Translartion. Region: Russians Fedetion –
Source: Novosibirsk State University – Novosibirsk State University –
In the Laboratory of Nuclear and Innovative Medicine Physics Department of NSU Research is being conducted on archaeological finds from the collections of the Institute of Archaeology and Ethnography of the Siberian Branch of the Russian Academy of Sciences using a computer tomograph. Until recently, this device was used by the laboratory’s research staff in preclinical studies of neuron capture therapy to examine animals and solve similar problems. However, the technical capabilities of the computer tomograph allow us to study not only biological but also non-biological objects. Currently, computer tomography is being performed on composite bone and horn tools from the late Pleistocene-early Holocene.
Composite tools – in this case knives, arrowheads and spearheads – made using insert technology. They are a horn or bone base with grooves cut along the edges, into which cutting elements are successively attached – sharp, elongated knife-shaped stone plates. They are fixed in the grooves using glue of plant or animal origin: resin, tar, bone glue, honey or clay. Such tools appeared in Eastern Siberia about 15 thousand years ago and in a short time became widespread throughout its territory.
The project of the junior researcher at the Institute of Archeology and Ethnography of the SB RAS Ekaterina Bocharova, who received the support of the RNF grant (No. 25-79-30002), is aimed at a comprehensive study of composite bone and horn tools using the most modern methods, among which computer tomography is important. At the moment, the study has no analogues in Russian or foreign archaeological studies. Scientists seek to obtain fundamentally new information about the technology for the manufacture of composite tools with stone inserts, their use and repair. Researchers plan to reconstruct these processes using modern methods such as three -dimensional scanning and CT. The data obtained during the project will allow you to study at a higher scientific level to study the technological and cultural features of the archaeological complexes of the late Pleistocene – the initial holocene in Eastern Siberia, as well as to explore the mobility of the ancient population and the processes of transmission of technologies and ideas. But for this, it is necessary to obtain high -quality models of the inner surface of the grooves of the studied tools, which is possible only with the help of high -precision three -dimensional scanning and computed tomography. More recently, this was not possible, since the conduct of research of non -biological objects on computer tomographs, which have medical centers, medical institutions and clinics, is prohibited at the legislative level. Last year, a laboratory -class microtomograph appeared at the Institute of Archeology and Ethnography of the SB RAS, but very small samples can be explored on it. Bone knives with 15 cm long for him are too large.
– When we started preclinical studies on a computer tomograph in the framework of neutron -grinding therapy and hyperthermia on animal models, there were proposals to use this device to study non -biological objects – various archaeological artifacts and bone structures. Scientists of the Institute of Archeology and Ethnography of the SB RAS proposed conducting computed tomography of bone and stone tools from their funds. Such studies in our laboratory were carried out for the first time, but their quality turned out to be quite high. Now we have in joint plans – large -scale work on in -depth tomographic research of archaeological finds that have been accumulated by scientists of the IAET of the SB RAS for many decades. The benefits of these works are mutual: employees of the NSU Lihs master new competencies, and archaeologists receive a unique opportunity to study ancient artifacts using tomography. Of course, many medical institutions are equipped with computer tomographs, however, their use is prohibited at the legislative level to study non -biological objects. In our case, there are no such restrictions: our tomograph is the only one in Siberia and the Far East, permitted for scientific research. We are ready to cooperate with scientists who need this method. The strategy and concept of our Center for Tomographic Studies of the NSU is to eliminate this gap in science-in providing researchers with the opportunity to use CT-methodics to study artifacts and other objects that previously remained outside the tomographic analysis zone, ”said Vladimir Kanygin, head of the LEGU, NSU.
Researchers at the tomography department of the NSU Laboratory of Mathematical Analysis believe that it is much easier to work with non-living samples. There is no need for anesthesia, the introduction of a contrast agent, or the work of anesthesiologists, which is necessary when studying animals.
— The samples are placed on the tomograph table in the order determined by the archaeologists: either as individual objects or as part of a composition studied as a whole. Then, together with the archaeologists, the obtained data is analyzed — mainly with the aim of studying the internal structures and identifying changes that cannot be seen with the naked eye. Ultimately, we provide a full information package, including three-dimensional reconstructions created by our equipment, — Vladimir Kanygin explained.
Tomographic studies provide scientists with valuable information about archaeological objects that cannot be obtained using other research methods. The image of the object is scanned in three projections. It can be rotated, zoomed in, zoomed in, and broken down into fragments. The physical parameters of the image can be used to determine the material it is made of — stone, bone — or at least get as close to the answer as possible.
— In the process of scanning objects, we obtain thin-section images based on X-ray examination and then create its reconstructions — both two-dimensional and three-dimensional — allowing us to see finer internal structures without damaging the samples. Based on this data, we can say what substances or their combinations a particular structure consists of, whether it is monolithic or folding, whether there is an adhesive composition that holds its parts together, or they are held due to the tightness of the fit. We can also reliably establish the shape and size parameters of the grooves of composite tools, examine internal microcracks and their direction. Based on this data, archaeologists will be able to establish the purpose of the object: household, hunting, combat or ritual. It is even possible to determine whether the weapon was used in battle, or was lost immediately after production, — explained radiologist, senior lecturer at the Institute of Medicine and Medical Technologies of NSU Lyubov Vasilkiv.
Composite insert tools, according to scientists, are considered universal because their owner, when going hunting or into battle, did not have to carry several monolithic stone tools of similar purpose with the expectation that they would break. Instead, he could carry many small and light pointed replaceable stone plates, and quickly repair the tool as needed, replacing broken inserts with new ones.
— Tools with replaceable inserts gave ancient people more mobility. Such tools were more convenient to use than simple stone knives or tips. As part of the project, we take a new look at composite tools. Using tomographic images, we will be able to look “inside” the object: accurately determine the shape of the groove and track its changes along the entire length, as well as measure, for example, the depth of the grooves or the angles of convergence of the sides. This data will help us determine how and with what tool the groove could have been cut. In addition, we plan to make replicas of such tools and try to model different options for their use. And then compare CT images of experimental and archaeological tools: what microdamages occur and from what action. The use of new, digital methods allows us to obtain new information about how the tool was made and how it was used, — said Ekaterina Bocharova.
For the research, the scientists formed a sample of composite tools from the late Pleistocene-early Holocene industries of Eastern Siberia from several sites: Kazachka, Ust-Keul, Ust-Edarma (Northern Angana), Ust-Kyakhty-3 (Transbaikalia). For comparison, composite tools from the early Holocene complex of the Kaminnaya site (Altai), the Chernoozerye site (Western Siberia), the Gorbunovsky peat bog sites (Middle Trans-Urals), as well as materials from museum collections will be studied.
— The use of computer tomography in archaeology in Siberia has not yet become widespread, which opens up great opportunities for technological research. Since inanimate objects are being studied, new tomographic approaches can be developed, various scanning modes can be tested, and device options that are rarely used in medical research can be used. As practice has shown, a number of available tomograph modes allow such studies to be carried out with technical novelty, which makes them especially valuable for archaeological science, — said Vladimir Kanygin.
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