The function of bulliform cells in monocot leaves is:
Photosynthesis
Transpiration
Rolling and unrolling of leaves
Storage of water
Related Questions
Abaxial surface of the leaf generally bears
Less stomata than adaxial epidermis
More stomata than adaxial epidermis
Equal stomata than adaxial epidermis
Hairs to absorb the minerals
The surface area of leaves in monocotyledon plant can be regulated by the help of
Mesophyll cells
Parenchymatous cell
Bulliform cells
Guard cell
Which of the following features is NOT directly associated with the parallel venation pattern observed in monocot leaves?
Uniform distribution of vascular bundles throughout the leaf blade
Structural support provided by interconnected veins
Efficient water transport to all parts of the leaf
Enhanced transport of photosynthates via companion cells
In a monocot leaf, the bulliform cells are primarily responsible for which of the following adaptations?
Increasing the surface area for photosynthesis
Providing structural support to the leaf blade
Storing water for use during drought conditions
Rolling of the leaf during water stress
Which type of cells surround stomata in grass leaves?
Subsidiary cells
Guard cells
Epidermal cells
Mesophyll cells
Motor cells are found in
Monocot leaf
Upper epidermis of monocot leaf
Brain
Spinal cord
The location of stomata in monocot leaves is typically:
Upper epidermis only
Lower epidermis only
Both upper and lower epidermis
Clustered around the veins
Generally the silica is deposited on the free sides of
Dorsiventral leaves
Monocotyledonous leaves
Isobilateral leaves
Both (b) and (c )
The function of bulliform cells in monocot leaves is:
Photosynthesis
Transpiration
Rolling and unrolling of leaves
Storage of water
In a typical monocot leaf, the stomata are:
Present only on the upper surface
Present only on the lower surface
Present on both surfaces
Absent
