How stomata is helpful in photosynthesis?
Answers
Answer:
Stomata help in the gas exchange because of which the photosynthesis in plants takes place. Photosynthesis is the process in which the plants take in carbon dioxide and breathe out oxygen as a waste product. ... When the air temperature rises the stomata opens the pores to let carbon dioxide in.
Explanation:
Home
Search
Close
Search the site
Search here...
GO
Science, Tech, Math
Humanities
Languages
Resources
About Us
Contact Us
Editorial Guidelines
Privacy Policy
Ad
Science, Tech, Math › Science
What Is the Function of Plant Stomata?
Different types and how they open and close
Share
Illustration of the function of plant stomata
ThoughtCo / J.R. Bee
By Regina Bailey
Updated on August 15, 2019
Stomata are tiny openings or pores in plant tissue that allow for gas exchange. Stomata are typically found in plant leaves but can also be found in some stems. Specialized cells known as guard cells surround stomata and function to open and close stomatal pores. Stomata allow a plant to take in carbon dioxide, which is needed for photosynthesis. They also help to reduce water loss by closing when conditions are hot or dry. Stomata look like tiny mouths which open and close as they assist in transpiration.
Plants that reside on land typically have thousands of stomata on the surfaces of their leaves. The majority of stomata are located on the underside of plant leaves reducing their exposure to heat and air current. In aquatic plants, stomata are located on the upper surface of the leaves. A stoma (singular for stomata) is surrounded by two types of specialized plant cells that differ from other plant epidermal cells. These cells are called guard cells and subsidiary cells.
Guard cells are large crescent-shaped cells, two of which surround a stoma and are connected to at both ends. These cells enlarge and contract to open and close stomatal pores. Guard cells also contain chloroplasts, the light-capturing organelles in plants.
Subsidiary cells, also called accessory cells, surround and support guard cells. They act as a buffer between guard cells and epidermal cells, protecting epidermal cells against guard cell expansion. Subsidiary cells of different plant types exist in various shapes and sizes. They are also arranged differently with respect to their positioning around guard cells.
Types of Stomata
Stomata can be grouped into different types base on the number and characteristics of the surrounding subsidiary cells. Examples of different types of stomata include:
Anomocytic Stomata: Possess irregularly shaped cells, similar to epidermal cells, that surround each stoma.
Anisocytic Stomata: Features include an unequal number of subsidiary cells (three) surrounding each stoma. Two of these cells are significantly larger than the third.
Diacytic Stomata: Stomata are surrounded by two subsidiary cells that are perpendicular to each stoma.
Paracytic Stomata: Two subsidiary cells are arranged parallel to the guard cells and stomatal pore.
Gramineous Stomata: The guard cells are narrow in the middle and wider at the ends. The subsidiary cells are parallel to the guard cells.