Oxygen and redox potential gradients in the rhizosphere of alfalfa grown on a loamy soil
2015
Uteau, Daniel | Hafner, Silke | Pagenkemper, Sebastian Kouso | Peth, Stephan | Wiesenberg, Guido L. B. | Kuzyakov, Yakov | Horn, Rainer
Oxygen (O₂) supply and the related redox potential (EH) are important parameters for interactions between roots and microorganisms in the rhizosphere. Rhizosphere extension in terms of the spatial distribution of O₂concentration and EHis poorly documented under aerobic soil conditions. We investigated how far O₂consumption of roots and microorganisms in the rhizosphere is replenished by O₂diffusion as a function of water/air‐filled porosity. Oxygen concentration and EHin the rhizosphere were monitored at a mm‐scale by means of electroreductive Clark‐type sensors and miniaturized EHelectrodes under various matric potential ranges. Respiratory activity of roots and microorganisms was calculated from O₂profiles and diffusion coefficients. pH profiles were determined in thin soil layers sliced near the root surface. Gradients of O₂concentration and the extent of anoxic zones depended on the respiratory activity near the root surface. Matric potential, reflecting air‐filled porosity, was found to be the most important factor affecting O₂transport in the rhizosphere. Under water‐saturated conditions and near field capacity up to –200 hPa, O₂transport was limited, causing a decline in oxygen partial pressures (pO₂) to values between 0 and 3 kPa at the root surface. Aerobic respiration increased by a factor of 100 when comparing the saturated with the driest status. At an air‐filled porosity of 9% to 12%, diffusion of O₂increased considerably. This was confirmed by EHaround 300 mV under aerated conditions, while EHdecreased to 100 mV on the root surface under near water‐saturated conditions. Gradients of pO₂and pH from the root surface indicated an extent of the rhizosphere effect of 10–20 mm. In contrast, EHgradients were observed from 0 to 2 mm from the root surface. We conclude that the rhizosphere extent differs for various parameters (pH, Eh, pO₂) and is strongly dependent on soil moisture.
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