What is the Difference Between Plasmolysis and Turgidity?
🆚 Go to Comparative Table 🆚Plasmolysis and turgidity are two different processes that occur in plant cells due to water movement and osmosis. Here are the main differences between them:
- Plasmolysis: This is a process that occurs in cells when placed in a hypertonic solution, meaning a solution with a higher solute concentration. In this case, water molecules move from the cell to the outside solution, causing the cell's protoplasm to detach from the cell wall and shrink in volume. Plasmolysis can be reversed by adding hypotonic solutions or plain water.
- Turgidity: Turgidity refers to the force in cells that pushes fluid against the cell wall, helping the plant stay rigid and upright. This process is important for maintaining plant rigidity and keeping them upright. Turgidity is lost when plants wilt.
In summary, plasmolysis causes the plant to lose water and collapse, while turgidity helps the plant stand up straight and maintain its rigidity. Both processes are related to water movement and osmosis in plant cells, but they have distinct outcomes and effects on the plant.
Comparative Table: Plasmolysis vs Turgidity
Here is a table comparing the differences between plasmolysis and turgidity:
Feature | Plasmolysis | Turgidity |
---|---|---|
Occurrence | Hypertonic solution | Hypotonic solution |
Turgor Pressure | Drops | Rises |
Plant Effect | Wilting | Rigidity and uprightness |
Both plasmolysis and turgidity are influenced by the osmotic movements of water due to the differing concentrations of solutes in the cell and its surrounding environment. Plasmolysis occurs when a plant cell is placed in a hypertonic solution, causing water to move from the cell to the outside solution, resulting in a decrease in protoplasm volume and the shrinkage of the cell. On the other hand, turgidity occurs when a plant cell is placed in a hypotonic solution, causing water to move into the cell, resulting in an increase in protoplasm volume and the swelling of the cell.
- Plasmolysis vs Deplasmolysis
- Plasmolysis vs Cytolysis
- Osmosis vs Plasmolysis
- Crenation vs Plasmolysis
- Plasmolysis vs Hemolysis
- Turgor Pressure vs Wall Pressure
- Protoplast vs Protoplasm
- Hypotonic vs Hypertonic
- Protoplasts vs Spheroplasts
- Tonicity vs Osmolarity
- Thixotropic vs Pseudoplastic
- Tonoplast vs Plasma Membrane
- Isotonic vs Isosmotic
- Hyaloplasm vs Cytosol
- Plasma vs Tissue Fluid
- Cytoplasm vs Protoplasm
- Isotonic vs Hypertonic
- Hydration vs Hydrolysis
- Plasticity vs elasticity