The role of water movement and spatial scaling for measurement of dissolved inorganic nitrogen fluxes in intertidal sediments

Fluxes of dissolved inorganic nitrogen (ammonium End nitrate) across the sediment-water interface were determined at intertidal locations in I(Konigshafen, northern Wadden Sea, North Sea. Three different incubation techniques were compared: closed sediment cores (small scale), closed bell jars (medium scale) and an open flow system (Sylt flume, large scale). Water movement in the two closed systems was maintained below the resuspension limit by spinning magnets (cores, incubated in the laboratory) or by transfer of wave action through flexible plastic foil (bell jars, in situ), whereas in the flume system (in situ) water movement was unidirectional, driven by currents and waves. Data sets from several years of core measurements (1992-94), bell jar measurements (1980) and flume campaigns (1990-93) served as the basis for a comparison of dissolved inorganic nitrogen fluxes. Fluxes of ammonium and nitrate were within the same order of magnitude in closed cores and bell jars, while flume rates of ammonium were considerably higher.:The high flume rates were caused by advective flushing due to tidal water movement and wave action. The release of ammonium increased significantly with current velocity between 1 and 13 cm s(-1). Fluxes of ammonium were higher in sediments with Arenicola marina compared to those without this bioturbating species. The influence of benthic microalgae was evident only in the small and medium scale core and bell jar systems as reduced ammonium release during light exposure. Nitrate was consumed by sediments in both closed systems at a rate proportional to the nitrate concentration in the overlying water. Nitrate fluxes in the large scale Sylt flume were low with an average of only 7% of the ammonium fluxes, probably due to low concentrations in tidal waters during measurements (summer), Both closed, small scale or open, large scale techniques can be applied successfully for benthic flux studies, but the actual choice depends on the purpose of the investigation Small enclosures, either in the field I:bell jars) or in the laboratory (cores) are well suited to examine controlling factors for benthic microbial metabolism and nutrient exchange across the sediment-water interface. Fluxes in benthic-pelagic subsystems need larger, open tools where the effect of entire benthic communities and especially the influence of waves and currents can be evaluated. (C) 1998 Academic Press Limited.