What is the Difference Between Root Pressure and Transpiration Pull?
🆚 Go to Comparative Table 🆚The main difference between root pressure and transpiration pull lies in their roles in water movement within plants and how they affect water potential.
Root Pressure:
- Develops in the root xylem due to the osmotic pressure in the root cells.
- Results from the uptake of water and dissolved minerals from the soil by the root hair cells.
- Causes water to be pushed upwards in the plant.
- Is more prominent in small plants, contributing to the water flow from roots to leaves.
- Is highest in the morning before the stomata open.
Transpiration Pull:
- Develops in the leaves due to the evaporation of water and the resulting negative water vapor pressure in the cells.
- Responsible for the transport of most of the water from the roots to the rest of the plant.
- Causes water to be pulled upwards in the plant.
- Is more prominent in taller plants, contributing to the water flow from roots to leaves.
- Is high during the day when the stomata are open for photosynthesis.
In summary, root pressure is the force that pushes water up from the roots, while transpiration pull is the force that pulls water up from the leaves due to evaporation. Both forces contribute to the upward movement of water in plants, but their effects vary depending on the size and type of plant.
On this pageWhat is the Difference Between Root Pressure and Transpiration Pull? Comparative Table: Root Pressure vs Transpiration Pull
Comparative Table: Root Pressure vs Transpiration Pull
Here is a table comparing root pressure and transpiration pull:
Feature | Root Pressure | Transpiration Pull |
---|---|---|
Definition | Root pressure is the osmotic pressure that develops in the root cells due to the movement of water from the soil to the root cells. | Transpiration pull is the force that develops in the top of the plants due to the evaporation of water from the aerial parts, which results in the movement of water and minerals from the roots to the leaves. |
Role | Partially responsible for the rise of water in plants. | The main contributor to the movement of water and mineral nutrients upward in vascular plants. |
Occurrence | High in the morning before stomata are open. | Occurs during the day when transpiration is high. |
Importance | More important in small plants at times when transpiration is not substantial, e.g., at nights. | Lesser force compared to transpiration pull, but still plays a role in the movement of water in plants. |
Both root pressure and transpiration pull are forces that cause water and minerals to rise through vascular plants, but they operate at different times and have different roles.
Read more:
- Capillary Action vs Transpiration Pull
- Guttation vs Transpiration
- Stomatal Conductance vs Transpiration
- Evaporation vs Transpiration
- Turgor Pressure vs Wall Pressure
- Transpiration vs Sweating
- Pressure vs Flow
- Actual Evapotranspiration vs Potential Evapotranspiration
- Stomatal Lenticular vs Cuticular Transpiration
- Stem vs Root
- Force vs Pressure
- Hydrostatic Pressure vs Osmotic Pressure
- Vapor Pressure vs Partial Pressure
- Air Pressure vs Liquid Pressure
- Vacuum Pressure vs Vapour Pressure
- Infiltration Rate vs Percolation Rate
- Thrust vs Pressure
- Low Pressure vs High Pressure
- Phototropism vs Geotropism