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Research Article
Evaluation of water movement and hydraulic conductivity under different water stress conditions using HYDRUS- 1D model
Anand V. Shivapur1
Surekha P2
1 Professor of Water and Land Management Program, Department of Civil Engineering, VTU, Belagavi, Karnataka, India. 2 Post Graduate Student, Department of Civil Engineering, VTU, Belagavi, Karnataka, India.
Published Online: September-October 2022
Pages: 61-64
Cite this article
No DOIReferences
[1]. Amir, S. (2020). “Simulation of water flow and solute transport as affected by a soil layer interface and a subsurface drainage system
using a numerical model”, arXiv:2005.02786v1 [physics.geo-ph], DOI: arXiv:2005.02786v1.
[2]. Andrej, T ., and Dušan, I. (2017). "Validation of HYDRUS 1D model in selected catchment of Slovakia." Acta Horticulturae et
Regiotecturae 1 Nitra, Slovaca Universitas Agriculturae Nitriae, DOI:10.1515/ahr-2017-0006,20(1), pp:24-27.
[3]. De Silva, C. S., and J. Tellam. (2011). "Simulation of nitrate leaching and groundwater pollution in vegetable cultivation using
HYDRUS-1D model.", Conference: Symposium on Water professional's Day, Postgraduate Institute of Agriculture, University of
Peradeniya at Peradeniya, Sri Lanka, ISBN 978-955-1308-14-8, pp 167-178.
[4]. Honar, Mohammad Reza, Seyed Amir Shamsnia, and Alireza Gholami. (2011).“Evaluation of water flow and infiltration using
HYDRUS model in sprinkler irrigation systems", Proceedings of the 2nd International Conference on Environmental Engineering and
Applications, Shanghai, China, vol. 17. 2011.
[5]. Kanzari, S., Nouna, B. B., Mariem, S. B., and Rezig, M. (2018). “Hydrus-1D model calibration and validation in various field
conditions for simulating water flow and salts transport in a semi-arid region of Tunisia”, Sustainable Environment Research, 28(6),
pp:350-356.
[6]. Šimůnek, M. Th. van Genuchten, and M. Šejna (2008). “Modeling subsurface water flow and solute transport with HYDRUS and
related numerical software packages”, Numerical Modelling of Hydrodynamics for Water Resources – Garcia-Navarro & Playán (eds)
© 2008 Taylor & Francis Group, London, ISBN 978-0-415-44056-1, pp:95-115
[7]. Shekhar, S., Mailapalli, D. R., Raghuwanshi, N. S., & Das, B. S. (2020). “Hydrus-1D model for simulating water flow through paddy
soils under alternate wetting and drying irrigation practice”, Paddy and Water Environment, 18(1), pp:73-85.
[8]. Tafteh, A., and Sepaskhah, A. R. (2012). “Application of HYDRUS-1D model for simulating water and nitrate leaching from continuous
and alternate furrow irrigated rapeseed and maize fields”, Agricultural water management, 113, pp:19-29.
[9]. WANG, Shi-qin, Xian-fang SONG, Shou-cai WEI, and Jing-li SHAO. (2016). "Application of HYDRUS-1D in understanding soil water
movement at two typical sites in the North China Plain", Journal of Groundwater Science and Engineering, 2016, 4(1), pp:1-11.
using a numerical model”, arXiv:2005.02786v1 [physics.geo-ph], DOI: arXiv:2005.02786v1.
[2]. Andrej, T ., and Dušan, I. (2017). "Validation of HYDRUS 1D model in selected catchment of Slovakia." Acta Horticulturae et
Regiotecturae 1 Nitra, Slovaca Universitas Agriculturae Nitriae, DOI:10.1515/ahr-2017-0006,20(1), pp:24-27.
[3]. De Silva, C. S., and J. Tellam. (2011). "Simulation of nitrate leaching and groundwater pollution in vegetable cultivation using
HYDRUS-1D model.", Conference: Symposium on Water professional's Day, Postgraduate Institute of Agriculture, University of
Peradeniya at Peradeniya, Sri Lanka, ISBN 978-955-1308-14-8, pp 167-178.
[4]. Honar, Mohammad Reza, Seyed Amir Shamsnia, and Alireza Gholami. (2011).“Evaluation of water flow and infiltration using
HYDRUS model in sprinkler irrigation systems", Proceedings of the 2nd International Conference on Environmental Engineering and
Applications, Shanghai, China, vol. 17. 2011.
[5]. Kanzari, S., Nouna, B. B., Mariem, S. B., and Rezig, M. (2018). “Hydrus-1D model calibration and validation in various field
conditions for simulating water flow and salts transport in a semi-arid region of Tunisia”, Sustainable Environment Research, 28(6),
pp:350-356.
[6]. Šimůnek, M. Th. van Genuchten, and M. Šejna (2008). “Modeling subsurface water flow and solute transport with HYDRUS and
related numerical software packages”, Numerical Modelling of Hydrodynamics for Water Resources – Garcia-Navarro & Playán (eds)
© 2008 Taylor & Francis Group, London, ISBN 978-0-415-44056-1, pp:95-115
[7]. Shekhar, S., Mailapalli, D. R., Raghuwanshi, N. S., & Das, B. S. (2020). “Hydrus-1D model for simulating water flow through paddy
soils under alternate wetting and drying irrigation practice”, Paddy and Water Environment, 18(1), pp:73-85.
[8]. Tafteh, A., and Sepaskhah, A. R. (2012). “Application of HYDRUS-1D model for simulating water and nitrate leaching from continuous
and alternate furrow irrigated rapeseed and maize fields”, Agricultural water management, 113, pp:19-29.
[9]. WANG, Shi-qin, Xian-fang SONG, Shou-cai WEI, and Jing-li SHAO. (2016). "Application of HYDRUS-1D in understanding soil water
movement at two typical sites in the North China Plain", Journal of Groundwater Science and Engineering, 2016, 4(1), pp:1-11.
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