Evaluation of the Capabilities of a Portable X-ray Fluorescence
Analyzer for Differentiation of Lithic Raw Materials of AeolianCorraded Artifacts (Based on the Materials of the Osa-Unga
Wide Section of the Bratsk Reservoir)

I. M. Berdnikov; I. S. Shegutov; N. B. Sokolova

List of issues > «Geoarchaeology, Ethnology, and Anthropology Series». 2024. Vol 49

Evaluation of the Capabilities of a Portable X-ray Fluorescence Analyzer for Differentiation of Lithic Raw Materials of AeolianCorraded Artifacts (Based on the Materials of the Osa-Unga Wide Section of the Bratsk Reservoir)

Full text (russian)

Author(s)

I. M. Berdnikov, I. S. Shegutov, N. B. Sokolova

Abstract

The results of X-ray fluorescence analysis using a portable spectrometer (_pXRF) are presented, carried out on a collection of stone aeolian-corraded artifacts from the Melkhitui 2 and Bilchir 4 sites, which are located in the OsaUnga wide section of the Bratsk Reservoir. The aim of the study was to determine a suitable geochemical indicator for identifying blocks of raw materials and groups of rocks similar in composition that were used in lithic production by the Paleolithic population of the Angara region. As a result of the analysis of the aggregate data, it was established that the raw materials are quite diverse and are represented by three main types of rocks: 1) metamorphic/metasedimentary – quartzite, quartzite-sandstone of varying degrees of metamorphism and structure, as well as crystalline schist; 2) sedimentary – mainly sandstone and a small amount of chert; 3) and igneous, among which one granitoid sample stands out, and the rest are varieties of extrusive rock. Considering the petrographic features of the collection, it can be assumed that the sources of raw materials may be associated with Jurassic deposits, which are widespread in the Upper Angara region. For a general characterization of the chemical composition of artifacts and differential diagnostics of rocks (primarily metasedimentary and sedimentary), an analysis of the pXRF data was carried out based on the ratio of aluminosilicate (AM) and hydrolysate (HM) petrochemical modules. In search of the best options for geochemical discrimination, various indicators were tested using different elements, including Al, Ti, Rb, Sr, Y, Zr, Ba. All of them turned out to be practically useless for identifying groups of samples close in composition, which would be similar in color, structure and texture of the rock. As a result, it was established that the best results are demonstrated by the K/Rb to Al₂O₃ ratio, which made it possible to identify 12 groups of tools that are close to each other both in terms of indicator values and in terms of the physical characteristics of the rock. It was concluded that in eight cases they could have been made from a single block of raw material, and in the remaining cases from different blocks, which at the same time have a common genesis and, apparently, a single stratigraphic position in the deposits.

About the Authors

Berdnikov Ivan Mikhailovich, Candidate of Sciences (History), Senior Researcher, Deputy Director for Science, Science of Scientific Research Center “Baikal Region”, Irkutsk State University; 1, K. Marx st., Irkutsk, 664003, Russian Federation, e-mail: yan-maiski@yandex.ru

Shegutov Ivan Sergeevich, Junior Researcher, Scientific Research Center “Baikal Region”, Irkutsk State University; 1, K. Marx st., Irkutsk, 664003, Russian Federation, e-mail: shegutow@gmail.com

Sokolova Natalia Borisovna, Junior Researcher, Scientific Research Center “Baikal Region”, Irkutsk State University; 1, K. Marx st., Irkutsk, 664003, Russian Federation, e-mail: snb-87@mail.ru

For citation

Berdnikov I. M., Shegutov I. S., Sokolova N. B. Evaluation of the Capabilities of a Portable X-ray Fluorescence Analyzer for Differentiation of Lithic Raw Materials of Aeolian-Corraded Artifacts (Based on the Materials of the Osa-Unga Wide Section of the Bratsk Reservoir). Bulletin of the Irkutsk State University. Geoarchaeology, Ethnology, and Anthropology Series. 2024, Vol. 49, pp. 3–14. https://doi.org/10.26516/2227-2380.2024.49.3 (In Russ.)

Keywords

Baikal-Yenisei Siberia, Bratsk Reservoir, Early and Middle Paleolithic, pebble industry, aeolian-corraded artifacts, elemental analysis, portable X-ray fluorescence spectrometer.

UDC

902.65(571.53)

DOI

https://doi.org/10.26516/2227-2380.2024.49.3

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