CAST1.0 provides quantitative metrics of effective hydrological connectivity. CAST1.0 was developed using MATLAB, based on a geostatistical analysis script. This geostatistical analysis approach quantifies the probability of connection between each pixel at a specified distance and enables the characterization of spatial-temporal patterns of connected objects that can be used to interpret transitions and thresholds in flow processes
Although connectivity is acknowledged as a key factor of a catchment hydrological behaviour, it stil...
Hillslope-stream connectivity significantly affects streamflow and water quality responses during ra...
Connectivity has been a target of investigation for subsurface hydrology for decades. We apply seven...
CAST1.0 provides quantitative metrics of effective hydrological connectivity. CAST1.0 was developed ...
Abstract. Many spatial fields exhibit connectivity features that have an important influence on hydr...
Geostatistical simulation is used in risk analysis studies to incorporate the spatial uncertainty of...
The degree of hydrological connectivity is mainly determined by the spatial organisation of heterog...
This study proposes a probabilistic approach for the quantitative assessment of reach- and network-s...
Hydrologic connectivity is the linkage of separate regions of a catchment via water flow. Knowledge ...
Major advances continue to be made in development and application of the connectivity concept as a f...
Impact of connectivity on contaminant transport Here we investigate the impact of different types o...
This tarball contains the processed datasets used for the analysis of the process networks. It also ...
Hydrological connectivity describes the physical coupling (linkages) of different elements within a ...
In porous aquifers, groundwater flow and solute transport strongly depend on the sedimentary facies ...
The term ‘connectivity’ is increasingly being applied in hydrological and geomorphological studies. ...
Although connectivity is acknowledged as a key factor of a catchment hydrological behaviour, it stil...
Hillslope-stream connectivity significantly affects streamflow and water quality responses during ra...
Connectivity has been a target of investigation for subsurface hydrology for decades. We apply seven...
CAST1.0 provides quantitative metrics of effective hydrological connectivity. CAST1.0 was developed ...
Abstract. Many spatial fields exhibit connectivity features that have an important influence on hydr...
Geostatistical simulation is used in risk analysis studies to incorporate the spatial uncertainty of...
The degree of hydrological connectivity is mainly determined by the spatial organisation of heterog...
This study proposes a probabilistic approach for the quantitative assessment of reach- and network-s...
Hydrologic connectivity is the linkage of separate regions of a catchment via water flow. Knowledge ...
Major advances continue to be made in development and application of the connectivity concept as a f...
Impact of connectivity on contaminant transport Here we investigate the impact of different types o...
This tarball contains the processed datasets used for the analysis of the process networks. It also ...
Hydrological connectivity describes the physical coupling (linkages) of different elements within a ...
In porous aquifers, groundwater flow and solute transport strongly depend on the sedimentary facies ...
The term ‘connectivity’ is increasingly being applied in hydrological and geomorphological studies. ...
Although connectivity is acknowledged as a key factor of a catchment hydrological behaviour, it stil...
Hillslope-stream connectivity significantly affects streamflow and water quality responses during ra...
Connectivity has been a target of investigation for subsurface hydrology for decades. We apply seven...
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