Publication Details |
| Category | Text Publication |
| Reference Category | Journals |
| DOI | 10.3389/fpls.2015.00370 |
| Title (Primary) | Unraveling the hydrodynamics of split root water uptake experiments using CT scanned root architectures and three dimensional flow simulations |
| Author | Koebernick, N.; Huber, K.; Kerkhofs, E.; Vanderborght, J.; Javaux, M.; Vereecken, H.; Vetterlein, D. |
| Source Titel | Frontiers in Plant Science |
| Year | 2015 |
| Department | BOPHY |
| Volume | 6 |
| Page From | art. 370 |
| Language | englisch |
| Keywords | split-root, R-SWMS, root water uptake, plant root growth, Vicia faba |
| UFZ wide themes | RU1 |
| Abstract | Split root experiments have the potential to disentangle water transport in roots and soil, enabling the investigation of the water uptake pattern of a root system. Interpretation of the experimental data assumes that water flow between the split soil compartments does not occur. Another approach to investigate root water uptake is by numerical simulations combining soil and root water flow depending on the parameterization and description of the root system. Our aim is to demonstrate the synergisms that emerge from combining split root experiments with simulations. We show how growing root architectures derived from temporally repeated X-ray CT scanning can be implemented in numerical soil-plant models. Faba beans were grown with and without split layers and exposed to a single drought period during which plant and soil water status were measured. Root architectures were reconstructed from CT scans and used in the model R-SWMS (root-soil water movement and solute transport) to simulate water potentials in soil and roots in 3D as well as water uptake by growing roots in different depths. CT scans revealed that root development was considerably lower with split layers compared to without. This coincided with a reduction of transpiration, stomatal conductance and shoot growth. Simulated predawn water potentials were lower in the presence of split layers. Simulations showed that this was related to an increased resistance to vertical water flow in the soil by the split layers. Comparison between measured and simulated soil water potentials proved that the split layers were not perfectly isolating and that redistribution of water from the lower, wetter compartments to the drier upper compartments took place, thus water losses were not equal to the root water uptake from those compartments. Still, the layers increased the resistance to vertical flow which resulted in lower simulated collar water potentials that led to reduced stomatal conductance and growth. |
| Persistent UFZ Identifier | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=16189 |
| Koebernick, N., Huber, K., Kerkhofs, E., Vanderborght, J., Javaux, M., Vereecken, H., Vetterlein, D. (2015): Unraveling the hydrodynamics of split root water uptake experiments using CT scanned root architectures and three dimensional flow simulations Front. Plant Sci. 6 , art. 370 10.3389/fpls.2015.00370 |
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