Journal
SOIL BIOLOGY & BIOCHEMISTRY
Volume 39, Issue 10, Pages 2448-2458Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.soilbio.2007.04.013
Keywords
unpolluted old-growth forest; Nothofagus betuloides; andisol; N-15 tracing model; functional soil organic matter (SOM) pools; N retention; dissimilatory nitrate reduction to ammonium (DNRA); nitrification; heterotrophic nitrification; dissolved organic nitrogen (DON)
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A N-15 tracing study was carried out to identify microbial and abiotic nitrogen (N) transformations in a south Chilean Nothofagus betuloides forest soil which is characterized by low N inputs and absence of human disturbance. Gross N transformation rates were quantified with a 15 N tracing model in combination with a Markov chain Monte Carlo sampling algorithm for parameter estimation. The 15 N tracing model included five different N pools (ammonium (NH4'), nitrate (NOD, labile (N-lab) and recalcitrant (N,,) soil organic matter and adsorbed NH4+), and ten gross N transformation rates. The N dynamics in the N. betuloides ecosystem are characterized by low net but high gross mineralization rates. Mineralization in this soil was dominated by turnover of Ntab, while immobilization of NH4+ predominantly entered the N-rec,, pool. A fast exchange between the NH4+ and the adsorbed NH4+ pool was observed, possibly via physical adsorption on and release from clay lattices, providing an effective buffer for NH4+. Moreover, high NH4+ immobilization rates into the Nrec pool ensure a sustained ecosystem productivity. Nitrate, the most mobile form of N in the system, is characterized by a slow turnover and was produced in roughly equal amounts from NH4+ oxidation and organic N oxidation. More than 86% of the NO3- produced was immediately consumed again. This study showed for the first time that dissimilatory nitrate reduction to ammonium (DNRA) was almost exclusively (> 99%) responsible for NO3- consumption. DNRA rather than N03 immobilization ensures that NO3 is transformed into another available N form. DNRA may therefore be a widespread N retention mechanism in ecosystems that are Nlimited and receive high rainfalls. (c) 2007 Elsevier Ltd. All rights reserved.
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