the inner layer ---> novanet
The stems and roots of seedless vascular plants contain vascular tissue, which includes xylem and phloem for transporting water, nutrients, and sugars throughout the plant. This vascular tissue allows for the efficient transport of resources, supporting the growth and function of the plant.
An actinostele is a protostele, a central part of a plant's root and stem system, in which the vascular tissue extends outward in lobes.
The roots of a plant are composed of three primary tissue systems: the dermal tissue system, which covers the outer surface of the root; the ground tissue system, which provides support and storage for the root; and the vascular tissue system, which is responsible for transporting water and nutrients throughout the root.
An atactostele is a form of eustele, a central core part of a plant's root and stem system, in which the vascular tissue in the stem exists as scattered bundles.
The vascular cambium is the tissue responsible for producing cells that add to the girth of the root. It is a meristematic tissue located between the xylem and phloem in dicot plants. The cells produced by the vascular cambium differentiate into secondary xylem (wood) towards the inside and secondary phloem towards the outside, thus contributing to the increase in girth of the root.
the inner layer ---> novanet
In the stele, which is the central cylinder of vascular tissue within the root.
The stems and roots of seedless vascular plants contain vascular tissue, which includes xylem and phloem for transporting water, nutrients, and sugars throughout the plant. This vascular tissue allows for the efficient transport of resources, supporting the growth and function of the plant.
An actinostele is a protostele, a central part of a plant's root and stem system, in which the vascular tissue extends outward in lobes.
Roots have vascular tissues like xylem and phloem
root hair, epidermis, epiblem, cortex, endodermis, pericycle and lastly the vascular tissue in the centre of a root to transport the water
A vascular cylinder is in the center of as root, the cylinder is made up of both xylem and phloem tissue. The vascular cylinder is surrounded by ground tissue which is surrounded by dermal tissue. A plant will actually absorb a majority of it's water in the dermal tissue just above the root tips. The cells there have tiny projections called root hairs. The three types of plant tissue systems, vascular, ground, and dermal. The vascular tissue system is surrounded by the ground tissue system which is surrounded by the dermal tissue system.
The roots of a plant are composed of three primary tissue systems: the dermal tissue system, which covers the outer surface of the root; the ground tissue system, which provides support and storage for the root; and the vascular tissue system, which is responsible for transporting water and nutrients throughout the root.
A fibrous root system has scattered vascular tissue. In this root system, the smaller roots arise from the base of the stem and spread out in different directions, with no main root. Examples include grasses and some types of herbaceous plants.
The vascular tissue called the xylem.
The single layer of cells that forms a waterproof seal around a root's vascular tissue is called the endodermis. It is a specialized layer of cells that helps regulate the movement of water and nutrients into the central vascular tissue of the root.
Vascular tissue