Modeling Soil Processes: Review, Key Challenges, and New Perspectives

Vereecken, Harry; Schnepf, Andrea; Hopmans, Jan W.; Javaux, Mathieu; Or, Dani; Roose, Tiina; Vanderborght, Jan; Young, Michael H.; Amelung, Wulf; Aitkenhead, Matt; Allison, Steven D.; Assouline, S.; Baveye, Philippe C.; Berli, Markus; Brüggemann, Nicolas; Finke, Peter; Flury, Markus; Gaiser, Thomas; Govers, Gérard; Ghezzehei, Teamrat A.; Hallett, Paul D.; Franssen, Harrie‐Jan Hendricks; Heppell, James; Horn, Richard; Huisman, Johan Alexander; Jacques, Diederik; Jonard, François; Kollet, Stefan; Lafolie, François; Lamorski, Krzysztof; Leitner, Daniel; McBratney, Alex B.; Minasny, Budiman; Montzka, Carsten; Nowak, Wolfgang; Pachepsky, Yakov; Padarian, José; Romano, Nunzio; Roth, Kurt; Rothfuss, Youri; Rowe, Ed; Schwen, Andreas; Šimůnek, Jiřı́; Tiktak, A.; Dam, J.C. van; Zee, S.E.A.T.M. van der; Vogel, Hans‐Jörg; Vrugt, Jasper A.; Wöhling, Thomas; Young, Iain M.

doi:10.2136/vzj2015.09.0131

Cited by 504 publications

(391 citation statements)

References 650 publications

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“…According to Šimůnek et al [84], some of this work was developed following earlier research on the unsaturated soil hydraulic conductivity combined with an equation for the soil water retention curve to yield relationships that were incorporated in numerical simulators and software packages, like HYDRUS. Green et al [3] and Vereecken et al [85] discussed the application of this and many other models that become more comprehensive and numerically accurate to solve theoretical and practical problems, serving an important role in vadose zone research [86].…”

Section: Physically-based Simple Ks Modellingmentioning

confidence: 99%

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Stress Coefficients for Soil Water Balance Combined with Water Stress Indicators for Irrigation Scheduling of Woody Crops

Ferreira

2017

Horticulturae

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There are several causes for the failure of empirical models to estimate soil water depletion and to calculate irrigation depths, and the problem is particularly critical in tall, uneven, deficit irrigated (DI) crops in Mediterranean climates. Locally measured indicators that quantify water status are useful for addressing those causes and providing feed-back information for improving the adequacy of simple models. Because of their high aerodynamic resistance, the canopy conductance of woody crops is an important factor in determining evapotranspiration (ET), and accurate stress coefficient (Ks) values are needed to quantify the impact of stomatal closure on ET. A brief overview of basic general principles for irrigation scheduling is presented with emphasis on DI applications that require Ks modelling. The limitations of existing technology related to scheduling of woody crops are discussed, including the shortcomings of plant-based approaches. In relation to soil water deficit and/or predawn leaf water potential, several woody crop Ks functions are presented in a secondary analysis. Whenever the total and readily available water data were available, a simple Ks model was tested. The ultimate aim of this discussion is to illustrate the central concept: that a combination of simple ET models and water stress indicators is required for scheduling irrigation of deep-rooted woody crops.

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Section: Physically-based Simple Ks Modellingmentioning

confidence: 99%

“…Vereecken et al [85] presented a discussion of the aspects that require development within the general context of modelling soil processes. Up to now, many models include nonstandard modules only in an approximate manner and without sufficient documentation.…”

Section: Physically-based Simple Ks Modellingmentioning

confidence: 99%

Stress Coefficients for Soil Water Balance Combined with Water Stress Indicators for Irrigation Scheduling of Woody Crops

Ferreira

2017

Horticulturae

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“…There is a large number of models (e.g., https://soil-modeling.org/ resources-links/model-portal/model-collection; Vereecken et al, 2016) that have been used in similar studies as ours. All these models have their own pros and cons depending on their capabilities of addressing climate, soil, and crop variables for the future climate.…”

Section: Introductionmentioning

confidence: 99%

Identifying the future water and salinity risks to irrigated viticulture in the Murray-Darling Basin, South Australia

Phogat

Cox

Šimůnek

2018

Agricultural Water Management

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“…Mathematical, process-based simulation models are indispensable tools for elucidating the role of coupled processes in soil systems, including their functioning and providing ecosystem services (Vereecken et al, 2016). Coupled multicomponent reactive transport models for the so-called critical zone (Brantley et al, 2007) are essential tools to analyze nonlinear interactions between hydrological, geochemical and (micro)biological processes and to link the critical zone to other spheres of the earth system such as the hydrosphere, atmosphere, biosphere, and geosphere (Li et al, 2017;Steefel et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

The HPx software for multicomponent reactive transport during variably-saturated flow: Recent developments and applications

Jacques

Šimůnek

Mallants

et al. 2018

Journal of Hydrology and Hydromechanics

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HPx is a multicomponent reactive transport model which uses HYDRUS as the flow and transport solver and PHREEQC-3 as the biogeochemical solver. Some recent adaptations have significantly increased the flexibility of the software for different environmental and engineering applications. This paper gives an overview of the most significant changes of HPx, such as coupling transport properties to geochemical state variables, gas diffusion, and transport in two and three dimensions. OpenMP allows for parallel computing using shared memory. Enhancements for scripting may eventually simplify input definitions and create possibilities for defining templates for generic (sub)problems. We included a discussion of root solute uptake and colloid-affected solute transport to show that most or all of the comprehensive features of HYDRUS can be extended with geochemical information. Finally, an example is used to demonstrate how HPx, and similar reactive transport models, can be helpful in implementing different factors relevant for soil organic matter dynamics in soils. HPx offers a unique framework to couple spatial-temporal variations in water contents, temperatures, and water fluxes, with dissolved organic matter and CO 2 transport, as well as bioturbation processes.

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Modeling Soil Processes: Review, Key Challenges, and New Perspectives

Cited by 504 publications

References 650 publications

Stress Coefficients for Soil Water Balance Combined with Water Stress Indicators for Irrigation Scheduling of Woody Crops

Stress Coefficients for Soil Water Balance Combined with Water Stress Indicators for Irrigation Scheduling of Woody Crops

Identifying the future water and salinity risks to irrigated viticulture in the Murray-Darling Basin, South Australia

The HPx software for multicomponent reactive transport during variably-saturated flow: Recent developments and applications

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