because have dead cell at maturity
The most abundant plant tissue with thin cell walls and intercellular spaces
There are no intercelluar spaces present in the scerlenchymatous tissue as it provides rigidity to the plants part in which they are present.They contain a chemical called lignin which acts as a cement like substance which hardens the cels & also the cells of sclerenchyma are dead
Yes, onion cells do have intercellular space between them. These spaces allow for the movement of substances such as nutrients and gases within the onion tissue.
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 nuclei is not visible in the sclerenchyma tissue at maturity because the cells are usually dead.
Yes, there are intercellular spaces which are usually used for gas exchange between the cells.
The most abundant plant tissue with thin cell walls and intercellular spaces
There are no intercelluar spaces present in the scerlenchymatous tissue as it provides rigidity to the plants part in which they are present.They contain a chemical called lignin which acts as a cement like substance which hardens the cels & also the cells of sclerenchyma are dead
Intercellular spaces are there for gas exchange between cells. Because of these spaces, cells deeper in the tissue can get the gas. If not, only the cells on the surface will get what they need.
Edema
to let gases go from 1 cell to another
Yes, onion cells do have intercellular space between them. These spaces allow for the movement of substances such as nutrients and gases within the onion tissue.
The lymphatic system, or the lymph system, they're the same thing.
The air spaces within a leaf, known as intercellular spaces, allow for gas exchange to occur. This facilitates the entry of carbon dioxide needed for photosynthesis and the exit of oxygen produced during this process. Intercellular spaces also help in regulating water vapor and temperature within the leaf.
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.
No, nerve tissues are made up of specialized cells called neurons that transmit electrical signals. These cells are surrounded by other types of cells called glial cells that provide support and protection. Collagen is a type of protein found in the extracellular matrix of connective tissues, not in the intercellular spaces of nerve tissues.
The nonliving material surrounding cells is called the intercellular matrix. The matrix fills the spaces that are between the cells.