| Literature DB >> 34822158 |
Félicien Meunier1, Valentin Couvreur1, Xavier Draye1, Guillaume Lobet1,2, Katrin Huber2, Nathalie Schroeder1,3, Helena Jorda2, Axelle Koch1, Magdalena Landl2, Andrea Schnepf2, Jan Vanderborght2, Harry Vereecken2, Mathieu Javaux4,5.
Abstract
In this chapter, we present the Root and Soil Water Movement and Solute transport model R-SWMS, which can be used to simulate flow and transport in the soil-plant system. The equations describing water flow in soil-root systems are presented and numerical solutions are provided. An application of R-SWMS is then briefly discussed, in which we combine in vivo and in silico experiments in order to decrypt water flow in the soil-root domain. More precisely, light transmission imaging experiments were conducted to generate data that can serve as input for the R-SWMS model. These data include the root system architecture, the soil hydraulic properties and the environmental conditions (initial soil water content and boundary conditions, BC). Root hydraulic properties were not acquired experimentally, but set to theoretical values found in the literature. In order to validate the results obtained by the model, the simulated and experimental water content distributions were compared. The model was then used to estimate variables that were not experimentally accessible, such as the actual root water uptake distribution and xylem water potential.Entities:
Keywords: Functional–structural plant model; Root hydraulics; Root model; Soil model; Systems biology; Water flow
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Year: 2022 PMID: 34822158 DOI: 10.1007/978-1-0716-1816-5_13
Source DB: PubMed Journal: Methods Mol Biol ISSN: 1064-3745