Abstract
Routine generation of large Rb-Sr age datasets has been limited by the time-consuming requirement of chromatographic isolation of Sr from Rb to avoid the isobaric interference of (87)Rb(+) on (87)Sr(+). Recently, direct measurement of interference-free (87)Sr/(86)Sr has become possible with the advent of tandem quadrupole inductively coupled plasma mass spectrometry (ICP-MS/MS). Here, we describe a method that uses ICP-MS/MS to measure (87)Sr/(86)Sr combined with a standard addition calibration for precise determination of Rb/Sr, allowing efficient generation of Rb-Sr ages. The method is demonstrated on a suite of ~50 to 90 Myrs (million years) old celadonite samples that are dated with age uncertainties typically of ±2 to 5 Myrs provided the sample Rb/Sr is >2. A method to separate the phyllosilicate fraction from the bulk sample, because it commonly has a higher Rb/Sr more suitable for dating, using differential settling is also described.•Differential settling allows high Rb/Sr phyllosilicates to be separated from other phases•ICP-MS/MS allows (87)Sr/(86)Sr measurement without chromatographic isolation of Sr(+) from Rb(+)•Single-spike standard addition ICP-MS was used for Rb/Sr measurement.