2009, Savchuk & Wulff 2009, Müller-Karulis & Aigars 2011) Althou

2009, Savchuk & Wulff 2009, Müller-Karulis & Aigars 2011). Although the correlation and variance between the simulated and observed NOx− fluxes is not as good as for PO43− and NH4+ ( Table 1), the simulations nonetheless agree reasonably well with observations. The experimental data used for the sediment model calibration and denitrification measurement results in the Gulf of Riga indicate that a substantial part of denitrification is provided by the diffusion of nitrate from the water column into the selleck chemicals llc bottom sediments. To accommodate this pathway, the parameterisation

of denitrification in the biogeochemical model of the Gulf of Riga has been modified and is described in detail in Appendix A. Denitrification in the Gulf of Riga based on the previous version of the denitrification model (Müller-Karulis & Aigars 2011) indicates average denitrification rates of 0.90 mmol N m−2 d−1 for the period 1973–2000, which agree well with the results of this study. Furthermore, the average denitrification rates simulated in this study are in the same range as the rates reported for other areas of the Baltic Sea (e.g. this website Deutsch et al. 2010). This indicates that the improved denitrification model enables

the mass balance and the results of its new parameters – nitrate diffusion and both denitrification pathways – to be estimated accurately. The denitrification sustained Sitaxentan by the nitrate flux from the overlying water of the sediments is about 0.99 mmol N m−2 d−1 at an O2 concentration of 1 mg l−1 (Figure 6). The simulated nitrogen flux shows that denitrification from water switches to coupled nitrification – denitrification at an oxygen concentration of 5 mg l−1, when nitrification starts generating enough nitrate for denitrification, sustaining a maximum denitrification rate of 0.49 mmol N m−2 d−1. Such conditions at the sediment-water interface can be observed in winter and early spring. Coupled nitrification

– denitrification then removes up to 65% of NOx− generated by nitrification. This amount of denitrified NOx is in agreement with the model results obtained by Kiirikki et al. (2006), which indicate that coupled nitrification – denitrification is mostly a seasonal process that occurs under oxygenated conditions. The improved sediment sub-model presented in this paper can be implemented in the biogeochemical model of the Gulf of Riga. Its simulated nutrient fluxes show good agreement with the observed experimental results, and it is capable of simulating nitrogen transformation fluxes that concur with observations from the Gulf of Riga and other Baltic Sea areas.

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