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Bioturbation and the δ56Fe signature of dissolved iron fluxes from marine sediments
van de Velde, S.J.; Dale, A.W.; Arndt, S. (2023). Bioturbation and the δ56Fe signature of dissolved iron fluxes from marine sediments. Royal Society Open Science 10(1): 220010. https://dx.doi.org/10.1098/rsos.220010
In: Royal Society Open Science. The Royal Society: London. ISSN 2054-5703; e-ISSN 2054-5703, more
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    benthic iron flux; iron isotopes; bioturbation; diagenetic modelling

Authors  Top 
  • van de Velde, S.J., more
  • Dale, A.W.
  • Arndt, S., more

Abstract
    We developed a reaction-transport model capable of tracing iron isotopes in marine sediments to quantify the influence of bioturbation on the isotopic signature of the benthic dissolved (DFe) flux. By fitting the model to published data from marine sediments, we calibrated effective overall fractionation factors for iron reduction (–1.3‰), oxidation (+0.4‰), iron-sulfide precipitation (+0.5‰) and dissolution (−0.5‰) and pyrite precipitation (−0.7‰) that agree with literature values. Results show that for bottom-water oxygen concentrations greater than 50 µM, higher bioturbation increased the benthic DFe flux and its δ56Fe signature. By contrast, for oxygen concentrations less than 50 µM, higher bioturbation decreased the benthic DFe flux and its δ56Fe signature. The expressed overall fractionation of the benthic DFe flux relative to the δ56Fe of the iron oxides entering the sediment ranges from −1.67‰ to 0.0‰. On a global scale, the presence of bioturbation increases sedimentary DFe release from approximately 70 G mol DFe yr−1 to approximately 160 G mol DFe yr−1 and decreases the δ56Fe signature of the DFe flux.

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