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Guard cells contain specialized organelles called chloroplasts, which are responsible for photosynthesis. These chloroplasts enable guard cells to produce sugars and other molecules needed for energy. The surrounding epidermal cells, on the other hand, do not typically contain chloroplasts as they are not directly involved in photosynthesis.
chloroplasts?!
Guard cells, but mesophylls also have them
Chloroplasts are necessary for photosynthesis. This must in some way be necessary to operate the opening and closing of stoma. The neighboring epidermal cells do not have chloroplasts and do not require large amounts of energy from photosynthesis do to their simple job of being the "skin" of the leaf. These epidermal cells are fed by lower layers which do have chloroplasts.
Guard cells in the lower epidermis are the only cells with chloroplasts in a leaf because they play a crucial role in regulating gas exchange and water loss through the stomata. Chloroplasts allow guard cells to photosynthesize and produce sugars, which provide the energy needed for stomata opening and closing. This specialization ensures efficient control over transpiration and photosynthesis in leaves.
Guard cells contain specialized organelles called chloroplasts, which are responsible for photosynthesis. These chloroplasts enable guard cells to produce sugars and other molecules needed for energy. The surrounding epidermal cells, on the other hand, do not typically contain chloroplasts as they are not directly involved in photosynthesis.
Chloroplasts, mitochondria, nucleus
chloroplasts?!
Guard cells, but mesophylls also have them
Chloroplasts are necessary for photosynthesis. This must in some way be necessary to operate the opening and closing of stoma. The neighboring epidermal cells do not have chloroplasts and do not require large amounts of energy from photosynthesis do to their simple job of being the "skin" of the leaf. These epidermal cells are fed by lower layers which do have chloroplasts.
Guard cells in the lower epidermis are the only cells with chloroplasts in a leaf because they play a crucial role in regulating gas exchange and water loss through the stomata. Chloroplasts allow guard cells to photosynthesize and produce sugars, which provide the energy needed for stomata opening and closing. This specialization ensures efficient control over transpiration and photosynthesis in leaves.
The guard cells of stomata alone contains chloroplast.
Yes, chloroplasts are present in guard cells. Guard cells are specialized cells found in the epidermis of plant leaves and stems that regulate the opening and closing of stomata. Chloroplasts, which contain the green pigment chlorophyll, are responsible for photosynthesis and are necessary for the energy production needed for the opening and closing of stomata.
Goblet and RBC are animal cells.Guard cells have chloroplasts.
Guard cells , spongy mesophyll layer and upper epidemic
The stomata in the epidermis allow oxygen, carbon dioxide and water vapour to enter and leave the leaf. The guard cells also contain chloroplasts for photosynthesis.
Stomatal pores in plants regulate the amount of water and solutes within them by opening and closing their guard cells using osmotic pressure. Guard cells and adjacent subsidiary cells are involved in opening and closing of stomata.