Water Dynamics under Drip Irrigation to Proper Manage Water Use in Arid Zone

Siguibnoma Kevin Landry Ouédraogo, Bawindsom Marcel Kébré, F. Zougmore
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Abstract

The water resources reduction due to climate changes and also population increase, have contributed to increasing the constraint on water disponibility and accessibility. In the agricultural field, we need moderate soil and water resources management. This work aims to simulate water dynamics in soil under drip irrigation system in arid regions to better manage irrigation water. Simulations are done with soil physical properties of Burkina Faso. We assess maize plant water requirements for the whole growing season. With Hydrus 2D, we simulate water supply in the soil column. We assign atmospheric conditions on the top of the domain, zero flux of water on the lateral sides, and free drainage on the bottom boundary domain. We perform many irrigation events to analyze wetting pattern distribution around the emitter, which allowed us to contain the amount of irrigation water applied, only around the area dominated by roots, and then reduce water losses that roots cannot uptake. According to the different growing stages of the maize crop, we choose proper irrigation duration and frequency, and suggest irrigation schedule for the whole growing season.
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干旱区滴灌水动力学研究
气候变化和人口增长导致的水资源减少,增加了对水资源可利用性和可及性的限制。在农业领域,我们需要适度的水土资源管理。本工作旨在模拟干旱地区滴灌系统下土壤水分动力学,以更好地管理灌溉用水。对布基纳法索的土壤物理特性进行了模拟。我们评估了玉米植株整个生长季节的需水量。利用Hydrus 2D,我们模拟了土壤柱中的供水。我们在区域的顶部指定大气条件,在侧面指定水的零通量,在底部边界区域指定自由排水。我们执行了许多灌溉事件来分析发射器周围的湿润模式分布,这使我们能够控制灌溉水量,仅在根系主导的区域周围施用,然后减少根系不能吸收的水分损失。根据玉米作物的不同生长阶段,选择适宜的灌溉时间和灌溉频率,提出了整个生长季的灌溉计划。
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