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Berlin Brandenburg

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  • 1
    Language: English
    In: Soil biology & biochemistry, 2013, Vol.67, pp.235-244
    Description: Interactions between organic matter (OM), minerals and charcoal may play an important role in the development and stabilization of OM in soils. However, these interactions are difficult to characterize in natural soils, which are usually very complex systems with unknown initial conditions. We developed so-called ‘artificial soils’ with a texture and OM content similar to natural arable soils that were incubated up to 18 months. The aim was to determine the turnover and development of OM with incubation time, and to establish the effect of mineral composition and charcoal presence on organic carbon (OC) and N distribution and properties. Artificial soils were composed of quartz, manure as OM source and a microbial community extracted from a natural arable soil, with 8 different mixtures of montmorillonite, illite, ferrihydrite, boehmite and charcoal. We determined C and N particle size distribution with time and used solid-state ¹³C nuclear magnetic resonance (NMR) spectroscopy and acid hydrolysis to determine the development of OM composition. The CO₂ respiration rate and distribution of OC and N with particle size was similar for all artificial soil compositions. OC and N accumulated in the 200 μm) particulate OM was lost after 18 months of incubation. ¹³C NMR spectroscopy indicated accumulation of protein-rich OC in the 〈20 μm fraction, likely in the form of microbially produced substances. Acid hydrolysis showed a higher content of non-hydrolysable N in the mixtures containing clay minerals, indicating that some of the nitrogen present was strongly bound to phylosilicate surfaces. Ferrihydrite did not have any effect on non-hydrolysable N. From this, it can be concluded that in the artificial soils, clay minerals were more important than metal-oxides for the binding of nitrogen and OC. Overall, the artificial soils developed similarly to incubation experiments with natural soils, and were therefore a valuable model system where the effect of specific components on the development and turnover of soil OM could be determined under simplified conditions. ; p. 235-244.
    Keywords: Particle Size ; Charcoal ; Texture ; Illite ; Organic Matter ; Ferrihydrite ; Carbon Dioxide ; Mineral Content ; Nitrogen ; Acid Hydrolysis ; Microbial Communities ; Carbon ; Quartz ; Respiratory Rate ; Arable Soils ; Particle Size Distribution ; Nuclear Magnetic Resonance Spectroscopy ; Montmorillonite
    ISSN: 0038-0717
    Source: AGRIS (Food and Agriculture Organization of the United Nations)
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