Karol Kňava scite author profile

The impact of heating on the peristence of water repellency, saturated hydraulic conductivity, and water retention characteristics was examined on soils from both forest and meadow sites in southwest Slovakia shortly after a wet spell. The top 5 cm of meadow soils had an initial water drop penetration time WDPT at 20• C of 457 s, whereas WDPT in the pine forest was 315 s for the top 5 cm and 982 s if only the top 1 cm was measured. Heating soils at selected temperatures of 50, 100, 150, 200, 250 and 300• C caused a marked drop in water drop penetration time WDPT from the initial value at 20• C. However, samples collected in different years and following an imposed cycle of wetting and drying showed much different trends, with WDPT sometimes initially increasing with temperature, followed by a drop after 200-300• C. The impact of heating temperature on the saturated hydraulic conductivity of soil was small. It was found for both the drying and wetting branches of soil water retention curves that an increase in soil water repellency resulted in a drop in soil water content at the same matric potential. The persistence of soil water repellency was strongly influenced by both the sampling site and time of sampling, as it was characterized by the results of WDPT tests.

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The influence of stoniness and canopy properties on soil water content distribution: simulation of water movement in forest stony soil

Novák

Kňava

2011

Eur J Forest Res

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Karol Kňava

Determining the influence of stones on hydraulic conductivity of saturated soils using numerical method

The impact of heating on the hydraulic properties of soils sampled under different plant cover

The influence of stoniness and canopy properties on soil water content distribution: simulation of water movement in forest stony soil

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