They are closely intertwined with the xylem and phloem of the vascular bundle. However, it does not transport water, minerals, or food through the plant.
Location of Vascular Cambium in Plants
Structure of Vascular Cambium in Plants
Functions of Vascular Cambium
In herbaceous plants, it arises in the vascular bundles, often arranged like beads on a necklace forming inside the stem. However, in woody stems, it forms a cylinder of undifferentiated meristem cells as a continuous ring which later gives rise to new tissues. The vascular cambium usually consists of two cell types: fusiform initials (tall, axially oriented) and ray initials (smaller and round to angular in shape). In young, herbaceous plants, vascular cambium occurs in bundles with xylem and phloem, forming a ring of an uninterrupted cell. In contrast, in woody plants, it forms the cambium ring separating the xylem and phloem. It is also called the bifacial vascular cambium because it helps plant growth in two directions: producing the inner layer of bark outside and forming the wood inwards.
How is its Supply Maintained
The divisions of cells in the vascular cambium help to maintain its supply. When the cells divide, one of the divided cells differentiates but the other cell remains meristematic. This cell further divides, forming an interrupted supply of vascular cambium.
Producing the vascular tissues (xylem and phloem) that help conduct water and minerals within the plantInitiating secondary growth at the lateral meristems, thus increasing the thickness or girth of the stem and roots of the plant
Other Purpose
Producing lignified cells and thus providing the structural support along with the cork cambiumPreventing the entry of pathogens and protecting against external injuries
