TY  - JOUR
A1  - Bereswill, Sarah
A1  - Gatz-Miller, Hannah
A1  - Su, Danyang
A1  - Tötzke, Christian
A1  - Kardjilov, Nikolay
A1  - Oswald, Sascha
A1  - Mayer, Klaus Ulrich
T1  - Coupling non-invasive imaging and reactive transport modeling to investigate water and oxygen dynamics in the root zone
T2  - Vadose zone journal
N2  - Oxygen (O-2) availability in soils is vital for plant growth and productivity. The transport and consumption of O-2 in the root zone is closely linked to soil moisture content, the spatial distribution of roots, as well as structure and heterogeneity of the surrounding soil. In this study, we measure three-dimensional root system architecture and the spatiotemporal dynamics of soil moisture (& theta;) and O-2 concentrations in the root zone of maize (Zea mays) via non-invasive imaging, and then construct and parameterize a reactive transport model based on the experimental data. The combination of three non-invasive imaging methods allowed for a direct comparison of simulation results with observations at high spatial and temporal resolution. In three different modeling scenarios, we investigated how the results obtained for different levels of conceptual complexity in the model were able to match measured & theta; and O-2 concentration patterns. We found that the modeling scenario that considers heterogeneous soil structure and spatial variability of hydraulic parameters (permeability, porosity, and van Genuchten & alpha; and n), better reproduced the measured & theta; and O-2 patterns relative to a simple model with a homogenous soil domain. The results from our combined imaging and modeling analysis reveal that experimental O-2 and water dynamics can be reproduced quantitatively in a reactive transport model, and that O-2 and water dynamics are best characterized when conditions unique to the specific system beyond the distribution of roots, such as soil structure and its effect on water saturation and macroscopic gas transport pathways, are considered.
Y1  - 2023
UR  - https://publishup.uni-potsdam.de/frontdoor/index/index/docId/64365
SN  - 1539-1663
VL  - 22
IS  - 5
PB  - Wiley
CY  - Hoboken
ER  -