Increasing surface area via capillary action
The stomata are structures on a leaf that relate to both photosynthesis and transpiration. The stomata facilitate gas exchange so the carbon dioxide can enter and the oxygen can leave. However, water vapor can also leave through a process called transpiration.
This phenomenon is called transpiration.
Water is released by the leaf through transpiration.
To minimize the rate of transpiration from leaf surface
Transpiration.
The stomata are structures on a leaf that relate to both photosynthesis and transpiration. The stomata facilitate gas exchange so the carbon dioxide can enter and the oxygen can leave. However, water vapor can also leave through a process called transpiration.
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.
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
Transpiration