Author
Listed:
- David Zumr
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Danilo Vítor Mützenberg
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Martin Neumann
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Jakub Jeřábek
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Tomáš Laburda
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Petr Kavka
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
- Lisbeth Lolk Johannsen
(Institute for Soil Physics and Rural Water Management, University of Natural Resources and Life Sciences, 1190 Vienna, Austria)
- Nives Zambon
(Institute for Soil Physics and Rural Water Management, University of Natural Resources and Life Sciences, 1190 Vienna, Austria)
- Andreas Klik
(Institute for Soil Physics and Rural Water Management, University of Natural Resources and Life Sciences, 1190 Vienna, Austria)
- Peter Strauss
(Federal Agency for Water Management, Institute for Land & Water Management Research, 3252 Petzenkirchen, Austria)
- Tomáš Dostál
(Faculty of Civil Engineering, Czech Technical University in Prague, Thákurova 7, 166 29 Prague 6, Czech Republic)
Abstract
An experimental laboratory setup was developed and evaluated in order to investigate detachment of soil particles by raindrop splash impact. The soil under investigation was a silty loam Cambisol, which is typical for agricultural fields in Central Europe. The setup consisted of a rainfall simulator and soil samples packed into splash cups (a plastic cylinder with a surface area of 78.5 cm 2 ) positioned in the center of sediment collectors with an outer diameter of 45 cm. A laboratory rainfall simulator was used to simulate rainfall with a prescribed intensity and kinetic energy. Photographs of the soil’s surface before and after the experiments were taken to create digital models of relief and to calculate changes in surface roughness and the rate of soil compaction. The corresponding amount of splashed soil ranged between 10 and 1500 g m −2 h −1 . We observed a linear relationship between the rainfall kinetic energy and the amount of the detached soil particles. The threshold kinetic energy necessary to initiate the detachment process was 354 J m −2 h −1 . No significant relationship between rainfall kinetic energy and splashed sediment particle-size distribution was observed. The splash erosion process exhibited high variability within each repetition, suggesting a sensitivity of the process to the actual soil surface microtopography.
Suggested Citation
David Zumr & Danilo Vítor Mützenberg & Martin Neumann & Jakub Jeřábek & Tomáš Laburda & Petr Kavka & Lisbeth Lolk Johannsen & Nives Zambon & Andreas Klik & Peter Strauss & Tomáš Dostál, 2019.
"Experimental Setup for Splash Erosion Monitoring—Study of Silty Loam Splash Characteristics,"
Sustainability, MDPI, vol. 12(1), pages 1-12, December.
Handle:
RePEc:gam:jsusta:v:12:y:2019:i:1:p:157-:d:301426
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