Question
Question: Do meristematic cells have intercellular space?...
Do meristematic cells have intercellular space?
Solution
Plant meristematic tissues are cells that divide to give rise to the plant's numerous parts and maintain it expanding. Meristematic action produces the mature body of vascular plants. Plant meristems are the sites where mitotic cell division takes place. They are made up of a group of undifferentiated self-renewing stem cells that give rise to the majority of plant structures.
Complete answer:
Meristematic tissues, on the other hand, are actively and continuously dividing tissues. These are primarily responsible for expanding the plant's length and girth.
Meristematic tissues have cells that are tightly packed together. As a result, meristematic cells have a very slim possibility of having intercellular gaps between them.
Meristematic tissues are cells or groups of cells capable of dividing. A plant's tissues are made up of small, closely packed cells that can continue to divide and generate new cells. Small cells, thin cell walls, large cell nuclei, nonexistent or small vacuoles, and no intercellular gaps characterise meristematic tissue.
Meristematic tissues can be found around the tips of roots and stems (apical meristems), in the buds and nodes of stems, in the cambium between the xylem and phloem in dicotyledonous trees and shrubs (cork cambium), and in the pericycle of roots, forming branch roots. Primary and secondary meristems are the two types of meristems.
Meristematic cells are cells that have been partially or totally differentiated and are capable of continuing to divide (youthful). Furthermore, the cells are tiny, and the protoplasm entirely fills the cell. The vacuoles are really tiny.
Note:
Meristematic tissues, or simply meristems, are tissues in which the cells are perpetually youthful and actively divide throughout the plant's existence. When a meristematic cell divides into two, the new cell that remains in the meristem is referred to as an initial, while the other is referred to as a derivative. Repeated mitotic divisions of the initial cells result in the addition of additional cells.