Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulate plant root water uptake and transpiration should account for this spatial variation of root zone water content. In this contribution, we present a detailed mechanistic model that describes and couples water flow through the soil, to and through the plant root system and that resolves flow at the single root scale. The water potentials and water fluxes in the plant are determined by the soil water potentials, the architecture and hydraulic properties of the root system, and by the upper boundary conditions at the shoot or root collar, which could be either a prescribed transpiration flux or leaf water potential. In this concept, the soil-pla...
AimsStomata can close to avoid cavitation under decreased soil water availability. This closure can ...
Plants are continuously subject to changes in climate and soil conditions and their ability to promp...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe root w...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
In case of low soil water availability the main driver of transpiration reduction by plants is via s...
Aims: A simulation model to demonstrate that soil water potential can regulate transpiration, by inf...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
Water transport from soil to root, driven by the plant transpiration, is an important component of t...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Highlights: In response to non-uniformly distributed soil water, root water uptake and actual (whol...
Typescript (photocopy).A model of root water uptake is described and was tested experimentally. The ...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
AimsStomata can close to avoid cavitation under decreased soil water availability. This closure can ...
Plants are continuously subject to changes in climate and soil conditions and their ability to promp...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe root w...
Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...
In case of low soil water availability the main driver of transpiration reduction by plants is via s...
Aims: A simulation model to demonstrate that soil water potential can regulate transpiration, by inf...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe rootwa...
Simulations of plant water uptake in soil science are based on the interplay between soil and root p...
Water transport from soil to root, driven by the plant transpiration, is an important component of t...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Highlights: In response to non-uniformly distributed soil water, root water uptake and actual (whol...
Typescript (photocopy).A model of root water uptake is described and was tested experimentally. The ...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
How plant adapt their hydraulic conductance under heterogeneous and dynamics environment is a key tr...
AimsStomata can close to avoid cavitation under decreased soil water availability. This closure can ...
Plants are continuously subject to changes in climate and soil conditions and their ability to promp...
Background and Motivation: Hydrological models mainly rely on empirical functions to describe root w...