Burkhard Stumpf scite author profile

Leaf dehydration decreases water potential and cell turgor pressure. Therefore, changes in cell turgor pressure may regulate water transport across plant cell membranes. Using a cell pressure probe, the hydraulic properties of parenchyma cells in the midrib of maize (Zea mays L.) leaves were measured (half time T1/2 of water exchange in cells as a measure of hydraulic conductivity Lp). Using intact plants with root systems encased in a pressure chamber, the root systems were pressurized and the turgor pressure in leaf cells increased by increments up to 0.3 MPa. However, the increase in the cell turgor did not increase but stabilized T1/2 values. Increased water potential in leaf cells seemed to have stabilizing effects on the T1/2 probably due to enhanced water availability. When the cell turgor decreased by 0.1 MPa to 0.3 MPa with releasing the pressure in the pressure chamber, T1/2 was temporarily increased to a large degree, a factor of up to 13 within 30 min.

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Burkhard Stumpf

Microbial oxidation of tricyclic sesquiterpenoids containing a dimethylcyclopropane ring

The Relationship between Turgor Pressure Change and Cell Hydraulics of Midrib Parenchyma Cells in the Leaves of Zea mays

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