AbstractThe connectivity of macropore networks is thought to exert an important control on preferential flow in soil, although little progress has been made towards incorporating an understanding of these effects into management-oriented flow and transport models. In principle, concepts from percolation theory should be well suited to quantify the connectivity of preferred flow pathways, but so far its relevance for natural soils in the field has not been tested. To investigate this question, X-ray tomography was used to measure soil pore space architecture at an image resolution of 65μm for 64 samples taken in two consecutive years in the harrowed and ploughed layers of a silt loam soil a few weeks after spring cultivation. The results sho...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
For decades, the development of new visualization techniques has brought incredible insights into ou...
AbstractThe connectivity of macropore networks is thought to exert an important control on preferent...
This study provides insights on the significance of network features of soil macropores on the trans...
To improve percolation modelling on soils the geometrical properties of the pore space must be under...
The saturated hydraulic conductivity of soil, Ks, is a critical parameter in hydrological models tha...
Macropores are known to be important pathways for the rapid transport of water, solutes and colloids...
The fast and deep percolation of particles through soil is attributed to preferential flow pathways,...
A connectivity function defined by the 3D-Euler number, is a topological indicator and can be relate...
Soil samples with a volume of approximately 100 mL are commonly used for measuring soil properties n...
Predictions of macropore flow is important for maintaining both soil and water quality as it governs...
AbstractA well developed macropore network is advantageous in terms of transport processes regarding...
Quantifying the connectivity of pore networks is a key issue not only for modelling fluid flow and s...
Computer based simulation models which estimate hydraulic properties of soil usually make use of sta...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
For decades, the development of new visualization techniques has brought incredible insights into ou...
AbstractThe connectivity of macropore networks is thought to exert an important control on preferent...
This study provides insights on the significance of network features of soil macropores on the trans...
To improve percolation modelling on soils the geometrical properties of the pore space must be under...
The saturated hydraulic conductivity of soil, Ks, is a critical parameter in hydrological models tha...
Macropores are known to be important pathways for the rapid transport of water, solutes and colloids...
The fast and deep percolation of particles through soil is attributed to preferential flow pathways,...
A connectivity function defined by the 3D-Euler number, is a topological indicator and can be relate...
Soil samples with a volume of approximately 100 mL are commonly used for measuring soil properties n...
Predictions of macropore flow is important for maintaining both soil and water quality as it governs...
AbstractA well developed macropore network is advantageous in terms of transport processes regarding...
Quantifying the connectivity of pore networks is a key issue not only for modelling fluid flow and s...
Computer based simulation models which estimate hydraulic properties of soil usually make use of sta...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
Prediction and modeling of localized flow processes in macropores is of crucial importance for susta...
For decades, the development of new visualization techniques has brought incredible insights into ou...