Add to ORKGRoot density, soil hydraulic functions, and hydraulic head gradients play an important role in the determination of transpiration-rate-limiting soil water contents. We developed an implicit numerical root water extraction model to solve the Richards equation for the modeling of radial root water extraction. The average soil water content at the moment root water potential dropped below a defined critical value was then estimated. The dependence of average water content at the onset of plant water stress on potential transpiration and root density was compared with an analytical solution for hydraulic conditions in the root sphere. The critical value was a function of potential transpiration rate, soil hydraulic properties, and root density....
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
In a context of increasing needs for food production and limited availability of freshwater for irri...
Six different reduction functions for combined water and salinity stress are used in the macroscopic...
Root density, soil hydraulic functions, and hydraulic head gradients play an important role in the d...
Crop transpiration depends on resistances in the soil–plant–atmosphere system. We present a new dete...
Using a numerical implicit model for root water extraction by a single root in a symmetric radial fl...
Using a numerical implicit model for root water extraction by a single root in a symmetric radial fl...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Despite most macroscopic models for root water uptake considering root length density (RLD) to descr...
Assuming transpiration to be reduced after a critical pressure head (usually chosen as −1.5 MPa or −...
In the framework of simplified water balance models devoted to irrigation scheduling or crop modelli...
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...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
In a context of increasing needs for food production and limited availability of freshwater for irri...
Six different reduction functions for combined water and salinity stress are used in the macroscopic...
Root density, soil hydraulic functions, and hydraulic head gradients play an important role in the d...
Crop transpiration depends on resistances in the soil–plant–atmosphere system. We present a new dete...
Using a numerical implicit model for root water extraction by a single root in a symmetric radial fl...
Using a numerical implicit model for root water extraction by a single root in a symmetric radial fl...
Plant root system can be conceptualized as a network of water saturated porous pipes, at the interfa...
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this ...
Despite most macroscopic models for root water uptake considering root length density (RLD) to descr...
Assuming transpiration to be reduced after a critical pressure head (usually chosen as −1.5 MPa or −...
In the framework of simplified water balance models devoted to irrigation scheduling or crop modelli...
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...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
In a context of increasing needs for food production and limited availability of freshwater for irri...
Six different reduction functions for combined water and salinity stress are used in the macroscopic...