International audienceWe developed a mathematical model to better understand how water enters into the roots segments and how those flows are integrated within a complete architecture. As a functional/structural Plant Model (FSPM), it combines the architecture and the hydraulic conductivities in plants. The originality of our approach is the tight relation between modeling and experimentation. In particular, we were able to unravel that, in Arabidopsis, the xylem vessels are a limiting factor. Genetic evidences also showed that all components of water transport interplay with each other
Multi-scale modeling of water transport in plant roots. GDR PhyP - Biophysique et biomécanique des p...
International audienceRoot water uptake is driven by a combination of hydrostatic and osmotic forces...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
International audienceWe developed a mathematical model to better understand how water enters into t...
International audienceWater uptake by roots is a key adaptation of plants to aerial life. Water upta...
International audienceWater transport in plant roots is of vital importance: it is a necessary trans...
<p><strong>Water relations in the soil-plant system: what can we learn from functional-structural pl...
As water often limits crop production, a more complete understanding of plant water capture and tran...
International audienceAbstract Background Root water transport, which critically contributes to the ...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with uni...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with un...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with uni...
Guttation is the exudation of xylem sap from vascular plant leaves. This process is particularly int...
Mathematical models of the plant root growth zone already exist, but there is a lack of experimental...
Multi-scale modeling of water transport in plant roots. GDR PhyP - Biophysique et biomécanique des p...
International audienceRoot water uptake is driven by a combination of hydrostatic and osmotic forces...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
International audienceWe developed a mathematical model to better understand how water enters into t...
International audienceWater uptake by roots is a key adaptation of plants to aerial life. Water upta...
International audienceWater transport in plant roots is of vital importance: it is a necessary trans...
<p><strong>Water relations in the soil-plant system: what can we learn from functional-structural pl...
As water often limits crop production, a more complete understanding of plant water capture and tran...
International audienceAbstract Background Root water transport, which critically contributes to the ...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with uni...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with un...
In 1978, Landsberg and Fowkes presented a solution of the water flow equation inside a root with uni...
Guttation is the exudation of xylem sap from vascular plant leaves. This process is particularly int...
Mathematical models of the plant root growth zone already exist, but there is a lack of experimental...
Multi-scale modeling of water transport in plant roots. GDR PhyP - Biophysique et biomécanique des p...
International audienceRoot water uptake is driven by a combination of hydrostatic and osmotic forces...
Due in part to recent progress in root genetics and genomics, increasing attention is being devoted ...
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