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2. [Microbiological and isotopic geochemical investigation of Lake Kislo-Sladkoe, a meromictic water body at the Kandalaksha Bay Shore (White Sea)].

Author

Savvichev AS, Lunina ON, Rusanov II, Zakharova EE, Veslopolova EF, and Ivanov MV

Subjects
Biomass, Carbon metabolism, Carbon Dioxide analysis, Carbon Isotopes analysis, Oxidation-Reduction, Oxygen analysis, Photosynthesis, Phototrophic Processes, Russia, Sulfites metabolism, Sulfur metabolism, Sulfur-Reducing Bacteria isolation & purification, Sulfur-Reducing Bacteria metabolism, Water Microbiology, Lakes chemistry, Lakes microbiology
Abstract

Microbiological, biogeochemical, and isotopic geochemical investigation of Lake Kislo-Sladkoe (Polusolenoe in early publications) at the Kandalaksha Bay shore (White Sea) was carried out in September 2010. Lake Kislo-Sladkoe was formed in the mid-1900s out of a sea gulf due to a coastal heave. At the time of investigation, the surface layer was saturated with oxygen, while near-bottom water contained sulfide (up to 32 mg/L). Total number of microorganisms was high (12.3 x 10(6) cells/mL on average). Light CO2 fixation exhibited two pronounced peaks. In the oxic zone, the highest rates of photosynthesis were detected at 1.0 and 2.0 m. The second, more pronounced peak of light CO2 fixation was associated with activity of anoxygenic phototrophic bacteria in the anoxic layer at the depth of 2.9 m (413 μg C L(-1) day(-1)). Green-colored green sulfur bacteria (GSB) predominated in the upper anoxic layer (2.7-2.9 m), their numbers being as high as 1.12 x 10(4) cells/mL, while brown-colored GSB predominated in the lower horizons. The rates of both sulfate reduction and methanogenesis peaked in the 2.9 m horizon (1690 μg S L(-1) day(-1) and 2.9 μL CH4 L(-1) day(-1)). The isotopic composition of dissolved methane from the near-bottom water layer (δ13C (CH4) = -87.76 per thousand) was significantly lighter than in the upper horizons (δ13C (CH4) = -77.95 per thousand). The most isotopically heavy methane (δ13C (CH4) = -72.61 per thousand) was retrieved from the depth of 2.9 m. The rate of methane oxidation peaked in the same horizon. As a result of these reactions, organic matter (OM) carbon of the 2.9 m horizon became lighter (-36.36 per thousand), while carbonate carbon became heavier (-7.56 per thousand). Thus, our results demonstrated that Lake Kislo-Sladkoe is a stratified meromictic lake with active microbial cycles of carbon and sulfur. Suspended matter in the water column was mostly of autochthonous origin. Anoxygenic photosynthesis coupled to utilization of reduced sulfur compounds contributed significantly to OM production.

Published
2014

3. [Abundance and activity of microorganisms at the water-sediment interface and their effect on the carbon isotopic composition of suspended organic matter and sediments of the Kara Sea].

Author

Ivanov MV, Lein AIu, Savvichev AS, Rusanov II, Veslopolova EF, Zakharova EE, and Prusakova TS

Subjects
Arctic Regions, Carbon Isotopes analysis, Carbon Isotopes metabolism, Russia, Methanobacteriales metabolism, Methanomicrobiales metabolism, Oceans and Seas, Water Microbiology
Abstract

At ten stations of the meridian profile in the eastern Kara Sea from the Yenisei estuary through the shallow shelf and further through the St. Anna trough, total microbial numbers (TMN) determined by direct counting, total activity of the microbial community determined by dark CO2 assimilation (DCA), and the carbon isotopic composition of organic matter in suspension and upper sediment horizons (δ13C, per thousand) were investigated. Three horizons were studied in detail: (1) the near-bottom water layer (20-30 cm above the sediment); (2) the uppermost, strongly hydrated sediment horizon, further termed warp (5-10 mm); and (3) the upper sediment horizon (1-5 cm). Due to decrease in the amount of isotopically light carbon of terrigenous origin with increasing distance from the Yenisei estuary, the TMN and DCA values decreased, and the δ13C changed gradually from -29.7 to -23.9 per thousand. At most stations, a noticeable decrease in TMN and DCA values with depth was observed in the water column, while the carbon isotopic composition of suspended organic matter did not change significantly. Considerable changes of all parameters were detected in the interface zone: TMN and DCA increased in the sediments compared to their values in near-bottom water, while the 13C content increased significantly, with δ13C of organic matter in the sediments being at some stations 3.5- 4.0 per thousand higher than in the near-bottom water. Due to insufficient illumination in the near-bottom zone, newly formed isotopically heavy organic matter (δ13C(-) -20 per thousand) could not be formed by photosynthesis, active growth of chemoautotrophic microorganisms in this zone is suggested, which may use reduced sulfur, nitrogen, and carbon compounds diffusing from anaerobic sediments. High DCA values for the interface zone samples confirm this hypothesis. Moreover, neutrophilic sulfur-oxidizing bacteria were retrieved from the samples of this zone.

Published
2013

5. [Sulfate reduction, formation and oxidation of methane in Holocene era sediments of the Vyborg Bay, Baltic Sea].

Author

Pimenov NV, Kanapatskiĭ TA, Sigalevich PA, Rusanov II, Veslopolova EF, Grigor'ev AG, and Zhamoĭda VA

Subjects
Carbon chemistry, Carbon metabolism, Carbon Cycle, Geologic Sediments chemistry, Hydrogen Sulfide metabolism, Oxidation-Reduction, Russia, Seawater chemistry, Sulfates chemistry, Sulfates metabolism, Sulfur chemistry, Sulfur metabolism, Geologic Sediments microbiology, Methane metabolism, Microbial Consortia physiology, Seawater microbiology, Water Microbiology
Published
2012

7. [Microbial processes of the carbon and sulfur cycles in the White Sea].

Author

Savvichev AS, Rusanov II, Zakharova EE, Veslopolova EF, Mitskevich IN, Kravchishina MD, Lein AIu, and Ivanov MV

Subjects
Bacteria isolation & purification, Ecosystem, Oceans and Seas, Oxidation-Reduction, Phytoplankton isolation & purification, Phytoplankton metabolism, Russia, Bacteria metabolism, Carbon metabolism, Phytoplankton microbiology, Seawater microbiology, Sulfur metabolism, Water Microbiology
Abstract

The present paper contains the results of our microbiological and biogeochemical investigations carried out during a series of expeditions to the White Sea in 2002-2006. The studies were conducted in the open part of the White Sea, as well as in the Onega, Dvina, and Kandalaksha bays. In August 2006, the photosynthetic productivity in the surface water layer was low (47-145 mg C m(-2) day(-1)). Quantitative characteristics of microbial numbers and activity of the the key microbial processes occurring in the water column of the White Sea were explored. Over the 5-year period of observations, the total number of bacterial cells in the surface layer of the water column varied from 50 to 600 thousand cells ml(-1). In August 2006, bacterioplankton production (BP) was estimated to be 0.26-3.3 microg C l(-1) day(-1); the P/B coefficient varied from 0.22 to 0.93. The suspended organic matter had a lighter isotope composition (from -28.0 to -30.5 per thousand) due to the predominance of terrigenous organic matter delivered by the Northern Dvina waters. The interseasonal and interannual variation coefficients for phytoplankton production and BP numbers are compared. The bacterioplankton community of the White Sea's deep water was found to be more stable than that of the surface layer. In the surface layer of bottom sediments, methane concentration was 0.2-5.2 microl dm(-3); the rate of bacterial sulfate reduction was 18-260 microg S dm(-3) day(-1); and the rates of methane production and oxidation were 24-123 and 6-13 nl CH4 dm(-3) day(-1) respectively. We demonstrated that the rates of microbial processes of the carbon and sulfur cycles occurring in the sediments of the White Sea basin were low.

Published
2008

8. [Biological fractionation of stable carbon isotopes at the aerobic/anaerobic water interface of meromictic water bodies].

Author

Pimenov NV, Lunina ON, Prusakova TS, Rusanov II, and Ivanov MV

Subjects
Aerobiosis, Anaerobiosis, Bacteria metabolism, Fresh Water microbiology, Mass Spectrometry, Phytoplankton metabolism, Phytoplankton microbiology, Russia, Seasons, Carbon Isotopes analysis, Fresh Water chemistry, Photosynthesis
Abstract

Mass-spectrometric investigation of carbon isotope composition (delta13C) was carried out for suspended organic matter and dissolved mineral compounds for the water column of some meromictic water bodies differing in salinity and trophic state. As a rule, a more pronounced carbon isotope fractionation (resulting from the metabolism of phytoplankton and anoxygenic phototrophic bacteria) was revealed in the zones of enhanced oxygenic and anoxygenic photosynthesis. Carbon isotope fractionation at the border between oxidized and reduced waters depends both on the activity of microbial communities and on the dominant species of phototrophic microorganisms. Analysis of the distribution profiles of the isotopic composition of suspended organic matter and dissolved mineral carbon revealed active mineralization of the organic matter newly formed via anoxygenic photosynthesis in the monimolimnion by microbial communities, resulting in the release of isotopically light carbon dioxide. Mineral carbon in the anaerobic zones of highly productive meromictic water bodies is therefore enriched with the light 12C isotope.

Published
2008

9. [Radioisotopic assays of rates of carbon monoxide conversion by anaerobic thermophilic prokaryotes].

Author

Slepova TV, Rusanov II, Sokolova TG, Bonch-Osmolovskaia EA, and Pimenov NV

Subjects
Bacteria, Anaerobic growth & development, Carbon Dioxide analysis, Carbon Dioxide metabolism, Gram-Positive Rods growth & development, Hot Springs microbiology, Oxidation-Reduction, Scintillation Counting, Bacteria, Anaerobic metabolism, Bacteriological Techniques methods, Carbon Monoxide metabolism, Gram-Positive Rods metabolism
Abstract

The rate of CO conversion by a pure culture of a thermophilic CO-oxidizing, H2-producing bacterium Carboxydocella sp. strain 1503 was determined by the radioisotopic method. The overall daily uptake of 14CO by the bacterium was estimated at 38-56 micromol CO per 1 ml of the culture. A radioisotopic method was developed to separate and quantitatively determine the products of anaerobic CO conversion by microbial communities in hot springs. The new method was first tested on the microbial community from a sample obtained from a hot spring in Kamchatka. The potential rate of CO conversion by the anaerobic microbial community was found to be 40.75 nmol CO/cm3 sediment per day. 85% of the utilized 14CO was oxidized to carbon dioxide; 14.5% was incorporated into dissolved organic matter, including 0.2% that went into volatile fatty acids; 0.5% was used for cell bio mass production; and only just over 0.001% was converted to methane.

Published
2007

10. [Microbial processes of the carbon and sulfur cycles in the Chukchi Sea].

Author

Savvichev AS, Rusanov II, Pimenov NV, Zakharova EE, Veslopolova EF, Lein AIu, Crane K, and Ivanov MV

Subjects
Arctic Regions, Bacteria isolation & purification, Colony Count, Microbial, Ecosystem, Methane analysis, Methane metabolism, Oxidation-Reduction, Seawater analysis, Siberia, Carbon metabolism, Geologic Sediments microbiology, Marine Biology, Seawater microbiology, Sulfur metabolism, Water Microbiology
Abstract

The research performed in August 2004 within the framework of the Russian-American Long-term Census of the Arctic (RUSALCA) resulted in the first data concerning the rates of the key microbial processes in the water column and bottom sediments of the Bering strait and the Chukchi Sea. The total bacterial counts in the water column varied from 30 x 10(3) cells ml(-1) in the northern and eastern parts to 245 x 10(3) cells ml(-1) in the southern part. The methane content in the water column of the Chukchi sea varied from 8 nmol CH4 l(-1) in the eastern part of the sea to 31 nmol CH4 l(-1) in the northern part of the Herald Canyon. Active microbial processes occurred in the upper 0-3 cm of the bottom sediments; the methane formation rate varied from 0.25 to 16 nmol CH4 dm(-3) day(-1). The rates of methane oxidation varied from 1.61 to 14.7 nmol CH4 dm(-3) day(-1). The rates of sulfate reduction varied from 1.35 to 16.2 micromol SO4(2-) dm(-3) day(-1). The rate of methane formation in the sediments increased with depth, while sulfate reduction rates decreased (less than 1 micromol SO4(2-) dm(-3) day(-1)). These high concentrations of biogenic elements and high rates of microbial processes in the upper sediment layers suggest a specific type of trophic chain in the Chukchi Sea. The approximate calculated balance of methane emission from the water column into the atmosphere is from 5.4 to 57.3 micromol CH4 m(-2) day(-1).

Published
2007

11. [Anoxygenic phototrophic bacterial community of Lake Shira (Khakassia)].

Author

Lunina ON, Briantseva IA, Akimov VN, Rusanov II, Barinova ES, Lysenko AM, Rogozin DIu, and Pimenov NV

Subjects
Chlorobi classification, Chromatiaceae classification, Ecosystem, Phototrophic Processes, Phylogeny, Rhodospirillaceae classification, Chlorobi isolation & purification, Chromatiaceae isolation & purification, Fresh Water microbiology, Rhodospirillaceae isolation & purification
Abstract

The anoxygenic phototrophic bacterial community of the brackish meromictic Lake Shira (Khakassia) was investigated in August 2001, July 2002, and February-March 2003. In all the periods of investigation, the prevailing microorganisms were purple sulfur bacteria similar to Lamprocystis purpurea in morphology and pigment composition. Their highest number (3 x 10(5) cells/ml) was recorded in July 2002 at the depth of 15 m. According to 16S rRNA gene analysis, the strain of purple sulfur bacteria isolated in 2001 and designated ShAm01 exhibited 98.6% similarity to the type strain of Thiocapsa roseopersicina and 94.4-97.1% similarity to the type strains of Tca. pendens, Tca. litoralis, and Tea. rosea. The minor microorganisms of the anoxygenic phototrophic bacterial community within the period of investigation were nonsulfur purple bacteria phylogenetically close to Rhodovulum strictum (98.3% similarity, strain ShRb01), Ahrensia kielensis (of 93.9% similarity, strain ShRb02), Rhodomicrobium vannieli (of 99.7% similarity, strain ShRmc01), and green sulfur bacteria, phylogenetically close to Chlorobium limicola (of 98.7% similarity, strain ShCl03).

Published
2007

12. [Seasonal changes in the structure of the anoxygenic photosynthetic bacterial community in Lake Shunet, Khakassia].

Author

Lunina ON, Briantseva IA, Akimov VN, Rusanov II, Rogozin DIu, Barinova ES, Lysenko AM, and Pimenov NV

Subjects
Anaerobiosis, Fresh Water analysis, Phylogeny, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Rhodobacteraceae genetics, Rhodobacteraceae ultrastructure, Siberia, Environmental Monitoring, Fresh Water microbiology, Rhodobacteraceae isolation & purification, Seasons, Water Microbiology
Abstract

Seasonal studies of the anoxygenic phototrophic bacterial community of the water column of the saline eutrophic meromictic Lake Shunet (Khakassia) were performed in 2002 (June) and 2003 (February-March and August). From the redox zone down, the lake water was of dark green color. Green sulfur bacteria predominated in every season. The maximum number of green sulfur bacteria was 10(7) cells/ml in summer and 10(6) cells/ml in winter. A multi-syringe stratification sampler was applied for the study of the fine vertical distribution of phototrophs in August 2003; the sampling was performed every five centimeters. A five-centimeter-thick pink-colored water layer inhabited by purple sulfur bacteria was shown to be located above the layer of green bacteria. The species composition and ratio of purple bacterial species depended on the sampling depth and on the season. In summer, the number of purple sulfur bacteria in the layer of pink water was 1.6 x 10(8) cells/ml. Their number in winter was 3 x 10(5) cells/ml. In the upper oxygen-containing layer of the chemocline the cells of purple nonsulfur bacteria were detected in summer. The maximum number of nonsulfur purple bacteria, 5 x 10(2) cells/ml, was recorded in August 2003. According to the results of the phylogenetic analysis of pure cultures of the isolated phototrophic bacteria, which were based on 16S rDNA sequencing, green sulfur bacteria were close to Prosthecochloris vibrioformis, purple sulfur bacteria, to Thiocapsa and Halochromatium species, and purple nonsulfur bacteria, to Rhodovulum euryhalinum and Pinkicyclus mahoneyensis.

Published
2007

13. [Sulfate reduction and methanogenesis in the Shira and Shunet meromictic lakes (Khakass Republic, Russia)].

Author

Kallistova AIu, Kevbrina MV, Pimenov NV, Rusanov II, Rogozin DIu, Wehrli B, and Nozhevnikova AN

Subjects
Archaea metabolism, Bacteria metabolism, Fresh Water chemistry, Geologic Sediments microbiology, Oligonucleotide Probes, Primed In Situ Labeling, RNA, Bacterial, RNA, Ribosomal, Siberia, Archaea isolation & purification, Bacteria isolation & purification, Fresh Water microbiology, Methane biosynthesis, Sulfates metabolism, Water Microbiology
Abstract

The biogeochemical and molecular biological study of the chemocline and sediments of saline meromictic lakes Shira and Shunet (Khakass Republic, Russia) was performed. A marked increase in the rates of sulfate reduction and methanogenesis was revealed at the medium depths of the chemocline. The rates of these processes in the bottom sediments decreased with depth. The numbers of Bacteria, Archaea, and of sulfate-reducing bacteria (SRB) were determined by fluorescence in situ hybridization with rRNA specific oligonucleotide probes labeled with horseradish peroxidase and subsequent tyramide signal amplification. In the chemocline, both the total microbial numbers and those of Bacteria were shown to increase with depth. The archaea and SRB were present in almost equal numbers. In the lake sediments, a drastic decrease in microbial numbers with depth was revealed. SRB were found to prevail in the upper sediment layer and archaea in the lower one. This finding correlates with the measured rates of sulfate reduction and methanogenesis.

Published
2006

14. [Organotrophic activity in Kamchatka Hot Springs with low pH].

Author

Prokof'eva MI, Rusanov II, Pimenov NV, and Bonch-Osmolovskaia EA

Subjects
Bacteria, Aerobic isolation & purification, Bacteria, Anaerobic isolation & purification, Asia, Eastern, Hydrogen-Ion Concentration, Russia, Bacteria, Aerobic metabolism, Bacteria, Anaerobic metabolism, Hot Springs chemistry, Hot Springs microbiology
Published
2006

15. [Seasonal changes in the structure of the anoxygenic phototrophic bacterial community in Lake Mogilnoe, a relict lake on Kil'din Island in the Barents Sea].

Author

Lunina ON, Gorlenko VM, Solov'eva OA, Akimov VN, Rusanov II, and Pimenov NV

Subjects
Chlorobium isolation & purification, Chlorophyll analysis, Chlorophyll metabolism, Colony Count, Microbial, Ecosystem, Gram-Negative Anaerobic Bacteria genetics, Gram-Negative Anaerobic Bacteria ultrastructure, Photosynthesis, Phylogeny, Russia, Seasons, Species Specificity, Sulfur metabolism, Fresh Water microbiology, Gram-Negative Anaerobic Bacteria isolation & purification, Gram-Negative Anaerobic Bacteria metabolism, Water Microbiology
Abstract

An anaerobic phototrophic bacterial community in Lake Mogilnoe, a relict lake on Kil'din Island in the Barents Sea, was studied in June 1999 and September 2001. Irrespective of the season, the upper layer of the anaerobic zone of this lake had a specific species composition of sulfur phototrophic bacteria, which were dominated by the brown-colored green sulfur bacterium Chlorobium phaeovibrioides. The maximum number of phototrophic sulfur bacteria was observed in June 1999 at a depth of 9 m, which corresponded to a concentration of bacteriochlorophyll (Bchl) e equal to 4.6 mg/l. In September 2001, the maximum concentration of this pigment (3.4 mg/l) was found at a depth of 10 m. In both seasons, the concentration of Bchl a did not exceed 3 microg/l. Purple sulfur bacteria were low in number, which can be explained by their poor adaptation to the hydrochemical and optical conditions of the Lake Mogilnoe water. In June 1999, the water contained a considerable number of Pelodictyon phaeum microcolonies and Prosthecochloris phaeoasteroides cell chains, which was not the case in September 2001. A 16S rDNA-based phylogenetic analysis of pure cultures of phototrophic bacteria isolated from the lake water confirmed that the bacterial community is dominated by Chl. phaeovibrioides and showed the presence of three minor species, Thiocvstis gelatinosa, Thiocapsa sp., and Thiorhodococcus sp., the last of which is specific to Lake Mogilnoe.

Published
2005

16. [Microbiological and isotopic-geochemical investigations of meromictic lakes in Khakasia in winter].

Author

Savvichev AS, Rusanov II, Rogozin DIu, Zakharova EE, Lunina ON, Briantseva IA, Iusupov SK, Pimenov NV, Degermendzhi AG, and Ivanov MV

Subjects
Bacteria metabolism, Carbon Isotopes analysis, Carbon Isotopes metabolism, Methane metabolism, Oxidation-Reduction, Seasons, Siberia, Species Specificity, Sulfates metabolism, Sulfur Isotopes analysis, Sulfur Isotopes metabolism, Bacteria isolation & purification, Bacterial Physiological Phenomena, Fresh Water, Photosynthesis, Water Microbiology
Abstract

Microbiological and isotopic-geochemical investigations of the brackish meromictic lakes Shira and Shunet were performed in the steppe region of Khakasia in winter. Measurements made with a submersed sensor demonstrated that one-meter ice transmits light in a quantity sufficient for oxygenic and anoxygenic photosynthesis. As in the summer season, in the community of phototrophic bacteria found in Lake Shira, the purple sulfur bacteria Amoebobacter purpureus dominated, whereas, in Lake Shunet, the green sulfur bacteria Pelodictyon luteolum were predominant. Photosynthetic production, measured using the radioisotopic method, was several times lower than that in summer. The rates of sulfate reduction and production and oxidation of methane in the water column and bottom sediments were also lower than those recorded in summer. The process of anaerobic methane oxidation in the sediments was an exception, being more intense in winter than in summer. The data from radioisotopic measurements of the rates of microbial processes correlate well with the results of determination of the isotopic composition of organic and mineral carbon (delta13C) and hydrogen sulfide and sulfate (delta34S) and suggest considerable seasonal variations in the activity of the microbial community in the water bodies investigated.

Published
2005

17. [Vertical distribution of radiolarians and their role in epipelagic communities of the West Pacific rise and the Gulf of California].

Author

Zas'ko DN and Rusanov II

Subjects
Animals, California, Pacific Ocean, Phytoplankton isolation & purification, Piroplasmia isolation & purification, Zooplankton isolation & purification, Biomass, Phytoplankton physiology, Piroplasmia physiology, Seawater, Zooplankton physiology
Abstract

Vertical distribution of different groups of radiolarians and mesozooplankton (I = 0.2-3.0 mm) and the contribution of radiolarians to total biomass of bathometer-sampled zooplankton were studied in the epipelagic West Pacific Rise and the Gulf of California during 49th cruise of R/V "Akademik Mstislav Keldysh" (September-October, 2003). The production of the symbiotic algae of acantharians and colonial radiolarians as well as their contribution to the total primary production were evaluated. The proportion of all radiolarian groups in the total zooplankton biomass was shown to range from 1.4 to 11.5%. The contribution of zooxanthellae to the total primary production was not great in the studied region and equaled 0.1-1.2 and 0.3-0.7% for colonial radiolarians and acantharians, respectively.

Published
2005

18. [Ecophysiological properties of photosynthesizing bacteria from the Black Sea chemocline zone].

Author

Gorlenko VM, Mikheev PV, Rusanov II, Pimenov NV, and Ivanov MV

Subjects
Carbon Dioxide metabolism, Chlorobium isolation & purification, Chlorobium ultrastructure, Culture Media, Ecosystem, Ethanol, Fresh Water, Geologic Sediments microbiology, Russia, Seawater, Sodium Acetate, Sulfides metabolism, Chlorobium physiology, Marine Biology, Photosynthesis
Abstract

In May 1998, during the fifty-first voyage on board the research vessel Professor Vodyanitskii, a comparative study was conducted of the species diversity of green and purple sulfur bacteria in the water column of the chemocline zone at deep-sea stations and on the bottom surface of the Black Sea shallow regions. At three deep-sea stations, the accumulation of photosynthesizing bacteria in the chemocline zone at a depth of 85-115 m was revealed on the basis of the distribution of potential values of carbon dioxide light fixation. The location of the site of potential carbon dioxide light fixation suggests that the photosynthesis may be determined by the activity of the brown Chlorobium sp., revealed earlier at these depths. Enrichment cultures of brown sulfur bacteria were obtained from samples taken at the deep-sea stations. By morphology, these bacteria, assigned to Chlorobium sp., appear as nonmotile straight or slightly curved rods 0.3-0.5 x 0.7-1.2 microm in size; sometimes, they form short chains. Ultrathin sections show photosynthesizing antenna-like structures, chlorosomes, typical of Chlorobiaceae. The cultures depended on the presence of NaCl (20 g/l) for growth, which corresponds to the mineralization of Black Sea water. The bacteria could grow photoautotrophically, utilizing sulfide, but the Black Sea strains grew much more slowly than the known species of brown sulfur bacteria isolated from saline or freshwater meromictic lakes. The best growth of the strains studied in this work occurred in media containing ethanol (0.5 g) or sodium acetate (1 g/l) and low amounts of sulfide (0.4 mM), which is consistent with the conditions of syntrophic growth with sulfidogens. The data obtained allow us to conclude that the cultures of brown sulfur bacteria are especially adapted to developing at large depths under conditions of electron donor deficiency owing to syntrophic development with sulfate reducers. The species composition of the photosynthetic bacteria developing in the bottom sediments of shallow stations differed substantially from that observed at deep-sea stations. Pure cultures of the green Chlorobium sp. BS 1C and BS 2C (chlorobactin as the carotenoid), purple sulfur bacteria Chromatium sp. BS 1Ch (containing spirilloxanthine series pigments), and Thiocapsa marina BS 2Tc (containing the carotenoid okenone) were obtained from samples of sediments at shallow-water stations. Brown sulfur bacteria were absent in the sediment samples obtained from the Black Sea shallow-water stations 1 and 2.

Published
2005

19. [The processes of methane formation and oxidation in the soils of the Russian arctic tundra].

Author

Berestovskaia IuIu, Rusanov II, Vasil'eva LV, and Pimenov NV

Subjects
Arctic Regions, Methane chemistry, Oxidation-Reduction, RNA, Bacterial analysis, RNA, Ribosomal, 16S analysis, Rhizobiaceae genetics, Rhizobiaceae isolation & purification, Russia, Seasons, Soil analysis, Temperature, Methane metabolism, Rhizobiaceae metabolism, Soil Microbiology
Abstract

Methane emission from the following types of tundra soils was studied: coarse humic gleyey loamy cryo soil, peaty gley soil, and peaty gleyey midloamy cryo soil of the arctic tundra. All the soils studied were found to be potential sources of atmospheric methane. The highest values of methane emission were recorded in August at a soil temperature of 8-10 degrees C. Flooded parcels were the sources of atmospheric methane throughout the observation period. The rates of methane production and oxidation in tundra soils of various types at 5 and 15 degrees C were studied by the radioisotope method. Methane oxidation was found to occur in bog water, in the green part of peat moss, and in all the soil horizons studied. Methane formation was recorded in the horizons of peat, in clay with plant roots, and in peaty moss dust of the bogey parcels. At both temperatures, the methane oxidation rate exceeded the rate of methane formation in all the horizons of the mossy-lichen tundra and of the bumpy sinkhole complex. Methanogenesis prevailed only in a sedge-peat moss bog at 15 degrees C. Enrichment bacterial cultures oxidizing methane at 5 and 15 degrees C were obtained. Different types of methanotrophic bacteria were shown to be responsible for methane oxidation under these conditions. A representative of type I methylotrophs oxidized methane at 5 degrees C, and Methylocella tundrae, a psychroactive representative of an acidophilic methanotrophic genus Methylocella, at 15 degrees C.

Published
2005

20. [The biogeochemical cycle of methane in the coastal zone and littoral of the Kandalaksha Bay of the White Sea].

Author

Savvichev AS, Rusanov II, Iusupov SK, Pimenov NV, Lein AIu, and Ivanov MV

Subjects
Bacteria isolation & purification, Carbon analysis, Carbon Dioxide metabolism, Colony Count, Microbial, Ecosystem, Fresh Water analysis, Fresh Water microbiology, Geologic Sediments analysis, Oxidation-Reduction, Phytoplankton isolation & purification, Russia, Seasons, Seawater analysis, Soil analysis, Temperature, Bacteria metabolism, Geologic Sediments microbiology, Marine Biology, Methane metabolism, Seawater microbiology, Water Microbiology
Abstract

Microbiological and biogeochemical investigations of the processes of methane production (MP) and methane oxidation (MO) in the coastal waters and littoral of the Kandalaksha Bay of the White Sea were carried out. The studies were conducted in the coastal zones and in the water areas of the Kandalaksha Preserve, Moscow University White Sea Biological Station, and Zoological Institute (RAS) Biological Station in August, 1999, 2000, and 2001 and in March, 2001. The rate of CO2 assimilation in the shallow and littoral sediments was 35-27800 microg C/(dm3 day) in summer and 32.8-88.9 microg C/(dm3 day) in winter. The maximal rates of MP were observed in the littoral sediments in the zone of macrophyte decomposition, in local depressions, and in the estuary of a freshwater creak (up to 113 microl/(dm3 day)). The maximal level of MO was observed in the shallow estuarine sediments (up to 2450 microl/(dm3 day)). During the winter season, at the temperature of -0.5 to 0.5 degrees C, the MP rate in the littoral sediments was 0.02-0.3 microl/(dm3 day), while MO rate was 0.06-0.7 microl/(dm3 day). The isotopic data obtained indicate that the C(org) of the mats and of the upper sediment layers is enriched with the heavy 13C isotope by 1-4 per thousand as compared to the C(org) of the suspension, comprised on 33.5-34.3% of phytoplankton. A striking difference was found between the levels of methane emission by the typical littoral microlanscapes. In fine sediments, the average emission was 675 microl CH4/(m2 day), in the stormy discharge stretch sediments it was 1670 microl CH4/(m2 day), and under the stones and in silted pits, 1370 microl CH4/(m2 day). The calculation performed with consideration of the microlandscape areas with a high production allowed the CH4 production of 1 km2 of the littoral to be estimated as 192-300 1 CH4/(km2 day).

Published
2004

21. [Microbial sulfate reduction in sediments of the coastal zone and littoral of the Kandalaksha bay of the White sea].

Author

Savvichev AS, Rusanov II, Iusupov SK, Baĭramov IT, Pimenov NV, Lein AIu, and Ivanov MV

Subjects
Ecosystem, Hydrogen Sulfide analysis, Hydrogen Sulfide metabolism, Mass Spectrometry, Russia, Seasons, Sulfates analysis, Sulfates metabolism, Sulfur-Reducing Bacteria metabolism, Weather, Geologic Sediments microbiology, Seawater microbiology, Soil Microbiology, Sulfur-Reducing Bacteria isolation & purification, Water Microbiology
Abstract

Microbiological and biogeochemical investigations of the coastal zone and the littoral of the Kandalaksha Bay of the White Sea were carried out. The material for investigations was obtained in the series of expeditions of the Institute of Microbiology, Russian Academy of Sciences, in August 1999, 2000, 2001, and in March 2003. The studies were conducted on the littoral and in the water area of the Kandalaksha Preserve, the Moscow University Belomorsk Biological Station, and the Zoological Institute Biological Station, Russian Academy of Sciences, Sediment sampling on the littoral was carried out in the typical microlandscapes differing in the sediment properties and macrobenthos distribution. The maximal sulfate reduction rate (SRR) was shown for the shallow part of the Chemorechenskaya Bay (up to 2550 micrograms S/(dm3 day)) and in the Bab'ye More Bay (up to 3191 micrograms S/(dm3 day)). During the winter season, at a temperature of -0.5-0.5 degrees C, the SRR in the sediments of the Kartesh Bay was 7.9-13 micrograms S/(dm3 day). In the widest limits, the SRR values varied in the sediment cores sampled on the littoral. The minimal values (11 mu]g S/(dm3 day)) were obtained in the core samples on the silt-sandy littoral. The littoral finely dispersed sediments rich in organic matter were characterized by high SRR values (524-1413 micrograms S/(dm3 day)). The maximal SRR values were shown for the sediments present within the stretch of decomposing macrophytes, in local pits at the lower littoral waterline, and in the mouth of a freshwater stream (51-159 mg S/(dm3 day)). A sharp difference in the level of H2S production in the type microlandscapes was shown. The average hydrogen sulfide production in finely dispersed sediments constituted 125 mg S/(m2 day); in stormy discharge deposits, 1950 mg S/(m2 day); in depressions under stones and in silted pits, 4300 mg S/(m2 day). A calculation made with regard to the area of microlandscapes with increased productivity shows that the daily H2S production per 1 km2 of the littoral (August) is 60.8 to 202 kg S/(km2 day), while the organic carbon consumption for sulfate reduction per 1 km2 of the littoral is 46 to 152 kg C(org)/(km2 day).

Published
2003

22. [Microbial metabolism of the carbon and sulfur cycles in Shira Lake (Khakasia)].

Author

Pimenov NV, Rusanov II, Karnachuk OV, Rogozin DIu, Briantseva IA, Lunina ON, Iusupov SK, Parnachev VP, and Ivanov MV

Subjects
Methane metabolism, Oxidation-Reduction, Photosynthesis, Russia, Sulfates metabolism, Carbon metabolism, Chromatiaceae metabolism, Fresh Water microbiology, Sulfur metabolism
Abstract

Microbiological and biogeochemical studies of the meromictic saline Lake Shira (Khakasia) were conducted. In the upper part of the hydrogen-sulfide zone, at a depth of 13.5-14 m, there was a pale pink layer of water due to the development of purple bacteria (6 x 10(5) cells/ml), which were assigned by their morphological and spectral characteristics to Lamprocystis purpureus (formerly Amoebobacter purpurea). In August, the production of organic matter (OM) in Lake Shira was estimated to be 943 mg C/(m2 day). The contribution of anoxygenic photosynthesis was insignificant (about 7% of the total OM production). The share of bacterial chemosynthesis was still less (no more than 2%). In the anaerobic zone, the community of sulfate-reducing bacteria played a decisive role in the terminal decomposition of OM. The maximal rates of sulfate reduction were observed in the near-bottom water (114 micrograms S/(1 day)) and in the surface layer of bottom sediments (901 micrograms S/(dm3 day)). The daily expenditure of Corg for sulfate reduction was 73% of Corg formed daily in the processes of oxygenic and anoxygenic photosynthesis and bacterial chemosynthesis. The profile of methane distribution in the water column and bottom sediments was typical of meromictic reservoirs. The methane content in the water column increased beginning with the thermocline (7-8 m), and reached maximum values in the near-bottom water (17 microliters/l). In bottom sediments, the greatest methane concentrations (57 microliters/l) were observed in the surface layer (0-3 cm). The integral rate of methane formation in the water column and bottom sediments was almost an order of magnitude higher than the rate of its oxidation by aerobic and anaerobic methanotrophic microorganisms.

Published
2003

23. [Biogeochemical cycle of methane in the northwestern shelf of the Black Sea].

Author

Rusanov II, Levi AIu, Pimenov NV, Iusupov SK, and Ivanov MV

Subjects
Oxidation-Reduction, Russia, Seasons, Methane metabolism
Abstract

Seasonal investigations of methane distribution and rates of its oxidation and generation in the water column and sediments of the Black Sea northwestern shelf were carried out within the framework of the interdisciplinary projects "European River-Ocean Systems" (EROS-2000, EROS-21) and "Biogenic Gases Exchange in the Black Sea" (BigBlack) in August 1995, May 1997, and December 1999. Experiments that involved the addition of 14CH3COONa and 14CO2 to sediment samples showed the main part of methane to be formed from CO2. Maximum values of methane production (up to 559 mumol/(m2 day)) were found in coastal sediments in summer time. In winter and spring, methane production in the same sediments did not exceed 3.6-4.2 mumol/(m2 day). The delta 13C values of methane ranged from -70.7 to -81.8@1000, demonstrating its microbial origin and contradicting the concept of the migration of methane from cold seeps or from the oil fields located at the Black Sea shelf. Experiments that involved the addition of 14CH4 to water and sediment samples showed that a considerable part of methane is oxidized in the upper horizons of bottom sediments and in the water column. Nevertheless, it was found that, in summer, part of methane (from 6.8 to 320 mumol/(m2 day)) arrives in the atmosphere.

Published
2002

24. [Microbial processes of carbon and sulfur cycles in lake Mogil'noe].

Author

Ivanov MV, Rusanov II, Pimenov NV, Baĭramov IT, Iusupov SK, Savvichev AS, Lein AIu, and Sapozhnikov VV

Subjects
Arctic Regions, Fresh Water chemistry, Geologic Sediments chemistry, Geologic Sediments microbiology, Methane analysis, Carbon metabolism, Fresh Water microbiology, Sulfur metabolism
Abstract

In the beginning of summer 1999, complex microbiological and biogeochemical investigations of meromictic Lake Mogil'noe (Kil'din Island, Barents Sea) were carried out. The analysis of the results shows clearly pronounced vertical zonality of the microbial processes occurring in the water column of the lake. To a depth of 8 m, the total number and activity of microorganisms was limited by the relatively low content of organic matter (OM). In the upper part of the hydrogen-sulfide zone of the lake (beginning at a depth of 8.25 m), the content of particulate OM and the microbial number sharply increased. In this zone, the daily production of OM during anaerobic photosynthesis at the expense of massive development of colored sulfur bacteria reached 620 mg C/m2, which was twofold greater than the daily production of phytoplankton photosynthesis and led to a considerable change in the isotopic composition (delta 13 C) of the particulate OM. In the same intermediate layer, the highest rates of sulfate reduction were recorded, and fractionation of stable sulfur isotopes occurred. Below 10 m was the third hydrochemical zone, characterized by maximum concentrations of H2S and CH4 and by a relatively high rate of autotrophic methanogenesis. The comparison of the results obtained with the results of investigations of previous years, performed in the end of summer, shows a decrease in the intensity of all microbial processes inspected. An exception was anoxygenic photosynthesis, which can utilize not only the de novo formed H2S but also the H2S accumulated in the lake during the winter period.

Published
2001

25. [Microbiological processes of the carbon and sulfur cycle in cold methane seeps in the North Atlantic].

Author

Pimenov NV, Savvichev AS, Rusanov II, Lein AIu, and Ivanov MV

Subjects
Bacteria ultrastructure, Cold Temperature, Microscopy, Electron, Oceans and Seas, Water Microbiology, Bacteria metabolism, Carbon metabolism, Sulfur metabolism
Abstract

Functioning of microbial communities in surface sediments of the Haakon Mosby underwater mud volcano (lat. 72 degrees N) and in gas seepage fields of the Vestnesa Ridge was investigated using Mir-1 and Mir-2 deep-sea submersibles during the 40th expedition of the research vessel Academician Mstislav Keldysh. Large areas of sedimentary deposits of the Haakon Mosby mud volcano (HMMV) and pockmarks of the Vestnesa Ridge (VR) are covered with bacterial mats 0.1 to 0.5 cm thick. The microbial community making up bacterial mats of the HMMV was predominated by large filamentous bacteria with filaments measuring up to 100 microns in length and 2 to 8 microns in width. The occurrence of rosettes allowed the observed filamentous bacteria to be referred to the morphologically similar genera Leucothrix or Thiothrix. Three morphological types of filamentous bacteria were identified in bacterial mats covering VR pockmarks. Filaments of type one are morphologically similar with representatives of the genera Thioploca or Desmanthos. Type two filaments had numerous inclusions of sulfur and resembled representatives of the genus Thiothrix. The third morphological type was constituted by single filaments made up of tightly connected disk-like cells and can, apparently, be assigned to the genus Beggiatoa. The rates of methane oxidation (up to 1570 microliters C/(dm3 day)) and sulfate reduction (up to 17 mg S/(dm3 day)) measured in surface sediments of HMMV and VR were close to the maximum rates of these processes observed in badly polluted regions of the northwestern shelf of the Black Sea. High rates of microbiological processes correlated with the high number of bacteria. The rate of methane production in sediments studied was notably lower and ranged from 0.1 to 3.5 microliters CH4/(dm3 day). Large areas of the HMMV caldera were populated by pogonophoras, represented by the two species, Sclerolinum sp. and Oligobrachia sp. The mass development of Sclerolinum sp. in the HMMV caldera was by the activity of aerobic methane-oxidizing bacteria localized inside the cells of these animals. Bacterial cells were also found in the trophosome tissue of Oligobrachia sp., but in cells of these bacteria, we did not observe the membrane structures typical of methanotrophs. The localization pattern of pogonophoras on the surface of reduced sediments suggests that the predominant bacteria in Oligobrachia tissues are sulfur-oxidizing endosymbionts.

Published
2000

26. [Microbiological study of the northern part of the Barentz Sea at the onset of winter].

Author

Savvichev AS, Rusanov II, Pimenov NV, Mitskevich IN, Baĭramov IV, Lein AIu, and Ivanov MV

Subjects
Glucose metabolism, Light, Russia, Seasons, Seawater, Water Microbiology
Abstract

The total number of microorganisms and rates of microbial processes of the carbon cycle were determined in snow, sea ice, water, and seafloor sediments of the northern part of the Barents Sea from September to October, 1998. The explorations were carried out in two areas: along the trajectory from Franz Josef Land to Victoria Island and along the continental slope region covered with solid ice at latitude 81 degrees-82 degrees N and longitude 37 degrees-39 degrees E. At the time of study, the ice cover was represented by thick one-year old ice (up to 1.2 m), perennial ice (up to 1.85 m), and pack ice. The number of bacteria in the snow cover, sea ice, and seawater was 12 to 14, 50 to 110, and 10 to 240 x 10(3) cells/ml, respectively. Rates of CO2-assimilation in the absence of light, glucose utilization, and methane oxidation by bacteria were determined. The highest rate of microbial processes was found in samples of the lowermost newly formed sea ice. The lowest level of activity for all processes was observed from melted snow water. A direct relation was shown between the concentration of Corg, the bacterial biomass, and the values of delta 13Corg in mixtures of melted snow and ice. The number of microorganisms and rates of microbial processes in seafloor sediments measured at the stations on the continental slope are comparable to those in the central part of the Barents Sea and the northern part of the Kara Sea.

Published
2000

27. [Effect of microorganisms and seasonal factors on the isotope composition of organic carbon from Black Sea suspensions].

Author

Ivanov MV, Lein AIu, Miller IuM, Iusunov SK, Pimenov NV, Wehrli B, Rusanov II, and Zehnder A

Subjects
Oceans and Seas, Carbon Isotopes chemistry, Seasons, Water Microbiology
Abstract

The isotopic composition of particulate organic carbon (POC) from the Black Sea deep-water zone was studied during a Russian-Swiss expedition in May 1998. POC from the upper part of the hydrogen sulfide zone (the C-layer) was found to be considerably enriched with the 12C isotope, as compared to the POC of the oxycline and anaerobic zone. In the C-layer waters, the concurrent presence of dissolved oxygen and hydrogen sulfide and an increased rate of dark CO2 fixation were recorded, suggesting that the change in the POC isotopic composition occurs at the expense of newly formed isotopically light organic matter of the biomass of autotrophic bacteria involved in the sulfur cycle. In the anaerobic waters below the C-layer, the organic matter of the biomass of autotrophs is consumed by the community of heterotrophic microorganisms; this results in weighting of the POC isotopic composition. Analysis of the data obtained and data available in the literature allows an inference to be made about the considerable seasonable variability of the POC delta 13C value, which depends on the ratio of terrigenic and planktonogenic components in the particulate organic matter.

Published
2000

28. [Microbiological processes at the interface of aerobic and anaerobic waters in the deep-water zone of the Black Sea].

Author

Pimenov NV, Rusanov II, Iusupov SK, Fridrich J, Lein AIu, Wehrli B, and Ivanov MV

Subjects
Aerobiosis, Anaerobiosis, Archaea metabolism, Base Sequence, Carbon Dioxide metabolism, Colony Count, Microbial, DNA Primers, Methane metabolism, Oceans and Seas, Oxidation-Reduction, Sulfates metabolism, Archaea isolation & purification, Bacteria metabolism, Water Microbiology
Abstract

Chemical and key microbiological processes (assimilation of carbon dioxide, oxidation and formation of methane, and sulfate reduction) occurring at the boundary between the aerobic-anaerobic interface in the deep-water zone of the Black Sea were investigated. Measurements were taken at depths from 90 to 300 m at intervals of 5-10 m. The integral rate of the dark assimilation of carbon dioxide varied from 120 to 207 mg C/(m2 day) with a maximum at the boundary of cyclonic currents. The organic matter (OM) formed from methane comprised less than 5% of the OM formed from carbon dioxide. A comparison between the rates of methane oxidation and methane production suggests that methane that is oxidized at depths from 100 to 300 m was formed in deeper water horizons. The maximum rate of sulfate reduction (1230 mg S/(m2 day)) was observed in the western halistatic region, and the minimum rate (490 mg S/(m2 day)), in the eastern halistatic region. The average rate of hydrogen sulfide production measured at three deep-sea stations amounted to 755 mg S/(m2 day), or 276 g S/(m2 year).

Published
2000

29. [Problems of replacing heart valves with bioprosthesis using the xenopericardium].

Author

Fursov BA, Bykova VA, Iavorskaia LA, Mikhina VS, and Rusanov II

Subjects
Adolescent, Adult, Animals, Aortic Valve Insufficiency surgery, Cattle, Child, Follow-Up Studies, Humans, Methods, Middle Aged, Mitral Valve Insufficiency surgery, Aortic Valve surgery, Bioprosthesis, Heart Valve Prosthesis, Mitral Valve surgery, Pericardium transplantation
Published
1986

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