The research for a maximum stand density that maintains sustainable development is necessary in arid and semi-arid areas where the conflict between limited soil water storage and the need for more plants in improving environmental quality almost always exists. However, the quantification of the research is not easy since it requires insight interpretations of the effects of plant density on soil water storage and soil water stress on plant growth. Such quantification is incomplete with current empirical methods or physical models because the dynamics effects of soil water stress and its feedbacks are not included. This paper presents a physically based model of soil water carrying capacity for vegetation (SWCCV). The model build on the conc...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but u...
Water potential explains water transport in the Soil-Plant-Atmosphere Continuum (SPAC), and is gaini...
The conception of an area's carrying capacity has proven to be a useful concept at various scales ra...
Plant ecosystems in arid and semiarid climates show high complexity, since they depend on water avai...
BACKGROUND AND AIMS: Improved modelling of carbon assimilation and plant growth to low soil moisture...
Vegetation patterns, such as regular spots and bands, have been observed in arid and semiarid lands....
The main processes determining soil moisture dynamics are infiltration, percolation, evaporation and...
International audience• Background and Aims Improved modelling of carbon assimilation and plant grow...
International audienceThis paper investigates the impact of various vegetation types on water balanc...
Vegetation patterns have been observed in many arid zones around the world. This particular spontane...
This paper presents a model to predict optimum vegetation characteristics in water stressed conditio...
Vegetation restoration is helpful in preventing soil erosion but aggravates water scarcity, thus res...
Large-scale vegetation construction has generally led to soil desiccation in arid and semi-arid regi...
This paper addresses water uptake by roots as calculated in summary crop growth models for use at th...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but u...
Water potential explains water transport in the Soil-Plant-Atmosphere Continuum (SPAC), and is gaini...
The conception of an area's carrying capacity has proven to be a useful concept at various scales ra...
Plant ecosystems in arid and semiarid climates show high complexity, since they depend on water avai...
BACKGROUND AND AIMS: Improved modelling of carbon assimilation and plant growth to low soil moisture...
Vegetation patterns, such as regular spots and bands, have been observed in arid and semiarid lands....
The main processes determining soil moisture dynamics are infiltration, percolation, evaporation and...
International audience• Background and Aims Improved modelling of carbon assimilation and plant grow...
International audienceThis paper investigates the impact of various vegetation types on water balanc...
Vegetation patterns have been observed in many arid zones around the world. This particular spontane...
This paper presents a model to predict optimum vegetation characteristics in water stressed conditio...
Vegetation restoration is helpful in preventing soil erosion but aggravates water scarcity, thus res...
Large-scale vegetation construction has generally led to soil desiccation in arid and semi-arid regi...
This paper addresses water uptake by roots as calculated in summary crop growth models for use at th...
Modeling stomatal response to soil drying is of crucial importance for estimating transpiration flux...
Vegetation growth models often concentrate on the interaction of vegetation with soil moisture but u...
Water potential explains water transport in the Soil-Plant-Atmosphere Continuum (SPAC), and is gaini...