Xylem - Tracheids and Vessels.
Phloem - Sieve-tube cells and Companion cells.
dermal tissue
vascular bundle
i do now
cambium
Tracheids
merestems
cambium
Vascular bundles may be radial or conjoint depending on the position of xylem and phloem. They may be open or closed depending on the presence or absence of cambium between their xylem and phloem. They may be scattered or arranged in a ring.
The xylem tube transports the water and minerals to the top of the plant or tree like the General Sherman. The phloem tube transports sugar or sap to all the living cells that cannot make its own sugar.
Roots, bark, phloem, cambium, xylem, and leaves.
The circulatory system (including specialized tissues) of plants which provide them with their essential nutrients, also including water and minerals. The xylem lies on the outside of a plant and carries the nutrients up to the parts of the plant (leaves, etc.). The phloem lies towards the inside of the plant and carries the waste back down towards the roots where it leaves the plant.
In Angiosperms , it is xylem vessels ( proto and meta xylem together ) , Xylem sclerenchyma and xylem parenchyma ; together form Xylem tissue ( That is why xylem is called a compound tissue ). In Gymnosperms , xylem vessels are replaced by Xylem tracheids . All other tings are almost the same .
Vascular bundles may be radial or conjoint depending on the position of xylem and phloem. They may be open or closed depending on the presence or absence of cambium between their xylem and phloem. They may be scattered or arranged in a ring.
Xylem and phloem. The xylem transports water and soluble mineral nutrients from the roots throughout the plant. The phloem is the living tissue that carries organic nutrients.
They make up the vascular system. Xylem transports water, and phloem transports sugars.
Xylem and phloem.....
There are two types of vascular tissue in plants - the xylem and phloemXylem are elongated water conducting cells. The walls of the xylem are perforated and allow water and salts to pass though side ways from cell to cell.The walls of the xylem tissue are strengthened by deposition of lignin on them. This lignin makes the cell woody and impermeable. Xylem is the wood in woody plants that also help in supporting the plants.Phloem are living cells supported by companion cells. The end walls of these calls are perforated and allow organic solutes to flow to different parts of the plant.
Phloem - carries nutrients (particularily sugar) and xylem - carries water and some nutrients
The xylem tube transports the water and minerals to the top of the plant or tree like the General Sherman. The phloem tube transports sugar or sap to all the living cells that cannot make its own sugar.
The basic function of Xylem is to transport water (and some soluble minerals) up from the roots and through the plant. Phloem transports organic nutrients - particularly sucrose (a sugar) - throughout the plant. Both are types of vascular tissue found in plants.
Roots, bark, phloem, cambium, xylem, and leaves.
Vascular Bundle. For platoweb users the answer is C.
Xylem and phloem make up the big transportation system of vascular plants. It is a plant's main circulatory system. The phloem cells are laid out end-to-end throughout the entire plant, transporting sugars and other molecules created by the plant.
The xylem and phloem tissue are collectively known as vascular tissue. The main responsibility of vascular tissue is to transport water and food, as well as other nutrients, throughout the body. The xylem carries water from the roots up to the leaves. The leaves perform photosynthesis, and the sugars synthesized is then moved throughout the body through the phloem. The reason why insects feed off these tissues is to gain access to the foods and water inside.