PALEOLIMNOLOGY OF THE WESTERN СRIMEA LAKES

D. A. Subetto; Субетто Д. А.; T. V. Sapelko; Сапелко Т. В.; V. F. Stolba; Столба В. Ф.; D. D. Kuznetsov; Кузнецов Д. Д.; A. V. Ludikova; Лудикова А. В.; I. Yu. Neustrueva; Неуструева И. Ю.

doi:10.31857/S2686739723600157

PALEOLIMNOLOGY OF THE WESTERN СRIMEA LAKES

Authors: Subetto D.A.¹, Sapelko T.V.², Stolba V.F.³, Kuznetsov D.D.², Ludikova A.V.², Neustrueva I.Y.²
Affiliations:
1. Herzen State Pedagogical University
2. Institute of Limnology of the Russian Academy of Sciences , Saint-Petersburg Scientific Research Center of the Russian Academy of Sciences
3. Staatliche Museen zu Berlin / Berlin-Brandenburg Academy of Sciences and Humanities
Issue: Vol 510, No 1 (2023)
Pages: 106-111
Section: ГЕОГРАФИЯ
URL: https://journals.rcsi.science/2686-7397/article/view/135858
DOI: https://doi.org/10.31857/S2686739723600157
EDN: https://elibrary.ru/DURVQT
ID: 135858

Cite item

Full Text

Open Access
Restricted Access

Access granted
Restricted Access

Subscription Access

Abstract
About the authors
References
Supplementary files
Statistics

Abstract

For the first time for saline lakes of the Crimean Peninsula, the results of a comprehensive study of lacustrine sediments using litho-, bio- and chronological methods were obtained. For the first time, radiocarbon dating of the Crimean lake sediments was performed. In lakes Saki and Dzharylgach, sediment sequences of closed highly mineralized reservoirs, which overlay marine deposits, were retrieved. The surface of marine sediments is dated to 5610–5340 cal BP for Lake Saki and 5590–5350 cal BP for Lake Dzharylgach. By this time, sand barriers began to form, which subsequently completely separated the lagoons from the sea and led to the formation of closed reservoirs. Full isolation of Lake Dzharylgach occurred about 4600 cal BP. The vegetation change at the first stage of the lakes’ existence was controlled by changes in the sea level, as well as by fluctuations of salinity, later changes being mainly influenced by changes in climate humidity. The first Cerealia-type pollen occurs in the Subboreal period. Human settlements in the area of Lake Dzharylgach represent the Eneolithic, Bronze Age, as well as the Greco-Roman and medieval periods. A notable demographic change is observed in the period from the early first millennium to the end of the 5th century BC. The majority of archaeological sites in the vicinity of Lake Saki belongs to the Greco-Roman period.

Keywords

lake sediments, salt lakes, radiocarbon age, lithology, pollen, ostracods, Holocene, sea level, Crimea, Black Sea

References

Дзенс-Литовский А.И. Комплексное гидрогеологическое изучение соляных и грязевых озер и лиманов // Труды 1 Всес. Гидрогеол. съезда. V. ОНТИ, 1934. С. 159–196.
Шостакович В.Б. Иловые отложения Сакского озера как летописи климата // Саки-Курорт. 1935. Вып. 1. С. 255–272.
Курнаков Н.С., Кузнецов В.Г., Дзенс-Литовский А.И., Равич М.П. Соляные озера Крыма. Москва-Ленинград: Изд-во АН СССР, 1936. 279 с.
Gerasimenko N., Kukla G. Past droughts in Eastern Ukraine recorded by pollen and salts in lake Saki in Crimea // Terra Nostra. 1998. 6. P. 45–48.
Герасименко Н.П. Ландшафтно-кліматичні зміни на території України за останні 2,5 тис. років // Історична географія. Вінниця: Теза, 2007. С. 41–53.
Kelterbaum D., Brückner H., Dikarev V., Gerhard S., Pint A., Porotov A., Zin’ko V. Palaeogeographic changes at Lake Chokrak on the Kerch Peninsula, Ukraine, during the Mid- and Late-Holocene // Geoarchaeology. 2012. 27. P. 206–219.
Субетто Д.О., Герасименко Н.П., Бахмутов В.Г., Неуструева I.Ю., Сапелко Т.В., Кузнецов Д.Д., Давидова Н.Н., Лудикова А.В., Столба В.Ф. Реконструкція палеогеографічних умов Західного Криму у пізньому голоцені за літологічними і палеонтологічними матеріалами вивчення озер // Фізична географія та геоморфологія. 2009. № 56. С. 299–310.
Bronk Ramsey C. Bayesian analysis of radiocarbon dates // Radiocarbon. 2009. V. 51. 1. P. 337–360.
Heaton T., Köhler P., Butzin M., Bard E., Reimer R., Austin W., Bronk Ramsey C., Grootes P., Hughen K., Kromer B., Reimer P., Adkins J., Burke A., Cook M., Olsen J., Skinner L. Marine20 – the marine radiocarbon age calibration curve (0–55.000 cal BP) // Radiocarbon. 2020. V. 62. 4. P. 779–820. https://doi.org/10.1017/RDC.2020.68
Дзенс-Литовская Н.Н. Основные черты палеогеографии степного Крыма // Вестник ЛГУ. 1957. № 18. С. 99–106.
Stolba V.F. La vie rurale en Crimée antique: Panskoe et ses environs // Études de Lettres. 2012. 1–2. P. 311–364.
The Džarylgač Survey Project. Bilde P.G., Attema P., Winther-Jacobsen K. (eds.) Aarhus, 2012. 446 p.
Stolba V.F., Andresen J. Archaeological surveys and replicability of their results: a case study from West Crimea, D. Braund, V.F. Stolba, U. Peter (eds.), Environment and Habitation around the Ancient Black Sea. Berlin-Boston, 2021. P. 235–254.
Bilde P.G., Bøgh B., Handberg S., Højte J.M., Nieling J., Smekalova T., Stolba V. Archaeology in the Black Sea region in classical antiquity 1993–2007 // Archaeological Reports. 2008. 54. P. 115–173.
Смекалова Т.Н., Кутайсов В.А. Археологический атлас Северо-Западного Крыма. Эпоха поздней бронзы. Ранний железный век. Античность. С.-Петербург, 2017. 447 с.