Formation and stability of mixed Mg super(2) super(+)/Ca super(2) super(+)/phytate species in synthetic seawater media

• Published in: Marine chemistry Vol. 112; no. 3-4; pp. 142 - 148
• Main Authors: Crea, P, De Stefano, C, Milea, D, Sammartano, S
• Format: Journal Article
• Language: English
• Published: 16.12.2008
• Subjects: Marine
• ISSN: 0304-4203
• DOI: 10.1016/j.marchem.2008.10.001

The results of a potentiometric investigation (by ISE-H super(+), glass electrode) on the speciation of phytate ion (Phy super(1) super(2) super(-)) in an ionic medium simulating the major components (Na super(+), K super(+), Ca super(2) super(+), Mg super(2) super(+), Cl super(-) and SO sub(4) super(2) super(-)) of natural seawater, at different salinities and t=25 super(o)C, are reported. The work was particularly aimed at determining the possible formation of mixed Ca super(2) super(+)-Mg super(2) super(+)-phytate ion pairs, and to establish how including the formation of these mixed species would affect the speciation modeling in seawater media. After testing various speciation models, that considering the formation of the MgCaH sub(3)Phy super(5) super(-), MgCaH sub(4)Phy super(4) super(-), Mg sub(2)CaH sub(3)Phy super(3) super(-) and Mg sub(2)CaH sub(4)Phy super(2) super(-) species was accepted, and corresponding stability constants were determined at two salinities (S=5, 10). A discussion is reported both on the choice of the experimental conditions and on the possibility to extend these results to those typical of real seawater. A detailed procedure is also described to demonstrate that the stability of these species is higher than that statistically predicted. As reported in literature, a parameter, namely log X, has been determined in order to quantify this extra stability for the formation of each mixed species at various salinities. For example, at S=10, log X sub(1) sub(1) sub(3)=2.67 and log X sub(1) sub(1) sub(4)=1.37 for MgCaH sub(3)Phy super(5) super(-) and MgCaH sub(4)Phy super(4) super(-) (statistical value is log X sub(s) sub(t) sub(a) sub(t)=0.60), and log X sub(2) sub(1) sub(3)=6.11 and log X sub(2) sub(1) sub(4)=2.15 for Mg sub(2)CaH sub(3)Phy super(3) super(-) and Mg sub(2)CaH sub(4)Phy super(2) super(-) (log X sub(s) sub(t) sub(a) sub(t)=1.43), respectively. Results obtained also showed that the formation of these species may occur even in conditions of low salinity (i.e. low concentration of alkaline earth cations) and low pH (i.e., more protonated ligand).