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Your search keyword '"Rusanov, I."' showing total 11 results
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11 results on '"Rusanov, I."'

1. Seasonal Variability of Vertical Fluxes of Dispersed Sedimentary Matter in the Black Sea.

Author

Klyuvitkin, A. A., Kravchishina, M. D., Dara, O. M., Rusanov, I. I., and Lisitzin, A. P.

Subjects
SEDIMENTS, SUBMARINE geology, PARTICULATE matter, HYDROSPHERE (Earth)
Abstract

Abstract: The main aim of this work is to obtain new data on the seasonal variability of the vertical flux of sedimentary matter, its composition, and its transformation during deposition on the seafloor using materials from a year's exposure of sediment traps in the central part of the Black Sea. [ABSTRACT FROM AUTHOR]

Published
2018
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2. Seasonal Dynamics of Biogeochemical Processes in the Water Column of the Northeastern Black Sea.

Author

Rusanov, I. I., Lein, A. Yu., Makkaveev, P. N., Klyuvitkin, A. A., Kravchishina, M. D., Ivanov, M. V., and Flint, M. V.

Subjects
*BIOGEOCHEMISTRY, *WATER chemistry, *WATER depth, *CONVECTIVE mixing time, *PARTICULATE matter
Abstract

Integrated studies on the hydrochemistry and water column rates of microbial processes in the eastern sector of the Black Sea along a standard 100-miles transect off Gelendzhik from the coast to the central part of the sea at water depths of 100-2170 m show that a series of warm winters and the absence of intense convective winter mixing resulted in a relatively low content of suspended particulate matter (SPM), particulate organic carbon (POC), and nutrients in the water column in March 2009. The relatively high SPM concentrations and the presence of isotopically light POC at the offshore station are indicative of the supply of terrigenous material from land and low contributions of phytoplanktonic organic matter to the composition of SPM. This may explain the low rates of biogeochemical processes in the water column near the coast. The surface layer at deep-water stations is dominated by isotopically heavy phytoplanktonic organic matter. This suggests that the supply of terrigenous material from land was insufficient in offshore deep-water areas. Therefore, warm winters and insufficient nutrient supply do not prevent photosynthesis in the photic layer of the deep-water zone, which generates organic substrates for heterotrophic aquatic communities. The results of isotopic analysis of POC, measurements of the rates biogeochemical processes, and the hydrochemical characteristics of the water column can be used to determine the nature and seasonal variability of the POC composition. [ABSTRACT FROM AUTHOR]

Published
2018
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5. Energy sources for diagenesis: Evidence from the Black Sea.

Author

Lein, A., Rusanov, I., Pavlova, G., Dara, O., Verkhovskaya, Z., Zakharova, E., Yusupov, S., and Ivanov, M.

Subjects
*DIAGENESIS, *SEDIMENT analysis, *METHANE, *OXIDATION, *ANAEROBIC bacteria
Abstract

Complex investigations of recent and Drevnechernomorian (ancient Black Sea) sediments from the outer shelf, continental slope, and deep-water basin of the Russian Black Sea sector have been carried out using samples collected during cruise of the R/V Professor Shtokman organized by the Institute of Oceanology of the Russian Academy of Sciences (March 2009) and expedition of 'YUZHMORGEO' (summer 2006). Rates of the main anaerobic processes during diagenesis (sulfate reduction, dark CO fixation, methanogenesis, and methane oxidation) were studied for the first time in sediment cores of the studied area. Two peaks in the rate of microbial processes and two sources of these processes were identified: the upper peak near the water-sediment contact is related to the solar energy (OM substrate of the water column) and the lower peak at the base of the Drevnechernomorian sediments with high(>1000 μM) methane concentration related to the energy of anaerobic methane oxidation. The neogenic labile OM formed during this process is utilized by other groups of microorganisms. According to experimental data, the daily rate of anaerobic methane oxidation is many times higher than that of methanogenesis, which unambiguously indicates the migration nature of the main part of methane. [ABSTRACT FROM AUTHOR]

Published
2011
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6. Investigation of the sulfate-reducing bacterial community in the aerobic water and chemocline zone of the Black Sea by the fish technique.

Author

Bryukhanov, A. L., Korneeva, V. A., Kanapatskii, T. A., Zakharova, E. E., Men'ko, E. V., Rusanov, I. I., and Pimenov, N. V.

Subjects
FLUORESCENCE in situ hybridization, SULFIDES, SULFATE-reducing bacteria, RADIOISOTOPES, OLIGONUCLEOTIDES
Abstract

Fluorescent in situ hybridization (FISH) was used to analyze the abundance and phylogenetic composition of sulfate-reducing bacteria in the aerobic waters and in the oxic/anoxic transitional zone (chemocline) of the Black Sea, where biogenic formation of reduced sulfur compounds was detected by radioisotope techniques. Numerous sulfate-reducing bacteria of the genera Desulfotomaculum (30.5% of detected bacterial cells), Desulfovibrio (29.6%), and Desulfobacter (6.7%) were revealed in the aerobic zone at a depth of 30 m, while Desulfomicrobium-related bacteria (33.5%) were prevalent in the upper chemocline waters at 150-m depth. Active cells of sulfate-reducing bacteria were much more abundant in the samples collected in summer than in the winter samples from the deep-sea zone. The presence of physiologically active sulfate reducers in oxic and chemocline waters of the Black Sea correlates with the hydrochemical data on the presence of reduced sulfur compounds in the aerobic water column. [ABSTRACT FROM AUTHOR]

Published
2011
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7. Ecophysiological properties of photosynthetic bacteria from the Black Sea chemocline zone.

Author

Gorlenko, V. M., Mikheev, P. V., Rusanov, I. I., Pimenov, N. V., and Ivanov, M. V.

Subjects
PHOTOSYNTHETIC bacteria, BACTERIA, ECOPHYSIOLOGY, CARBON dioxide, MARINE bacteria, MARINE microbiology
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 photosynthetic 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., earlier revealed 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 × 0.7–1.2 µm in size; sometimes, they form short chains. Ultrathin sections show photosynthetic 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. [ABSTRACT FROM AUTHOR]

Published
2005
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8. Hydrochemical and Microbiological Features of Lake Mogil'noe.

Author

Sapozhnikov, V. V., Arzhanova, N. V., Titov, O. V., Torgunova, N. I., and Rusanov, I. I.

Subjects
WATER chemistry, SULFATES, MICROBIOLOGY, MICROORGANISMS, GLUCOSE
Abstract

A comprehensive hydrochemical and microbiological study was conducted in Lake Mogil'noe. The vertical hysrochemical structure of the lake was analyzed. Large amounts of mineral compounds containing biogenic elements and their organic forms are shown to accumulate in the anaerobic zone of the lake. An abrupt increase in the concentration of Corg is recorded in the near-bottom layer, where it is almost an order of magnitude higher than that in the anaerobic zone of the Black Sea at a depth of 2000 m. All the processes are found to be most rapid in the boundary layer between the aerobic and anaerobic zones (8.25–9.25 m), where the primary production attains its maximum, the concentration of sulfates abruptly increases relative to the aerobic and anaerobic zones, microorganism population is maximum, as are the rates of sulfate reduction and glucose consumption by heterotrophic organisms. [ABSTRACT FROM AUTHOR]

Published
2001
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9. Biogeochemical processes of carbon and sulfur cycles in sediments of the outer shelf of the Black Sea (Russian Sector).

Author

Lein, A. Yu., Rusanov, I. I., Zakharova, E. E., Flint, M. V., and Ivanov, M. V.

Subjects
*BIOGEOCHEMICAL cycles, *BIOGEOCHEMISTRY, *CARBON, *SULFUR, *SEDIMENTS, *ANOXIC zones, *RADIOACTIVE tracers, *SEDIMENTATION & deposition
Abstract

Within the mass of recent (unit-I) and ancient Black Sea (unit-II) sediments on the outer shelf of the Russian sector of the Black Sea, the rates of anoxic processes participating in diagenetic transformations of carbon and sulfur compounds were first measured using 35S and 14C radioactive tracers. The main energy source for biogeochemical processes in (unit-I) sediments is the organic matter (OM) supplied to the bottom from the water mass. In (unit-II) sediments, this is methane in a migratory form proved by the excess of its oxidation rate over that of its generation. In recent silt, the primary microbial process is sulfate reduction; in unit-II, this is methane anoxic oxidation by the consortium of archeides and sulfate reductants. The organic matter produced in methane oxidation, in turn, acts as an energy source for the community of anaerobic heterotrophic microorganisms in the bottom sediments, which are remote from the water-sediment interface. [ABSTRACT FROM AUTHOR]

Published
2010
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10. Microbial Processes of the Methane Cycle at the North-western Shelf of the Black Sea

Author

Ivanov, M. V., Pimenov, N. V., Rusanov, I. I., and Lein, A. Yu.

Subjects
*METHANE, *CARBOXYLIC acids
Abstract

During expeditions in August 1995 and May 1997, the distribution of methane and the rates of its production and oxidation were studied in water and bottom sediments of the north-western shelf of the Black Sea. Experiments that involved the addition of 14CH3COOH and 14CO2 to sediment samples showed the main part of methane to be formed from CO2. Maximum values of methane production (up to 560–680 μmol m−2 day−1) were found in coastal sediments in summer-time. In spring, methane production in the same sediments did not exceed 3·6 μmol m−2 day−1. The δ13C values of methane ranged from −70·7 to −81·8‰, demonstrating its microbial origin and contradicting the concept of the migration of methane from the oilfields located on 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 the methane (from 20 to 235 μmol m−2 day−1) arrives at the atmosphere. [Copyright &y& Elsevier]

Published
2002
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11. Seasonal Dynamics of the Sulphate Reduction Rate on the North-western Black Sea Shelf

Author

Lein, A., Pimenov, N., Guillou, C., Martin, J.-M., Lancelot, C., Rusanov, I., Yusupov, S., Miller, Yu., and Ivanov, M.

Subjects
*SULFATES, *MARINE sediments, *RADIOCHEMISTRY
Abstract

The microbial sulphate reduction rate (SRR) in the surface layer (0–30 cm) of shallow water sediments of the north-western Black Sea shelf has been measured using the 35S radioisotopic technique. It was shown that SRR is accompanied by changes of salt composition of porewaters and isotopic (δ34S) composition of sulphate. The hydrogen sulphide-derived minerals are formed in the solid phase of sediments. An expected exponential dependence of the isotopic composition of reduced sulphur compounds on the SRR was observed. In near-shore sediments, terrestrial organic carbon (δ13C≈−26‰) as well as marine phytoplankton organic carbon (δ13C≈−22‰) are associated with the SR processes. In August 1995 and May 1997–1998, anoxic conditions in near-bottom waters of coastal areas were not detected. The average value of H2S production in nearshore sediments varied from 3·62 mmol S m−2 day−1 in spring to 8·89 mmol S m−2 day−1 in summer 1995; these fluxes were twice as high as those measured in spring 1997 and 1998. [Copyright &y& Elsevier]

Published
2002
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