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Oxygenation of an anoxic fjord basin strongly stimulates benthic denitrification and DNRA
De Brabandere, L.; Bonaglia, S.; Kononets, M.Y.; Viktorsson, L.; Stigebrandt, A.; Thamdrup, B.; Hall, P.O.J. (2015). Oxygenation of an anoxic fjord basin strongly stimulates benthic denitrification and DNRA. Biogeochemistry 126(1-2): 131-152. https://dx.doi.org/10.1007/s10533-015-0148-6
In: Biogeochemistry. Springer: Dordrecht; Lancaster; Boston. ISSN 0168-2563; e-ISSN 1573-515X
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    Dissimilatory nitrate reduction; Denitrification; DNRA; Anammox;Engineered oxygenation; Hypoxia; By Fjord

Authors  Top 
  • De Brabandere, L.
  • Bonaglia, S.
  • Kononets, M.Y.
  • Viktorsson, L.
  • Stigebrandt, A.
  • Thamdrup, B.
  • Hall, P.O.J.

Abstract
    Hypoxia hampers eutrophication reduction efforts by enabling high nutrient fluxes from sediment to bottom waters. Oxygenation of hypoxic water bodies is often proposed to reduce benthic ammonium and phosphate release. This study investigates the functional response of benthic nitrate-reducing processes to a long-term engineered oxygenation effort in a density-stratified fjord with euxinic bottom waters. Oxygenation was achieved by mixing surface water with deep, euxinic water, which increased oxygen and nitrate concentrations in the deep water column. The presence of nitrate instigated benthic nitrate reduction in the newly oxidized sediments by equally stimulating denitrification and dissimilatory nitrate reduction to ammonium (DNRA). DNRA and total nitrate reduction rates, as well as the contribution of DNRA to total nitrate reduction, decreased with increasing exposure time of the sediments to oxygen. The relative importance of DNRA as a nitrate sink was correlated to nitrate concentrations, with more nitrate being reduced to ammonium at higher bottom water nitrate concentrations. Overall, engineered oxygenation decreased the net efflux of dissolved inorganic nitrogen from the sediments by stimulating net nitrate removal through denitrification.

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