Osmosis in Living Systems
Osmosis is physical process during which the solvent moves from a region of higher concentration to a region of lower concentration across a semi-permeable or a selectively permeable membrane. This process does not require the input of energy.
When two solutions having a difference in their concentrations are separated by a semi-permeable membrane, the net movement of the solvent takes place from a hypotonic solution (less-concentrated due to lesser amount of salt) to a hypertonic solution (more concentrated due to higher amount of salt). This process of osmosis tries to reduce the concentration gradient between the two solutions.
Osmosis is physical process during which the solvent moves from a region of higher concentration to a region of lower concentration across a semi-permeable or a selectively permeable membrane. This process does not require the input of energy.
When two solutions having a difference in their concentrations are separated by a semi-permeable membrane, the net movement of the solvent takes place from a hypotonic solution (less-concentrated due to lesser amount of salt) to a hypertonic solution (more concentrated due to higher amount of salt). This process of osmosis tries to reduce the concentration gradient between the two solutions.
Osmotic Pressure
- The pressure that is required to maintain a state of dynamic equilibrium between the two solutions is known as osmotic pressure. At this stage of dynamic equilibrium there is no net movement of solvent across the membrane.
- The solute concentration determines the osmotic pressure or the pressure that is required to prevent the diffusion of solvent across the membrane.
- Numerically osmotic pressure equals the osmotic potential or the solute potential with the only difference that osmotic pressure is the positive pressure applied whereas osmotic potential is the negative pressure.
Effect of osmosis in plant cell
- Hypotonic condition – When a plant cell is placed in a solution containing lower amount of solute and a higher concentration of water the cell swells up due to the movement of water into the cell. The cell becomes turgid and the rigid cell wall tries to hold this excess amount of water.
- Isotonic condition – When the plant cell is placed in a solution of similar concentration, water moves across the cell membrane in both the directions. The net movement of water is zero with no change in the cell size.
- Hypertonic solution – When the plant cell is placed in a solution containing higher amount of solute and a lower concentration of water the cell shrinks as greater amount of water leaves the cell. The vacuole shrinks and the cytoplasm gets peeled off from the cell wall. Such cell is known as plasmolysed cell.