The significance of soil water redistribution facilitated by roots (an extension of hydraulic lift , here termed hydraulic redistribution) was assessed for a stand of Artemisia tridentata using measurements and a simulation model. The model incorporated water movement within the soil via unsaturated flow and hydraulic redistribution and soil water loss from transpiration. The model used Buckingham-Darcy\u27s law for unsaturated flow while hydraulic redistribution was developed as a function of the distribution of active roots, root conductance for water, and relative soil-root (rhizosphere) conductance for water. Simulations were conducted to compare model predictions with time courses of soil water potential at several depths, and to eval...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
The temporal patterns of soil water potential in a stand of Artemisia tridentata in central Utah, US...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Aims: A simulation model to demonstrate that soil water potential can regulate transpiration, by inf...
One of the adaptive strategies of vegetation, particularly in water limited ecosystems, is the devel...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Hydraulic redistribution is the passive movement of water via roots from regions of wetter soil to r...
A physically based model was developed to simulate changes in plant water use and soil water distrib...
Hydraulic redistribution, the movement of water from soil layers of higher water potential to layers...
Root water uptake (RWU) affects underground water dynamics, with consequences on plant water availab...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
The temporal patterns of soil water potential in a stand of Artemisia tridentata in central Utah, US...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Aims: A simulation model to demonstrate that soil water potential can regulate transpiration, by inf...
One of the adaptive strategies of vegetation, particularly in water limited ecosystems, is the devel...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
Hydraulic redistribution is the passive movement of water via roots from regions of wetter soil to r...
A physically based model was developed to simulate changes in plant water use and soil water distrib...
Hydraulic redistribution, the movement of water from soil layers of higher water potential to layers...
Root water uptake (RWU) affects underground water dynamics, with consequences on plant water availab...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
We studied water uptake variability at the plant scale using a three-dimensional detailed model. Spe...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...