Process-specific analysis of nitrite dynamics in a permanent grassland soil by using a Monte Carlo sampling technique
2008
Rütting, T. | Muller, C.
The aim of the present study was to separate and quantify process-specific gross nitrite (NO₂⁻) production in a permanent grassland soil and separate the observed NO₂⁻ concentration into process-specific sub-pools. We re-analysed data from a laboratory experiment where either the nitrate and/or ammonium ions were labelled with ¹⁵N. The simultaneously occurring N transformations were quantified with a ¹⁵N tracing tool in combination with a Monte Carlo sampling technique which has been extended by a NO₂⁻ sub-model. Three pathways of NO₂⁻ production were identified, that is autotrophic nitrification, denitrification and the oxidation of organic N. The full model contained nine pools and 14 N transformations. This is the first report where such a complex ¹⁵N tracing model has been used and where all parameters have been optimized simultaneously. Our analysis shows that on average 52.4% of the total soil NO₂⁻ concentration was directly derived from oxidation of organic N. Nitrification and denitrification contributed on average 18.1 and 29.5%, respectively, to the total NO₂⁻ pool. However, more than 99% of the gross NO₂⁻ production was related to the NH₄⁺ oxidation, which was rapidly further oxidized to NO₃⁻. Our re-analysis using a Monte Carlo sampling technique resulted in parameter profiles that differed from the original analysis. As the new technique is able to optimize all parameters in one optimization run we regard this technique as superior to the previous one. A process-based understanding of NO₂⁻ dynamics in soils has important implications for the understanding of the production of the greenhouse gas nitrous oxide (N₂O), which is tightly linked to NO₂⁻ turnover.
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