Evaluation of relative comparator and k₀-NAA for characterization of Aboriginal Australian ochre
Date
2012
Authors
Popelka-Filcoff, R.
Lenehan, C.
Glascock, M.
Bennett, J.
Stopic, A.
Quinton, J.
Pring, A.
Walshe, K.
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Journal article
Citation
Journal of Radioanalytical and Nuclear Chemistry: an�International Journal dealing with all Aspects�and Applications of Nuclear Chemistry, 2012; 291(1):19-24
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Rachel S. Popelka-Filcoff, Claire E. Lenehan, Michael D. Glascock, John W. Bennett, Attila Stopic, Jamie S. Quinton, Allan Pring, Keryn Walshe
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Abstract
Ochre is a significant material in Aboriginal Australian cultural expression from ceremonial uses to its application on many types of artifacts. However, ochre is a complex material, with associated surrounding minerals potentially challenging the overall analysis. In recent literature several studies have attempted to characterize ochre by a variety of techniques to understand procurement and trade. However, ochre is difficult to differentiate on major elemental or mineralogical composition and requires a detailed analysis of its geochemical “fingerprint”. Neutron activation analysis (NAA) provides the high sensitivity (sub-ppm), precision and accuracy in multi-elemental analysis required for ochre. The elements of interest for ochre generally include rare earth elements (REEs) and certain transition metal elements as well as arsenic and antimony. Data from relative comparator NAA (MURR, University of Missouri, USA) is compared with data from k 0-NAA OPAL (ANSTO, Lucas Heights, Australia). A discussion of the two methods will be examined for their utility in “fingerprinting” the provenance of ochre. The continuing importance of NAA to archaeometry will also be discussed.
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© Akade´miai Kiado´, Budapest, Hungary 2011