1. //
  2. Start
  3. //
  4. Publications
  5. Call for Participation
  6. Output formats
  7. //

Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake. / Schnepf, Andrea; Black, Christopher K.; Couvreur, Valentin et al.
In: Frontiers in Plant Science, Vol. 11, 316, 31.03.2020.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Schnepf, A, Black, CK, Couvreur, V, Delory, BM, Doussan, C, Koch, A, Koch, T, Javaux, M, Landl, M, Leitner, D, Lobet, G, Mai, TH, Meunier, F, Petrich, L, Postma, JA, Priesack, E, Schmidt, V, Vanderborght, J, Vereecken, H & Weber, M 2020, 'Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake', Frontiers in Plant Science, vol. 11, 316. https://doi.org/10.3389/fpls.2020.00316

APA

Schnepf, A., Black, C. K., Couvreur, V., Delory, B. M., Doussan, C., Koch, A., Koch, T., Javaux, M., Landl, M., Leitner, D., Lobet, G., Mai, T. H., Meunier, F., Petrich, L., Postma, J. A., Priesack, E., Schmidt, V., Vanderborght, J., Vereecken, H., & Weber, M. (2020). Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake. Frontiers in Plant Science, 11, Article 316. https://doi.org/10.3389/fpls.2020.00316

Vancouver

Schnepf A, Black CK, Couvreur V, Delory BM, Doussan C, Koch A et al. Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake. Frontiers in Plant Science. 2020 Mar 31;11:316. doi: 10.3389/fpls.2020.00316

Bibtex

@article{38bc8b89112847e99ad7f0a2cfd14d68,
title = "Call for Participation: Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake",
abstract = "Three-dimensional models of root growth, architecture and function are becoming important tools that aid the design of agricultural management schemes and the selection of beneficial root traits. However, while benchmarking is common in many disciplines that use numerical models, such as natural and engineering sciences, functional-structural root architecture models have never been systematically compared. The following reasons might induce disagreement between the simulation results of different models: different representation of root growth, sink term of root water and solute uptake and representation of the rhizosphere. Presently, the extent of discrepancies is unknown, and a framework for quantitatively comparing functional-structural root architecture models is required. We propose, in a first step, to define benchmarking scenarios that test individual components of complex models: root architecture, water flow in soil and water flow in roots. While the latter two will focus mainly on comparing numerical aspects, the root architectural models have to be compared at a conceptual level as they generally differ in process representation. Therefore, defining common inputs that allow recreating reference root systems in all models will be a key challenge. In a second step, benchmarking scenarios for the coupled problems are defined. We expect that the results of step 1 will enable us to better interpret differences found in step 2. This benchmarking will result in a better understanding of the different models and contribute toward improving them. Improved models will allow us to simulate various scenarios with greater confidence and avoid bugs, numerical errors or conceptual misunderstandings. This work will set a standard for future model development.",
keywords = "Ecosystems Research, benchmark, call for participation, functional-structural root architecture models, model comparison, root water uptake",
author = "Andrea Schnepf and Black, {Christopher K.} and Valentin Couvreur and Delory, {Benjamin M.} and Claude Doussan and Axelle Koch and Timo Koch and Mathieu Javaux and Magdalena Landl and Daniel Leitner and Guillaume Lobet and Mai, {Trung Hieu} and F{\'e}licien Meunier and Lukas Petrich and Postma, {Johannes A.} and Eckart Priesack and Volker Schmidt and Jan Vanderborght and Harry Vereecken and Matthias Weber",
year = "2020",
month = mar,
day = "31",
doi = "10.3389/fpls.2020.00316",
language = "English",
volume = "11",
journal = "Frontiers in Plant Science",
issn = "1664-462X",
publisher = "Frontiers Media",

}

RIS

TY - JOUR

T1 - Call for Participation

T2 - Collaborative Benchmarking of Functional-Structural Root Architecture Models. The Case of Root Water Uptake

AU - Schnepf, Andrea

AU - Black, Christopher K.

AU - Couvreur, Valentin

AU - Delory, Benjamin M.

AU - Doussan, Claude

AU - Koch, Axelle

AU - Koch, Timo

AU - Javaux, Mathieu

AU - Landl, Magdalena

AU - Leitner, Daniel

AU - Lobet, Guillaume

AU - Mai, Trung Hieu

AU - Meunier, Félicien

AU - Petrich, Lukas

AU - Postma, Johannes A.

AU - Priesack, Eckart

AU - Schmidt, Volker

AU - Vanderborght, Jan

AU - Vereecken, Harry

AU - Weber, Matthias

PY - 2020/3/31

Y1 - 2020/3/31

N2 - Three-dimensional models of root growth, architecture and function are becoming important tools that aid the design of agricultural management schemes and the selection of beneficial root traits. However, while benchmarking is common in many disciplines that use numerical models, such as natural and engineering sciences, functional-structural root architecture models have never been systematically compared. The following reasons might induce disagreement between the simulation results of different models: different representation of root growth, sink term of root water and solute uptake and representation of the rhizosphere. Presently, the extent of discrepancies is unknown, and a framework for quantitatively comparing functional-structural root architecture models is required. We propose, in a first step, to define benchmarking scenarios that test individual components of complex models: root architecture, water flow in soil and water flow in roots. While the latter two will focus mainly on comparing numerical aspects, the root architectural models have to be compared at a conceptual level as they generally differ in process representation. Therefore, defining common inputs that allow recreating reference root systems in all models will be a key challenge. In a second step, benchmarking scenarios for the coupled problems are defined. We expect that the results of step 1 will enable us to better interpret differences found in step 2. This benchmarking will result in a better understanding of the different models and contribute toward improving them. Improved models will allow us to simulate various scenarios with greater confidence and avoid bugs, numerical errors or conceptual misunderstandings. This work will set a standard for future model development.

AB - Three-dimensional models of root growth, architecture and function are becoming important tools that aid the design of agricultural management schemes and the selection of beneficial root traits. However, while benchmarking is common in many disciplines that use numerical models, such as natural and engineering sciences, functional-structural root architecture models have never been systematically compared. The following reasons might induce disagreement between the simulation results of different models: different representation of root growth, sink term of root water and solute uptake and representation of the rhizosphere. Presently, the extent of discrepancies is unknown, and a framework for quantitatively comparing functional-structural root architecture models is required. We propose, in a first step, to define benchmarking scenarios that test individual components of complex models: root architecture, water flow in soil and water flow in roots. While the latter two will focus mainly on comparing numerical aspects, the root architectural models have to be compared at a conceptual level as they generally differ in process representation. Therefore, defining common inputs that allow recreating reference root systems in all models will be a key challenge. In a second step, benchmarking scenarios for the coupled problems are defined. We expect that the results of step 1 will enable us to better interpret differences found in step 2. This benchmarking will result in a better understanding of the different models and contribute toward improving them. Improved models will allow us to simulate various scenarios with greater confidence and avoid bugs, numerical errors or conceptual misunderstandings. This work will set a standard for future model development.

KW - Ecosystems Research

KW - benchmark

KW - call for participation

KW - functional-structural root architecture models

KW - model comparison

KW - root water uptake

UR - http://www.scopus.com/inward/record.url?scp=85083330900&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/c88005af-93ca-3cf7-b7ba-d92c4953fe05/

U2 - 10.3389/fpls.2020.00316

DO - 10.3389/fpls.2020.00316

M3 - Journal articles

C2 - 32296451

AN - SCOPUS:85083330900

VL - 11

JO - Frontiers in Plant Science

JF - Frontiers in Plant Science

SN - 1664-462X

M1 - 316

ER -

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