Your search keyword '"Olga S, Samylina"' showing total 8 results

1. Salinity-induced succession of phototrophic communities in a southwestern Siberian soda lake during the solar activity cycle

Author

Olga S. Samylina, Anastasia I. Kosyakova, Artem A. Krylov, Dimitry Yu. Sorokin, and Nikolay V. Pimenov

Subjects

Soda lakes, Solar activity, Salinity, Diversity, Phototrophs, Dynamic stability, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

A variety of lakes located in the dry steppe area of southwestern Siberia are exposed to rapid climatic changes, including intra-century cycles with alternating dry and wet phases driven by solar activity. As a result, the salt lakes of that region experience significant fluctuations in water level and salinity, which have an essential impact on the indigenous microbial communities. But there are few microbiological studies that have analyzed this impact, despite its importance for understanding the functioning of regional water ecosystems. This work is a retrospective study aimed at analyzing how solar activity-related changes in hydrological regime affect phototrophic microbial communities using the example of the shallow soda lake Tanatar VI, located in the Kulunda steppe (Altai Region, Russia, southwestern Siberia). The main approach used in this study was the comparison of hydrochemical and microscopic data obtained during annual field work with satellite and solar activity data for the 12-year observation period (2011–2022). The occurrence of 33 morphotypes of cyanobacteria, two key morphotypes of chlorophytes, and four morphotypes of anoxygenic phototrophic bacteria was analyzed due to their easily recognizable morphology. During the study period, the lake surface changed threefold and the salinity changed by more than an order of magnitude, which strongly correlated with the phases of the solar activity cycles. The periods of high (2011–2014; 100–250 g/L), medium (2015–2016; 60 g/L), extremely low (2017–2020; 13–16 g/L), and low (2021–2022; 23–34 g/L) salinity with unique biodiversity of phototrophic communities were distinguished. This study shows that solar activity cycles determine the dynamics of the total salinity of a southwestern Siberian soda lake, which in turn determines the communities and microorganisms that will occur in the lake, ultimately leading to cyclical changes in alternative states of the ecosystem (dynamic stability).

Published

2024

2. Features of Seismological Observations in the Arctic Seas

Author

Artem A. Krylov, Mikhail A. Novikov, Sergey A. Kovachev, Konstantin A. Roginskiy, Dmitry A. Ilinsky, Oleg Yu. Ganzha, Vladimir N. Ivanov, Georgy K. Timashkevich, Olga S. Samylina, Leopold I. Lobkovsky, and Igor P. Semiletov

Subjects

marine seismology, submarine earthquake, marine geohazards, ice cover, ocean-bottom seismograph, deployment scheme, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

This paper is devoted to the features of seismological observations in the Arctic seas, which are complicated by harsh climatic conditions, the presence of ice cover, stamukhi and icebergs, and limited navigation. Despite the high risk of losing expensive equipment, the deployment of local networks of bottom seismographs or stations installed on ice is still necessary for studying the seismotectonic characteristics and geodynamic processes of the region under consideration, the deep structure of the crust and upper mantle, seismic hazards, and other marine geohazards. Various types of seismic stations used for long-term and short-term deployments in the Russian sector of the Arctic Ocean, as well as various schemes and workflows for their deployment/recovery, are described. The characteristics of seafloor seismic noise and their features are also considered. The results of deployments demonstrate that the characteristics of the stations make it possible to reliably record earthquake signals and seismic noise. Based on the experience gained, it was concluded that the preferred schemes for deploying ocean-bottom seismographs are those in which their subsequent recovery does not depend on their power resources. Usually, such schemes allow for the possibility of dismantling stations via trawling and are suitable for the shelf depths of the sea. The advantages of such schemes include the possibility of installing additional hydrophysical and hydrobiological equipment. When using pop-up ocean-bottom seismographs, special attention should be paid to the careful planning of the recovery because its success depends on the possibility of a passage to the deployment site, which is not always possible due to changing meteorological and ice conditions. Seismic records obtained on the seafloor are characterized by a high noise level, especially during periods of time when there is no ice cover. Therefore, it is recommended to install bottom stations for periods of time when ice cover is present. The frequency range of the prevailing noise significantly overlaps with the frequency range of earthquake signals that must be taken into account when processing bottom seismic records.

Published

2023

3. Biogeochemical Activity of Methane-Related Microbial Communities in Bottom Sediments of Cold Seeps of the Laptev Sea

Author

Alexander S. Savvichev, Igor I. Rusanov, Vitaly V. Kadnikov, Alexey V. Beletsky, Elena E. Zakcharova, Olga S. Samylina, Pavel A. Sigalevich, Igor P. Semiletov, Nikolai V. Ravin, and Nikolay V. Pimenov

Subjects

Laptev Sea, marine sediments, cold methane seep, microbial community, rates of microbial processes, carbon stable isotope, Biology (General), QH301-705.5

Abstract

Bottom sediments at methane discharge sites of the Laptev Sea shelf were investigated. The rates of microbial methanogenesis and methane oxidation were measured, and the communities responsible for these processes were analyzed. Methane content in the sediments varied from 0.9 to 37 µmol CH4 dm−3. Methane carbon isotopic composition (δ13C-CH4) varied from −98.9 to −77.6‰, indicating its biogenic origin. The rates of hydrogenotrophic methanogenesis were low (0.4–5.0 nmol dm−3 day−1). Methane oxidation rates varied from 0.4 to 1.2 µmol dm−3 day−1 at the seep stations. Four lineages of anaerobic methanotrophic archaea (ANME) (1, 2a–2b, 2c, and 3) were found in the deeper sediments at the seep stations along with sulfate-reducing Desulfobacteriota. The ANME-2a-2b clade was predominant among ANME. Aerobic ammonium-oxidizing Crenarchaeota (family Nitrosopumilaceae) predominated in the upper sediments along with heterotrophic Actinobacteriota and Bacteroidota, and mehtanotrophs of the classes Alphaproteobacteria (Methyloceanibacter) and Gammaproteobacteria (families Methylophilaceae and Methylomonadaceae). Members of the genera Sulfurovum and Sulfurimonas occurred in the sediments of the seep stations. Mehtanotrophs of the classes Alphaproteobacteria (Methyloceanibacter) and Gammaproteobacteria (families Methylophilaceae and Methylomonadaceae) occurred in the sediments of all stations. The microbial community composition was similar to that of methane seep sediments from geographically remote areas of the global ocean.

Published

2023

4. MatNERApor—A Matlab Package for Numerical Modeling of Nonlinear Response of Porous Saturated Soil Deposits to P- and SH-Waves Propagation

Author

Artem A. Krylov, Sergey A. Kovachev, Elena A. Radiuk, Konstantin A. Roginskiy, Mikhail A. Novikov, Olga S. Samylina, Leopold I. Lobkovsky, and Igor P. Semiletov

Subjects

site-specific analysis, geohazards, seismic microzonation, numerical modeling, nonlinear earthquake response, porous saturated soils, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The paper is devoted to the problem of numerical modeling of earthquake response of porous saturated soil deposits to seismic waves propagation. Site-specific earthquake response analysis is a necessary and important component of seismic hazard assessment. Accounting for the complex structure of porous saturated soils, i.e., the content in them, in addition to the solid matrix, pore water, gas mixture and ice, is especially important for the water areas in the zones of continuous or sparse permafrost, as well as the massive release of bubble gas from bottom sediments. The purpose of this study is to introduce an algorithm and its Matlab implementation for numerical modeling of the nonlinear response of porous saturated soil deposits to vertical P- and SH-waves propagation. The presented MatNERApor package consists of a set of Matlab scripts and functions. The package was tested and verified using the records of vertical seismic arrays of the Kik-net network. In addition, the records of local earthquakes obtained by ocean bottom seismographs in the Laptev Sea in 2019–2020 were used to demonstrate the effect of the water layer above the seabed sites on the reduction of vertical motions spectra. The results of the calculations showed good agreement with the data obtained from real seismic records, which justifies the correctness of the theoretical basis of the presented algorithm and its software implementation.

Published

2022

5. A novel bacteriobiont of the Arctic lichen Flavocetraria nivalis, Lichenifustis flavocetrariae gen. nov, sp. nov. demonstrating hydrolytic properties and containing a full set of the Calvin–Benson–Bassham cycle genes

Author

Timofei A. Pankratov, Olga S. Samylina, Ekaterina N. Tikhonova, Elena A. Ianutsevich, Alexander N. Avtukh, and Yung Mi Lee

Subjects

Genetics, General Medicine, Molecular Biology, Biochemistry, Microbiology

Published

2023

6. History of the Study of the Genus

Author

Nikolai V, Ravin, Tatyana S, Rudenko, Dmitry D, Smolyakov, Alexey V, Beletsky, Maria V, Gureeva, Olga S, Samylina, and Margarita Yu, Grabovich

Subjects

DNA, Bacterial, RNA, Ribosomal, 16S, Thiothrix, Phylogeny, Sulfur

Abstract

Representatives of the genus

Published

2022

7. Phototrophic communities of Kulunda Steppe soda lakes (Altai Region): history of algological studies and modern data

Author

Olga S. Samylina

Abstract

The Kulunda Steppe soda lakes are the only occurrence of hypersaline soda lakes in Russia. They are characterized by a variable hydrological regime with cyclic high-amplitude fluctuations of temperature and brine concentration. The algae of the Kulunda Steppe soda lakes were first studied by Soviet phycologists headed by N.N. Voronikhin in 1927–1932 and new taxa were described: algal genus Lochmiopsis Woronich. et Popova (later revised to Ctenocladus circinnatus Borzì) and cyanobacterial species Aphanocapsa salina Woronich., Synechocystis crassa Woronich., Trichormus (Anabaena) pseudovariabilis (Woronich.) Komárek et Anagnostidis, Anabaenopsis issatschenkoi Woronich., Anabaenopsis milleri Woronich., Anabaenopsis nadsonii Woronich., Oscillatoria deflexa var. crassa Woronich., Limnospira (Arthrospira, Spirulina) fusiformis (Woronich.) Komárek et Lund. Later (since 2007) studies were continued by the microbiologists from the Winogradsky Institute of Microbiology RAS. In this work, a comparison of the algological diversity found in the soda lakes of the Kulunda Steppe during periods 1929–1932 and 2007–2020 is made, and a brief overview of taxonomic problems of selected eukaryotic algae and cyanobacteria is given. In total, 33 morphotypes of cyanobacteria were identified. Most species of algae and cyanobacteria were described based on the exclusively morphological criteria. Thus, their phylogenetic position remains unclear and requires careful analysis using a modern polyphasic approach.

Published

2021

8. Ecology and biogeography of the 'marine Geitlerinema' cluster and a description of Sodalinema orleanskyi sp. nov., Sodalinema gerasimenkoae sp. nov., Sodalinema stali sp. nov. and Baaleninema simplex gen. et sp. nov. (Oscillatoriales, Cyanobacteria)

Author

Olga S, Samylina, Maria A, Sinetova, Elena V, Kupriyanova, Alexander Yu, Starikov, Marina V, Sukhacheva, Marina V, Dziuba, and Tatiana P, Tourova

Subjects

DNA, Bacterial, Pacific Ocean, RNA, Ribosomal, 16S, Sequence Analysis, DNA, Cyanobacteria, Phylogeny, Bacterial Typing Techniques

Abstract

Filamentous cyanobacteria belonging to the 'marine Geitlerinema' cluster are spread worldwide in saline environments and considered to play an important ecological role. However, the taxonomy of this group remains unclear. Here, we analyzed the phylogeny, ecology and biogeography of the 'marine Geitlerinema' cluster representatives and revealed two subclusters: (1) an 'oceanic' subcluster containing PCC7105 clade and black band disease (BBD) clade with free-living and pathogenic strains distributed in Atlantic, Indian and Pacific Ocean-related localities, and (2) a Sodalinema subcluster containing free-living strains from marine, hypersaline, saline-alkaline and soda lake habitats from the Eurasian and African continents. Polyphasic analysis using genetic and phenotypic criteria demonstrated that these two groups represent separate genera. Representatives of Sodalinema subcluster were phylogenetically attributed to the genus Sodalinema. Our data expand the ecological and geographical distribution of this genus. We emended the description of the genus Sodalinema and proposed three new species differing in phylogenetic, geographic and ecological criteria: Sodalinema orleanskyi sp. nov., Sodalinema gerasimenkoae sp. nov. and Sodalinema stali sp. nov. Additionally, a new genus and species Baaleninema simplex gen. et sp. nov. was discribed within the PCC7105 clade. By this, we put in order the current confusion of the 'marine Geitlerinema' group and highlight its ecological diversity.

Published

2021