History of anthropogenic nitrogen input to the German Bight/SE North Sea as reflected by nitrogen isotopes in surface sediments,sediment cores and hindcast models |
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| Authors: | Alexandra Serna Johannes Pätsch Kirstin Dähnke Martin G Wiesner H Christian Hass Manfred Zeiler Dierk Hebbeln Kay-Christian Emeis |
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| Institution: | 1. Institute of Biogeochemistry and Marine Chemistry, University of Hamburg, Bundesstraße 55, D-20146 Hamburg, Germany;2. Institute of Oceanography, University of Hamburg, Bundesstraße 55, D-20146 Hamburg, Germany;3. Institute for Coastal Research, GKSS-Forschungszentrum Geesthacht, Max-Planck-Straße 1, D-21502 Geesthacht, Germany;4. Alfred Wegener Institute, D-25992 List, Germany;5. Federal Maritime and Hydrographic Agency (BSH), Bernhard-Nocht-Straße 78, D-20359 Hamburg, Germany;6. MARUM, University of Bremen, Leobener Straße, D-28359 Bremen, Germany |
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| Abstract: | The German Bight/SE North Sea is considered a hot-spot of river-induced eutrophication, but the scarce observational data of river nitrate loads prior to the 1970s complicate the assessment of target conditions for environmental management and legislation. Stable nitrogen isotope ratios (δ15N) in sediment records can be used to decipher historical river nitrate contributions. To better constrain pre-1970s conditions, we determined δ15N in archive sediment samples (1950–1969) and dated cores from the Helgoland depositional area. We also modeled the δ15N in past situations (1960 and 1860) using an N-isotope-tracking ecosystem model. The modeled spatial distribution of δ15N in sediments for 1960 conditions and the observed spatial pattern of δ15N in archive sediment samples (1950–1969) represent a period of moderate eutrophication. The modeled spatial distribution of δ15N in sediments for 1860 conditions (pre-industrial) showed a moderate δ15N gradient from the Elbe river mouth (δ15N<4‰) to the open sea (δ15N∼5‰). This pattern contrasts with the δ15N pattern in modern surface sediments, which exhibits a steep and inverted δ15N gradient from the Elbe river mouth (δ15N>9‰) to the open sea (δ15N<7‰). Modeled δ15N for 1860 conditions are consistent with δ15N values observed in dated sediment cores that span the last 900 years. Value of δ15N in sediment cores increased from approximately 1860 to 2000 by 2.5‰. The increasing trend reflects changes in the abundance and isotopic composition of riverine nitrate loads caused by anthropogenic activities. Sensitivity tests suggest that loads and isotopic ratios of nitrogen forms other than nitrate (ammonium and organic nitrogen) have minor impact on the modeled surface sediments, despite their higher abundance in the riverborne loads in the past. Our results suggest that eutrophication of the German Bight predates the 1960 period of documented rapidly increasing river loads. Pre-industrial levels of δ15N modeled with 28% of the modern annual (1990–1999) atmospheric loads and 10% of the modern annual river loads agree best with levels of δ15N (∼6‰) observed in sediments of the cores dated to 1860. |
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| Keywords: | Stable isotopes nitrogen sediments North Sea German Bight eutrophication |
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