Innovative method for provenance studies in cultural heritage: A new algorithm based on observables from high-resolution Raman spectra of red ochre

[Display omitted] •The non-destructive analysis of ochre-stained bones and non-flaked tools.•The innovative application of high-resolution Raman spectroscopy.•The development of a robust method for the provenance determination that leverages AI technology. Red ochre, typically derived from iron oxid...

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Bibliographic Details
Published in:Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy Molecular and biomolecular spectroscopy, 2024-12, Vol.329, p.125581, Article 125581
Main Authors: Pisu, Francesca Assunta, Porcu, Stefania, Carboni, Raffaela, Mameli, Valentina, Cannas, Carla, Naitza, Stefano, Melis, Rita Teresa, Mussi, Margherita, Chiriu, Daniele
Format: Article
Language:English
Subjects:
Artificial intelligence
Cultural heritage diagnostics
Non-destructive techniques
Ochre analysis
Provenance determination
Raman spectroscopy
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Summary:[Display omitted] •The non-destructive analysis of ochre-stained bones and non-flaked tools.•The innovative application of high-resolution Raman spectroscopy.•The development of a robust method for the provenance determination that leverages AI technology. Red ochre, typically derived from iron oxides and hematite, has been used since Pleistocene times for a range of different applications, practical as well as symbolic, including cave paintings and use in prehistoric burials. The importance to discover new methods for provenance determination, based on non-destructive portable techniques, represents a new challenge in the field of diagnostics of cultural heritage. This study presents the data obtained from the analysis of several non-flaked tools and ochre-stained bones, showing evidence of ochre processing at the Mesolithic site of S’omu e S’Orku in Sardinia (Italy). To investigate the provenance of the ochre (hematite phase) found on a massive stone from the site and also used to cover the bones, we propose three distinct approaches derived from high-resolution Raman spectra of ochres, aiming to identify the maximum number of observables that can be reconducted to unicity criteria. The reliability of this method enables the development of an automatic algorithm of Artificial Intelligence able to recognize the provenance of raw materials used in a range of activities. Furthermore, this study sheds light on one of the earliest and most distinctive Mesolithic burials uncovered in Sardinia to date, providing valuable insights into the human colonization of the island and the symbolic practices of its inhabitants during the Holocene epoch.
ISSN:1386-1425
DOI:10.1016/j.saa.2024.125581