V. V. Deryagin scite author profile

V. V. Deryagin

5Publications

17Citation Statements Received

8Citation Statements Given

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South Ural State Humanitarian Pedagogical University

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Reconstruction of Turgoyak lake (the Southern Urals) ecosystem changes in holocene

Масленникова

Udachin

Deryagin³

et al. 2018

Lithosphere

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2 Южно-Уральский государственный университет, 454080, Челябинская обл., г. Челябинск, просп. Ленина, 76 3 Южно-Уральский государственный гуманитарно-педагогический университет, 454080, Челябинская область, г. Челябинск, просп. Ленина, 69 Поступила в редакцию 12.08.2017 г., принята к печати 03.10.2017 г.Объект исследования. В статье приведены данные комплексного исследования колонки донных отложений (265 см) оз. Тургояк в целях реконструкции основных этапов его развития и оценки роли палеоклимата голоцена в изменении физико-химических параметров воды озера. Материалы и методы. Для реконструкций использованы геохимические данные, данные радиоуглеродного датирования и результаты диатомового анализа колонки донных отложений. В статье предложены геохимические индексы, полученные на основе статистического анализа данных химического состава поверхностных отложений и гидрохимии 56 озер Южного и Среднего Урала: показатель содержания органического вещества (ОМ = LOI 550ºС /(Al 2 O 3 + TiO 2 + Na 2 O + K 2 O)) и модуль минерализации озерной воды (ММ = LOI 950ºC /LOI 550ºС ). Результаты. На основе радиоуглеродного датирования определено, что осадконакопление в оз. Тургояк началось более 12 тыс. к.л.н. (калиброванных лет назад). Установлена связь изменений литологии и геохимии колонки донных отложений оз. Тургояк с глобальными (11.8, 11.2, 8.2 тыс. к.л.н.) и региональными (12, 10.3 тыс. к.л.н.) климатическими событиями Северного полушария в голоцене. Реконструировано четыре основных этапа развития озера: 1) начало озерного осадконакопления (>12.1 тыс. к.л.н.); 2) этап мелководного озера с повышенной минерализацией (12.1-11.2 тыс. к.л.н.); 3) этап возрастания глубины и снижения минерализации (11.2-8.0 тыс. к.л.н.); 4) этап устойчивого увеличения содержания органического вещества в воде (<8.0 тыс. к.л.н.). Выводы. На основе оценки значений модуля минерализации и концентраций диатомей-мезогалобов в колонке донных отложений сделан вывод о резком возрастании минерализации воды озера в результате потепления климата в раннем голоцене (11.8-11.2 тыс. к.л.н). С помощью анализа показателя содержания органического вещества и индекса сапробности Пантле-Букка установлено начало возрастания содержания органического вещества в воде в ответ на потепление климата, начавшееся около 9-8 тыс. к.л.н. Таким образом, реконструированы неоднократные изменения физико-химических парамет ров оз. Тургояк в голоцене и неодинаковая реакция озерной экосистемы на потепление климата на разных этапах развития озера. ключевые слова: озеро Тургояк, колонка донных отложений, реконструкция, голоцен, геохимический модуль, диа томеи, база данных озер Южного и Среднего Урала Object. Multi-proxy analysis of 265 cm long sediments core of Lake Turgoyak, one of the deepest lakes of the Southern Urals, is presented. Materials and methods. The lake ecosystem changes was reconstructed based on diatom, radiocarbon dating and geochemical analysis. Statistical treatment of the surface sediments composition and hydrochemistry data of 56 lakes from Southern and Middle U...

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Chemical Hydrology of Mine Pit Lakes of the Bakala Geotechnic System (Southern Urals)

Filippova

Deryagin

2005

Water Resour

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The studies of mine pit lakes of the Bakala geotechnic system resulted in obtaining their first physicochemical characteristics. A pit lake with specific physicochemical features was revealed. As shown, the chemical composition of water in the studied aqueous systems of human-induced origin, in particular, the distribution of macro-and microcomponents in depth, is under the influence of the time factor. The following common regularity has been found for all the pit likes under study: the concentration of macro-and microcomponents increases with depth.

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Reflection of global late glacial and Holocene paleoclimate oscillations in the palynological record from bottom sediments of Tavatui Lake (Middle Urals)

et al. 2016

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Geochemical record of Lake Sabakty: Electrical conductivity and reconstruction of the Lateglacial and Holocene environments in the Southern Urals (Russia) steppe

et al. 2023

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Research subject. The Lake Sabakty sediments core, as a source of data on the Holocene and Lateglacial environments in the Southern Urals.Aim. To obtain a multiple regression model for quantitative reconstructions of the electrical conductivity of water based on the geochemistry of lake sediments and to reconstruct the Late Glacial and Holocene environments based on the study of the Lake Sabakty geochemical record.Materials and methods. After determination of correlations between the content of chemical elements in lake sediments and hydrochemical parameters of 107 Ural lakes, multiple regression models were obtained. Reconstructions were performed based on the results obtained by accelerator mass spectrometry (AMS 14C), 210Pb activity determination, and an analysis of chemical elements and organic matter contents in the sediment core.Results. Three multiple regression models using the concentrations of Na, Ca, Li, and Sr were obtained for electrical conductivity of water reconstruction. In the cold and dry Lateglacial (>12.0 ka cal BP), Lake Sabakty was a slightly brackish reservoir. During the transition from the Lateglacial to the Holocene (12–11.6 ka cal BP), the Lake Sabakty became more productive. In the Early (11.6–8.2 ka cal BP) and Middle (8.2–4.2 ka cal BP) Holocene, the electrical conductivity of water varied under the action of fluctuations in effective moisture. In the Late Holocene (4.2 ka cal BP – present), the Lake Sabakty became less saline due to an increase in effective moisture.Conclusions. The proposed multiple regression models enable rapid quantitative reconstructions of the electrical conductivity of water, which are particularly relevant for Lateglacial–Early Holocene sediments with a low number of microfossils. The Lake Sabakty geochemical record reflects global and regional climatic fluctuations, being more informative compared to the geochemical records of forest lakes in the Southern Urals. The decrease in the electrical conductivity of water of Lake Sabakty of approximately 7.9 and 4.2 ka cal BP coincides with similar data for several other lakes in the Urals.

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Sediment records of lake eutrophication and oligotrophication under the influence of human activity and climate warming in the Urals metallurgical region (Russia)

et al. 2023

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V. V. Deryagin

Reconstruction of Turgoyak lake (the Southern Urals) ecosystem changes in holocene

Chemical Hydrology of Mine Pit Lakes of the Bakala Geotechnic System (Southern Urals)

Reflection of global late glacial and Holocene paleoclimate oscillations in the palynological record from bottom sediments of Tavatui Lake (Middle Urals)

Geochemical record of Lake Sabakty: Electrical conductivity and reconstruction of the Lateglacial and Holocene environments in the Southern Urals (Russia) steppe

Sediment records of lake eutrophication and oligotrophication under the influence of human activity and climate warming in the Urals metallurgical region (Russia)

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