PRECISE DETERMINATION OF ISOTOPIC-RATIOS FOR SOME BIOLOGICALLY SIGNIFICANT ELEMENTS BY INDUCTIVELY-COUPLED PLASMA-MASS SPECTROSCOPY

Isotope ratios for copper, iron, lead, lithium, nickel and zinc were measured with an ELAN 5000 ICP-MS instrument. Except for lithium isotopes, ratio relative standard deviations (RSDs) of about 0.1% were achieved with measurement times of 10 min or less per sample on isotope pairs that differed by no more than a factor of 10 in abundance. It was necessary to accumulate several million counts to reduce statistical counting errors, to correct for the dead time in the counting circuitry, and to compensate for a slow drift of apparent ratios with time. Drift compensation was achieved by using a third isotope of the test element, by adding two internal standard elements with isotopes bracketing the mass range of interest, or by frequent recalibration with a standard of known abundances. Attempts to compensate for drift in lithium isotope ratios were not successful and typical RSDs for (LiLi)-Li-6-Li-7 remained around 0.5%. Copper and zinc ratios were measured in pig feces with ratio precision and drift behavior essentially identical to that seen for synthetic solutions.