Title of article
Characterization and speciation of mercury-bearing mine wastes using X-ray absorption spectroscopy
Author/Authors
Christopher S. Kima، نويسنده , , U، نويسنده , , Gordon E. Brown Jr.، نويسنده , , James J. Rytubab، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2000
Pages
12
From page
157
To page
168
Abstract
Mining of mercury deposits located in the California Coast Range has resulted in the release of mercury to the
local environment and water supplies. The solubility, transport, and potential bioavailability of mercury are
controlled by its chemical speciation, which can be directly determined for samples with total mercury concentrations
greater than 100 mg kgy1 ppm. using X-ray absorption spectroscopy XAS.. This technique has the additional
benefits of being non-destructive to the sample, element-specific, relatively sensitive at low concentrations, and
requiring minimal sample preparation. In this study, Hg LIII-edge extended X-ray absorption fine structure EXAFS.
spectra were collected for several mercury mine tailings calcines. in the California Coast Range. Total mercury
concentrations of samples analyzed ranged from 230 to 1060 ppm. Speciation data mercury phases present and
relative abundances. were obtained by comparing the spectra from heterogeneous, roasted calcined. mine tailings
samples with a spectral database of mercury minerals and sorbed mercury complexes. Speciation analyses were also
conducted on known mixtures of pure mercury minerals in order to assess the quantitative accuracy of the technique.
While some calcine samples were found to consist exclusively of mercuric sulfide, others contain additional, more
soluble mercury phases, indicating a greater potential for the release of mercury into solution. Also, a correlation was
observed between samples from hot-spring mercury deposits, in which chloride levels are elevated, and the presence
of mercury-chloride species as detected by the speciation analysis. The speciation results demonstrate the ability of
XAS to identify multiple mercury phases in a heterogeneous sample, with a quantitative accuracy of "25% for the
mercury-containing phases considered. Use of this technique, in conjunction with standard microanalytical techniques
such as X-ray diffraction and electron probe microanalysis, is beneficial in the prioritization and remediation
of mercury-contaminated mine sites.
Keywords
mercury , mine , X-ray absorption spectroscopy , Speciation , Extended X-ray absorption fine structure , Calcine
Journal title
Science of the Total Environment
Serial Year
2000
Journal title
Science of the Total Environment
Record number
982384
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