Microbially-mediated gross N transfer rates in field soils in relation to physico-chemical transfer processes |
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| Authors: | Silke Ruppel Jan Graefe Jürgen Augustin Jörg Rühlmann Heinz Peschke |
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| Institution: | 1. Institute of Vegetable and Ornamental Crops Grossbeeren/Erfurt e.V. , Theodor-Echtermeyer-Weg 1, D-14979, Grossbeeren, Germany ruppel@igzev.de;3. Institute of Vegetable and Ornamental Crops Grossbeeren/Erfurt e.V. , Theodor-Echtermeyer-Weg 1, D-14979, Grossbeeren, Germany;4. Institute of Primary Production and Microbial Ecology , Eberswalder Str. 84, D-15374, Müncheberg, Germany;5. Institute of Crop Sciences , Humboldt University Berlin , Invalidenstra?e 42, D-10115, Berlin, Germany |
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| Abstract: | Abstract Measurements of gross N transfer in soils have as yet not distinguished between biological or physico-chemical processes. Here, we present a new approach that allows microbially-mediated gross N transfer rates to be estimated in undisturbed soils without adding 15N. It is based on the assumption that in undisturbed soil, the soil microbial growth rate is equal to its death rate. To assess the contribution of biological versus physico-chemical N transfer processes, we combined the new approach with the 15N-pool dilution technique. The relationship between both processes varied with soil C and fine particle contents. Nearly equal rates were observed within the carbon-poor soil (0.35% Corg, low fine particle content), whereas up to 2.5 times higher physico-chemical than biological N transfer rates were measured within the carbon-enriched soil (0.86% Corg, higher fine particle content). Furthermore, microbially-mediated gross N transfer rates increased three-fold after N fertilization compared to the unfertilized control. |
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| Keywords: | Gross N transfer rates 15N-pool dilution N immobilization microbial biomass specific growth rate doubling time long-term field experiment N consumption rate |
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