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Variability in fluxes of nutrients (N, P, Si) into the North Sea from Atlantic Ocean and Skagerrak
Laane, R.W.P.M.; Svendsen, E.; Radach, G.; Groeneveld, G.; Damm, P.; Pätsch, J.; Danielssen, D.; Føyn, L.; Skogen, M.; Ostrowski, M.; Kramer, K.J.M. (1996). Variability in fluxes of nutrients (N, P, Si) into the North Sea from Atlantic Ocean and Skagerrak, in: NOWESP: 2. Compilation of scientific reports. pp. 9 [1-19]
In: (1996). NOWESP: 2. Compilation of scientific reports. North-West European Shelf Programme (NOWESP): Hamburg. 324 pp., more

Keyword
    Marine/Coastal

Authors  Top 
  • Laane, R.W.P.M., more
  • Svendsen, E.
  • Radach, G., more
  • Groeneveld, G.
  • Damm, P.
  • Pätsch, J.
  • Danielssen, D.
  • Føyn, L.
  • Skogen, M.
  • Ostrowski, M.
  • Kramer, K.J.M.

Abstract
    The fluxes of nutrients (dissolved phosphate, nitrate and silicate) from the Atlantic Ocean (Northern Atlantic and Channel) and the Skagerrak to the North Sea were calculated for the upper 30 metres and for the total water depths. Monthly average water flows and their standard deviations were taken from the model calculations of the IfM (HAMSOM model) and the IMR (NORWECOM model) for the period 1955-1993 and 1976-1995 respectively. Monthly mean nutrient data were collected for the same transects from the NOWESP Research Data Base, and extracted from additional literature. The northern Atlantic inflow (total depth) the mean fluxes of nitrate, phosphate and silicate are 3,972 ± 1,604, 713 ± 310 and 3,847 ± 1,527 ktonnes/year. About 20% of these fluxes are transported in the top 30 m water layer (IMR model). For the upper 30 m the IfM model calculated higher fluxes for these nutrients: 1,654 ± 621,301 ± 111 and 1,549 ± 565 ktonnes/year, respectively. For the Skagerrak the IMR model estimated a net mean outflow to the Baltic, while the IfM model estimated a net mean inflow of nutrients to the North Sea. Both models agree rather well for the mean inflow of nutrients through the Channel, however with rather high standard deviations as compared to the other sections. For example, for the IMR total depth estimation: 162 ± 236, 27 ± 39 and 161 ± 237 ktonnes/year for N, P, Si. In the northern sections, literature data on nutrient fluxes are at the lower end of the range estimated in this study, while in the Channel the literature data are in the upper range. It will be discussed that the largest improvements in flux estimations are to be expected when precision and accuracy of the water flow data become higher.

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