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Archaeological applications of natural gold analyses

Archaeological applications of natural gold analyses
Archaeological applications of natural gold analyses
Compositional studies of natural gold usually have a geological focus, but are also important in archaeological provenancing. Both methodologies rely on compositional comparison of two sets of samples, one of which is geographically constrained. Here we describe how experiences in gold characterization resulting from geological studies are relevant to archaeology. Microchemical characterization of polished sections of natural gold identifies alloy compositions, alloy heterogeneity and mineral inclusions. Gold from all deposit types shows Cu and Sn values much lower than those recorded during numerous studies of artefacts. Inclusions in
artefact gold include various Cu- and Sn-bearing compounds which indicate specific high temperature reactions that could ultimately illuminate the conditions of (s)melting. The use of LA-ICP-MS to generate a wide range of elemental discriminants for provenance studies may be compromised by alloy adulteration and/or unrepresentative analysis of natural/artefact alloys, which are commonly highly heterogeneous at the micron scale. Geological studies normally characterize only the earliest-formed (hypogene) alloy, whereas archaeology-focused studies should entail analyses of bulk alloy compositions and impurities that may be incorporated during(s) melting. Isotopic-based provenancing alleviates many of these problems but, to date, generates regional rather than locality-specific targets. A dual isotopic–compositional approach is recommended.
0305-8719
401-424
Standish, Christopher
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Chapman, Robert
a330ae11-8899-4520-8e62-dec599ed5228
Moles, Norman
00531792-7a61-4d0e-8587-37d4dfde004b
Walshaw, Richard
f25233a5-fe80-4dce-a6aa-946cf739a626
Sheridan, Alison
31215d59-d613-4478-bbcc-bdad23a6d122
Standish, Christopher
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Chapman, Robert
a330ae11-8899-4520-8e62-dec599ed5228
Moles, Norman
00531792-7a61-4d0e-8587-37d4dfde004b
Walshaw, Richard
f25233a5-fe80-4dce-a6aa-946cf739a626
Sheridan, Alison
31215d59-d613-4478-bbcc-bdad23a6d122

Standish, Christopher, Chapman, Robert, Moles, Norman, Walshaw, Richard and Sheridan, Alison (2022) Archaeological applications of natural gold analyses. Geological Society, London, Special Publications, 516, 401-424. (doi:10.1144/SP516-2021-59).

Record type: Article

Abstract

Compositional studies of natural gold usually have a geological focus, but are also important in archaeological provenancing. Both methodologies rely on compositional comparison of two sets of samples, one of which is geographically constrained. Here we describe how experiences in gold characterization resulting from geological studies are relevant to archaeology. Microchemical characterization of polished sections of natural gold identifies alloy compositions, alloy heterogeneity and mineral inclusions. Gold from all deposit types shows Cu and Sn values much lower than those recorded during numerous studies of artefacts. Inclusions in
artefact gold include various Cu- and Sn-bearing compounds which indicate specific high temperature reactions that could ultimately illuminate the conditions of (s)melting. The use of LA-ICP-MS to generate a wide range of elemental discriminants for provenance studies may be compromised by alloy adulteration and/or unrepresentative analysis of natural/artefact alloys, which are commonly highly heterogeneous at the micron scale. Geological studies normally characterize only the earliest-formed (hypogene) alloy, whereas archaeology-focused studies should entail analyses of bulk alloy compositions and impurities that may be incorporated during(s) melting. Isotopic-based provenancing alleviates many of these problems but, to date, generates regional rather than locality-specific targets. A dual isotopic–compositional approach is recommended.

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Accepted/In Press date: 7 September 2021
e-pub ahead of print date: 29 October 2021
Published date: 10 June 2022

Identifiers

Local EPrints ID: 452642
URI: http://eprints.soton.ac.uk/id/eprint/452642
DOI: doi:10.1144/SP516-2021-59
ISSN: 0305-8719
PURE UUID: 6e0da0ef-1563-42ef-9dd7-fc454662dd34
ORCID for Christopher Standish: ORCID iD orcid.org/0000-0002-9726-295X

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Date deposited: 11 Dec 2021 11:30
Last modified: 17 Mar 2024 06:56

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Author: Christopher Standish ORCID iD
Author: Robert Chapman
Author: Norman Moles
Author: Richard Walshaw
Author: Alison Sheridan

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