Determination of cadmium in sediments by diluted HCI extraction and isotope dilution ICP-MS

• Published in: Talanta (Oxford) Vol. 186; pp. 272 - 278
• Main Authors: Terán-Baamonde, Javier, Soto-Ferreiro, Rosa-María, Carlosena, Alatzne, Andrade, José-Manuel, Prada, Darío
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.08.2018
• Subjects: Bioaccessible fraction; Cadmium; Isotope dilution ICP-MS; Sediments; Uncertainty estimation; Cadmium; Isotope dilution ICP-MS; Uncertainty estimation; Sediments; Bioaccessible fraction
• ISSN: 0039-9140; 1873-3573
• DOI: 10.1016/j.talanta.2018.04.054

Isotope dilution ICP-MS is proposed to measure the mass fraction of Cd extracted by diluted HCl in marine sediments, using a fast and simple extraction procedure based on ultrasonic probe agitation. The 111Cd isotope was added before the extraction to achieve isotope equilibration with native Cd solubilized from the sample. The parameters affecting trueness and precision of isotope ratio measurements were evaluated carefully and subsequently corrected in order to minimize errors; they were: detector dead time, spectral interferences, mass discrimination factor and optimum sample/spike ratio. The mass fraction of Cd extracted was compared with the sum of the certified contents of the three steps of the sequential extraction procedure of the Standards, Measurements and Testing Programme (SM&T) analysing the BCR 701 sediment to validate the method. The certified and measured values agreed, giving a measured / certified mass fraction ratio of 1.05. Further, the extraction procedure itself was studied by adding the enriched isotope after the extraction step, which allowed verifying that analyte losses occurred during this process. Two additional reference sediments with certified total cadmium contents were also analysed. The method provided very good precision (0.9%, RSD) and a low detection limit, 1.8 ng g−1. The procedural uncertainty budget was estimated following the EURACHEM Guide by means of the ‘GUM Workbench’ software, obtaining a relative expanded uncertainty of 1.5%. The procedure was applied to determine the bioaccessible mass fraction of Cd in sediments from two environmentally and economically important areas of Galicia (rias of Arousa and Vigo, NW of Spain). [Display omitted] •ID-ICPMS is proposed to measure Cd extracted by dilute HCl in sediments.•The addition of the enriched spike before the extraction overcome analyte losses.•The Cd fraction equaled the sum of the 3-step certified contents of BCR 701.•A satisfactory relative expanded uncertainty of 1.5% was obtained.