Mercury speciation in solid sample matrices has been investigated using high
performance liquid chromatography (HPLC) coupled with multicollector sector field (MCSF)
and quadrupole (Q) inductively coupled plasma mass spectrometry (ICP-MS) for
species specific isotope dilution mass spectrometry (IDMS). 199Hg enriched
methylmercurychloride has been synthesised and recovered in the solid form for use as a
spike material. The stability of methylmercury during the IDMS procedure was
investigated using 199Hg and 13C labelled methylmercury isotopomers and ¹H Nuclear
Magnetic Resonance spectroscopy. IntermoIecuJar exchange of the methylmercury halide
counter ion was observed, the halide counter ion order of preference was l>Br>Cl. No
evidence was found for the decomposition, or formation, of methylmercury during
equilibration with soil (NIST2710 SRM) or dogfish muscle (DORM-2 CRM), or during
chromatographic separation.
The extent of equilibration between the spike and the particulate bound
mercury compounds was studied by temporal monitoring of the 200Hg:199Hg isotope
amount ratio and determining the amount of Hg species in the liquid phase. For N1ST2710,
complete equilibration was only achieved when concentrated HNO3 in combination with a
microwave digestion was employed. For DORM-2, complete equilibration was achieved
when using 1:1 H2O.CH3OH v\v and 0.01 % 2-mercaptoethanol as the solvent, even though
only 47% of the analyte was extracted into the liquid phase.
The mass fraction of methylmercurychloride has been determined in E)ORM-2 and
BCR464 lobster hepatopancreas CRM by two different procedures, single IDMS and
approximate matching double IDMS. Mercury cold vapour generation of the HPLC
column eluent allowed isotope amount ratios measurements by MC-SF-ICP-MS. For each
CRM the mass fraction of methylmercury determined by the two IDMS methods was not
statistically different, within the limits of uncertainty, from the certified values. An
uncertainty budget for both IDMS procedures has been formulated to allow the
performance of each method to be compared
For single IDMS the major uncertainty contribution was derived from the
within replicate uncertainty, Uwithin The combined standard uncertainty of each replicate
analysis was dominated by two components, the uncertainty associated with the natural
isotonic abundance 200Hg: 199Hg isotope amount ratio and the uncertainty associated with
the 199Hg enriched methylmercurychloride spike mass fraction. The between blend
standard uncertainty, Ubetween, was the major contributor to the expanded uncertainty for
approximate matching double IDMS. The combined standard uncertainty for each
individual replicate was dominated by the contribution from the standard uncertainty
associated with the measured 200Hg:199Hg isotope amount ratios in the spiked sample and
the mass bias calibration blend.
Date of Award | 2003 |
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Original language | English |
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Awarding Institution | |
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UNCERTAINTY CONTRIBUTIONS TO SPECIES SPECIFIC ISOTOPE DILUTION ANALYSIS
Clough, R. (Author). 2003
Student thesis: PhD