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Abstract
We present a new numerical approach describing nutrient uptake in three dimensions. Dynamic boundary conditions are considered at the individual root surfaces within a root system. As an example, we compare the three‐dimensional simulation results of phosphate uptake by a young maize root system to the corresponding effective solution. We show that the two solutions are similar concerning phosphate uptake and the size of the depletion zones. The presented approach makes it possible to verify simplifications that are made in the development of effective models. Furthermore, it is possible to extend existing models by including spatial heterogeneities that will increase our understanding of rhizosphere processes.
Acknowledgements
This work was supported by the Vienna Science and Technology Fund (WWTF, Grant No. MA07‐008) and the Austrian Science Fund (FWF, Grant No.: T341‐N13). Daniel Leitner was funded by BBSRC (Grant Ref. BB/C518014/1). Andrea Schnepf is a Hertha‐Firnberg Research Fellow. Tiina Roose is a Royal Society University Research Fellow.
