As the direct uptake of deep groundwater by vegetation may be essential in semiarid regions, we incorporated this process in stochastic root zone water balance models. The direct water uptake by vegetation via deep tap roots is simulated using one additional empirical parameter. This is considered for the case of feedback with root zone saturation and without such feedback. The model that accounts for feedback between shallow root zone saturation and groundwater uptake by deep roots takes up less water if the shallow root zone is wet. The behavior of the models demonstrates that for certain combinations of climate and groundwater depths this feedback becomes important in determining differences in total evapotranspiration (ET). This feedbac...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
The leaves and stems of forest canopies intercept and redistribute precipitation in space. Many inve...
As the direct uptake of deep groundwater by vegetation may be essential in semiarid regions, we inco...
In recent ecohydrological modelling, a common basis has been found in methodology and axiomas, such ...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
Groundwater uptake can play a major role in the survival of vegetation in semiarid areas, but this h...
The objective of this thesis is to study and model the influence of climate and soil on the dynamics...
The depth of the root zone affects and is affected by the dynamics of water in the shallow subsurfac...
We develop and compare two hydraulically-based schemes of the xylem structure of an individual plant...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but u...
The main processes determining soil moisture dynamics are infiltration, percolation, evaporation and...
The amount of moisture transpired by vegetation is critically tied to the moisture supply accessible...
Soil water distribution is intrinsically heterogeneous due to the time and space variability of soil...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
The leaves and stems of forest canopies intercept and redistribute precipitation in space. Many inve...
As the direct uptake of deep groundwater by vegetation may be essential in semiarid regions, we inco...
In recent ecohydrological modelling, a common basis has been found in methodology and axiomas, such ...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
Groundwater uptake can play a major role in the survival of vegetation in semiarid areas, but this h...
The objective of this thesis is to study and model the influence of climate and soil on the dynamics...
The depth of the root zone affects and is affected by the dynamics of water in the shallow subsurfac...
We develop and compare two hydraulically-based schemes of the xylem structure of an individual plant...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but u...
The main processes determining soil moisture dynamics are infiltration, percolation, evaporation and...
The amount of moisture transpired by vegetation is critically tied to the moisture supply accessible...
Soil water distribution is intrinsically heterogeneous due to the time and space variability of soil...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
The leaves and stems of forest canopies intercept and redistribute precipitation in space. Many inve...