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Abstract
Biological soil crusts (BSCs) are microbial assemblages that occur worldwide and facilitate ecosystem development by nitrogen (N) and carbon accumulation. N turnover within BSC ecosystems has been intensively studied in the past; however, shifts in the N cycle during BSC development have not been previously investigated. Our aim was to characterise N cycle development first by the abundance of the corresponding functional genes (in brackets) and second by potential enzyme activities; we focussed on the four processes: N fixation (nifH), mineralisation as proteolysis and chitinolysis (chiA), nitrification (amoA), and denitrification (nosZ). We sampled from four phases of BSC development, and from a reference located in the rooting zone of Corynephorus canescens, on an inland dune in Germany. BSC development was associated with increasing amounts of chlorophyll, organic carbon and N. Potential activities increased, and were highest in developed BSCs. Similarly, the abundance of functional genes increased. We propose and discuss three stages of N process succession. First, the heterotrophic stage (mobile sand without BSCs) is dominated by mineralisation activity. Second, during the transition stage (initial BSCs) N accumulates, and potential nitrification and denitrification activity increase. Third, the developed stage (established BSCs and reference) is characterised by the dominance of nitrification.
© 2012 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved
| Authors: | Robert Brankatschk, Thomas Fischer, Maik Veste, Josef Zeyer | |
| Journal: | FEMS Microbiology Ecology | |
| Year: | 2012 | |
| Pages: | n/a | |
| DOI: | 10.1111/j.1574-6941.2012.01459.x | |
| Publication date: | 21-07-2012 |
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