Figure it out your self you helpless loser. Asking someone else to do it for you is wrong. Can't you do your own work or pay attention when the teacher/ professor is going over it.
The exiting of water through stomata of leaves is known as transpiration. Stomata are small pores on the surface of leaves that allow the exchange of gases. During transpiration, water evaporates from the leaf surface, creating a gradient that causes water to move from the roots, through the plant, and ultimately exit through the stomata. This process plays a crucial role in the movement of water and nutrients throughout the plant.
Cohesion
When transpiration does not take place, plants are not able to release excess water through their leaves. This can lead to an accumulation of water in the plant, potentially causing wilting, root damage, and even death. Additionally, transpiration plays a key role in plant cooling and nutrient uptake, so the lack of transpiration can disrupt these processes as well.
Transpiration is vital for plants as it helps in the absorption and transportation of water and nutrients from the roots to other parts of the plant. It also aids in cooling the plant and maintaining its temperature, as well as maintaining turgidity in cells, which is necessary for structural support. Additionally, transpiration plays a role in the movement of water through the soil and the regulation of mineral uptake by roots.
The transpiration-cohesion-tension mechanism
The exiting of water through stomata of leaves is known as transpiration. Stomata are small pores on the surface of leaves that allow the exchange of gases. During transpiration, water evaporates from the leaf surface, creating a gradient that causes water to move from the roots, through the plant, and ultimately exit through the stomata. This process plays a crucial role in the movement of water and nutrients throughout the plant.
A cactus has a fleshy stem and has no leaves. Leaves are the parts of any plant which plays a role in transpiration, i.e., leaves transpire. The excess water is therefore lost to the environment from the leaves. In a cactus, the leaves are modified into thorns. So, there is no such transpiration. There is loss of excess water. Water is therefore retained which can be used by the plant any time. Thus, the extremely hot climate doesn't affect it.
Cohesion
When transpiration does not take place, plants are not able to release excess water through their leaves. This can lead to an accumulation of water in the plant, potentially causing wilting, root damage, and even death. Additionally, transpiration plays a key role in plant cooling and nutrient uptake, so the lack of transpiration can disrupt these processes as well.
Transpiration helps plants regulate their temperature by releasing excess water through their leaves. It also aids in nutrient uptake from the soil and helps maintain the plant's shape and structure by creating a negative pressure that pulls water and nutrients through the plant. Additionally, transpiration plays a role in the water cycle by returning water vapor to the atmosphere.
Transpiration is vital for plants as it helps in the absorption and transportation of water and nutrients from the roots to other parts of the plant. It also aids in cooling the plant and maintaining its temperature, as well as maintaining turgidity in cells, which is necessary for structural support. Additionally, transpiration plays a role in the movement of water through the soil and the regulation of mineral uptake by roots.
The transpiration-cohesion-tension mechanism
Coz movement is good
All but one factor plays a part in water movement in and out of the cell. That is
Plants in different environments makes changes in its structure when it starts growing. These are adaptations. For example Cactus are made up of a fleshy leaves with no leaves except for thorns which plays an important role in reducing water through evaporation (transpiration). Pine trees as we know are conical and its leaves are needle-shaped so as to reduce water loss. Under various changes, their normal disposition changes. Their structure changes for the worse.
The song is called "Mahalageasca".
It plays a part in locomotion (movement) of animals and humans