Add to ORKGExperiments have shown that plants can compensate for water stress in the upper, more densely rooted, soil layers by increasing the water uptake from deeper layers. By adapting root water uptake to water availability, plants are able to extend the period of unstressed transpiration. This strategy conflicts with the approach in many land surface schemes, where plant water uptake is treated as a static process. Here we derive expressions for the typical drydown trajectories of evapotranspiration and soil moisture for both strategies. We show that the maximum difference in evapotranspiration between the two strategies during drydown can exceed 50%. This in turn leads to a difference in root zone soil moisture of up to 25%. The results stress t...
As plant roots take up water and the soil dries, water depletion is expected to occur in the vicinit...
Water uptake by plant roots is a main process controlling water balance in field profiles and vital ...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
Experiments have shown that plants can compensate for water stress in the upper, more densely rooted...
Experiments have shown that plants can compensate for water stress in the upper, more densely rooted...
Over the last decade, investigations on root water uptake have evolved toward a deeper integration o...
Over the last decade, investigations on root water uptake have evolved toward a deeper integration o...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
The flow of water between soil and plants follows the gradient in water potential and dépends on the...
The water deficit experienced by crops is a function of atmospheric water demand (vapor pressure def...
The flow of water between soil and plants follows the gradient in water potential and depends on the...
Soil drying is a limiting factor for crop production worldwide. Yet, it is not clear how soil drying...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
The plasticity of root water uptake determines the maintenance of transpiration during periods of wa...
As plant roots take up water and the soil dries, water depletion is expected to occur in the vicinit...
Water uptake by plant roots is a main process controlling water balance in field profiles and vital ...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
Experiments have shown that plants can compensate for water stress in the upper, more densely rooted...
Experiments have shown that plants can compensate for water stress in the upper, more densely rooted...
Over the last decade, investigations on root water uptake have evolved toward a deeper integration o...
Over the last decade, investigations on root water uptake have evolved toward a deeper integration o...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
The flow of water between soil and plants follows the gradient in water potential and dépends on the...
The water deficit experienced by crops is a function of atmospheric water demand (vapor pressure def...
The flow of water between soil and plants follows the gradient in water potential and depends on the...
Soil drying is a limiting factor for crop production worldwide. Yet, it is not clear how soil drying...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
The plasticity of root water uptake determines the maintenance of transpiration during periods of wa...
As plant roots take up water and the soil dries, water depletion is expected to occur in the vicinit...
Water uptake by plant roots is a main process controlling water balance in field profiles and vital ...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...