Pure and Applied Chemistry

Abstract: Complex formation between Cu^II and the common environmental ligands Cl^-, OH^-, CO₃^2-, SO₄^2-, and PO₄^3- can have a significant effect on Cu^II speciation in natural waters with low concentrations of organic matter. Copper(II) complexes are labile, so the Cu^II distribution amongst these inorganic ligands can be estimated by numerical modeling if reliable values for the relevant stability (formation) constants are available. This paper provides a critical review of such constants and related thermodynamic data. It recommends values of log₁₀β_p,q,r° valid at I_m = 0 mol kg^-1 and 25 °C (298.15 K), along with the equations and specific ion interaction coefficients required to calculate log₁₀β_p,q,r values at higher ionic strengths. Some values for reaction enthalpies, ΔrHm, are also reported where available. In weakly acidic fresh water systems, in the absence of organic ligands, Cu^II speciation is dominated by the species Cu²⁺(aq), with CuSO₄(aq) as a minor species. In seawater, it is dominated by CuCO₃(aq), with Cu(OH)⁺, Cu²⁺(aq), CuCl⁺, Cu(CO₃)OH^-, Cu(OH)₂(aq), and Cu(CO₃)₂^2- as minor species. In weakly acidic saline systems, it is dominated by Cu²⁺(aq) and CuCl⁺, with CuSO₄(aq) and CuCl₂(aq) as minor species.