Determination of lead and mercury in sea water by preconcentration in a flow injection system followed by atomic absorption spectrometry detection

Abstract

The capabilities of three solid chelating reagents were compared for the preconcentration of lead and mercury in high salinity aqueous samples (sea waters). The tested materials were 7-(4-ethyl-1-methyloctyl)-8-hydroxiquinoline (Kelex 100) adsorbed on Bondapack C18 (Kelex-100/C18), 8-hydroxiquinoline immobilized on vinyl co-polymer Toyopearl gel (TSK) and the commercial polystyrene/DVB ion exchange resin with paired iminodiacetate groups (Chelex-100). The two metals preconcentration and final determination were carried out in a flow injection system, coupled on-line to an atomic absorption spectrometric detector. Analytes were preconcentrated in the minicolumn, packed with the materials under investigation, while elution was achieved by injection of 500 μl of an adequate mineral acid solution. The different packing materials and minicolumn designs have been evaluated in terms of sensitivity for simultaneous preconcentration of both metals in sea water. Regarding the solid support, the best results were obtained for the TSK solid phase. Concerning the minicolumn design, the behavior was different for lead and mercury. Lead was quantitatively eluted with 0.5 M HCl and best performance was achieved when packing the solid material in a minicolumn with relatively small volume (1 cm length and 2.5 mm i.d.). In the case of mercury, bigger minicolumn volumes (5.5 cm length and 5.0 mm i.d.) and mixtures, 2 M HCl+1 M HNO 3, were required for its quantitative recovery and elution. The system has been evaluated for quantitative determination of the two metals under study in different Asturian coastal aqueous samples.