Fe(III) existing primarily in the chelated form in deep waters as well. The stability constants of the natural ligands are comparable to the model ligands desferal, a siderophore, and the prosthetic heme group, protoporphyrin-IX. The high degree of organic complexation of iron makes it critically important to reevaluate our perceptions of the marine biogeochemistry of iron and the mechanisms by which biota can access this chelated Fe.