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Radium isotopes as a tracer of sediment-water column exchange in the North Sea
Burt, W.J.; Thomas, H.; Pätsch, J.; Omar, A.; Schrum, C.; Daewel, U.; Brenner, H.; de Baar, H.J.W. (2014). Radium isotopes as a tracer of sediment-water column exchange in the North Sea. Global Biogeochem. Cycles 28(8): 786–804. http://dx.doi.org/10.1002/2014GB004825
In: Global Biogeochemical Cycles. American Geophysical Union: Washington, DC. ISSN 0886-6236, meer
Peer reviewed article  

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Author keywords
    radium; North Sea; benthic fluxes; sediment incubations; alkalinity

Auteurs  Top 
  • Burt, W.J.
  • Thomas, H.
  • Pätsch, J.
  • Omar, A.
  • Schrum, C.
  • Daewel, U.
  • Brenner, H., meer
  • de Baar, H.J.W., meer

Abstract
    Sediment-water column exchange plays an important role in coastal biogeochemistry. We utilize short-lived radium isotopes (224Ra and 223Ra) to understand and quantify the dominant processes governing sediment-water column exchange throughout the North Sea. Our comprehensive survey, conducted in September 2011, represents the first of its kind conducted in the North Sea. We find that two main sources regulate surface Ra distributions: minor coastal input from rivers and shallow mudflats and North Sea sediments as the dominant source. Pore waters show 100-fold larger activities than the water column. North Sea sediment characteristics such as porosity and mean grain size, as well as turbulence at the sediment-water interface, are the dominant factors contributing to variability of Ra efflux. Ra inventory and mass balance approaches consistently yield high benthic Ra effluxes in the southern North Sea, driven by strong tidal and wind mixing, which in turn cause high sediment irrigation rates. These results exceed incubation-based Ra flux estimates and the majority of previously reported Ra flux estimates for other regions. Ra-based estimates of benthic alkalinity fluxes compare well to observed values, and the high rates of Ra efflux imply a potentially significant exchange of other products of sedimentary reactions, including carbon and nutrient species. Passive tracer simulations lend strong support to the Ra source attribution and imply seasonal variation in the surface water Ra distribution depending on stratification conditions.

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