What is the Difference Between Turgor Pressure and Wall Pressure?
🆚 Go to Comparative Table 🆚Turgor pressure and wall pressure are both important for plant growth and development. However, they have different roles and characteristics:
- Turgor Pressure: This is the force within the cell that pushes the plasma membrane against the cell wall. It is a result of water entering the cell, causing the cytoplasm to increase its volume due to endosmosis. Turgor pressure is essential for maintaining plant stems erect, keeping leaves expanded, and facilitating the opening and closing of stomata.
- Wall Pressure: This is the pressure exerted by the cell wall against the turgor pressure. Wall pressure is crucial for maintaining the structure of cells and the plant. The pressure is generated by the cell wall itself and is equal in force and opposite in direction to the turgor pressure.
In summary, turgor pressure acts on the cell wall, while the cell wall generates wall pressure. Both pressures are vital for plant growth and survival, with turgor pressure playing a role in various plant processes, while wall pressure helps maintain cell structure.
Comparative Table: Turgor Pressure vs Wall Pressure
Here is a table comparing turgor pressure and wall pressure:
| Feature | Turgor Pressure | Wall Pressure |
|---|---|---|
| Direction | Towards the outside of the cell | Towards the cell's interior |
| Origin | Exerted by the protoplasm on the cell wall | Imposed by the cell wall's resistance to turgor pressure |
| Function | Holds the plant upright, promotes leaf expansion through the closing and opening of stomata | Keeps the structure of the cells intact |
| Relationship | Equivalent to wall pressure at the condition called turgid | The magnitude of wall pressure is highly reliant on turgor pressure |
In summary, turgor pressure is the force that the cytoplasm exerts towards the cell wall due to endosmosis, while wall pressure is the pressure generated by the cell wall against the turgor pressure. Both turgor pressure and wall pressure are essential for a plant's growth, development, and survival.
- Hydrostatic Pressure vs Osmotic Pressure
- Pressure vs Flow
- Vacuum Pressure vs Vapour Pressure
- Air Pressure vs Liquid Pressure
- Root Pressure vs Transpiration Pull
- Plasmolysis vs Turgidity
- Vapor Pressure vs Partial Pressure
- Force vs Pressure
- Oncotic vs Hydrostatic Pressure
- Thrust vs Pressure
- Osmotic pressure vs Oncotic pressure
- Gauge Pressure vs Atmospheric Pressure
- Barometric Pressure vs Atmospheric Pressure
- Surface Tension vs Capillary Action
- Pressure of Solids vs Liquids
- Low Pressure vs High Pressure
- Surface Tension vs Interfacial Tension
- Absolute Pressure vs Gauge Pressure
- Water Potential vs Osmotic Potential