Mineralogical and geochemical composition of Late Holocene bottom sediments of Lake Onego

Страховенко, В Д; Subetto, Dmitry; Ovdina, Ekaterina; Даниленко, И. В.; Belkina, Natalia; Efremenko, Natalia; Маслов, А. В.

doi:10.1016/j.jglr.2020.02.007

Cited by 18 publications

(15 citation statements)

References 25 publications

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“…В обогащенных кислородом водах Онежского озера при диагенезе донного осадка образуются ионы растворимого Mn, Fe, P, которые мигрируют вверх по разрезу до слоя в уже сформированном осадке, в котором свободный O 2 ещё не израсходован на окисление органического вещества. На данном геохимическом барьере происходит окисление Mn, Fe, P с образованием рудного слоя, сложенного Mn и Fe оксидными-гидрооксидными фазами, при этом фазы железа обогащены фосфором [14]. По мере захоронения осадка повышение Eh может препятствовать миграции вверх Mn, Fe, P и, в восстановленных условиях в слоях погребенных осадков они образуют минеральные фазы: пиролюзит, родохрозит, сидерит и фосфат железа (вивианита(?)).…”

Section: объекты и методыunclassified

“…Причем взвешенные формы этих компонентов представлены в основном аморфными и кристаллическими гидроксидами Fe и силикатов [10]. В зависимости от глубины проникновения кислорода в донном осадке озера на окислительно-восстановительном барьере образуются рудные слойки Mn и Fe, обогащенные P, Ba, Mo [14]. Для Онежского озера актуальным вопросом является контроль количества P в водах [1].…”

Section: Introductionunclassified

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Basic Features of Distribution of Trace Elements and Phosphorus in the Bottom Sediments of Lake Onego in the Holocene (Based on Time Graphs 137cs, 210pb)

Страховенко¹,

Belkina²,

Efremenko³

et al. 2020

Water-Rock Interaction: Geological Evolution

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Исследованы распределения микроэлементов и фосфора (в сопоставлении с возрастными определениями) в осадочных последовательностях кернов донных отложений Онежского озера из разных районов его акватории и на основе этого идентифицированы источники поступления Cd, Sb, Pb, P и реконструирован процесс связывания фосфора и локализации его в донном осадке с образованием аутигенных минеральных фаз фосфата железа (вивианита).

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Section: объекты и методыunclassified

Section: Introductionunclassified

Basic Features of Distribution of Trace Elements and Phosphorus in the Bottom Sediments of Lake Onego in the Holocene (Based on Time Graphs 137cs, 210pb)

Страховенко¹,

Belkina²,

Efremenko³

et al. 2020

Water-Rock Interaction: Geological Evolution

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“…Further down this unit, silts and clays become denser and the layering becomes thinner and more distinct. The number of black bands in the sediment increases towards bottom of this unit, which is correlated with an increase of the organic matter [17]. Lithological unit 2.…”

Section: Stratigraphic Featuresmentioning

confidence: 76%

“…According to previous studies conducted by the authors, it was found that the mineral composition of the bottom sediments of lake Onega is formed by minerals (quartz, feldspar, muscovite), which were introduced into the lake from river runoff and aerosols, as well as autigenic minerals. In contrast to wells from other areas of the lake, the mineral phases of Fe and Mn are represented by pyrolusite, vivianite, rhodochrosite, and siderite already in the upper first centimeters of sediments [17,21]. In addition to these minerals, there are opal (diatoms), Fe-Illite, and Fe-chlorite.…”

Section: Mineralogy In Cores Ong-4 and Ong-7mentioning

confidence: 95%

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Structure of Late Pleistocene and Holocene Sediments in the Petrozavodsk Bay, Lake Onego (NW Russia)

et al. 2020

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Here, we present new results from seismic, geological, and geochemical studies conducted in 2015–2019 in the Petrozavodsk Bay of Lake Onego, NW Russia. The aims of these investigations were to (i) to characterize the structure of Quaternary deposits and (ii) provide new evidence of modern geodynamic movements and gas-seepage in Holocene sediments. The structure of the recovered deposits was composed of lacustrine mud, silt and sands from the Holocene, limno-glacial clays (varved clays) from the Late Glacial–Interglacial Transition, and glacial deposits (till) from the Late Pleistocene. The thickness of these deposits varied in different parts of the bay. Many pockmarks created by gases escaping and reaching sediment-water interface were observed in these deposits. Such pockmarks can play a significant role in the geochemical and biological processes in the bottom sediment surface, and gases that escape might modify the physicochemical characteristics of the environment.

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Anthropogenic disturbances influence mineral and elemental constituents of freshwater lake sediments

Dubey,

Kumar,

Dutta

2023

Environ Monit Assess

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Mineralogical and geochemical composition of Late Holocene bottom sediments of Lake Onego

Cited by 18 publications

References 25 publications

Basic Features of Distribution of Trace Elements and Phosphorus in the Bottom Sediments of Lake Onego in the Holocene (Based on Time Graphs 137cs, 210pb)

Basic Features of Distribution of Trace Elements and Phosphorus in the Bottom Sediments of Lake Onego in the Holocene (Based on Time Graphs 137cs, 210pb)

Structure of Late Pleistocene and Holocene Sediments in the Petrozavodsk Bay, Lake Onego (NW Russia)

Anthropogenic disturbances influence mineral and elemental constituents of freshwater lake sediments

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