The tiny pore on a leaf that allows carbon dioxide to enter is called a stoma. Stomata are typically located on the underside of leaves and regulate gas exchange for photosynthesis.
Stomata allow carbon dioxide to enter the leaf for photosynthesis, while also allowing oxygen and water vapor to exit the leaf through transpiration.
One function of a thick-walled empty cell in a leaf vein is to provide structural support and help maintain the overall shape and integrity of the vein. Additionally, these cells may assist in conducting water and nutrients through the vein to other parts of the leaf.
One structural difference is the shape of the leaves: sea teak leaves are typically elongated and have pointed tips, while weeping willow leaves are narrow, oval-shaped, and can be pendulous or drooping.
No, a maple leaf is not unicellular. It is a complex multicellular structure made up of various types of cells that perform different functions, such as photosynthesis, transport of nutrients, and structural support.
plants maybe
Stomatal pores
A stomata, which allows for the exchange of oxygen to exit and carbon dioxide to enter.
The tiny pore on a leaf that allows carbon dioxide to enter is called a stoma. Stomata are typically located on the underside of leaves and regulate gas exchange for photosynthesis.
spongy layers
Intercellular air in leaves allows for gas exchange between the leaf cells and the atmosphere, facilitating photosynthesis and respiration. This also helps in maintaining optimal levels of oxygen and carbon dioxide within the leaf for metabolic processes. Additionally, intercellular air spaces provide structural support and buoyancy to the leaf tissue.
The stomata allows the carbon dioxide to enter.
the leaf!
No
RUBP or PEP will absorb it. CO2 enter the leaf from air.
The large surface area and the presence of the stomata is the special structural character that the leaf epidermis possess to perform its functions effectively.
The stoma (stomata)