Water Supply (May 2021)
An analysis on the influence of precipitation infiltration on groundwater under different irrigation conditions in the semi-arid area
Abstract
The West Liaohe Plain is a typical semi-arid area, where the process of rainfall infiltration to replenish groundwater is a key link in its vertical hydrological cycle. In this paper, we compare and analyze the impact upon soil moisture movement and water infiltration after the shift of irrigation method from flood irrigation to mulched drip irrigation under mulch through setting up in-field in-situ observation points and carrying out groundwater depth dynamic observation. The results show that compared with mulched drip irrigation under mulch, flood irrigation has a stronger response to rainfall infiltration and a quicker response time in the rise of underground depth. With the decrease of groundwater level, the effect of rainfall infiltration to replenish groundwater is significantly weakened. In the flood irrigation area, the groundwater depth at about 8 m already has no obvious response to a small amount of rainfall. However, the groundwater depth at 6 m in the area of mulched drip irrigation under mulch already has no response to rainfall. Therefore, when groundwater extraction is carried out in irrigation areas, reasonable groundwater extraction levels should be designated in light of different irrigation methods to maintain the sustainable utilization of groundwater. HIGHLIGHTS Observed rainfall infiltration realized through flood irrigation and mulched drip irrigation under mulch.; Analyze the mechanism of the influence of irrigation conditions on rainfall infiltration.; Analyze the change of soil moisture content.; Analyze their impacts upon rainfall infiltration.; The promotion of mulched drip irrigation under mulch will exert a significant impact on rainfall infiltration.;
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