Simulation of soil moisture distribution around of corn plant root in heavy soil texture under drip-tape-irrigation system using HYDRUS-2D model

Subject Areas :

Parnian Majidi Chaharmahali ¹ , Heidar Ali Kashkuli ² , Davoud Khodadadi Dehkordi ³ , Ali Mokhtaran ⁴ , Aslan Egdernezhad ⁵

1 - Department of Water Engineering and Sciences, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Department of Water Engineering and Sciences, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
3 - Department of Water Engineering and Science, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
4 - Research Assistant Professor of Agricultural Engineering Research Department, Khuzestan Agricultural and Natural Resources Research and Education Center, Agricultural Research Education and Extension Organization (AREEO), Ahwaz, Iran.
5 - Assistant Professor, Department of Water Sciences and Engineering, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.

Received: 2020-08-15 Accepted : 2021-07-27 Published : 2020-02-20

Keywords: corn, Irrigation interval, Drip-tape-irrigation, HYDRUS model, Moisture distribution,

Abstract :

The present study was conducted to evaluate the efficiency of the HYDRUS model in simulating soil water movement and redistribution of moisture around the roots of maize in homogeneous and heavy soils. This study was carried out in the Agricultural Research Center of Khuzestan Province under drip strip irrigation with three irrigation regimes of 2, 3 and 4 days with three replications during two cropping years. In order to monitor the moisture around the roots, dig a soil profile to a depth of 75 cm perpendicular to the drip irrigation strip. Observed and simulated moisture values were compared byR2,EF, MAE and RMSE statistics. The results showed that the average moisture distribution in each irrigation regime is in the range of crop capacity. RMSE values for different diets ranged from 1.29 to 2.40% and MAE values for different diets ranged from 1 to 2%. Moisture simulations were classified as excellent based on MAE and RMSE values.Also, the results of the coefficient of explanation are between 60 to 90% and the efficiency of the model is between 40 to 90%. Based on the results, the lowest efficiency of the model was in the simulation 24 hours after irrigation and the best simulation was 72 hours after irrigation. The results show the high capability of the model in simulating soil volumetric moisture.

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Simulation of soil moisture distribution around of corn plant root in heavy soil texture under drip-tape-irrigation system using HYDRUS-2D model