1. Dissolved inorganic and organic nitrogen uptake in the coastal North Sea: A seasonal study
- Author
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Moneta, A., Veuger, B., van Rijswijk, P., Meysman, F., Soetaert, K., Middelburg, J.J., Bio-, hydro-, and environmental geochemistry, Geochemistry, Bio-, hydro-, and environmental geochemistry, and Geochemistry
- Subjects
4.789201 E) ,chemistry.chemical_element ,Aquatic Science ,Oceanography ,Marsdiep tidal inlet (53.001833 N ,dissolved organic nitrogen ,chemistry.chemical_compound ,Nitrate ,Dissolved organic carbon ,Phytoplankton ,Organic matter ,Ammonium ,D-alanine ,chemistry.chemical_classification ,Bacteria ,Ecology ,The Netherlands ,Particulates ,Nitrogen ,nitrogen uptake ,Wadden sea ,chemistry ,Environmental chemistry ,phytoplankton ,Urea ,stable isotopes and biomarkers ,Marsdiep tidal inlet (53.001833 N, 4.789201 E) - Abstract
Nitrogen incorporation into total particulate suspended matter, hydrolysable amino acids and bacterial biomarker d-Alanine was assessed seasonally in the coastal North Sea using 15N-labeled ammonium, nitrate, nitrite and 15N- and 13C-labeled urea, glycine, leucine, phenylalanine, and two complex pools of dissolved organic matter (DOM) derived from algal and bacterial cultures (A-DOM, B-DOM). We investigated: 1) uptake rates for the various substrates and their contribution to total N uptake; 2) microbial preferences for the different N sources; 3) the coupling of C and N uptake from organic substrates; 4) the contribution of bacteria to the total microbial uptake of these substrates, and 5) the role of a complex pool of organic matter for plankton nutrition. Seasonality in the preferences for N substrates was observed, with A-DOM and B-DOM being preferred in autumn and winter whereas NH4+ was preferentially taken up in spring and summer. C and N uptake was coupled for all the organic substrates, except urea that was mainly used as a nitrogen source in summer and spring. Bacterial contribution to the uptake of A-DOM and B-DOM was, on an annual average, the lowest among the N-substrates. This suggests an important role for phytoplankton in the incorporation of complex organic matter and the importance of DOM for phytoplankton nutrition.
- Published
- 2014
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