THE USE OF CHEMILUMINESCENCE AND LIGAND COMPETITION WITH EDTA TO MEASURE COPPER CONCENTRATION AND SPECIATION IN SEAWATER

被引:74
作者
SUNDA, WG
HUNTSMAN, SA
机构
[1] Beaufort Laboratory, National Marine Fisheries Service, Beaufort, North Carolina
关键词
D O I
10.1016/S0304-4203(09)90059-7
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
A batch chemiluminescence method for measurement of copper in seawater was developed from an existing flow injection technique. The method involved the reaction of copper in the sample with 1.10-phenanthroline, and subsequent release of photons from the oxidation of copper(II)-phenanthroline chelates by H2O2 at alkaline pH. The method was extremely sensitive with a detection limit in the range of 0.05-0.1 nM for 200-mu-l samples. Because of its sensitivity, it could be used to measure copper directly in seawater without a preconcentration step. To measure total copper, samples had to be acidified to pH 2 and stored for weeks to months (and in some cases also photo-oxidized by UV light) to release copper from kinetically inert species. Total copper concentrations measured by the chemiluminescence method in natural seawater agreed well with those obtained by more traditional methods. The chemiluminescence method was sensitive to copper speciation due to the slow dissociation of many bound copper species. This property was utilized to develop a ligand competition technique for measurement of free cupric ion concentrations. The method involved additions of EDTA and copper to seawater and was based on the lack of detectability of CuEDTA chelates by the chemiluminescence method. Free cupric ion concentrations measured by this method ranged from 10 12.9 M for a relatively clean estuarine sample containing 5 nM total dissolved copper to 10 10.9 M for a sample from a polluted harbor which contained 38 nM copper. Cupric ion concentrations measured by the new method were in good agreement with those measured in the same samples by a previously published method: EDTA competition combined with copper adsorption on to C18 Sep-Pak cartridges. Copper was found to be heavily (> 99%) complexed by natural organic ligands in both shelf and estuarine water samples and the concentrations of these ligands generally increased with dissolved copper concentration and decreasing sample salinity. These results agree with those of several previous studies.
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页码:137 / 163
页数:27
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共 32 条
[1]  
ANDERSON DM, 1984, J MAR RES, V42, P677, DOI 10.1357/002224084788506013
[2]   EFFECTS OF INORGANIC COMPLEXING ON TOXICITY OF COPPER TO DAPHNIA-MAGNA [J].
ANDREW, RW ;
BIESINGER, KE ;
GLASS, GE .
WATER RESEARCH, 1977, 11 (03) :309-315
[3]   AN INVESTIGATION OF COPPER COMPLEXATION IN THE SEVERN ESTUARY USING DIFFERENTIAL PULSE CATHODIC STRIPPING VOLTAMMETRY [J].
APTE, SC ;
GARDNER, MJ ;
RAVENSCROFT, JE .
MARINE CHEMISTRY, 1990, 29 (01) :63-75
[4]   PREPARATION OF THE SEA-WATER REFERENCE MATERIAL FOR TRACE-METALS, NASS-1 [J].
BERMAN, SS ;
STURGEON, RE ;
DESAULNIERS, JAH ;
MYKYTIUK, AP .
MARINE POLLUTION BULLETIN, 1983, 14 (02) :69-73
[5]   DETERMINATION OF COPPER, NICKEL, AND CADMIUM IN SEA-WATER BY APDC CHELATE COPRECIPITATION AND FLAMELESS ATOMIC-ABSORPTION SPECTROMETRY [J].
BOYLE, EA ;
EDMOND, JM .
ANALYTICA CHIMICA ACTA, 1977, 91 (02) :189-197
[6]   REDUCTION OF MARINE-PHYTOPLANKTON REPRODUCTION RATES BY COPPER AND CADMIUM [J].
BRAND, LE ;
SUNDA, WG ;
GUILLARD, RRL .
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY, 1986, 96 (03) :225-250
[7]  
Bruland K. W., 1983, Trace Metals in Sea Water. Proceedings of the NATO Advanced Research Institute, P395
[8]   THE INFLUENCE OF TEMPERATURE AND PH ON TRACE-METAL SPECIATION IN SEAWATER [J].
BYRNE, RH ;
KUMP, LR ;
CANTRELL, KJ .
MARINE CHEMISTRY, 1988, 25 (02) :163-181
[9]   COPPER(II) CARBONATE COMPLEXATION IN SEAWATER [J].
BYRNE, RH ;
MILLER, WL .
GEOCHIMICA ET COSMOCHIMICA ACTA, 1985, 49 (08) :1837-1844
[10]   COPPER COMPLEXATION IN THE NORTHEAST PACIFIC [J].
COALE, KH ;
BRULAND, KW .
LIMNOLOGY AND OCEANOGRAPHY, 1988, 33 (05) :1084-1101