Email this article 
A COMPREHENSIVE APPROACH TO IDENTIFICATION OF FATTY FOODS IN VESSELS FROM THE BURIALS OF THE EARLY STAGE OF ALANIAN CULTURE IN THE NORTH CAUCASUS
- Authors: Kashirskaya N.N., Chernysheva E.V., Malashev V.Y.
- Issue: Vol 19, No 1 (2023)
- Pages: 150-172
- URL: https://caucasushistory.ru/2618-6772/article/view/1891
- DOI: https://doi.org/10.32653/CH191150-172
Abstract
Lipolytic bacteria are practically not detected in ordinary soils, but their number can increase significantly if fats enter the soil. To identify the initial presence of fats in the composition of ritual food, an assessment of the number of lipolytic bacteria in the soils of 64 vessels from the burials of the Early Medieval time of the North Caucasus was carried out. Microbiological analyses were conducted in samples from the bottom layer of vessels filling. Samples from the upper filling layer were used as a control. It was found that in 55 vessels the number of lipolytic bacteria in the bottom layer did not exceed the control level and was 4 – 20 times lower than in the control modern chernozem soil. In 9 vessels with the presumed presence of fat, the number of lipolytic microorganisms in the bottom layers was 3 – 155 times higher than in the upper layers. In most cases, fats were detected in small vessels – mugs, bowls and small jugs. In a model experiment on the introduction of vegetable and animal fats into the chernozem soil in the amount of 5% of the soil mass, the increase in the number of lipolytic bacteria varied 2 – 7 times compared to the control. The proposed method of detecting the initial presence of fat-containing food allows, due to its simplicity and accessibility, to conduct mass analyses of soil from burial vessels to obtain ideas about the use of fatty foods in the funeral rite of various cultures.
Natalia Nicolaevna Kashirskaya
Institute of physicochemical and biological problems in soil science
Author for correspondence.
Email: nkashirskaya81@gmail.com
Russian Federation, 142290, Russia, Moskow Region, Pushchino, Institutskaya Street 2
Cand. Sci. (Biology), Senior Researcher at the Laboratory of Arheological Soil Science
Elena Vladislavovna Chernysheva
Institute of physicochemical and biological problems in soil science
Email: e.chernyysheva@yandex.ru
Russian Federation, 142290, Russia, Moskow Region, Pushchino, Institutskaya Street 2
Cand. Sci. (Biology), Senior Researcher at the Laboratory of Arheological Soil Science
Vladimir Yu. Malashev
Institute of Archeology of RAS
Email: malashev@yandex.ru
ORCID iD: 0000-0002-1276-7650
Cand. Sci. (History), Senior Researcher
- Демкин В.А., Демкина Т.С., Удальцов С.Н. Реконструкция погребальной пищи в глиняных сосудах из курганных захоронений с использованием фосфатного и микробиологического методов // Вестник археологии, антропологии и этнографии. 2014. № 2 (25). С. 148 – 159.
- Хомутова Т.Э., Демкина Т.С., Борисов А.В., Шишлина Н.И. Состояние микробных сообществ подкурганных палеопочв пустынно-степной зоны эпохи средней бронзы (XXVII–XXVI вв. до н. э.) в связи с динамикой увлажненности климата // Почвоведение. 2017. № 2. С. 239 – 248.
- Дмитриев Е.А. Математическая статистика в почвоведении. М.: Изд-во МГУ. 1995. 320 с.
- Пожидаев В.М., Камаев А.В., Дэвлет Е.Г., Грешников Э.А., Нуретдинова А.Р., Сивицкий М.В. Газохроматографическое исследование остатков содержимого средневекового сфероконического сосуда // Журнал аналитической химии. 2016. Т. 71. № 11. С. 1209 – 1212.
- Пожидаев В.М., Сергеева Я.Э., Слушная И.С., Кашкаров П.К., Яцишина Е.Б. Применение метода газовой хроматографии для уточнения атрибуции древнего глиняного сосуда // Бутлеровские сообщения. 2017. Т. 52. № 12. С. 73 – 81.
- Пожидаев В.М., Сергеева Я.Э., Ретивов В.М., Белусь С.К., Яцишина Е.Б., Кашкаров П.К. Применение комплекса взаимодополняющих аналитических методов для исследования состава органических остатков древних амфор из Пантикопеи 2018. // Журнал аналитической химии. 2018. том 73. № 9. с. 712 – 720 doi: 10.1134/S0044450218090128.
- Пожидаев В.М., Сергеева Я.Э., Зайцева И.Е., Яцишина Е.Б. Идентификация остатков погребальной пищи в глиняных лепных сосудах методами газовой хроматографии и масс-спектрометрии // Бутлеровские сообщения. 2019. Т. 58. № 4. С. 146 – 155.
- Evershed R.P. Organic residues in archaeology: the archaeological biomarker revolution // Archaeometry. 2008. V. 50. P. 895.
- Khomutova T.E., Borisov A.V. Estimation of microbial diversity in the desert steppe surface soil and buried palaeosol (IV mil. BC) using the TRFLP method // Journal of Arid Environments. 2019. Т. 171. P. 104004. doi: 10.1016/j.jaridenv.2019.104004.
- Krzywinski, M. & Altman, N. Visualizing samples with box plots. // Nature methods. 2014. № 11. P. 119 – 120. doi: 10.1038/nmeth.2813.
- Ko. W.H., Wang I.T., Ann P.J. A simple method for detection of lipolytic microorganisms in soils // Soil Biology and Biochemistry. 2005. V. 37. I.3, P. 597 – 599. https://doi.org/10.1016/j.soilbio.2004.09.006
- Lechuga E.G.O., Zapata I.Q., Niño K.A. Detection of extracellular enzymatic activity in microorganisms isolated from waste vegetable oil contaminated soil using plate methodologies // African Journal of Biotechnology. 2016. V. 15 № 11. P. 408 – 416. doi: 10.5897/AJB2015.14991.
- Popoola B.M. Onilude A. A. Microorganisms Associated with Vegetable Oil Polluted Soil // Advances in Microbiology. 2017. Vol.7 No.5. P. 377 –386. doi: 10.4236/aim.2017.75031.
Supplementary files
There are no supplementary files to display.
