15N tracing studies including plant N uptake processes provide new insights on gross N transformations in soil-plant systems
In this study, gross N transformation rates were quantified using a subtropical acidic forest with and without plants (and under different soil storage conditions). The results showed that the gross rates of N mineralization in air-dried and rewetted soil significantly increased, while the gross rates of nitrification and immobilization decreased, compared with fresh soil. Soil storage for more than one month at 4 °C (typical refrigerated conditions) and room temperature (25 °C) did not affect the gross rates of soil N mineralization and immobilization but significantly inhibited heterotrophic nitrification rates. Moreover, plants grown in the soil significantly stimulated gross rates of N mineralization, autotrophic and heterotrophic nitrification, and NO3− immobilization. Plant NH4+ uptake rates (3.74 mg N kg−1 d−1) were 374 times greater than the NH4+ immobilization rate (0.01 mg N kg−1 d−1). The competition for NH4+ between plants and soil microorganisms led to strong feedback effects on soil N transformations. Based on our results we recommend to carry out 15N tracing studies with plants to more realistically mimic field conditions. 15N tracing techniques in combination with 15N-tracing models, such as NtracePlant, provide a robust method to quantify soil N transformations and plant N uptake rates in plant-soil systems.
Source: Soil Biology and Biochemistry - Category: Biology Source Type: research
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