Benchmark C1.2 - Numerical results reference solutiondoi:10.18419/darus-471DaRUS2020-01-281Koch, Timo, 2020, "Benchmark C1.2 - Numerical results reference solution", https://doi.org/10.18419/darus-471, DaRUS, V1Benchmark C1.2 - Numerical results reference solutiondoi:10.18419/darus-471Koch, TimoLandl, MagdalenaDaRUSKoch, TimoKoch, Timo2019-09-23Agricultural SciencesComputer and Information ScienceEarth and Environmental SciencesRoot water uptake simulation with a numerical scheme where the root-soil surface is explicitly resolved by the computational grid. The roots are a one-dimensional network grid embedded in a 3D soil domain. This dataset contains the grid files for root and soil. 8-day-old lupine, segmented from MRI measurements (courtesy of Magdalena Landl, FZ Jülich, Germany). Soil grid generated with CGAL from implicit description.simulation results, post-processing, data files"Call for participation: Collaborative benchmarking of functional-structural root architecture models. The case of root water uptake" by Andrea Schnepf, Christopher K. Black, Valentin Couvreur, Benjamin M. Delory, Claude Doussan, Axelle Koch, Timo Koch, Mathieu Javaux, Magdalena Landl, Daniel Leitner, Guillaume Lobet, Trung Hieu Mai, Félicien Meunier, Lukas Petrich, Johannes A. Postma, Eckart Priesack, Volker Schmidt, Jan Vanderborght, Harry Vereecken, Matthias Weber; Frontiers in Plant Science 11 (2020), 31610.3389/fpls.2020.00316"Call for participation: Collaborative benchmarking of functional-structural root architecture models. The case of root water uptake" by Andrea Schnepf, Christopher K. Black, Valentin Couvreur, Benjamin M. Delory, Claude Doussan, Axelle Koch, Timo Koch, Mathieu Javaux, Magdalena Landl, Daniel Leitner, Guillaume Lobet, Trung Hieu Mai, Félicien Meunier, Lukas Petrich, Johannes A. Postma, Eckart Priesack, Volker Schmidt, Jan Vanderborght, Harry Vereecken, Matthias Weber; Frontiers in Plant Science 11 (2020), 316c12b_3d_plot.tar.gzArchive with data to reproduce a 3d render of the water saturation results from the paperapplication/gzipc12_psi_root_depth_plot.tar.gzArchive with data and Python script to reproduce a plot of the root water potential over depthapplication/gzipc12_psi_soil_depth_plot.tar.gzArchive with data and Python script to reproduce a plot of the soil water potential over depthapplication/gzipc12_transpiration_plot.tar.gzArchive with data and Python script to reproduce a plot of the transpiration rate over timeapplication/gzipc12_waterpot_plot.tar.gzArchive with data and Python script to reproduce a plot of the water potentialapplication/gzipDAP8_RootSys.dgfRoot grid lupine (DGF, Dune grid format)application/octet-streamDAP8_RootSys_Soil.mshSoil grid lupine (Gmsh format)model/meshresults_constant_hydr_props.tar.gzResults files in VTK format for the case with constant hydraulic root propertiesapplication/gzipresults_variable_hydr_props.tar.gzResults files in VTK format for the case with variable hydraulic root propertiesapplication/gzip