Add to ORKGSap hydrodynamics in vascular cells of trees seems to be controlled by small membranes called pits. Understanding how the pit junctions regulate the sap flow and stop embolism by cavitation is today a challenging issue. The hypothesis that the pit porosity adjusts the flow under negative pressure and stops the air bubble diffusion need to be validated. In this talk, we will present the experimental results on Populus trees that support the idea that pits operate ‘passively’ in a biological point of view. This work is based on atomic force microscope (AFM) experiments, which have been realised to measure quantitatively the mechanical properties of pits at the nanoscale
The effect of increasing pressure difference (DP) on intervessel pit membrane porosity was studied i...
16 pages 1 figure New modern concept of the sap ascent in high trees takes the disjoining pressure i...
Interconduit pit membranes represent porous media for water transport between neighbouring conduits....
Sap hydrodynamics in vascular cells of trees seems to be controlled by small membranes called pits. ...
Sap hydrodynamics in vascular cells of trees seems to be controlled by small membranes called pits. ...
The xylem vessels of trees constitute a model natural microfluidic system. In this work, we have stu...
The xylem vessels of trees constitute a model natural microfluidic system. In this work, we have stu...
Background and Aims Various correlations have been identified between anatomical features of bordere...
Les arbres irriguent leurs organes par un système microfluidique complexe qui permet le transfert d’...
A theoretical treatment of some of the factors influencing air seeding at the pit membranes of xylem...
The effect of increasing pressure difference (ΔP) on intervessel pit membrane porosity was studied i...
Journal ArticleA model of xylem conduit function was applied to gymnosperm tracheids with torus-marg...
Bordered pits are cavities in the lignified cell walls of xylem conduits (vessels and tracheids) tha...
The effect of increasing pressure difference (DP) on intervessel pit membrane porosity was studied i...
16 pages 1 figure New modern concept of the sap ascent in high trees takes the disjoining pressure i...
Interconduit pit membranes represent porous media for water transport between neighbouring conduits....
Sap hydrodynamics in vascular cells of trees seems to be controlled by small membranes called pits. ...
Sap hydrodynamics in vascular cells of trees seems to be controlled by small membranes called pits. ...
The xylem vessels of trees constitute a model natural microfluidic system. In this work, we have stu...
The xylem vessels of trees constitute a model natural microfluidic system. In this work, we have stu...
Background and Aims Various correlations have been identified between anatomical features of bordere...
Les arbres irriguent leurs organes par un système microfluidique complexe qui permet le transfert d’...
A theoretical treatment of some of the factors influencing air seeding at the pit membranes of xylem...
The effect of increasing pressure difference (ΔP) on intervessel pit membrane porosity was studied i...
Journal ArticleA model of xylem conduit function was applied to gymnosperm tracheids with torus-marg...
Bordered pits are cavities in the lignified cell walls of xylem conduits (vessels and tracheids) tha...
The effect of increasing pressure difference (DP) on intervessel pit membrane porosity was studied i...
16 pages 1 figure New modern concept of the sap ascent in high trees takes the disjoining pressure i...
Interconduit pit membranes represent porous media for water transport between neighbouring conduits....