Organic complexation of copper in surface waters of Galveston Bay

Date

2001 Mar

Authors

Tang DG
Warnken KW
Santschi PH

Journal Title

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Abstract

The importance of colloidal ligands in the organic complexation of Cu was elucidated in the estuarine waters of Galveston Bay by use of a number of instrumental techniques. Ultrafiltration was conducted to isolate the ultrapermeate fraction from the filter-passing fraction and competitive ligand equilibration/adsorptive cathodic stripping voltammetry measurements were conducted by use of varying amounts of catechol as the competitive ligand. Greater than 99.9% of Cu was bound by strong organic ligands with log[K' (M-1)] values of 12.3 +/- 0.15 and 11.1 +/- 0.29 in the filter-passing and ultrapermeate fractions, respectively. The concentrations of Cu complexing ligands were lower in the ultrapermeate than in the filter-passing fraction, and the calculated K' values for the colloidal ligands (log K' = 12.9) were 60 times greater than those for the ultrapermeate fraction, suggesting that good separation of the colloidal fraction during ultrafiltration was achieved. Total Cu concentrations in the filter-passing fraction ranged from 2.27 to 12.9 nM and were fairly constant at salinity <20 but decreased at salinity >20. The calculated free Cu concentrations (0.05-0.49 pM) showed an overall increasing trend with salinity, possibly resulting from decreasing concentrations of Cu complexing ligands toward the seawater endmember. The concentration of Cu complexing ligands (21-54 nM) in the estuarine regions of Galveston Bay was approximately equal to the concentration of total reduced sulfur species (20-60 nM) in the filter-passing fraction, suggesting that reduced sulfur species could account for most of the Cu-complexing ligands in these waters

Description

321-330

Keywords

CATHODIC STRIPPING VOLTAMMETRY, CROSS-FLOW ULTRAFILTRATION, SOLID-PHASE EXTRACTION, COMPLEXING LIGANDS, DISSOLVED COPPER, NARRAGANSETT BAY, NATURAL-WATERS, CU, SEAWATER, SPECIATION

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