Abstract

An important issue in mercury (Hg) biogeochemistry is to explore the influence of aqueous Hg(II) forms on bacterial uptake, and subsequent methyl mercury formation, under iron(III) and sulfate reducing conditions. The success of this is dependent on relevant information on the thermodynamic stability of Hg-sulfides. In the present study, we determined the solubility of a commercially available HgS(s) phase, which was shown by X-ray diffraction to be a mixture of 83% metacinnabar and 17% cinnabar. At aqueous sulfide concentrations between 0.060 and 84 mu M, well below levels in previous studies, we report a solubility product (log K-sp +/- SE) of -36.8 +/- 0.1 (HgS(s) + H+ = Hg2+ + HS-, I = 0, T = 25 degrees C, pH 6-10, n = 20) for metacinnabar. This value is 0.7 log units higher than previous estimates. Complementing our data with data from Paquette and Helz (1997), we took advantage of a large data set (n = 65) covering a wide range of aqueous sulfide (0.06 mu M-140 mM) and pH (1-11). On the basis of this, we report refined formation constants (+/- SE) for the three aqueous Hg(II)-sulfide species proposed by Schwarzenbach and Widmer (1963): Hg2+ + 2HS(-) = Hg(SH)(2)(0); log K = 39.1 +/- 0.1, Hg2+ + 2HS(-) = HgS2H- + H+; log K = 32.5 +/- 0.1, Hg2+ + 2HS(-) = HgS22- + 2H(+); log K = 23.2 +/- 0.1. Our refined log K values differ from previous estimates by 0.2-0.6 log units. Furthermore, at the low sulfide concentrations in our study we could rule out the value of -10.0 for the reaction HgS(s) + H2O = HgOHSH(aq) as reported by Dyrssen and Wedborg (1991). By establishing a solubility product for the most environmentally relevant HgS(s) phase, metacinnabar, and extending the range of aqueous sulfide concentrations to sub-micromolar levels, relevant for soils, sediments, and waters, this study decreases the uncertainty in stability constants for Hg-sulfides, thereby improving the basis for understanding the bioavailability and mobility of Hg(II) in the environment.

Published in

Environmental Science and Technology
2013, Volume: 47, number: 9, pages: 4197-4203
Publisher: AMER CHEMICAL SOC

SLU Authors

• Skyllberg, Ulf

  • Department of Forest Ecology and Management, Swedish University of Agricultural Sciences
    

UKÄ Subject classification

Forest Science


Publication identifier

DOI: https://doi.org/10.1021/es304824n

Permanent link to this page (URI)

https://res.slu.se/id/publ/50307