Macropores induce preferential flow in many soils, creating the need for parsimonious solutions to describe nonequilibrium infiltration and wetting processes. This study applied the Green–Ampt infiltration model within a dual-domain framework to distinguish water movement through the soil matrix vs. through macropores. Using a nondimensional parameter set to generalize the results, the developed equations enabled estimates of infiltration and depth of wetting due to preferential flow during constant-intensity rain. The analysis revealed that infiltration partitioning varies with time, with flow regimes changing at time of ...
Macropores greatly affect water and solute transport in soils. Most macropores are of biogenic origi...
Understanding and modeling both flow and solute transport within heterogeneous soils, such as a macr...
A conceptual two-phase model for preferential flow of water through field soils is proposed. The fir...
Abstract Preferential flow in soils contributes to water and contaminant leaching to groundwater and...
Preferential flow is known to influence infiltration, soil moisture content distribution, groundwate...
Water flow in soils with sufficiently large aggregate size or pore-class heterogeneity may exhibit a...
With climate change, preferential flow phenomenon in soil could be predominant in Mediterranean zone...
During rainfall events, macropores are generally considered to play a dominant role in infiltration ...
In the vadose zone, preferential flow and transport are much more common than uniform water flow and...
Effects of macropore flow on solute transport in a variably saturated medium under repetitive rainfa...
Desertification and landscape degradation is a worldwide problem, which is expected to grow in time ...
Infiltration tests and a soil survey made on the slope of a hilly region indicate that the infiltrat...
Worldwide there is considerable concern over the effects of human activities on the quantity and qua...
There is a lack of numerical study on how planting density affects soil pore water pressure and shea...
Estimating runoff and infiltration in slopes is essential to predict flooding and landslide triggeri...
Macropores greatly affect water and solute transport in soils. Most macropores are of biogenic origi...
Understanding and modeling both flow and solute transport within heterogeneous soils, such as a macr...
A conceptual two-phase model for preferential flow of water through field soils is proposed. The fir...
Abstract Preferential flow in soils contributes to water and contaminant leaching to groundwater and...
Preferential flow is known to influence infiltration, soil moisture content distribution, groundwate...
Water flow in soils with sufficiently large aggregate size or pore-class heterogeneity may exhibit a...
With climate change, preferential flow phenomenon in soil could be predominant in Mediterranean zone...
During rainfall events, macropores are generally considered to play a dominant role in infiltration ...
In the vadose zone, preferential flow and transport are much more common than uniform water flow and...
Effects of macropore flow on solute transport in a variably saturated medium under repetitive rainfa...
Desertification and landscape degradation is a worldwide problem, which is expected to grow in time ...
Infiltration tests and a soil survey made on the slope of a hilly region indicate that the infiltrat...
Worldwide there is considerable concern over the effects of human activities on the quantity and qua...
There is a lack of numerical study on how planting density affects soil pore water pressure and shea...
Estimating runoff and infiltration in slopes is essential to predict flooding and landslide triggeri...
Macropores greatly affect water and solute transport in soils. Most macropores are of biogenic origi...
Understanding and modeling both flow and solute transport within heterogeneous soils, such as a macr...
A conceptual two-phase model for preferential flow of water through field soils is proposed. The fir...