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Plants are no different, they also have to get rid of the excess water from their body.

Like all other life processes (eating, digestion, growth, etc.) excretion is also an important life process. Plants are no different, they also have to get rid of the excess water from their body. Roots in plants absorb water from the ground which is transported to all the plant parts for various activities like preparing food, growth, and metabolism. But all the water that roots absorb is not used up by the plants. The excess water absorbed by the roots is eliminated from the plant body by the process of transpiration. Thus, transpiration can be defined as the process by which the plant body releases water in the form of vapors through its aerial parts. Transpiration also refers to the evaporation of water from the plant part. It is an important process in plants that facilitates other processes and keeps a balance of water and nutrients. It has various advantages for the plant body, which we will follow in detail.

Absorption of water and transpiration is a cyclic process. Roots absorb water from the soil in order to transport it to the plant parts for photosynthesis. The upward movement of water against the gravitational pull is caused by the transpiration pull. Two types of forces, cohesive and adhesive force work together to bring about this upward pull. During the gaseous exchange or from barks, stems, or other parts through pores, the excess water absorbed by roots and which remain unused is lost to the atmosphere in the form of water vapors.

Transpiration in plants occurs only by three special structures. Depending upon the means by which transpiration is taking place it is divided into three types.

Stomatal transpiration is one form of foliar transpiration. When transpiration takes place through leaves, it is foliar transpiration. Plants leaves have microscopic openings on the epidermis which are meant for gaseous exchange and transpiration. These openings are stomata. In Stomatal transpiration, water in the surface of the leaves is evaporated into the atmosphere when the stomatal opening opens. The stomatal opening opens when light falls on it. Stomatal transpiration accounts for 85%- 90% of the total water loss in plants.

As the name suggests the type of transpiration that takes place through cuticles is cuticular transpiration. This is also a kind of foliar transpiration. Cuticles are waxy covering on the epidermis of the leaves. The cuticular layer is impermeable to water and permeable to water vapor. Hence, water in the form of vapor is lost through this layer. Cuticular transpiration occurs in plants with a thick cuticle layer and a lesser number of stomata. It also occurs in plants when the stomatal opening does not open under certain conditions. Cuticular transpiration accounts for around 5%- 10% of the total water loss.

Lenticular transpiration refers to water loss in the form of vapors through the lenticels of the plant. Lenticels are a porous tissue found on the barks of woody stems and roots of dicots. The pores in the tissue act as a pathway for gaseous exchange and transpiration. Water loss by lenticular transpiration is very less.

The surface of mesophyll cells in leaves release a thin layer of water. This thin water layer then evaporates. The water vapor formed after evaporation saturates in the intracellular spaces, then diffuses into the connecting intracellular spaces, and finally reaches the sub stomal space. When the stomata open for gaseous exchange, it evaporates from these openings. Also, the cell sap of cells in leaves exert pressure on the outward of the cell wall. This pressure forces some water out of the cell wall into the intracellular space. This water also evaporates and the water vapors diffuse into the sub stomal space, which finally diffuses out by stomata. Too much of transpiration may lead to dehydration and damage to the plant. Hence stomata are provided with guard cells that regulate the entire process. When water enters the guard cells, they swell and open and when the water leaves the stomata they relax and close.

The amount of water lost by plants over a period of time refers to the rate of transpiration. Transpiration rate is affected by a series of environmental and other morphological factors.

Rate of transpiration greatly depends on environmental factors such as:

Stomata only open in the presence of light. Therefore, during the daytime, the transpiration is maximum and at night it is less.

Relative humidity means the amount of water vapor present in the atmosphere expressed as a percentage of the number of water vapors needed for saturation at that same temperature. The relative humidity of the atmosphere is inversely proportional to the rate of transpiration.

High temperature decreases relative humidity, which forces the stomata to open even in the dark, thus increasing the rate of transpiration.

Still, air lowers the rate of transpiration. In such atmospheric conditions, water vapors accumulate around the transpiring organs and reduce the rate of diffusion.

During scarcity of water, roots absorb less water from the soil. This results in the closing of the stomata and even wilting. Thus, decreasing the transpiration rate.

Although transpiration is an unavoidable phenomenon that takes place during the gaseous exchange in plants, it’s necessary and has its own set of benefits for the plant. Transpiration pull creates a pressure gradient that helps draw water and minerals up to the plant body from the roots.

Transpiration is the loss of water in the form of vapor through pores present in the plant body. The water absorbed by roots is in excess quantity which the plant body doesn’t use completely. For good health and cellular growth, the water needs to be excreted out. The process by which this water leaves the plant body is called transpiration.

Transpiration is of three types, based on the mode of water loss. Namely, stomatal transpiration- when it occurs through the stomata. Maximum transpiration is done by stomata in plants, cuticular transpiration- where water loss is through the waxy layer called cuticles in plants, and lenticular transpiration occurring through the lenticels of the plants.

Various environmental factors, such as the presence of light, relative humidity, temperature, wind speed, availability of water, and cellular factors like the orientation of leaves, number of stomata, cuticles, and lenticels affect transpiration.

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