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Time and space variations in Cu and Zn isotope compositions of SPM and sediments in an estuarine environment (The Scheldt estuary)
Petit, J.; Mattielli, N.; Chou, L.; Loijens, M.; Barling, J. (2005). Time and space variations in Cu and Zn isotope compositions of SPM and sediments in an estuarine environment (The Scheldt estuary). Geophys. Res. Abstr. 7: 09841
Peer reviewed article  

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Documenttype: Samenvatting

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  • Loijens, M., meer
  • Barling, J.

Abstract
    Cu and Zn isotope biogeochemistry has already been applied to study oceanic environments via deep ocean carbonates (Pichat et al., 2003), sediment trap samples, sediments and Fe-Mn nodules (Maréchal et al., 2000). So far, no study has been published on Cu and Zn isotopic fractionation in estuarine environments, while estuaries represent fundamental stages in the hydrological and geochemical cycles of these metals. Estuarine environments are characterized by strong physico-chemical gradients (pH, eH, dissolved oxygen,...) related to marine- and fresh waters mixing and important biological activity (Paucot et al., 1997). Those physico-chemical gradients induce important redistribution of trace elements between dissolved and particulate phases. We therefore anticipate fractionation of Cu and Zn isotopes to occur in estuaries with a greater extent than in open ocean.This study focuses on results of Cu and Zn elemental and isotopic compositions of centrifuged suspended particulate matter (SPM) of the Scheldt estuary (Belgium and Netherlands, campain Eurothroph April 2003).Samples were collected at 6 stations along a 100 km transect (Belgica vessel). Present results are compared with previous data obtained on surface sediments and SPM of November 2002 (Petit et al., 2004).Prior to standard HF+HNO3 dissolution procedure, organic matter was digested by repeated additions of concentrated H2O2. Separation of Cu, Fe and Zn was carried out by one step ion-exchange chromatography on AG-MP1 resin. To avoid fractionation artifacts, the full recovery of Cu, Fe and Zn from different matrix samples (basalt, sediment and limestone) was quantitatively verified. Total blanks were negligible: 1.5; 11 and 4.5 ng for Cu, Fe and Zn, respectively. Cu and Zn isotopic ratios were measured with a “Nu-Plasma” MC-ICP-MS (ULB). Instrumental mass bias was corrected by simultaneous standard-sample bracketing and external normalisation, assuming an exponential mass fractionation law. Reference materials were Zn JMC and Cu NIST SRM 976 standards. The Nu plasma allowed 60Ni to be simultaneously monitored and used for systematic correction on 64Zn. Reference materials were repeatedly measured, giving a long-term reproducibility of ± 0.07 per mil for delta65Cu and delta66Zn (2s, n=158 over 13 analysis sessions). Average total beam intensities are 6 V/ppm. The whole methodology has been checked for spectral and non-spectral interferences, as well as artifacts related to analyte-to-dopant concentration ratios. Each sample was analyzed for at least three concordant replicates.Profiles of concentration vs. salinity show expected Cu and Zn enrichments in SPM in the upper estuary and a non conservative decrease seaward. As a whole, Cu and Zn concentration range from 100 ppm (at 5 psu) to 0.6 ppm (at 30psu) and from 600 ppm (at 5 psu) to 100 ppm (at 30psu), respectively. Delta66Zn values of SPM describe a positive linear correlation with salinity, i.e. a "conservative" trend from 0.24 ± 0.07 per mil at 1 psu to 0.61 ± 0.01 per mil at 30 psu. In contrast, delta65Cu shows rapid variations from 0.00 ± 0.03 per mil at 1 psu to +0.99 ± 0.03 per mil at 3 psu down to -0.78 ± 0.02 per mil at 13 psu. Those contrasted behavior and amplitude of variation may reflect differences in reactivity of species related to Cu and Zn speciation, as can be revealed by acidimetric titration. When both seasons are considered, delta65Cu variations in the SPM are more important in April 2003 relative to November 2002 (1.44 against 0.37 per mil, respectively), while delta66Zn results show no significant seasonal change. Compared to sediments, SPM samples are systematically enriched in light Cu and Zn isotopes in the lower estuary (downstream the Maximum Turbidity Zone) where sediments show a regular increase in delta66Zn and delta65Cu seaward.This study provides a stepping-stone for further investigation of exchange processes of metals between particulate and dissolved phases in estuarine environment. These preliminary results pinpoint significant spatial and temporal variations in isotopic compositions of particulate Cu and Zn as well as contrasted isotopic signatures between sediments and suspended particulate matter. Cu and Zn isotopic variations within estuarine particulate phases suggest to revisit the use of particulate Cu and Zn for constraining their biogeochemical, behavior, so far essentially studied via the dissolved phase.

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