Journal of Archaeological Science 88

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Journal of Archaeological Science 88

Auteur--

Editor--

Jaar2017

PublicatietypeAflevering

SerieJournal of Archaeological Science

Volume88

Subtitel--

Pagina’s53

UitgeverElsevier

PlaatsAmsterdam

ISBN--

Citation key--

Trefwoorden--

Plaatsgegevens

Exemplaar123732 ReknummerT-13-2-e

Inhoud

Identifying the reworking and stratigraphic provenance of bones by exploring multivariate geochemical relationships with the 'Perio-spot' technique 1-13
McMillan R., Weis D., Amini M. & Bonjean D.

Scladina Cave: Geographical, geological, and archaeological context , p. 2
Materials and methods . Sample collection , pp. 2-3
Materials and methods . The 'Perio-spot' technique , pp. 3-4
Materials and methods . Laser ablation - inductively coupled plasma - mass spectrometry , pp. 4-5
Materials and methods . Raman spectroscopy , p. 5
Materials and methods . Statistical analyses , pp. 5-7
Results . LA-ICP-MS and Raman analyses , p. 7
Results . Statistical analyses , p. 7
Discussion . Trace element and Raman crystallinity stratigraphic trends , p. 7
Discussion . Reworking in the Scladina sequence , pp. 7-9
Discussion . Implications for Neandertal occupation at Scladina Cave: reworking and original context of Scladina Child , pp. 9-10
Discussion . Extent of reworking, diagenetic periods, and climate , pp. 10-11
Discussion . Limitations and advantages of identifying reworking and the stratigraphic provenance of bones with the 'Perio-spot' technique , pp. 10-11
Discussion . Future work , pp. 11-12
Conclusions , p. 12

Quantitative comparisons of the color of CuAs, CuSn, CuNi, and CuSb alloys 14-23
Mödlinger M., Kuijpers M. H. G., Braekmans D. & Berger D.

Methodology , pp. 16-18
Results , pp. 18-19
Discussion , pp. 19-22
Conclusion , p. 22

Artists before Columbus: A multi-method characterization of the materials and practices of Caribbean cave art 24-36
Samson A. V. M., Wrapson L. J., Cartwright C. R., Sahy D., Stacey R. J. & Cooper J.

Introduction: integrating cave art and archaeology , pp. 24-25
Materials and methods . Sampling strategy , p. 25
Materials and methods . P-XRF data for pigments analysis , pp. 25-27
Materials and methods . Charcoal identification , p. 27
Materials and methods . Binding medium analysis , pp. 27-28
Materials and methods . Dating , pp. 28-29
Results . In situ P-XRF, visual and microscopic observation of cave art , pp. 29-32
Results . Inorganic paint constituents: SEM/EDX , p. 32
Results . Paint additives , p. 32
Results . Dating (Radiocarbon, Uranium-Thorium) , pp. 32-33
Discussion , p. 33
Conclusions , pp. 33-35

Digging deeper: Insights into metallurgical transitions in European prehistory through copper isotopes 37-46
Powell W., Mathur R., Bankoff H. A., Mason A., Bulatovic A., Filipovic V. & Godfrey L.

Introduction . Late Eneolithic and early Bronze Age cultures of the central Balkans , pp. 40-42
Introduction . The Eneolithic copper hiatus in Serbia , p. 42
Introduction . Copper isotopes and weathering processes , pp. 42-44
Methods , p. 44
Results , p. 44
Discussion , pp. 44-45

Bronze Age iron: Meteoritic or not? A chemical strategy 47-53
Jambon A.

Results . Iron meteorites , p. 48
Results . Bronze Age archaeological artifacts , pp. 48-49
Results . Transition artifacts , p. 49
Results . Iron age artifacts , p. 50
Results . Ni bearing iron ores , pp. 50-51
Discussion . The effect of weathering , p. 51
Discussion . The effect of smelting , pp. 51-52
Conclusions , p. 52

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