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Numerical Simulation of Water Transfer in Unsaturated Soils: Evaluating the Effects of Temperature and Root Activity in Water Distribution

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Abstract:

In a complex medium, particularly soil, understanding water movement is essential for optimizing water management in agricultural and natural ecosystems. This study presents a theoretical and numerical analysis of the influence of temperature variations and root activity on water retention and redistribution in soils with variable saturation. A finite element model was developed to simulate water flow, integrating temperature-dependent hydraulic properties and dynamic root water uptake. Simulations revealed that a 10°C increase in soil temperature can reduce water content by up to 15% in the top 20 cm of soil due to increased evapotranspiration and reduced matric potential. Root water uptake responds dynamically to thermal conditions, with uptake rates increasing by around 20% under moderate warming, particularly in the upper soil layers. These results demonstrate the strong coupling between thermal gradients, root function, and soil moisture distribution. They improve our ability to predict soil-plant-atmosphere interactions under changing climatic conditions and provide valuable information for optimizing irrigation strategies and ensuring sustainable use of water.

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Periodical:

Engineering Headway (Volume 32)

Pages:

87-99

DOI:

https://doi.org/10.4028/p-iI8UNm

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Online since:

January 2026

Authors:

Abderrahim Jaefar*, Rachid Nmila, Ibrahim Mrani

Keywords:

Evapo-Transpiration, Hydrus-(2D/3D), Numerical Simulation, Root Water Uptake, Unsaturated Soil, Water Transport

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© 2026 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] S. K. L. Ouédraogo, M. B. Kébré, e F. Zougmoré, "Water Dynamics Combined with a Supply of NPK Solutes and Urea in a 3-Layer Soil Profile under Drip Irrigation", Agricultural Sciences, vol. 12, no 11, p.1321–1341, 2021.

DOI: 10.4236/as.2021.1211085

Google Scholar

[2] M. N. El-Nesr, A. A. Alazba, e J. Šimůnek, "HYDRUS simulations of the effects of dual-drip subsurface irrigation and a physical barrier on water movement and solute transport in soils", Irrig Sci, vol. 32, no 2, p.111–125, mar. 2014.

DOI: 10.1007/s00271-013-0417-x

Google Scholar

[3] A. Zadjaoui, A. Bekkouche, J. P. Magnan, e P. Reiffsteck, "Etude expérimentale du transfert hydrique dans un sol initialement non saturé", European Journal of Environmental and Civil Engineering, vol. 13, no 10, p.1221–1261, 2009.

DOI: 10.1080/19648189.2009.9693187

Google Scholar

[4] A. Zadjaoui, 2016 "Numerical modelling of infiltration profiles in the silt Tlemcen (Algeria)".

Google Scholar

[5] O. S. Schilling, P. G. Cook, P. F. Grierson, S. Dogramaci, e C. T. Simmons, "Controls on Interactions Between Surface Water, Groundwater, and Riverine Vegetation Along Intermittent Rivers and Ephemeral Streams in Arid Regions", Water Resour Res, vol. 57, no 2, fev. 2021.

DOI: 10.1029/2020WR028429

Google Scholar

[6] M. Han, C. Zhao, G. Feng, Y. Yan, e Y. Sheng, "Evaluating the effects of mulch and irrigation amount on soil water distribution and root zone water balance using HYDRUS-2D", Water (Switzerland), vol. 7, no 6, p.2622–2640, 2015.

DOI: 10.3390/W7062622

Google Scholar

[7] C. M. Cejas, L. A. Hough, R. Beaufret, J.-C. Castaing, C. Frétigny, e R. Dreyfus, "Preferential Root Tropism Induced by Structural Inhomogeneities in 2D Wet Granular Media", jan. 2019, [Online]. Disponível em: http://arxiv.org/abs/1901.10402.

DOI: 10.1038/s41598-019-50653-8

Google Scholar

[8] J. Šimůnek e M. T. Van Genuchten, "Estimating unsaturated soil hydraulic properties from tension disc infiltrometer data by numerical inversion", Water Resour Res, vol. 32, no 9, p.2683–2696, set. 1996.

DOI: 10.1029/96WR01525

Google Scholar

[9] R. A. Feddes et al., "Modeling Root Water Uptake in Hydrological and Climate Models", Bull Am Meteorol Soc, vol. 82, no 12, p.2797–2810, dez. 2001.

Google Scholar

[10] G. Lobet, V. Couvreur, F. Meunier, M. Javaux, e X. Draye, "Plant Water Uptake in Drying Soils", Plant Physiol, vol. 164, no 4, p.1619–1627, abr. 2014.

DOI: 10.1104/PP.113.233486

Google Scholar

[11] D. Gasiorowski e T. Kolerski, "Numerical solution of the two-dimensional richards equation using alternate splitting methods for dimensional decomposition", Water (Switzerland), vol. 12, no 6, jun. 2020.

DOI: 10.3390/w12061780

Google Scholar

[12] Z. Wang, J. Li, e Y. Li, "Simulation of nitrate leaching under varying drip system uniformities and precipitation patterns during the growing season of maize in the North China Plain", Agric Water Manag, vol. 142, p.19–28, 2014.

DOI: 10.1016/j.agwat.2014.04.013

Google Scholar

[13] J. Šimůnek, M. Th. van Genuchten, e M. Šejna, "Recent Developments and Applications of the HYDRUS Computer Software Packages", Vadose Zone Journal, vol. 15, no 7, p.1–25, jul. 2016.

DOI: 10.2136/vzj2016.04.0033

Google Scholar

[14] A.-L. Lozano et al., "Experimental study and modelling of the water phase change kinetics in soils Experimental study and modelling of the water phase change kinetics in soils Experimental study and modelling of the water phase change kinetics in soils", Eur J Soil Sci, vol. 59, no 5, 2008.

DOI: 10.1111/j.1365-2389.2008.01050.x

Google Scholar

[15] J. Šimůnek e M. Th. van Genuchten, "Modeling Nonequilibrium Flow and Transport Processes Using HYDRUS", Vadose Zone Journal, vol. 7, no 2, p.782–797, maio 2008.

DOI: 10.2136/vzj2007.0074

Google Scholar

[16] J. Šimůnek e J. W. Hopmans, "Modeling compensated root water and nutrient uptake", Ecol Modell, vol. 220, no 4, p.505–521, fev. 2009.

DOI: 10.1016/j.ecolmodel.2008.11.004

Google Scholar

[17] R. FEDDES, P. KOWALIK, … S. N.-H., e undefined 1976, "Finite Difference and Finite Element Simulation of Field Water Uptake by Plants/Simulation de la différence finie et de l'élément fini de l'humidité", Taylor & Francis, vol. 21, no 1, p.81–98, 1976.

DOI: 10.1080/02626667609491607

Google Scholar

[18] J. A. Vrugt, M. T. Van Wijk, J. W. Hopmans, e J. Šimunek, "One-, two-, and three-dimensional root water uptake functions for transient modeling", Water Resour Res, vol. 37, no 10, p.2457–2470, 2001.

DOI: 10.1029/2000WR000027

Google Scholar

[19] B. Ghanbarian-Alavijeh, A. Liaghat, G.H. Huang, e M.T. Van Genuchten, "Estimation of the van Genuchten Soil Water Retention Properties from Soil Textural Data", Pedosphere, vol. 20, no 4, p.456–465, ago. 2010.

DOI: 10.1016/S1002-0160(10)60035-5

Google Scholar