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It would dehydrate because it would transpire too much.
Stomata, which are holes in the epidermis of plants, allow for gas exchange and the passage or retention of water for the plant. Stomata enable respiration (gas exchange) in plants that provides for photosynthesis. Photosynthesis produces food for the plant from the transformation of oxygen from carbon dioxide, via the stomata as the pathway into the plant. Stomata also allows the passage of water into the plant (Transpiration), since the leaves are mostly covered by wax (the cuticle). Water can enter the vascular system, transporting nutrients and such to the rest of the plant. The stomata can also retain water in case of a shortage of water, like a drought, and prevent water loss, enabling the plant to survive longer.-Katydid2014Stomata are tiny holes on the bottom of a leaf. They open and close depending on the situations surrounding the plant. When the stomata are open, water is lost from the plant through evapotranspiration, which is when they evaporate from the surface of the leaf. The stomata close at a certain period of time in order to keep this water in. The stomata also open in order to let more carbon dioxide in, which is needed for photosynthesis. For example, if there is an increase in light around the plant, the stomata will open more often for photosynthesis, and will lose more water from the plant.
How does the ability to open and close the stomata aid in the suninal of he plant through different types of weather
Transpiration rates increase in a plant when the stomata are open. In desert plants, the stomata are very small but are almost always open. They have the highest transpiration rate.
Gaurd cells
It would dehydrate because it would transpire too much.
the stomata open
Stomata, which are holes in the epidermis of plants, allow for gas exchange and the passage or retention of water for the plant. Stomata enable respiration (gas exchange) in plants that provides for photosynthesis. Photosynthesis produces food for the plant from the transformation of oxygen from carbon dioxide, via the stomata as the pathway into the plant. Stomata also allows the passage of water into the plant (Transpiration), since the leaves are mostly covered by wax (the cuticle). Water can enter the vascular system, transporting nutrients and such to the rest of the plant. The stomata can also retain water in case of a shortage of water, like a drought, and prevent water loss, enabling the plant to survive longer.-Katydid2014Stomata are tiny holes on the bottom of a leaf. They open and close depending on the situations surrounding the plant. When the stomata are open, water is lost from the plant through evapotranspiration, which is when they evaporate from the surface of the leaf. The stomata close at a certain period of time in order to keep this water in. The stomata also open in order to let more carbon dioxide in, which is needed for photosynthesis. For example, if there is an increase in light around the plant, the stomata will open more often for photosynthesis, and will lose more water from the plant.
The plant is taking part in gas exchanges.
The Stomata is the small opening on the underside of the left that allows for the absorption of CO2. A plant can open and close the stomata to help cut down on moisture loss.
They shut because with the stomata open it is too drafty and the plant can't get to sleep.
How does the ability to open and close the stomata aid in the suninal of he plant through different types of weather
The guard cells of the stomata swell to form the stomatal pore
water
Transpiration rates increase in a plant when the stomata are open. In desert plants, the stomata are very small but are almost always open. They have the highest transpiration rate.
The Stomata is the small opening on the underside of the left that allows for the absorption of CO2. A plant can open and close the stomata to help cut down on moisture loss.
because of "transpiration" - the plant releases water vapor from the stomata, thus making underpressure in its vessels, thus the water gets sucked in to roots from the soil.