Determination of Sr isotopes in calcium phosphates using laser ablation inductively coupled plasma mass spectrometry and their application to archaeological tooth enamel

The determination Of accurate Sr isotope ratios in calcium phosphate matrices by laser ablation multi-collector ICP-MS is demonstrated as possible even with low Sr concentration archaeological material. Multiple on-line interference correction routines for doubly-charged REE, Ca dimers and Rb with additional calibration against TIMS-characterised materials are required to achieve this. The calibration strategy proposed uses both inorganic and biogenic apatite matrices to monitor and correct for a Ca-40-P-31-O-16 polyatomic present at levels of 0.3-1% of the non-oxide peak, which interferes on Sr-87 causing inaccuracies of 0.03-0.4% in the Sr-87/Sr-86 isotope ratio. The possibility also exists for synthetic materials to be used in this calibration. After correction for interferences total combined uncertainties of 0.04-0.15% (2SD) are achieved for analyses of 13-24 mu g of archaeological tooth enamel with Sr concentrations of ca. 100-500 ppm using MC-ICP-MS. In particular, for samples containing >300 ppm Sr, total uncertainties of similar to 0.05% are possible utilising 7-12 ng Sr. Data quality is monitored by determination of Sr-84/Sr-86 ratios. When applied to an archaeological cattle tooth this approach shows Sr-isotope variations along the length of the tooth in agreement with independent TIMS data. The Ca-40-P-31-O-16 polyatomic interference is the root cause of the bias at mass 87 during laser ablation ICP-MS analysis of inorganic and biogenic calcium phosphate (apatite) matrices. This results in inaccurate Sr-87/Sr-86 ration; even after correction of Ca dirners and doubly charged rare earth elements. This interference is essentially constant at specific ablation conditions and therefore the effect on Sr-87/Sr-86 data varies in proportion to changes in the Sr concentration of the ablated material. Complete elimination of this interference is unlikely through normal analytical mechanisms and therefore represents a limitation on the achievable accuracy of LA-(MC-)ICP-MS Sr-87/Sr-86 data without rigorous calibration to known reference materials. (C) 2008 Elsevier Ltd. All rights reserved.