Microbial Mn(IV) and Fe(III) reduction in northern Barents Sea sediments under different conditions of ice cover and organic carbon deposition

Microbial Mn(IV) and Fe(III) reduction in northern Barents Sea sediments under different conditions of ice cover and organic carbon deposition

Carbon oxidation rates and pathways were determined in two sediments at latitude 75° and 77°N southeast of Svalbard in the northern Barents Sea. Seasonal ice cover restricts primary production to few months a year, which determines the sedimentation rate of organic material to the seafloor. At one s...

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Bibliographic Details
Published in:Deep-sea research. Part II, Topical studies in oceanography Vol. 55; no. 20; pp. 2390 - 2398
Main Authors: Nickel, Maren, Vandieken, Verona, Brüchert, Volker, Jørgensen, Bo B.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2008
Subjects:
Arctic
Carbon mineralization
Marine
Marine sediments
Sediment incubations
Svalbard
PNE, Barents Sea
PNE, Norway, Svalbard
Sediment incubations
Carbon mineralization
Svalbard
Marine sediments
Arctic
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Summary:Carbon oxidation rates and pathways were determined in two sediments at latitude 75° and 77°N southeast of Svalbard in the northern Barents Sea. Seasonal ice cover restricts primary production to few months a year, which determines the sedimentation rate of organic material to the seafloor. At one station, with seasonally extended ice cover, low organic carbon content and sedimentation rate combined with relatively high concentrations of Mn and Fe(III) oxides favored dissimilatory Fe and Mn reduction (98% of anaerobic carbon oxidation) over sulfate reduction in the top 12 cm of the sediment. In contrast, in a sediment that had not been ice covered for at least 12 months and with more organic carbon and a higher sedimentation rate, sulfate reduction was the most important anaerobic electron-accepting process (>80% of anaerobic carbon oxidation). In the upper 3 cm, microbial Fe and sulfate reduction occurred simultaneously, and sulfate reduction dominated at 3–12 cm. Oxygen consumption rates (1.9 and 3.7 mmol m −2 d −1) and anaerobic CO 2 production rates (1.3 and 6.4 mmol m −2 d −1) of both stations were similar to rates from open-ocean sediments farther north in the Barents Sea but lower compared to those in fjords of Svalbard.
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ISSN:0967-0645
1879-0100
DOI:10.1016/j.dsr2.2008.05.003