• Title of article

    Characterisation and modelling of marine dissolved organic matter interactions with major and trace cations

  • Author/Authors

    Louis، نويسنده , , Yoann and Garnier، نويسنده , , Cédric and Lenoble، نويسنده , , Véronique and Omanovi?، نويسنده , , Dario and Mounier، نويسنده , , Stéphane and Pi?eta، نويسنده , , Ivanka، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    8
  • From page
    100
  • To page
    107
  • Abstract
    A two-step protocol (nano-filtration and reverse osmosis) was applied for natural organic matter (NOM) preconcentration of a seawater sample. Complexing affinities of the so concentrated marine dissolved NOM (DNOM) towards major and trace cations were studied by potentiometric and voltammetric titration techniques. The potentiometric titration experiments fitted by models describing and characterising the DNOM–cation interactions, revealed four distinct classes of acidic sites (pKa of 3.6, 4.8, 8.6 and 12). A total acidic sites density of 445 meq/molC was estimated, with a majority (60%) of carboxylic-like sites. Pseudopolarographic measurements revealed two distinct groups of copper complexes: labile, reducible at about −0.2 V; and inert, directly reducible at about −1.4 V. Simultaneous competition between copper, calcium and proton highlighted the presence of two classes of binding sites (density of 1.72 and 10.25 meq mol C - 1 , respectively, corresponding to 3% of total acidic sites). The first class was more specific to copper (log KCuL 9.9, log KCaL 2.5, pKa 8.6), whereas stronger competition between copper and calcium occurred for the second class (log KCuL 6.9, log KCaL 5.5, pKa 8.2). nding sites characterisation was validated by the very good matching of the non-concentrated seawater sample titration data with the simulated curves obtained using the binding parameters from the concentrated sample. Furthermore, this comparison also validated the applied preconcentration protocol, highlighting its negligible influence on organic matter properties when considering copper complexation.
  • Keywords
    Chemical speciation , Pseudopolarography , dissolved organic matter , marine environment , Copper complexing capacity , Voltammetry
  • Journal title
    Marine Environmental Research
  • Serial Year
    2009
  • Journal title
    Marine Environmental Research
  • Record number

    2255262