A new method for U-Th-Pa-Ra separation and accurate measurement of 234U-230Th-231Pa226Ra disequilibria in volcanic rocks by MC-ICPMS

A new method for the chemical separation and MC-ICPMS measurements of U-Th-Pa-Ra disequilibria in volcanic samples from a single sample aliquot is presented. The accuracy and precision of our techniques is assessed by replicate analyses of the synthetic U and Th isotope standards IRMM-184 and IRMM-35, and the secular equilibrium rock standards BCR-2, W-2a and TML. A measure of true sample reproducibility including the errors related to sample processing and the chemical separation is obtained from analysis of multiple digestions of the rock standards. 234U/238U, 230Th/238U, 231Pa/235U and 226Ra/230Th activity ratios on ten separate dissolutions of USGS rock standard BCR-2, for example, reproduce to 0.4%, 1.4%, 1.1% and 2.4% (2 SD), respectively. All elements (U-Th-Pa-Ra) are separated from a single spiked sample aliquot and the elemental concentrations are measured on the same solutions as the isotopic compositions. Analytical artefacts from determination of elemental and isotopic concentrations on different sample aliquots due to sample heterogeneity are therefore avoided. In addition, our new chemical separation protocol is time-efficient and allows for rapid processing of volcanic samples with less than 25fg of Pa and Ra. A new chemical separation method for U-Th-Pa-Ra from a single sample aliquot. Detailed MC-ICPMS procedures to determine U-series disequilibria in volcanic rocks. Reproducibility of multiple analyses on separate digestions of BCR2, W2a and TML. The method is less time consuming and avoids the problem of sample heterogeneity.