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Exceptionally high respiration rates in the reactive surface layer of sediments underlying oxygen-deficient bottom waters
van de Velde, S.J.; Hylén, A.; Eriksson, M.; James, R.K.; Kononets, M.Y.; Robertson, E.K.; Hall, P.O.J. (2023). Exceptionally high respiration rates in the reactive surface layer of sediments underlying oxygen-deficient bottom waters. Proc. - Royal Soc., Math. Phys. Eng. Sci. 479(2275): 20230189. https://dx.doi.org/10.1098/rspa.2023.0189
In: Proceedings of the Royal Society. Mathematical, Physical and Engineering Sciences. Royal Society: London (6 Carlton House Terrace, London SW1Y 5AG). ISSN 1364-5021; e-ISSN 1471-2946, meer
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  • van de Velde, S.J., meer
  • Hylén, A., meer
  • Eriksson, M.
  • James, R.K., meer
  • Kononets, M.Y., meer
  • Robertson, E.K.
  • Hall, P.O.J.

Abstract
    Organic carbon (OC) burial efficiency, which relates the OC burial rate to respiration in the seafloor, is a critical parameter in the reconstruction of past marine primary productivities. The current accepted theory is that sediments underlying oxygen-deficient (anoxic) bottom waters have low respiration rates and high OC burial efficiencies. By combining novel in situ measurements in anoxic basins with reaction-transport modelling, we demonstrate that sediments underlying anoxic bottom waters have much higher respiration rates than commonly assumed. A major proportion of the carbon respiration is concentrated in the top millimeter—the so-called ‘reactive surface layer’—which is likely a feature in approximately 15% of the coastal seafloor. When re-evaluating previously published data in light of our results, we conclude that the impact of bottom-water anoxia on OC burial efficiencies in marine sediments is small. Consequently, reconstructions of past marine primary productivity in a predominantly anoxic ocean based on OC burial rates might be underestimated by up to an order of magnitude.

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