Simultaneous scaling of soil water retention and hydraulic conductivity functions provides an effective means to characterize the heterogeneity and spatial variability of soil hydraulic properties in a given study area. The statistical significance of this approach largely depends on the number of soil samples collected. Unfortunately, direct measurement of the soil hydraulic functions is tedious, expensive and time consuming. Here we present a simple and cost-effective hybrid scaling approach that combines the use of ancillary information (e.g., particle-size distribution and soil bulk density) with direct measurements of saturated soil water content and saturated hydraulic conductivity. Our results demonstrate that the presented approach ...
In this study a method was developed to describe the spatial variability of the hydraulic conductivi...
Prediction of flow through variably saturated porous media requires accurate knowledge of the soil h...
This study presents a new semi-empirical approach for predicting the saturated hydraulic conductivit...
Simultaneous scaling of soil water retention and hydraulic conductivity functions provides an effect...
Simultaneous scaling of soil water retention and hydraulic conductivity functions provides an effect...
Mapping soil hydraulic parameters with traditional scaling methods that use laboratory-determined hy...
Hydraulic conductivity is one parameter important for predicting the movement of water and contamina...
The presented study explores the prediction of soil water retention and its variability from soil t...
A method to calculate the statistical distribution of a scaling factor from soil-water retention cur...
Hydraulic properties should be determined at the scale of the process modeled. The methods to hydra...
Alfisols exhibit a high degree of spatial variability in their physical properties. As a result, it ...
We analyzed the possibility of introducing a single stochastic scaling parameter a to describe the s...
Prediction of flow through variably saturated porous media requires accurate knowledge of the soil h...
Because of the complexity of the metrological determination of the soil water retention curve (SWRC)...
Soil saturated hydraulic conductivity ( (S)) is a key variable in hydrologic processes, the paramete...
In this study a method was developed to describe the spatial variability of the hydraulic conductivi...
Prediction of flow through variably saturated porous media requires accurate knowledge of the soil h...
This study presents a new semi-empirical approach for predicting the saturated hydraulic conductivit...
Simultaneous scaling of soil water retention and hydraulic conductivity functions provides an effect...
Simultaneous scaling of soil water retention and hydraulic conductivity functions provides an effect...
Mapping soil hydraulic parameters with traditional scaling methods that use laboratory-determined hy...
Hydraulic conductivity is one parameter important for predicting the movement of water and contamina...
The presented study explores the prediction of soil water retention and its variability from soil t...
A method to calculate the statistical distribution of a scaling factor from soil-water retention cur...
Hydraulic properties should be determined at the scale of the process modeled. The methods to hydra...
Alfisols exhibit a high degree of spatial variability in their physical properties. As a result, it ...
We analyzed the possibility of introducing a single stochastic scaling parameter a to describe the s...
Prediction of flow through variably saturated porous media requires accurate knowledge of the soil h...
Because of the complexity of the metrological determination of the soil water retention curve (SWRC)...
Soil saturated hydraulic conductivity ( (S)) is a key variable in hydrologic processes, the paramete...
In this study a method was developed to describe the spatial variability of the hydraulic conductivi...
Prediction of flow through variably saturated porous media requires accurate knowledge of the soil h...
This study presents a new semi-empirical approach for predicting the saturated hydraulic conductivit...