Determination of the REE in geological reference materials DTS-1 (dunite) and PCC-1 (Peridotite) by ultrasonic and microconcentric desolvating nebulisation ICP-MS

Inductively coupled plasma-mass spectrometry is well suited for the precise, accurate and rapid determination of rare earth elements in most geological samples. However, determination of rare earth elements in certain mantle-derived materials, without applying preconcentration techniques, remains problematical due to low natural concentrations (generally < 1 ng g(-1)). Consequently, USGS reference materials DTS-1 (a dunite) and PCC-1 (a partially serpentinized harzburgite) have only suggested rather than recommended values for the rare earth elements in reference material compilations. We compared results obtained using two ICP-MS instruments: a U-5000AT ultrasonic nebuliser coupled to a PQ2+ quadrupole ICP-MS and an ELEMENT sector field ICP-MS equipped with a MCN-6000 microconcentric desolvating nebuliser, with the suggested literature values for these two reference materials. Precision and accuracy of analytical methods employed by both instruments were demonstrated by excellent relative standard deviations (< +/- 2%) and interlaboratory agreement (< +/- 5%) for numerous analyses of BHVO-1 and BIR-1, which are well established with rare earth elements contents at the mu g g(-1) level. Repeat analyses of DTS-1 and PCC-1 at each laboratory indicate that each method is generally precise to better than +/- 5% at sub-mu g g(-1) levels. Furthermore, values from both instruments generally agree to within +/- 10%. Our DTS-1 and PCC-1 values agree reasonably well with selected data reported in the literature (except for Ce and Sm in DTS-1) but exhibit poorer agreement with reported compilation values. With the demonstrated level of precision and accuracy, we contend that these new values for DTS-1 and PCC-1, generated by two different instruments, are the best estimates of the true whole-rock composition of these samples reported to date.