Influence of chloride and sediment matrix on the extractability of HgS (cinnabar and metacinnabar) by nitric acid

摘要

The extractability of metacinnabar and cinnabar, alone or in the presence of some sediment components, with various concentrations of HNO3 (1, 4, 6, and 14 M) was studied. Both forms of HgS (0.2-0.3 mg HgS in 10-20 mL of acid) were insoluble in all HNO_3 concentrations as pure compounds. The presence of FeCl_3 enhanced solubility of both cinnabar and metacinnabar, especially when concentrated HNO_3 was used for the extraction. As the same effect was not obtained in the presence of FeOOH, we concluded that chloride and not Fe~(3+) was responsible for HgS dissolution. In fact, addition of very low chloride concentration to concentrated HNO_3 provoked partial (Cl>10~(-4) M) or even total dissolution (Cl>10~(-2) M) of HgS. In dilute HNO3 (4-6 M) cinnabar was much less affected by chloride addition than metacinnabar. Extraction of HgS by concentrated HNO_3 in the presence of sediment of various salinities demonstrated that the amount of dissolved HgS increased with the increase of the sediment salinity (from freshwater to estuarine and marine sediment), confirming that chloride enhances dissolution of HgS. Removal of chloride by washing the sediment with Milli-Q water significantly reduced dissolution of added HgS during extraction by concentrated HNO_3. These results demonstrate that conclusions based on the extraction schemes using concentrated HNO_3 as single extractant or as the first extractant in the sequential extraction procedures can be biased. A verification of artifactual oxidation of HgS, when using more concentrated HNO_3 as extractant, would help to verify reliability of the applied extraction procedure.