The leading role of ammonium in the nitrogen uptake regime of Southern Ocean marginal ice zones

The nitrogen signature of marginal ice zones in the Southern Ocean often departs from the "classical" Antarctic nutrient profiles with high nitrate and low ammonium values in the surface layer. Weddell Sea marginal ice zones e.g. show enhanced nitrate depletions, amounting to similar to 50...

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Bibliographic Details
Main Authors: Goeyens, L., Dehairs, F.A., Tréguer, P., Bauman, E.M., Baeyens, W.F.J.
Format: Article in Journal/Newspaper
Language:English
Published: 1995
Subjects:
Algal blooms
Ammonium compounds
Ice cover
Marginal seas
Nitrogen cycle
Phytoplankton
Primary production
PS
Antarctic Ocean
Antarctic
Southern Ocean
Weddell
Weddell Sea
Antarc*
Online Access:http://www.vliz.be/nl/open-marien-archief?module=ref&refid=10188
Description
Summary:The nitrogen signature of marginal ice zones in the Southern Ocean often departs from the "classical" Antarctic nutrient profiles with high nitrate and low ammonium values in the surface layer. Weddell Sea marginal ice zones e.g. show enhanced nitrate depletions, amounting to similar to 500 mmol N m super(-2). Additionally, ammonium stocks in the upper layer can be up to 7% of the inorganic nitrogen pool. The corresponding nitrogen uptake regime suggests elevated nitrate assimilation during the early phase of the productive season and significantly reduced nitrate assimilation at a later stage. Absolute as well as specific nitrate uptake rates decrease by an order of magnitude when ammonium stocks exceed 1.7% of the total inorganic nitrogen. The variability in nitrogen utilisation reflects physiological changes in the phytoplankton assemblage. In response to increased ammonium stocks phytoplankton show a reduction in their capacity to take up nitrate and following an initial diatom bloom non-siliceous phytoplankton become predominant in a regenerated production regime.

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