. . . "Lichner, L." . "6"^^ . . . . "[8E219981DBAC]" . . . . "Dual-continuum modeling of dye tracer infiltration into soil with biopores"@en . "\u0160tekauerov\u00E1, V." . . "418232" . "Zvolen" . "Vogel, Tom\u00E1\u0161" . "Dual-continuum modeling of dye tracer infiltration into soil with biopores" . "biopores; dual-continuum model; infiltration; preferential flow; tracer experiment; vadose zone"@en . . "6"^^ . . "Du\u0161ek, Jarom\u00EDr" . "Hri\u0148ov\u00E1" . "C\u00EDslerov\u00E1, Milena" . . "Dual-continuum modeling of dye tracer infiltration into soil with biopores"@en . . "Modelov\u00E1n\u00ED tracerov\u00E9ho experimentu p\u0159\u00EDstupem du\u00E1ln\u00ED permeability do p\u016Fdy s makrop\u00F3ry"@cs . "Dohnal, Michal" . "Adequate modeling of infiltration into heterogeneous structured soils from ponded sources represents an important scientific problem with numerous implications for practical hydrological tasks. Reliable predictions of the 3D flow of water are often complicated by the presence of preferential pathways. The present study is focused on numerical modeling of a field infiltration experiment. The experiment involved ponded infiltration from a single infiltration ring into the soil profile containing biopores. The presence of biopores network in the soil of interest was proved by the accompanying tracer experiment. To quantify the preferential flow effects, numerical model based on the dual-continuum approach was employed. The spatial distribution approximate volumetric fraction of the preferential pathways were evaluated by means of digital image analysis. The results provide valuable information about the movement of water through soils with biopores."@en . "978-80-228-1760-8" . "Bioclimatology and Natural Hazards" . "4"^^ . "2007-09-17+02:00"^^ . . . "Dual-continuum modeling of dye tracer infiltration into soil with biopores" . "Adequate modeling of infiltration into heterogeneous structured soils from ponded sources represents an important scientific problem with numerous implications for practical hydrological tasks. Reliable predictions of the 3D flow of water are often complicated by the presence of preferential pathways. The present study is focused on numerical modeling of a field infiltration experiment. The experiment involved ponded infiltration from a single infiltration ring into the soil profile containing biopores. The presence of biopores network in the soil of interest was proved by the accompanying tracer experiment. To quantify the preferential flow effects, numerical model based on the dual-continuum approach was employed. The spatial distribution approximate volumetric fraction of the preferential pathways were evaluated by means of digital image analysis. The results provide valuable information about the movement of water through soils with biopores." . . "P(1M0579)" . . . "RIV/68407700:21110/07:01137223!RIV08-MSM-21110___" . "Technick\u00E1 univerzita vo Zvolene" . "Modelov\u00E1n\u00ED tracerov\u00E9ho experimentu p\u0159\u00EDstupem du\u00E1ln\u00ED permeability do p\u016Fdy s makrop\u00F3ry"@cs . . "Modelov\u00E1n\u00ED tracerov\u00E9ho experimentu p\u0159\u00EDstupem du\u00E1ln\u00ED permeability do p\u016Fdy s makrop\u00F3ry"@cs . "RIV/68407700:21110/07:01137223" . . "21110" . . "Ne\u010D\u00EDslov\u00E1no" .