This study was conducted to assess the influences of soil surface conditions and initial soil water content on water movement in unsaturated sodic soils of reclaimed coastal areas. Data was collected from column experiments in which two soils from a Chinese coastal area reclaimed in 2007 (Soil A, saline) and 1960 (Soil B, nonsaline) were used, with bulk densities of 1.4 or 1.5 g/cm3. A 1D-infiltration model was created using a finite difference method and its sensitivity to hydraulic related parameters was tested. The model well simulated the measured data. The results revealed that soil compaction notably affected the water retention of both soils. Model simulations showed that increasing the ponded water depth had little effect on the infiltration process, since the increases in cumulative infiltration and wetting front advancement rate were small. However, the wetting front advancement rate increased and the cumulative infiltration decreased to a greater extent when θ 0 was increased. Soil physical quality was described better by the S parameter than by the saturated hydraulic conductivity since the latter was also affected by the physical chemical effects on clay swelling occurring in the presence of different levels of electrolytes in the soil solutions of the two soils.
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机译:进行这项研究是为了评估土壤表层条件和土壤初始含水量对复垦沿海地区非饱和苏打土壤水分运动的影响。数据来自于柱试验,在该试验中,使用了2007年和2000年分别从中国沿海地区(土壤A,盐溶液)和1960(土壤B,非盐碱)开垦的两种土壤,堆积密度为1.4或1.5μg/ cm 3 / sup>。使用有限差分法创建了一维渗透模型,并测试了其对水力相关参数的敏感性。该模型很好地模拟了测量数据。结果表明,土壤压实显着影响了两种土壤的保水率。模型模拟表明,增加积水深度对入渗过程几乎没有影响,因为累积入渗量的增加和润湿前沿的增加率很小。然而,当θ0增加时,润湿前沿进展速率增加并且累积渗透减少更大程度。用S参数比用饱和导水率更好地描述了土壤的物理质量,因为饱和导水率还受两种土壤溶液中电解质含量不同时对粘土溶胀的物理化学作用的影响。
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