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
Autor: | T. S. Prusakova, A. Yu. Lein, Alexander S Savvichev, Igor I Rusanov, M. V. Ivanov, E. E. Zakharova, E F Veslopolova |
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Rok vydání: | 2013 |
Předmět: |
chemistry.chemical_classification
geography geography.geographical_feature_category δ13C Terrigenous sediment Ecology chemistry.chemical_element Sediment Estuary Applied Microbiology and Biotechnology Microbiology Nitrogen Water column chemistry Environmental chemistry Organic matter Compounds of carbon |
Zdroj: | Microbiology. 82:735-742 |
ISSN: | 1608-3237 0026-2617 |
DOI: | 10.1134/s0026261713060064 |
Popis: | 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, ‰) 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 fluffy layer (5–10 mm); and (3) the upper sediment horizon (1–5 cm). Due to a 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‰. 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‰ higher than in the near-bottom water. Due to insufficient illumination in the near-bottom zone, newly formed isotopically heavy organic matter (δ13C ∼ −20‰) 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. |
Databáze: | OpenAIRE |
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