The Relationship between the Mechanisms of Formation of Erosion Resistance and Soil Water Stability

G. N. Fedotov, D. A. Tarasenko, V. V. Demidov, I. V. Gorepekin, M. N. Egorova, A. I. Sukharev
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Abstract

Kuznetsov’s formula relates the parameters of erosion resistance and soil water stability. However, the mechanism of occurrence of these properties is different: water stability is explained by the action of intra-aggregate hydrophobic bonds in organomineral soil gels, and erosion resistance is explained by water stable aggregates and their adhesion to each other. There is a contradiction in the proposed mechanisms of two similar phenomena. The purpose of the work was to clarify the mechanism of erosion resistance of soils and compare it with the mechanism of formation of water stability. The work used samples of humus-accumulative soil horizons: sod-podzolic and leached chernozem. To obtain samples with the same aggregate composition, but differing in erosion resistance, it is proposed to use soil polymer ameliorants (SPMs). The erosion resistance of soils was determined on a hydrolotter and the critical rate of flushing was calculated. The water stability of the soils was assessed by the blade method. The particle size in the solutions was estimated by laser diffractometry. It was found that, on soils treated with SPMs, the results of the tray and blade methods correlate by 99%. The high correlation suggests a common nature of intra- and interaggregate bonds. To test the role of hydrophobic interactions in the formation of aggregates resistant to water, polymers of varying degrees of hydrophobicity were added to aqueous humate solutions in a model experiment: polyethylene glycol (PEG), polyacrylamide (PAA), and polyvinyl alcohol (PVA). In parallel, the water stability of soils treated with PEG, PAA, and PVA was evaluated. Analysis of the results showed that the greatest water stability of the aggregates was noted when the most hydrophobic polymer, polyvinyl alcohol, was added to the soil, which formed the largest particles when interacting with humate in the model experiment. These results confirm the role of hydrophobic interactions in the formation of aggregates and indicate that when selecting polymer structures, their interaction should be taken into account not with clay minerals, but with soil gels, which include clay minerals and humic substances.

Abstract Image

抗蚀性形成机制与土壤水稳定性之间的关系
摘要 库兹涅佐夫公式将抗侵蚀性和土壤水稳定性这两个参数联系在一起。然而,这些特性的发生机理是不同的:水稳定性是由有机矿质土壤凝胶体中聚集体内部疏水键的作用来解释的,而抗侵蚀性则是由水稳定聚集体及其相互粘附作用来解释的。两种类似现象的拟议机理存在矛盾。这项工作的目的是阐明土壤的抗侵蚀机制,并将其与水稳定性的形成机制进行比较。这项工作使用了腐殖质累积土壤层的样本:草皮-松软土壤层和沥滤 Chernozem 土壤层。为了获得骨料成分相同但抗侵蚀性不同的样本,建议使用土壤聚合物改良剂(SPMs)。土壤的抗侵蚀性是在水力仪上测定的,并计算了临界冲刷率。土壤的水稳定性采用叶片法进行评估。溶液中的颗粒大小是通过激光衍射仪估算的。结果发现,在使用 SPMs 处理过的土壤上,托盘法和叶片法的结果相关性高达 99%。这种高度相关性表明,团聚内和团聚间的结合具有共性。为了测试疏水相互作用在形成抗水聚集体中的作用,在模型实验中将不同疏水程度的聚合物添加到腐殖酸水溶液中:聚乙二醇 (PEG)、聚丙烯酰胺 (PAA) 和聚乙烯醇 (PVA)。同时,还对使用 PEG、PAA 和 PVA 处理过的土壤的水稳定性进行了评估。结果分析表明,当在土壤中加入疏水性最强的聚合物聚乙烯醇时,聚合体的水稳定性最强,在模型实验中,聚乙烯醇与腐殖酸相互作用时形成的颗粒最大。这些结果证实了疏水性相互作用在聚集体形成过程中的作用,并表明在选择聚合物结构时,不应考虑其与粘土矿物的相互作用,而应考虑其与土壤凝胶(包括粘土矿物和腐殖质)的相互作用。
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