Reconstruction of Environmental Changes in Western Siberia: Evidence from the Diatom Complexes of Lake Sediments

Ancient lake sediments of Bibirevo section in the Yaroslavl and Kostroma Volga region are studied by means of graphical analysis of taxonomical structure of diatom complexes. This method allowed to record critical points (change of areas of stability) in the development of a Neopleistocene lake during the transition from stage to stage, as well as from phase to phase.

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High-resolution geochemical (μXRF) and palynological analyses for climatic and environmental changes in lake sediments from Sultansazlığı Marsh (Central Anatolia) during the last 14.5 kyr

Quaternary International ◽

10.1016/j.quaint.2021.08.010 ◽

2021 ◽

Author(s):

Çetin Şenkul ◽

Şule Gürboğa ◽

Mustafa Doğan ◽

Turhan Doğan

Keyword(s):

High Resolution ◽

Lake Sediments ◽

Environmental Changes ◽

Central Anatolia

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Annually-laminated lake sediments and the study of Quaternary environmental changes — a review

Quaternary Science Reviews ◽

10.1016/0277-3791(83)90008-2 ◽

1983 ◽

Vol 1 (4) ◽

pp. 245-313 ◽

Cited By ~ 189

Author(s):

P.E. O'Sullivan

Keyword(s):

Lake Sediments ◽

Environmental Changes ◽

Annually Laminated Lake Sediments

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Plant diversity in sedimentary DNA obtained from high-latitude (Siberia) and high-elevation lakes (China)

Biodiversity Data Journal ◽

10.3897/bdj.8.e57089 ◽

2020 ◽

Vol 8 ◽

Author(s):

Kathleen Stoof-Leichsenring ◽

Sisi Liu ◽

Weihan Jia ◽

Kai Li ◽

Luidmila Pestryakova ◽

...

Keyword(s):

Lake Sediments ◽

Plant Diversity ◽

Environmental Conditions ◽

Environmental Changes ◽

The Arctic ◽

Mean Annual Precipitation ◽

Reference Database ◽

Mean Annual Temperature ◽

Diversity Assessment ◽

Recent Climate

Plant diversity in the Arctic and at high altitudes strongly depends on and rebounds to climatic and environmental variability and is nowadays tremendously impacted by recent climate warming. Therefore, past changes in plant diversity in the high Arctic and high-altitude regions are used to infer climatic and environmental changes through time and allow future predictions. Sedimentary DNA (sedDNA) is an established proxy for the detection of local plant diversity in lake sediments, but still relationships between environmental conditions and preservation of the plant sedDNA proxy are far from being fully understood. Studying modern relationships between environmental conditions and plant sedDNA will improve our understanding under which conditions sedDNA is well-preserved helping to a.) evaluate suitable localities for sedDNA approaches, b.) provide analogues for preservation conditions and c.) conduct reconstruction of plant diversity and climate change. This study investigates modern plant diversity applying a plant-specific metabarcoding approach on sedimentary DNA of surface sediment samples from 262 lake localities covering a large geographical, climatic and ecological gradient. Latitude ranges between 25°N and 73°N and longitude between 81°E and 161°E, including lowland lakes and elevated lakes up to 5168 m a.s.l. Further, our sampling localities cover a climatic gradient ranging in mean annual temperature between -15°C and +18°C and in mean annual precipitation between 36 and 935 mm. The localities in Siberia span over a large vegetational gradient including tundra, open woodland and boreal forest. Lake localities in China include alpine meadow, shrub, forest and steppe and also cultivated areas. The assessment of plant diversity in the underlying dataset was conducted by a specific plant metabarcoding approach. We provide a large dataset of genetic plant diversity retrieved from surface sedimentary DNA from lakes in Siberia and China spanning over a large environmental gradient. Our dataset encompasses sedDNA sequence data of 259 surface lake sediments and three soil samples originating from Siberian and Chinese lakes. We used the established chloroplastidal P6 loop trnL marker for plant diversity assessment. The merged, filtered and assigned dataset includes 15,692,944 read counts resulting in 623 unique plant DNA sequence types which have a 100% match to either the EMBL or to the specific Arctic plant reference database. The underlying dataset includes a taxonomic list of identified plants and results from PCR replicates, as well as extraction blanks (BLANKs) and PCR negative controls (NTCs), which were run along with the investigated lake samples. This collection of plant metabarcoding data from modern lake sediments is still ongoing and additional data will be released in the future.

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Reconstruction of Past Dynamics of Methane-Oxidizing Bacteria in Lake Sediments Using a Quantitative PCR Method: Connecting Past Environmental Changes and Microbial Community

Geomicrobiology Journal ◽

10.1080/01490451.2019.1583698 ◽

2019 ◽

Vol 36 (6) ◽

pp. 570-579 ◽

Cited By ~ 1

Author(s):

Simon Belle ◽

Claire Parent

Keyword(s):

Microbial Community ◽

Lake Sediments ◽

Quantitative Pcr ◽

Environmental Changes ◽

Methane Oxidizing Bacteria ◽

Pcr Method

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Anthropogenic Influences on Environmental Changes of Lake Bosten, the Largest Inland Freshwater Lake in China

Sustainability ◽

10.3390/su12020711 ◽

2020 ◽

Vol 12 (2) ◽

pp. 711 ◽

Cited By ~ 4

Author(s):

Wen Liu ◽

Long Ma ◽

Jilili Abuduwaili

Keyword(s):

Central Asia ◽

Lake Sediments ◽

Human Activities ◽

Environmental Changes ◽

Living Environment ◽

Water Levels ◽

Aral Sea ◽

Anthropogenic Factors ◽

Large Spatial Scale ◽

The 1960S

A short lacustrine sediment core (41 cm) from Lake Bosten in arid central Asia was used to investigate the environmental changes that occurred in the past ≈150 years based on the superposition of climate and anthropogenic factors. Geochemical elements, total organic carbon (TOC) and nitrogen (TN), and stable isotope data (δ13Corg and δ15N) were used to identify abnormal environmental changes. The average C/N ratio in the sediments of Lake Bosten suggested that the organic matter in lake sediments was mainly from aquatic plants. The δ13Corg and δ15N in the lake sediments mainly reflect changes in the structure of the lake’s ecosystem. Before the 1960s, the primary productivity of the lake was relatively low with a relatively stable lake water environment. From the 1960s to the mid-1980s, the lake’s ecosystem was closely related to a significant decline in water levels caused by human activities and an increase in salinity. From the late 1980s to ≈2000, the aquatic plant structure of Lake Bosten did not change significantly. After 2000, the upper part of the sedimentary record suggested enhanced productivity due to urban and industrial development in the catchment area. However, sedimentary perspectives of the responses of different environmental proxies in sediments to human activities were anisochronous, and the increasing heavy metal (Pb and Cu) and P accumulations appeared in 1970, reflecting heightened human impacts. Through the comparison between the Aral Sea and Lake Bosten, it was inferred that, under the intervention of human activities, the lake experienced a completely different evolution trend. Humans, as geological agents, should protect our living environment while satisfying social development. The results will provide an important supplement to a large spatial scale study of the influences of human activities on the environment in Central Asia, which also has some significant implications for the protection of the ecological environment and the realization of sustainable development in arid regions.

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Biogeochemistry of macrophytes, sediments and porewaters in thermokarst lakes of western Siberia in the discontinuous and continuous permafrost zone

10.5194/egusphere-egu2020-1128 ◽

2020 ◽

Author(s):

Rinat Manasypov ◽

Oleg Pokrovsky ◽

Liudmila Shirokova

Keyword(s):

Trace Elements ◽

Lake Sediments ◽

Aquatic Plants ◽

Lake Water ◽

Western Siberia ◽

The Arctic ◽

Formation Mechanisms ◽

Thermokarst Lakes ◽

Continuous Permafrost ◽

Thaw Lakes

Despite high importance of macrophytes in shallow thaw lakes for control of major and trace nutrients in lake water, the chemical composition of different aquatic plants and trace element (TE) partitioning between macrophytes and lake water and sediments in the permafrost regions remain totally unknown. Here we sampled dominant macrophytes of thermokarst (thaw) lakes of discontinuous and continuous permafrost zones in Western Siberia Lowland (WSL) and we measured major and trace elements in plant biomass, lake water, lake sediments and sediment porewater. All 6 studies plants (Hippuris vulgaris L., Glyceria maxima (Hartm.) Holmb., Comarum palustre L., Ranunculus spitzbergensis Hadac, Carex aquatilis Wahlenb s. str., Menyanthes trifoliata L.), sizably accumulate macronutrients (Na, Mg, Ca), micronutrients (B, Mo, Nu, Cu, Zn, Co) and toxicants (As, Cd) relative to lake sediments. The accumulation of other trace elements including rare earth elements (REE) in macrophytes relative to pore waters and sediments was strongly species-specific. Under climate warmings scenario and the propagation of southern species northward, the accumulation of trace metals in aquatic plants of thermokarst lakes will produce preferential uptake of Cd, Pb, Ba from thermokarst lake water and sediments by the biomass of aquatic macrophytes. This may eventually diminish the transport of metal micronutrients from lakes to rivers and further to the Arctic Ocean.Support from the RSF (RNF) grant 19-77-00073 &#8220;Experimental modeling of the formation mechanisms for elemental composition of water in thermokarst lakes of Western Siberia: vegetation effect&#8221;.

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Paleoclimatic reconstruction studies in lake sediments: major proxies, technical evolution and database

10.5194/egusphere-egu2020-5311 ◽

2020 ◽

Author(s):

Paula Bianchini ◽

Elder Yokoyama ◽

Luciana Prado

Keyword(s):

Lake Sediments ◽

Climate Changes ◽

Environmental Changes ◽

Drainage Basin ◽

Spatial Scales ◽

Temporal Variations ◽

Quality Data ◽

Anthropogenic Factors ◽

Data Sets ◽

Geochemical Composition

Paleoclimate studies in different temporal and spatial scales provide important information on long-term statistics required to test hypotheses about climate changes. Comprehensive high-quality data sets and a solid understanding of dynamic climate processes in different temporal variations are essential to evaluate the sensitivity of the climatic system. Moreover, these data sets and dynamic analyses can help to distinguish the variability of natural and anthropogenic factors, reducing uncertainties about the magnitude and impact of future global climate changes. A common way to conduct paleoclimatic studies is through high resolution multiproxy lake sediments. Lake environments have been increasingly used in recent years to infer past fluctuations in climate, and many studies that comprise different locations and timescales demonstrate the great value of lakes as paleoclimatic archives. Because lake sediments are continental indicators sensitive to environmental changes, they can be used to reconstruct climate parameters, such as past rainfall, area management and environmental or limnological lake conditions. Changes of rainfall quantity can be recorded in lake archives by the variation of sedimentary input, which is related to changes in drainage basin and erosion rate. Beside of sedimentary input, lake sediments also exhibit physical and chemical changes in water bodies which, in turn, induce transformation in geochemical composition caused by changes in runoff or other allocated components. Thus, there is a variation in the proxies used in the studies, both in relation to the type of proxy used and the relationship used. In this context, we made a compilation of paleoclimatic studies on lake sediments (about 350 lakes), focusing on the main proxies used. Our study shows that there has been a change in the major proxies used along decades and with the emergence of new analysis techniques. In addition, we notice that lake characteristics (e.g., shape, geomorphological context, formation, etc.) have directly influence the proxies used and the quality of the information obtained. This compilation provides a database with an analysis of several lakes around the world, which can help future works and enable the identification of commonly used proxies according to the different variables that should be used, promoting more objective analyzes.

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Organic matter mineralization and trace element post-depositional redistribution in Western Siberia thermokarst lake sediments

Biogeosciences ◽

10.5194/bg-8-3341-2011 ◽

2011 ◽

Vol 8 (11) ◽

pp. 3341-3358 ◽

Cited By ~ 48

Author(s):

S. Audry ◽

O. S. Pokrovsky ◽

L. S. Shirokova ◽

S. N. Kirpotin ◽

B. Dupré

Keyword(s):

Trace Elements ◽

Organic Matter ◽

Organic Carbon ◽

Lake Sediments ◽

Water Column ◽

Western Siberia ◽

Ecosystem Development ◽

Thermokarst Lake ◽

Fe And Mn ◽

The Impact

Abstract. This study reports the very first results on high-resolution sampling of sediments and their porewaters from three thermokarst (thaw) lakes representing different stages of ecosystem development located within the Nadym-Pur interfluve of the Western Siberia plain. Up to present time, the lake sediments of this and other permafrost-affected regions remain unexplored regarding their biogeochemical behavior. The aim of this study was to (i) document the early diagenesic processes in order to assess their impact on the organic carbon stored in the underlying permafrost, and (ii) characterize the post-depositional redistribution of trace elements and their impact on the water column. The estimated organic carbon (OC) stock in thermokarst lake sediments of 14 ± 2 kg m−2 is low compared to that reported for peat soils from the same region and denotes intense organic matter (OM) mineralization. Mineralization of OM in the thermokarst lake sediments proceeds under anoxic conditions in all the three lakes. In the course of the lake development, a shift in mineralization pathways from nitrate and sulfate to Fe- and Mn-oxyhydroxides as the main terminal electron acceptors in the early diagenetic reactions was suggested. This shift was likely promoted by the diagenetic consumption of nitrate and sulfate and their gradual depletion in the water column due to progressively decreasing frozen peat lixiviation occurring at the lake's borders. Trace elements were mobilized from host phases (OM and Fe- and Mn-oxyhydroxides) and partly sequestered in the sediment in the form of authigenic Fe-sulfides. Arsenic and Sb cycling was also closely linked to that of OM and Fe- and Mn-oxyhydroxides. Shallow diagenetic enrichment of particulate Sb was observed in the less mature stages. As a result of authigenic sulfide precipitation, the sediments of the early stage of ecosystem development were a sink for water column Cu, Zn, Cd, Pb and Sb. In contrast, at all stages of ecosystem development, the sediments were a source of dissolved Co, Ni and As to the water column. However, the concentrations of these trace elements remained low in the bottom waters, indicating that sorption processes on Fe-bounding particles and/or large-size organo-mineral colloids could mitigate the impact of post-depositional redistribution of toxic elements on the water column.

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