Siberian Rivers Research Articles

Impact of Yakutia wildfires on ice conditions of parts of the Laptev sea shipping lanes

The article aims to verify the hypothesis about the impact of largescale Yakutia wildfires on the ice concentration in certain parts of the Laptev Sea shipping lanes. The verification was performed using data on ice concentration monthly and daily means obtained from GLORYS12v1 reanalysis and the catalogue of Aqua and Shizuku space missions. Information on the scale and consequences of Yakutia wildfires was obtained from the remote monitoring information system of the Federal Forestry Agency. The research methodology involved the use of statistical methods, including correlation analysis. The study comprised 2001–2023 period. A significant correlation between forest burning indicators and the ice conditions in certain areas of the sea has been confirmed. The most likely cause of the identified relationship was named to be the effect of an ice cover albedo decrease due to depositing of the soot brought by southern winds from burnt forest areas, as well as earlier and warmer floods from large Siberian rivers. It has been established that in the years following periods of large-scale fires, a downward trend in ice concentration manifests itself in a number of sea areas. In the spring–summer period (May — June) they are found in the northwestern and southern parts of the sea (in the areas of formation of fast ice polynyas), which favors an earlier navigation opening. In the autumn months, due to the sea waters having consumed more heat during the summer, active ice formation begins later (October — November), contributing to its later closure. The extent to which wildfires impact changes in the ice concentration of the Laptev Sea against the backdrop of other significant factors (variations in temperature, solar insolation, wind conditions, sea level, etc.) is not straightforward and needs further research. Provided that current trends in climate change persist, it is safe to predict that in the years following periods of intense wildfires, the period of safe autonomous navigation for high ice class vessels (Arc6 and Arc7) in the Laptev Sea will be longer than normal and will comprise all months from May to December.

Experience and Methodology of Developing Water–Resource and Water–Ecological Thematic Maps at the Institute for Water and Environmental Problems Using the Example of Siberian River Basins

Experience and Methodology of Developing Water–Resource and Water–Ecological Thematic Maps at the Institute for Water and Environmental Problems Using the Example of Siberian River Basins

Sensitivity of Simulated Arctic Ocean Salinity and Strait Transport to Interannually Variable Hydrologic Model Based Runoff

AbstractAs the Arctic warms at an increased rate compared to the rest of the globe, freshwater runoff has been shown to be increasing into the Arctic Ocean. The effects of this contemporary increase in riverine freshwater into the Arctic Ocean are estimated from ocean model simulations, using two runoff data sets. One runoff data set is based on older climatological data, which has no inter‐annual variability after 2007 and as such does not represent the observed increases in river runoff into the Arctic. The other data set comes from a hydrological model developed for the Arctic drainage basin, which includes contemporary changes in the climate. At the Pan‐Arctic scale this new data set represents an approximately 11% increase in runoff, compared with the older climatological data. Comparing two ocean model runs forced with the different runoff data sets, overall changes in different freshwater markers across the basin were found to be between 5% and 10%, depending on the regions. The strongest increases were seen from the Siberian rivers, which in turn caused the strongest freshening in the Eastern Arctic. As the surface waters of the Arctic Ocean are sensitive to runoff, incorporating hydrological model data can help to better understand current changes and potential future impacts from increased runoff with climate change.

Characterizing fluvial impact on the biochemical composition of particulate organic matter in the Laptev Sea and Western East Siberian Sea during the late summer of 2018

The Laptev Sea (LS) and Western East Siberian Sea (W-ESS) are paradigmatic examples of seas dominated by terrestrial organic matter, attributed to substantial Siberian River discharges and coastal erosion. The influx of terrestrial organic matter significantly alters the biochemical composition of particulate organic matter (POM) in these Arctic coastal regions, potentially reducing the nutritional quality available to higher trophic levels. This study investigated the origin and qualitative characteristics of POM in the LS and W-ESS during the late summer of 2018 by analyzing elemental ratios (C/N ratio), stable carbon isotopes (δ13C), and biochemical compositions (biomolecular and amino acid (AA) compositions). The conspicuously depleted δ13C values (mean ± standard deviation (SD) = −30.2 ± 0.5 ‰) and alongside elevated molar C/N ratios (mean ± SD = 18.1 ± 6.2) suggest that terrestrial organic matter is the predominant source of POM in the study area. Although carbohydrates (CHO) were the dominant biomolecules, their prevalence was higher in the river-influenced W-ESS region (67.7 ± 6.6 %) than in the LS region (58.6 ± 13.9 %; p < 0.05). Furthermore, the CHO composition was closely associated with freshwater content and river fraction, suggesting that the heightened contribution of CHO may stem from terrestrial organic matter delivered by river inputs. Lower concentrations of particulate hydrolyzable AA (PAA) and carbon and nitrogen normalized yields of AAs (AA-POC% and AA-PON%) along with reduced contribution of glycine suggested a substantial contribution of terrestrial POM to both LS and W-ESS POM. Overall, this study provides valuable insights into the terrestrial influence on POM composition in Arctic marine ecosystems, emphasizing the need for continued monitoring of the consequences of terrestrial carbon inputs in the changing Arctic environment.

Organic carbon, major and trace element release from and adsorption onto particulate suspended matter of the Ob River, western Siberia

Particulate suspended matter (PSM) of rivers is a significant factor for carbon, nutrient, and trace metal transfer from land to ocean. Towards better understanding the role that PSM exerts on major and trace elements in riverine systems, here we report the results of an experimental study which utilizes a two-fold approach to assess interaction between PSM and riverine solutes. First, we measured element leaching (via desorption and dissolution in distilled water, simulating snow melt) from PSM of the largest Siberian river, the Ob River. Second, we quantified the capacity of PSM to adsorb dissolved organic carbon (DOC), macro- and micronutrients and trace elements from organic-rich waters of the river floodplain. We documented sizable desorption of organic carbon, some major and trace metals, oxyanions and insoluble elements from PSM; the majority (>50 %) of elements were released over the first hour of reaction. In contrast, PSM of the Ob River was capable of removing 20 to 90 % of dissolved OC, nutrients (Si, P), and trace elements from the tributary and floodplain fen. Our experiments demonstrated preferential adsorption of aromatic compounds large molecular size colloids. Taken together, the adsorption of solutes by PSM can sizably decrease the concentration and modify the molecular size distribution, and therefore the potential bioavailability of major (DOC, P, Si) and trace micronutrients. Overall, the PSM of the Ob River exhibited high reactivity with respect to natural waters and was capable of modifying the elemental composition of the tributary and floodplain fen waters. This transfer of organic carbon and nutrients in the surface-adsorbed (particulate) form is especially important during spring flood and requires specific consideration in short-term biogeochemical cycles of elements in continental waters.

Groundwater Storage Variations across Climate Zones from Southern Poland to Arctic Sweden: Comparing GRACE-GLDAS Models with Well Data

The aim of this paper is to assess the correlation of groundwater level changes (or groundwater level anomalies (GWLA)) obtained from direct measurements in wells with groundwater storage anomalies (GWSA) calculated using Gravity Recovery and Climate Experiment (GRACE) products and Global Land Data Assimilation Systems (GLDAS) models across different climate zones, from temperate Poland to Arctic Sweden. We recognize that such validation studies are needed to increase the understanding of the spatio-temporal limits of remote sensing model applicability, not least in data-scarce sub-Arctic and Arctic environments where processes are complex due to the impacts of snow and (perma) frost. Results for temperate climates in Poland and southern Sweden show that, whereas one of the models (JPL_NOAH_GWSA) failed due to water balance term overestimation, the other model (CSR_CLM_GWSA) produced excellent results of monthly groundwater dynamics when compared with the observations in 387 groundwater wells in the region during 2003–2022 (cross-correlation coefficient of 0.8). However, for the sub-Arctic and Arctic northern Sweden, the model suitable for other regions failed to reproduce typical northern groundwater regimes (of the region’s 85 wells), where winter levels decrease due to the blocking effect of ground frost on groundwater recharge. This suggests, more generally, that conventional methods for deriving GWSA and its seasonality ceases to be reliable in the presence of considerably infiltration-blocking ground frost and permafrost (whereas snow storage modules perform well), which hence need further attention in future research. Regarding long-term groundwater level trends, remote sensing results for southern Sweden show increasing levels, in contrast with observed unchanged to decreasing (~10 mm/a) levels, which may not necessarily be due to errors in the remote sensing model but may rather emphasize impacts of anthropogenic pressures, which are higher near the observation wells that are often located in eskers used for water supply. For sub-Arctic and Arctic Sweden, the (relatively uncertain) trend of the remote sensing results nevertheless agrees reasonably well with the groundwater well observations that show increasing groundwater levels of up to ~14 mm/a, which, e.g., is consistent with reported trends of large Siberian river basins.

Shipping Company on the Lake Baikal: From the First Idea to the Implementation of the Plan

The article discusses the formation of steamship communication on the lake. Baikal. Based on a corpus of sources from the collections of the Russian State Historical Archive and the Russian Navy Archive, the process of establishing a shipping company on Lake Baikal is studied in detail. An attempt is made to trace the relationship between the dissolution of the Irkutsk Admiralty and the granting of the privilege to open steamship routes along the Siberian rivers to the richest Siberian gold miner N.F. Myasnikov, whose petition, although it was far from the first, but given the confluence of circumstances, turned out to be submitted very timely. Proposals about the possibility of starting voyages through Baikal on steamships were received repeatedly back in the 1820s. and, although they were expressed by naval officers who were serving on Lake Baikal at that time and who saw the advantages of using steam ships, all their ideas were recognized by the state as premature. First of all, this was due to the costs that the state would have to bear if a decision was made on the need to organize steamship routes through Baikal. Request from N.F. Myas­nikova’s proposal to grant the privilege of steamship communication on the Siberian rivers received considerable sympathy in the highest echelons of power, and a positive decision was made on it very quickly. Archival material containing correspondence between the Main Directorate of Eastern Siberia and the Main Directorate of Communications and Public Buildings made it possible to trace how the process of implementing N.F. Myasnikov’s plan went, what difficulties the entrepreneur had to face during the construction of steamships and the opening of permanent steamship routes across Baikal. Only the presence of solid capital could allow the first owners of shipping companies to carry out their plans without going bankrupt, given that the income from the shipping company, as a rule, did not significantly exceed the costs of its maintenance.

The Importance of Riverine Nutrient Supply for the Marine Silica Pump of Arctic Shelves: Evidence From the Laptev Sea

AbstractArctic shelves receive a large load of nutrients from Arctic rivers, which play a major role in the biogeochemical cycles of the Arctic Ocean. In this study, we present measurements of dissolved silicon isotopes (δ30Si(OH)4) around the Laptev Sea and surface waters of the Eurasian shelves collected in October 2018 to document terrestrial silicon modifications on shelves and their contribution to the Arctic basin. Nitrogen was found to be depleted in surface waters and the limiting nutrient to primary production in the Laptev Sea, allowing excess silicon export to the central Arctic Ocean. Heavy δ30Si(OH)4 in the water column was linked to the strong biological removal of DSi on shelves, enabled by vigorous N recycling. From isotopically constrained processes, we estimate that &gt;50% of the silicon from riverine inputs is removed within the Lena River delta and on the Laptev Sea shelf. Extrapolating this to major Siberian rivers, this leads to an export of 2.5 ± 0.8 kmol/s of riverine silicon through the Transpolar Drift. An updated isotopic budget of the Arctic Ocean reproduces the observed δ30Si(OH)4 signatures out of the Arctic Ocean and underlines the importance of biological processes in modulating silicon export. Given that opal burial fluxes on Artic shelves are controlled by denitrification and N‐limitation, these processes are sensitive to ongoing climate change. As a consequence of higher riverine DSi inputs and shelf denitrification responding to productivity, it is inferred that silicon export from the Arctic Ocean could increase in the future, accompanied by lighter δ30Si(OH)4 signatures.

Pink salmon Oncorhynchus gorbuscha in the basins of large rivers of the Krasnoyarsk territory: history of introduction, biological characteristics

The history and geography of the distribution of pink salmon Oncorhynchus gorbuscha in water bodies of the Taimyr Peninsula (Krasnoyarsk territory) is presented. Temperature conditions for spawning are indicated. The possible influence of pink salmon as an alien species for the fauna of Siberian rivers is discussed.

Peatlands Versus Permafrost: Landscape Features as Drivers of Dissolved Organic Matter Composition in West Siberian Rivers

AbstractWest Siberia contains some of the largest soil carbon stores on Earth owing to vast areas of peatlands and permafrost, with the region warming far faster than the global average. Organic matter transported in fluvial systems is likely to undergo distinct compositional changes as peatlands and permafrost warm. However, the influence of peatlands and permafrost on future dissolved organic matter (DOM) composition is not well characterized. To better understand how these environmental drivers may impact DOM composition in warming Arctic rivers, we used ultrahigh resolution Fourier‐transform ion cyclotron resonance mass spectrometry to analyze riverine DOM composition across a latitudinal gradient of West Siberia spanning both permafrost‐influenced and permafrost‐free watersheds and varying proportions of peatland cover. We find that peatland cover explains much of the variance in DOM composition in permafrost‐free watersheds in West Siberia, but this effect is suppressed in permafrost‐influenced watersheds. DOM from warm permafrost‐free watersheds was more heterogenous, higher molecular weight, and relatively nitrogen enriched in comparison to DOM from cold permafrost‐influenced watersheds, which were relatively enriched in energy‐rich peptide‐like and aliphatic compounds. Therefore, we predict that as these watersheds warm, West Siberian rivers will export more heterogeneous DOM with higher average molecular weight than at present. Such compositional shifts have been linked to different fates of DOM in downstream ecosystems. For example, a shift toward higher molecular weight, less energy‐rich DOM may lead to a change in the fate of this material, making it more susceptible to photochemical degradation processes, particularly in the receiving Arctic Ocean.

The project of the “turn” of Siberian rivers: The dynamics of presentation in the texts of the Soviet media

The authors of the article analyze the materials of one of the most famous public polemics of the Soviet period. The purpose is to identify factors affecting the specifics of the presentation of a scientific idea in the media; mechanisms for the formation of broadcast meanings depending on the status and communicative attitudes of participants in scientific polemics, a description of the object and markers of objections of various types and forms. The empirical basis of the research is publications in the media of the 1950–1980s. The empirical base was created in accordance with the principle of representative sampling. The methodological foundations of the analytical approach were developed by our predecessors when formatting the cognitive approach to the study of the communicative interaction of speech subjects. When creating the analytical algorithm, modern methods of intentional-stylistic analysis of the media text were used. The main conclusion: the communicative trajectory of the promotion of a scientific idea depends not only on the addressee factor, the information channel, but also on the features of the global communicative situation, the status characteristics of the subject of speech, his communicative attitudes. At different stages of scientific controversy in the public communicative space, the volume of scientific knowledge presented in the process of its popularization changes. The results of scientific research, the results of the work of specialized expert commissions, historical analogies, precedent information about similar projects are introduced into public communication. The administrative capabilities of the subject of speech provoke the use of tricks instead of verbalized versions of the objection, changing the object of criticism. The motivational part of the communicative trajectory is represented not only by calls to suspend the project embodying the scientific idea under discussion, but, crucially, by alternative ideas that stimulate scientific search in a certain area. The potential of the media material selected for analysis provides untapped opportunities to study the process of socialization of scientific knowledge, the deployment of public polemics as a means of neutralizing anti-scientific administrative decisions.

Particulate matter from water moss of a large Siberian river: Morphometric, mineral, elemental and radionuclide composition

Particulate matter trapped by tufts of water moss Fontinalis antipyretica inhabiting fast flowing waters of the Yenisei River (Siberia, Russia) contaminated with artificial radionuclides has been studied as a potential monitor of radioactive releases to the river. Particulate matter, which was removed from wet tufts of water moss of the Yenisei by rinsing them in water, constituted at least 38% of bulk dry weight of the moss biomass sample and was similar in the contents of chemical elements, minerals, organic matter, and artificial radionuclides to bottom sediments of the Yenisei. Considerable bulk percentages of artificial radionuclides in the sample of water moss, 77% of 137Cs, 44% of 60Co, 41% of 152Eu, 55% of 154Eu, 66% of 241Am, and 34–36% of plutonium were associated with extracellular particles. The comparative study and correlation analysis suggested that 137Cs was mainly associated with mineral particles trapped by moss and that organic matter was responsible for binding plutonium in samples of water moss. Consequently, analysis of extracellular particles of water moss can provide data on contents and speciation of radionuclides transported by water current. Although a considerably high proportion of particulate matter had been washed out from tufts of water moss, some extracellular mineral particulate material and a large number of epiphytic diatoms remained attached to leaves of water moss. Our study proves that particulate matter trapped by water moss can be used as an informative monitor to trace radioactive pollutants transported by water current in running waters deficient in bottom sediments and potential biomonitors.

Resilience and high compositional variability reflect the complex response of river waters to global drivers: The Eastern Siberian River Chemistry database

The chemical composition of river waters represents an important matter of investigation to understand environment modifications in response to climate changes and global warming. Prolonged dry periods, heavy flood events, degradation of the lands and ice thawing, modify the chemical composition of river waters influencing the drivers governing the complex dynamics of river catchments where everything comes together. In this framework, Compositional Data Analysis (CoDA) offers methods in which the complex structure of the river water composition and the interrelationships among the various components are put into the proper context for their statistical analysis. In this research, we propose a new CoDA approach combining the robust Mahalanobis distance (D) calculus of ilr-transformed chemical variables and the perturbation difference, both with respect to a pristine compositional benchmark. The aim was to trace the change in the chemical composition of the Eastern Siberian River Chemistry Database where degradation of the permafrost for global warming produces important effects on natural waters. The findings indicate complex multiplicative laws and feedback mechanisms governing solutes in Eastern Siberian rivers, with high values of D found where permafrost is more discontinuous. Perturbations clearly discriminate chemical components more resilient to stresses induced by global changes (Ca2+, Mg2+ and HCO3−) from those whose variability is not maintained under control (Cl−, Na+, SO42−). These outcomes open up a new scenario in searching for spatiotemporal resilience metrics to reveal rivers response to environmental changes.

Concentration and Composition of Hydrocarbons in Water and Sediments of The Kara Sea in Different Seasons

The results on the content and composition of aliphatic hydrocarbons (AHCs) and polycyclic aromatic hydrocarbons (PAHs) in surface water and bottom sediments in the Kara Sea were summarized. It was established that the “losses” in AHC concentrations in surface waters in the zone of mixing of river waters (Ob, Yenisei) with sea water exceeded, in some cases, 90% of their removal by the rivers. The composition of AHCs in surface waters depends on the characteristics of the river catchment, sampling season, and time of day (tide, low tide) and coincides with the distribution of the suspended particulate matter (SPM). The highest content of organic compounds and SPM in surface waters was found in the Gulf of Ob in flood: AHCs – up to 514 μg/L, PAHs – up to 15 ng/L, and SPM – up to 15.5 mg/L. In the Kara Sea, the AHC concentrations increased on average from in low water 10–20 μg/L to flood – 325 μg/L, which is associated with the melting of seasonal ice and growth of primary production. In bottom sediments, the particle size distribution determines the AHCs and PAHs; terrigenous n-alkanes dominate the molecular composition. A comparison was made with the behavior of AHCs and PAHs in the SPM of surface waters and bottom sediments in the estuarine areas of other Siberian rivers.

Picocyanobacteria in Estuaries of Three Siberian Rivers and Adjacent Shelves of Russian Arctic Seas: Genetic Diversity and Distribution

Single-cell cyanobacteria, being an integral part of picoplankton in marine ecosystems, have been suggested to be important contributors to primary production and carbon cycles in the global ocean. The spatial distribution, abundance and diversity of natural communities of picocyanobacteria (PC) in estuaries of Khatanga, Indigirka and Kolyma rivers and adjacent shelves of the Laptev and East Siberian seas were studied in September 2017. The PC concentrations were higher in the estuaries than in the shelf stations of the seas. The abundance of PC was 1.25 × 106 cells/L, 0.42 × 106 cells/L and 1.58 × 106 cells/L in the surface layer of Khatanga, Indigirka and Kolyma estuaries, respectively. The contribution of PC to total autumn picophytoplankton abundance averaged 6% and 3% in the Khatanga and Indigirka estuaries and reached 5% in the Kolyma estuary. Phylogenetic analysis of the 16S rRNA gene and ITS region clone libraries revealed picocyanobacterial sequences related to marine Synechococcus subclusters 5.1-I, 5.2 and 5.3. Of the phylotypes from Synechococcus S5.1-I and S5.2 that were found, only several were discovered earlier, while the remaining clones were unique. Two groups of phylotypes (clades A and E) were found that were not closely similar to those previously described in both marine and freshwater habitats. It can be expected that a more detailed study of the phytoplankton of the Arctic seas will further expand our understanding of the diversity of these key components of the food chains of oceanic biocenoses.

Climate warming enhances chemical weathering in permafrost-dominated eastern Siberia

Understanding the impacts of climate warming on hydrogeochemical processes, particularly in areas dominated by permafrost, is crucial. However, the natural background levels of chemical components in eastern Siberian rivers from permafrost-dominated regions and their responses to climate warming have not been adequately quantified. This study aims to address this knowledge gap by using a comprehensive river water chemistry database (n = 1264) spanning from 1940 to 2019. Our results reveal that the concentration of total dissolved solids (TDS), a key parameter of drinking water quality, in river basins predominantly free of permafrost (194.6 ± 256.4 mg/L) is approximately 2.3 times higher than in permafrost-dominated river basins (83.7 ± 35.8 mg/L) in eastern Siberia. These observations imply potential shifts in freshwater quality resulting from permafrost degradation. We further detect that carbonate weathering, which plays a fundamental role in the global carbon cycle, is a predominant process controlling hydrogeochemical cycles. (Ca2+ + Mg2+) concentrations as a proxy for carbonate weathering intensity are sensitive to climate warming, increasing at a rate of 0.10 mmol/(L·°C). This finding provides evidence that the current acceleration of carbonate weathering, driven by climate warming, is already influencing local water quality. Additionally, (Ca2+ + Mg2+) concentrations and TDS are highly interrelated with temperature-dependent variables (e.g., active layer thickness of permafrost and leaf area index) and basin erosion-controlling factors (e.g., precipitation, elevation and slope of basin). Under a warming climate, river chemical fluxes (e.g., export of TDS and major ions) increase notably, especially during the winter, indicating an increase in mineral-laden groundwater discharge to rivers due to permafrost degradation. Our results demonstrate that climate warming is accelerating hydrogeochemical processes in permafrost-dominated Arctic basins.

Beyond 55° North latitude: Expanding the northern boundary of initial upper Paleolithic dispersal

Human populations, the bearers of laminar Initial Upper Paleolithic industries (IUP) in Central Eurasia, were adapted to the mosaic environments of mountains and their piedmonts. Until recently, no IUP sites in northern Asia had been found north of 55° North latitude, beyond the mountain belt of southern Siberia. Increasingly over the past 20 years, emerging evidence of human occupation of northern latitudes during the early stages of the Upper Paleolithic have raised questions concerning the boundaries of their adaptation plasticity, the character of these populations that can be seen from their rapid exploration and spread along mountain ranges and in piedmonts regions of Southern Siberia and Central Asia. Ongoing research and reassessment of older data makes it possible to significantly correct perceptions of the limitations of adaptive capabilities of earliest Homo sapiens associated with the mountain belt of South Siberia. Here we consider the distribution of lithic industries, indicating technological and typological IUP components, through the valleys of large Siberian rivers – Yenisei, Angara, and Lena – to latitudes up to 58°-63° North. We hypothesize these lithic industries dispersed within a chronological span approximately comprising Greenland interstadial GI12, about 47–45 ka BP. Lithic assemblages that these populations left behind were impacted by denudation, aeolian, and cryogenic processes during cold phases of MIS-3 and were finally buried in chronologically younger sediments. The evidence from the Kolpakov Ruchei site on the middle Angara reveals the ability of these populations to expand beyond their indigenous zones of mountains and foothills in South Siberia and Central Asia, relying on exploitation of large herd ungulates in the open spaces of subarctic latitudes.

Changes of the streamflow of northern river basins of Siberia and their teleconnections to climate patterns

AbstractThe Arctic rivers contribute more than one‐third of the total freshwater streamflow into the Arctic Ocean and play an essential role in the heat and mass circulation of the Arctic atmosphere/ocean system. As the Arctic is warming faster than the global average, the streamflow from Arctic basins increases. This study analyzed the streamflow of the three largest Siberian rivers: the Lena, Yenisei, and Ob', at multiple temporal scales. Results show that the annual streamflow of each river basin exhibits statistically significant increasing trends, while the seasonal streamflow of sub‐basins generally decreases in the summer but increases in the winter. Both autocorrelation and long‐term persistency are often found in the streamflow time series, which indicates significant changes in the large‐scale climatological environment. Therefore, wavelet coherence between the streamflow and large‐scale climate patterns, including the El Niño–Southern Oscillation (ENSO), North Pacific pattern (NP), Arctic Oscillation (AO), and the Pacific/North America Pattern (PNA), have been conducted. NP and ENSO are found to have positive relationships with the precipitation and the ratio of potential evapotranspiration over the precipitation. AO and the PNA are found to have positive relationships with the streamflow of the Ob' and Yenisei rivers at decadal and multidecadal scales. This study demonstrates that the existence of nonstationarities within the Siberian streamflow as the combined impact of climate change alters the hydroclimatological and terrestrial environment of Siberia. These findings provide new insights into the mechanisms underlying the hydrologic changes to warming trends and oscillations of climate patterns, which contribute to our understanding and the prediction of streamflow of these northern rivers.

In situ bottom sediment temperatures in the Siberian Arctic seas: Current state of subsea permafrost in the Kara sea vs laptev and East Siberian seas

Features of sediment temperature on the shelf and continental slope areas of the Russian Arctic seas and its physical properties are important for understanding the current state of subsea permafrost and the gas hydrates stability zone. New data are reported for the Kara Sea region where the bottom sediment temperatures are influenced by warming effects from great Siberian rivers and the Atlantic currents. The data collected during marine expeditions in 2019–2022 are combined with results of earlier marine studies, drilling operations, and geophysical surveys in the Laptev and East Siberian seas, in order to identify major trends of in situ temperature and properties distribution of bottom sediments in the Russian Arctic region.Most (85%) of bottom sediments in the Kara Sea shelf, as well as in the Laptev and East Siberian shelves, consist of water-saturated silty clay and silt with rather uniform particle size distribution. The obtained thermal conductivity and heat capacity values for the Kara Sea sediments agree with the values of 1.0 W/(m·K) and 2900 kJ/m3, respectively, obtained previously from other Arctic seas. Thermal conductivity becomes up to 40% higher depthward from 0 to 2 m subbottom depth, possibly, because of lower moisture content and porosity in more lithified sediments.The bottom sediment temperatures in the Arctic seas are distributed unevenly, especially in the Kara Sea shelf (from +5.0 °C in the west to −1.4 °C in the east), where the high sediment temperatures in the western and central parts of the Kara Sea being due to the effect of warm water inputs. The distribution of bottom sediment temperatures correlates well with distribution of relic subsea permafrost. Ice-bearing permafrost in the Siberian Arctic shelf extends from the shoreline till sea depths of 80–100 m, within the respective offshore distances of ∼800–1000 km in some areas, but permafrost remnants may exist locally at sea depths within 120 m. Buried 100–600 m thick continuous subsea permafrost may occur in the Kara, Laptev, and East Siberian shelves under unfrozen (cryotic) saline shallow sediments. However, subsea permafrost is discontinuous and sporadic at sea depths ∼70 m and more. Thus, the bottom sediment temperature features in the Arctic seas can be used as a proxy of subsea permafrost extent contenting intrapermafrost and subpermafrost gas and gas hydrate accumulations.

Результаты анализа природы дифференциации нерестилищ муксуна Енисея Часть 1. От геологии к генетике

The article considers the features of the intrastructure of the populations of the Siberian river muksun from its habitat. The question of the conspecificity of this species, the issues of divergent evolution of mono and polyhybridization are analyzed. Based on the analysis of literature and experimental data, the facts of natural hybridization between whitefish, both with lower and upper mouths, are shown.