US EPA

3022478 

Journal Article 

Laser ablation U-series analysis of fossil bones and teeth 

Gruen, R; Eggins, S; Kinsley, L; Moseley, H; Sambridge, M 

2014 

1 

Palaeogeography, Palaeoclimatology, Palaeoecology
ISSN: 0031-0182 

416 

150-167 

10.1016/j.palaeo.2014.07.023 

WOS:000346216100014 

Over the past decade, we have applied laser ablation ICP mass spectrometry U-series analysis to a large number of bones and teeth. The method is fast and provides high-resolution data of U-series isotopes, which give insights into the complexity of uranium migration into, within and out of bones. In this paper, we present our laser ablation approach in detail, from the experimental set up, to data reduction and uranium diffusion modelling. Laser ablation analysis can now be applied with minimum damage. Complete diffusion data sets can be obtained by laser drilling which leaves a hole of around 200 pm in diameter and 1-2 mm depth. If the natural U-diffusion follows a simple single-stage process, valuable age information can be obtained. In other cases, highly complex U-migrations have been observed, which make any age assessment impossible. Two examples from Wadjak and Callao illustrate the potential of nearly non-destructive laser ablation U-series analysis of human skeletal tissues. The results demonstrate the physical presence of modem humans in south-east Asia at a time when our species just started to migrate into Europe. Crown Copyright (C) 2014 Published by Elsevier B.V. All rights reserved. 

U-series dating; Laser ablation analysis; Human fossils; Wajak; Callao; Garba Ill Melka Kunture