On the bottom of the leaves. This is because Stomata, the place in the leaf were gaseous exchanges of water and carbon dioxide occur, are more common in this part of the leaf compared to the top of the leaf. This is an adaption, because if plants had all of their stomata on the top of their leaves, excessive loss of water will be lost to the environment and cause dehydration of the plant and even potential death.
the stem of the plant
Through the stomata of the leaves.
stomata
the underside of the leaf loses water much faster
The stomata on the underside of the leaf regulate transpiration. The leaf surface area helps to estimate the number of stomata, which could speed up or slow the rate of transpiration.
Transpiration
Photosynthesis, gaseous exchange and transpiration
transpiration
the underside of the leaf loses water much faster
The stomata on the underside of the leaf regulate transpiration. The leaf surface area helps to estimate the number of stomata, which could speed up or slow the rate of transpiration.
This phenomenon is called transpiration.
Water is released by the leaf through transpiration.
No, roots do not transpire. Most transpiration occurs in the stems and the leaves of plants. The bigger the leaf, the more moisture will transpire from the plant.
To minimize the rate of transpiration from leaf surface
Compare the rate of transpiration from two surfaces of leaf and give reasons?"
transpiration
Transpiration
Transpiration.
Evaporation of water through stomata or cuticle of leaf epidermis is called transpiration.
transpiration