Published September 8, 2016 | Version v1
Poster Open

A new tool to human provenancing? Neodymium in a forensic and archaeological context.


The addition of another isotope system to the human provenance repertoire can potentially provide us with more specific information on the region of origin of a person, as well as address some of the limitations that are currently still related to the now commonly used isotopic techniques: oxygen (O), hydrogen (H), strontium (Sr) and lead (Pb). This study reports on the viability of using neodymium isotopes (143Nd/144Nd) as a possible tool to track the origins of humans. Nd is a light rare earth element (REE), which is, in contrast to what the name suggests, widely distributed in the Earth’s crust. Due to the isotopic variations in the crust Nd isotopes have previously been successfully applied to identify the production centres of glass archaeological artefacts (Ganio et al. 2013). The tendency of the human body to filter out non-essential elements means that REE concentrations are very low in human teeth (Nd <0.1 ppm), making previous Nd isotope analysis of human tissue impossible. Due to recent developments in mass spectrometry the analysis of Nd has become achievable and results can be used to complement information derived from other isotope systems. We report the optimisation of chromatographic methods to separate Nd from bio-apatite. Sub-nanogram amounts of Nd were analysed using a latest generation thermal ionization mass spectrometer (TRITON-Plus) equipped with 1013 Ω resistors at the Vrije Universiteit Amsterdam (Koornneef et al. 2014; 2015). This study presents the neodymium results of third molars from modern Dutch residents. These results will then be compared to O, Sr and Pb data, demonstrating the possibilities for Nd as a new forensic and an archaeological human provenancing tool.


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NEXUS1492 – NEXUS 1492. New World Encounters in a Globalising World. 319209
European Commission


  • Font, L., G. Jonker, P.A. van Aalderen, E.F. Schiltmans, G.R. Davies 2014. Provenancing of unidentied World War II casualties: Application of strontium and oxygen isotope analysis in tooth enamel, Sci Justice, 10.1016/j.scijus.2014.02.005
  • Neuberger, F.M., E. Jopp, M. Graw, K. Püschel and G. Grupe, 2013. Signs of malnutrition and starvation: Reconstruction of nutritional life histories by serial isotopic analyses of hair. Forensic Sci Int 226, 22–32, 0.1016/j.forsciint.2012.10.037
  • Degryse and Schneider 2008. Pliny the Elder and Sr Nd isotopes: tracing the provenance of raw materials for Roman glass production. J Archaeol Sci 35, 1993-2000.10.1016/j.jas.2008.01.002
  • Laoon, J.E., E. Plomp, G.R. Davies, M.L.P. Hoogland and C.L. Hofman, 2013. The movement and exchange of dogs in the Prehistoric Caribbean: an isotopic investigation. Int J of Osteoarchaeol.
  • Banner, J.L., 2004. Radiogenic isotopes: systematics and applications to earth surface processes and chemical stratigraphy. Earth-Sci Rev 65, 141–194
  • Jeandel, C., T. Arsouze, F. Lacan, P. Techine and J. Dutay, 2007. Isotopic Nd compositions and concentrations of the lithogenic inputs into the ocean: A compilation, with an emphasis on the margins. Chem Geo 239, 156–164
  • Tütken, T., T.W. Vennemann and H.-U. Pfretzschner, 2011. Nd and Sr isotope compositions in modern and fossil bones – Proxies for vertebrate provenance and taphonomy. Geochim Cosmochimi Ac 75, 5951–5970
  • Trickett, M.A., P. Budd, J. Montgomery and J. Evans, 2003. An assessment of solubility proling as a decontamination procedure for the 87Sr/86Sr analysis of archaeological human skeletal tissue. Appl Geochem 18, 653–658
  • Hillson S. 1996. Dental Anthropology. Cambridge University Press: Cambridge
  • Koornneef, J.M., C. Bouman, J.B. Schwieters and G.R. Davies, 2014. Measurement of small ion beams by thermal ionisation mass spectrometry using new 1013 Ohm resistors. Anal Chim Acta 819, 49–55.
  • Kuhlmann, G., P.L. de Boer, R.B. Pedersen and T.E. Wong, 2004. Provenance of Pliocene sediments and paleoenvironmental changes in the southern North Sea region using Samarium–Neodymium (Sm/Nd) provenance ages and clay mineralogy. Sediment Geol 171(1-4)
  • Bayon, G., S. Toucanne, C. Skonieczny, L. Andre, S. Bermell, B. Dennielou, J. Etoubleau, N. Freslon, T. Gauchery, S. Cheron, Y. Germain, S.J. Jorry, G.Ménot, L. Monin, E. Ponzevera, M.-L. Rouget, K. Tachikawa, J.A. Barrat. 2015. Rare earth elements and neodymium isotopes in world river sediments revisited. Geochim Cosmochimi Ac 170, 17-38.