A detailed representation of plant hydraulic traits and stomatal closure in land surface models (LSMs) is a prerequisite for improved predictions of ecosystem drought response. This work presents the integration of a macroscopic root water uptake (RWU) model based on the hydraulic architecture approach in the LSM of the Terrestrial Systems Modeling Platform. The novel RWU approach is based on three parameters derived from first principles that describe the root system equivalent conductance, the compensatory RWU conductance, and the leaf water potential at stomatal closure, which defines the water stress condition for the plants. The developed RWU model intrinsically accounts for changes in the root density as well as for the simulation of ...
Plant water uptake from soil is an important component of terrestrial water cycle with strong links ...
We compared four root water uptake (RWU) models of different complexity that are all embedded in gre...
Modeling root water uptake in hydrological models remains challenging given the scale gap between th...
A detailed representation of plant hydraulic traits and stomatal closure in land surface models (LSM...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
Stomatal regulation and whole plant hydraulic signaling affect water fluxes and stress in plants. La...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
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...
The spatiotemporal distribution of root water uptake (RWU) depends on the dynamics of the root distr...
In a context of increasing needs for food production and limited availability of freshwater for irri...
AbstractAccurate estimates of how soil water stress affects plant transpiration are crucial for reli...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
The objective of our study was to determine to what extent four root water uptake (RWU) models diffe...
Plant water uptake from soil is an important component of terrestrial water cycle with strong links ...
We compared four root water uptake (RWU) models of different complexity that are all embedded in gre...
Modeling root water uptake in hydrological models remains challenging given the scale gap between th...
A detailed representation of plant hydraulic traits and stomatal closure in land surface models (LSM...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
Stomatal regulation and whole plant hydraulic signaling affect water fluxes and stress in plants. La...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
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...
The spatiotemporal distribution of root water uptake (RWU) depends on the dynamics of the root distr...
In a context of increasing needs for food production and limited availability of freshwater for irri...
AbstractAccurate estimates of how soil water stress affects plant transpiration are crucial for reli...
Root water uptake by plants mediates the exchange of water, carbon and energy between land surface a...
The objective of our study was to determine to what extent four root water uptake (RWU) models diffe...
Plant water uptake from soil is an important component of terrestrial water cycle with strong links ...
We compared four root water uptake (RWU) models of different complexity that are all embedded in gre...
Modeling root water uptake in hydrological models remains challenging given the scale gap between th...