it doesnt or it does
It would increase transpiration and wilting .
Since wax is impervious to water, the cuticle made of wax checks cuticular transpiration
The wax cuticle covers the upper epidermis. The main task of the cuticle is to activate cuticular transpiration in a plant. Sometimes a very shiny cuticle may be present in a plant to minimize transpiration of the plant. It basically reflects back sunlight. These are the two main functions.
The thick waxy cuticle on the epidermis of plants helps prevent water loss by creating a barrier that reduces transpiration. It also provides protection against harmful UV radiation, pathogens, and insects. Additionally, the cuticle can help reduce mechanical damage to the plant's surface.
The types of transpiration in plants include cuticular transpiration, stomatal transpiration, and lenticular transpiration. Cuticular transpiration occurs through the waxy cuticle on leaves, stems, and fruits. Stomatal transpiration happens through specialized pores called stomata on the leaf surface. Lenticular transpiration occurs through lenticels, which are small openings on woody stems and roots.
Thick cuticle limits transpiration.
It would increase transpiration and wilting .
cuticular transpiration occurs through the cuticle while the stomatal transpiration occurs through the stomata.
Since wax is impervious to water, the cuticle made of wax checks cuticular transpiration
The wax cuticle covers the upper epidermis. The main task of the cuticle is to activate cuticular transpiration in a plant. Sometimes a very shiny cuticle may be present in a plant to minimize transpiration of the plant. It basically reflects back sunlight. These are the two main functions.
hydrophytes do not have cuticle on stem or leave because they do not have any problem in obtaining water and cuticle is a water covering layer. Hence why they excrete out extra water by transpiration.
The thick waxy cuticle on the epidermis of plants helps prevent water loss by creating a barrier that reduces transpiration. It also provides protection against harmful UV radiation, pathogens, and insects. Additionally, the cuticle can help reduce mechanical damage to the plant's surface.
The waxy cuticle of a plant helps to prevent water loss through evaporation and provides protection against pests, pathogens, and environmental stressors. It also helps to reflect excess sunlight to prevent damage to the plant tissues.
The types of transpiration in plants include cuticular transpiration, stomatal transpiration, and lenticular transpiration. Cuticular transpiration occurs through the waxy cuticle on leaves, stems, and fruits. Stomatal transpiration happens through specialized pores called stomata on the leaf surface. Lenticular transpiration occurs through lenticels, which are small openings on woody stems and roots.
High humidity reduces the rate of transpiration.
The pH value of a product can affect the hair cuticle by either opening or closing the cuticle scales. A lower pH (acidic) can help close the cuticle, making the hair smoother and shinier. In contrast, a higher pH (alkaline) can lift the cuticle, which may lead to damage and frizz.
The sun have a great affect on the waxy cuticle of the leaves.