不同吸收聚合物对沙质土壤理化性质的调理作用

A. Mazen, D. Radwan, Atef F. Ahmed
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引用次数: 2

摘要

目前,利用吸收聚合物(水凝胶)对土壤进行调节被认为是解决新沙漠垦殖沙土水分限制问题的有效途径。本文研究了五种不同浓度的水凝胶对沙土理化性质的影响。所使用的水凝胶为聚丙烯酸(Aquakeep, AKG);聚丙烯酸钠;聚丙烯酸乙烯醇钠;纤维素(JFG);淀粉(Was, WG)。每种水凝胶的使用浓度分别为土壤重量的0.05、0.1、0.2和0.4%。结果表明,不同水凝胶的最大吸水量差异较大。AKG和WG的吸水能力最高,JFG的吸水能力最低,说明AKG和WG在沙质土壤中保水效果最好。此外,对于所有使用的水凝胶,在0.05或0.1%的水凝胶浓度下,所有施用的pF值都增加了沙土的含水量。随着水凝胶浓度的增加,土壤的容重减小,总孔隙度增大。用用过的水凝胶对土壤进行调节,使土壤的持水量增加,从而降低了土壤的入渗速率和导水率。用所研究的水凝胶对沙土进行调理,改善了沙土的化学性质。不同浓度的水凝胶均能降低土壤pH值,提高土壤阳离子交换容量(CEC)。当每种水凝胶浓度均为0.4时,土壤pH值略有降低,土壤CEC和有机质显著增加,有效氮磷钾含量(氮、磷、钾)增加。从整体试验结果来看,在沙土中添加WG、IGG、AKG对保持田间水分的效果最好,为植物提供了更多的有效水分,改善了沙土的理化性质。
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Conditioning Effect of Different Absorbant Polymers on Physical and Chemical Properties of Sandy Soil
Nowadays, the use of absorbant polymers (hydrogels) for soil conditioning is considered an effective way to solve the problems of water limitation of sandy soils for reclamation of newly desert areas. In this work, the physical and chemical properties of the sandy soil mixed with different concentrations of five types of hydrogels were studied. The used hydrogels were polyacrylic acid (Aquakeep, AKG); sodium polyacrylate (Aqurihop); vinyl alcohol sodium polyacrylate (Igata, IGG); cellulose (Jelfine, JFG); and starch (Was, WG). The used concentrations of each hydrogel were 0.05, 0.1, 0.2 and 0.4% of the soil weight. The results demonstrated that the maximum water absorption capacity differed greatly from hydrogel to another. AKG and WG had the highest water absorption capacity, while JFG was the lowest indicating that using of AKG and/or WG is the best for water conservation in sandy soils. Moreover, for all used hydrogels, the moisture content of the sandy soil increased with all applied pF values at concentrations of 0.05 or 0.1% hydrogel. A decrease in the bulk density and increase in total porosity of the soil was noticed with the increase of the hydrogel concentration. Soil infiltration rate and hydraulic conductivity were decreased due to the increase in water-holding capacity by conditioning the soils with the used hydrogels. Chemical properties were improved by conditioning the sandy soils with studied hydrogels. All hydrogels could lower the pH values but increase the cation exchange capacity (CEC) of the soil depending on the hydrogel concentration. Using high concentration (0.4) of each hydrogel, the soil pH was slightly lowered, while CEC and organic matter were increased noticeably with more available NPK content (nitrogen, phosphorus, potassium content) in the conditioned soils. From overall experiments, addition of WG, IGG, AKG to the sandy soil appear to be the best for retaining moisture at field capacity, which provides more available water to the plants and caused improvement of physical and chemical properties of the sandy soil.
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