Nitrogen cycling in the German Bight (SE North Sea) — Clues from modelling stable nitrogen isotopes

Nitrogen isotope values (δ 15N) of surface sediments in the German Bight of the North Sea exhibit a significant gradient from values of 5–6‰ of the open shelf sea to values above 11‰ in the German Bight. This signal has been attributed to high reactive N (N r) loading enriched in 15N from rivers and...

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Bibliographic Details
Published in:Continental shelf research 2010-02, Vol.30 (2), p.203-213
Main Authors: Pätsch, Johannes, Serna, Alexandra, Dähnke, Kirstin, Schlarbaum, Tim, Johannsen, Astrid, Emeis, Kay-Christian
Format: Article
Language:English
Subjects:
Atmospheres
Brackish
Coastal environments
Discharge
German Bight
Marine
Mathematical models
modelling
Nitrates
Nitrogen
North Sea
River input
Rivers
Sediments
Stable isotopes
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Summary:Nitrogen isotope values (δ 15N) of surface sediments in the German Bight of the North Sea exhibit a significant gradient from values of 5–6‰ of the open shelf sea to values above 11‰ in the German Bight. This signal has been attributed to high reactive N (N r) loading enriched in 15N from rivers and the atmosphere. To better understand the processes that determine the intensity and spatial distribution of δ 15N anomalies in surface sediments, and to explore their usefulness for reconstructions of pristine N-input from rivers, we modeled the cycling of the stable isotopes 14N and 15N in reactive nitrogen through the ecosystem of the central and southern North Sea (50.9–57.3°N, 3.4°W−9.2°E) for the year 1995. The 3D-ecosystem model ECOHAM amended with an isotope-tracking module was validated by δ 15N data of surface sediments within the model domain. A typical marine value (δ 15N nitrate=5‰) was prescribed for nitrate advected into the model domain at the seaside boundaries, whereas δ 15N nitrate of river inputs were those measured bi-monthly over 1 year; δ 15N values of atmospheric deposition were set to 6‰ and 7‰ for NO x and NH y , respectively. The simulated δ 15N values of different nitrogen compounds in the German Bight strongly depend on the mass transfers in the ecosystem. These fluxes, summarized in a nitrogen budget for 1995, give an estimate of the impacts of hydrodynamical and hydrological boundary conditions, and internal biogeochemical transformations on the nitrogen budget of the bight. Sensitivity tests suggest that the most relevant parameters to reproduce observed sediment δ 15N are the 15N/ 14N ratios in N r-sources (e.g. river, atmosphere), and the fractionation factors associated with N r turnover processes, in particular nitrate uptake by phytoplankton and nitrogen burial. In accord with observations, the modeled surface sediments of the inner German Bight are enriched in 15N (δ 15N>9.5‰). The general gradient of decreasing δ 15N in sediments from the coast to the open shelf primarily reflects the amount of 15N-enriched reactive nitrogen discharged by the German rivers into the North Sea. Smaller patterns are created by different conditions of the nitrogen pools in combination with corresponding isotope fractionation processes in the course of the year. These conditions can be caused by a heterogeneous topography or by varying sediment properties, most prominently porosity variations. Both simulation results and observational data show
ISSN:0278-4343
1873-6955
DOI:10.1016/j.csr.2009.11.003