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Comparison of two models in the estimation of nitrogen uptake rates using data from 15-N incubation experiments
Tungaraza, C.; Brion, N.; Baeyens, W.F.J. (2005). Comparison of two models in the estimation of nitrogen uptake rates using data from 15-N incubation experiments. Oceanologia 47(3): 387-403
In: Oceanologia: Quarterly journal of basic research in marine sciences with emphasis on European seas. Polish Academy of Sciences, Institute of Oceanology: Wroclaw; Gdansk. ISSN 0078-3234; e-ISSN 2300-7370
Peer reviewed article  

Available in  Authors 
    Vlaams Instituut voor de Zee: Open access 103935 [ download pdf ]

Keyword
    Marine/Coastal
Author keywords
    model validity; nitrogenous nutrients; uptake rates

Authors  Top 
  • Tungaraza, C.
  • Brion, N.
  • Baeyens, W.F.J.

Abstract
    This paper compares two uptake rate models, Dugdale & Goering's (D&G) model and Elskens' model. The aim is to provide an insight into how estimates of uptake processes, i.e. regeneration and loss rates from both dissolved and particulate nitrogen pools, influence the total uptake rates when the two models are compared. The uptake rates of three nitrogenous nutrients (nitrate, ammonium and urea) from 15-N incubation experimental data were compared. The comparison indicated that the D&G model underestimated nitrate uptake rates by about 34%, implying a significant regeneration and loss rates of the nutrient. Elskens' model further showed that the loss rates from the dissolved phase were about 40% and 25% for the ammonium and urea pools, respectively, indicating that the D&G model underestimated the experimental uptake rates of the nutrients. On average, nitrification made up about 30% of the total ammonium uptake flux, whereas the sinks from particulate nitrogen and dissolved nitrogen were estimated at 36% and 56%, respectively. The D&G model sometimes overestimated the f-ratio values to about 60% and higher as a result of ammonium and urea uptake rates underestimation. This paper also shows that detritus adsorption, bacterial uptake and cell lysis are equally important processes.

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