The spatiotemporal distribution of root water uptake (RWU) depends on the dynamics of the root distribution and compensatory uptake from wetter regions in the root zone. This work aimed to parameterize three RWU models with different representations of compensation: the Feddes–Jarvis model that uses an empirical function, the Feddes model without compensation, and the Couvreur model that is based on a physical description of water flow in the soil–root system. These models were implemented in HYDRUS-1D, and soil hydraulic parameters were optimized by inverse modeling using soil water content and potential measurements and observations of root distributions of winter wheat ( L.) in horizontally installed rhizotubes. Soil moisture was equally...
In this paper, we present a stand alone root water uptake model called aRoot, which calculates the s...
Three macroscopic root water uptake models (Molz-Remson, Feddes, and Selim-Iskandar) have been widel...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
The spatiotemporal distribution of root water uptake (RWU) depends on the dynamics of the root distr...
How much water can be taken up by roots and how this depends on the root and water distributions in ...
Background and objectives: Root water uptake (RWU) is a key process in the root zone that determines...
© 2019 A detailed representation of plant hydraulic traits and stomatal closure in land surface mode...
Hydrological models featuring root water uptake usually do not include compensation mechanisms such ...
The objective of our study was to determine to what extent four root water uptake (RWU) models diffe...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
We compared four root water uptake (RWU) models of different complexity that are all embedded in gre...
International audienceMacroscopic empirical root water uptake (RWU) models are often used in hydrolo...
Crop transpiration depends on resistances in the soil–plant–atmosphere system. We present a new dete...
Despite most macroscopic models for root water uptake considering root length density (RLD) to descr...
A three-dimensional root length density distribution function is introduced that made it possible to...
In this paper, we present a stand alone root water uptake model called aRoot, which calculates the s...
Three macroscopic root water uptake models (Molz-Remson, Feddes, and Selim-Iskandar) have been widel...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...
The spatiotemporal distribution of root water uptake (RWU) depends on the dynamics of the root distr...
How much water can be taken up by roots and how this depends on the root and water distributions in ...
Background and objectives: Root water uptake (RWU) is a key process in the root zone that determines...
© 2019 A detailed representation of plant hydraulic traits and stomatal closure in land surface mode...
Hydrological models featuring root water uptake usually do not include compensation mechanisms such ...
The objective of our study was to determine to what extent four root water uptake (RWU) models diffe...
Many hydrological models including root water uptake (RWU) do not consider the dimension of root sys...
We compared four root water uptake (RWU) models of different complexity that are all embedded in gre...
International audienceMacroscopic empirical root water uptake (RWU) models are often used in hydrolo...
Crop transpiration depends on resistances in the soil–plant–atmosphere system. We present a new dete...
Despite most macroscopic models for root water uptake considering root length density (RLD) to descr...
A three-dimensional root length density distribution function is introduced that made it possible to...
In this paper, we present a stand alone root water uptake model called aRoot, which calculates the s...
Three macroscopic root water uptake models (Molz-Remson, Feddes, and Selim-Iskandar) have been widel...
Many hydrological models including the process of root water uptake (RWU) do not consider the dimens...