Water-drop stability of PVA-treated natural soil aggregates from different land uses

Abstract

Soil erodibility is a function of land use as it affects the stability of soil aggregates. The use of soil conditioners like polyvinyl alcohol (PVA) may help in reducing the soil erodibility, but it is important to economize the use of PVA. A study was carried out to evaluate the interactive effects of land use and PVA concentration on the water-drop stability of natural soil aggregates collected from eroded, forest, agricultural and grass lands. The water-drop stability of these aggregates was monitored using single raindrop simulator. The water-drop stability was lowest in eroded soils, followed by soils from agriculture, forest and grass lands. The smaller aggregates were more stable than the bigger ones. The water-drop stability of aggregates of different sizes and from different lands increased with the application of polyvinyl alcohol (PVA). The mean water-drop stability increased with the application of PVA at the rate of 0.05% by 40% in 2–5 and 5–10 mm aggregates. Increasing the PVA concentration to 0.1 and 0.2% increased water-drop stability value by 71–73% and 87–88%, respectively. The PVA application at the rate of 0.1% could increase the water-drop stability of soils under eroded land equivalent to that of the untreated grassland soils.