Simulations of plant water uptake in soil science are based on the interplay between soil and root properties, with an imposed flux or water potential at the stem base. The dialogue between roots and shoots is important in water uptake. The threshold soil water potential for water uptake represents the soil water potential at which stomatal control stops transpiration over 24 h. Measurements show that it has a large variability among species and cultivars. Isohydric plants prevent low leaf water potentials via stomatal control, so their threshold soil water potential is high. Anisohydric plants allow low leaf water potentials, resulting in lower thresholds. These behaviors have a genetic control and can be simulated via whole-plant models. ...
Soil drying is a limiting factor for crop production worldwide. Yet, it is not clear how soil drying...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
Roots are the primary sites of water uptake by plants. Roots also sense most of the physico-chemical...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
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 magnitude and distribution of root water uptake is controlled by the distribution of soil, rhizo...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
In case of low soil water availability the main driver of transpiration reduction by plants is via s...
Detailed three-dimensional models of root water uptake have become increasingly popular for investig...
A simulation model to demonstrate that soil water potential can regulate transpiration, by influenci...
Water uptake by plant roots is a complex mechanism controlled by biological and physical properties ...
Soil drying is a limiting factor for crop production worldwide. Yet, it is not clear how soil drying...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
Roots are the primary sites of water uptake by plants. Roots also sense most of the physico-chemical...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
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 magnitude and distribution of root water uptake is controlled by the distribution of soil, rhizo...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
In case of low soil water availability the main driver of transpiration reduction by plants is via s...
Detailed three-dimensional models of root water uptake have become increasingly popular for investig...
A simulation model to demonstrate that soil water potential can regulate transpiration, by influenci...
Water uptake by plant roots is a complex mechanism controlled by biological and physical properties ...
Soil drying is a limiting factor for crop production worldwide. Yet, it is not clear how soil drying...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
Roots are the primary sites of water uptake by plants. Roots also sense most of the physico-chemical...