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25.4B: Vascular Tissue- Xylem and Phloem

  • Page ID
    13666
    • Boundless
    • Boundless
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    Xylem and phloem form the vascular system of plants to transport water and other substances throughout the plant.

    Learning Objectives
    • Describe the functions of plant vascular tissue

    Key Points

    • Xylem transports and stores water and water-soluble nutrients in vascular plants.
    • Phloem is responsible for transporting sugars, proteins, and other organic molecules in plants.
    • Vascular plants are able to grow higher than other plants due to the rigidity of xylem cells, which support the plant.

    Key Terms

    • xylem: a vascular tissue in land plants primarily responsible for the distribution of water and minerals taken up by the roots; also the primary component of wood
    • phloem: a vascular tissue in land plants primarily responsible for the distribution of sugars and nutrients manufactured in the shoot
    • tracheid: elongated cells in the xylem of vascular plants that serve in the transport of water and mineral salts

    Vascular Tissue: Xylem and Phloem

    The first fossils that show the presence of vascular tissue date to the Silurian period, about 430 million years ago. The simplest arrangement of conductive cells shows a pattern of xylem at the center surrounded by phloem. Together, xylem and phloem tissues form the vascular system of plants.

    image
    Figure \(\PageIndex{1}\): Xylem and phloem: Xylem and phloem tissue make up the transport cells of stems. The direction of water and sugar transportation through each tissue is shown by the arrows.

    Xylem is the tissue responsible for supporting the plant as well as for the storage and long-distance transport of water and nutrients, including the transfer of water-soluble growth factors from the organs of synthesis to the target organs. The tissue consists of vessel elements, conducting cells, known as tracheids, and supportive filler tissue, called parenchyma. These cells are joined end-to-end to form long tubes. Vessels and tracheids are dead at maturity. Tracheids have thick secondary cell walls and are tapered at the ends. It is the thick walls of the tracheids that provide support for the plant and allow it to achieve impressive heights. Tall plants have a selective advantage by being able to reach unfiltered sunlight and disperse their spores or seeds further away, thus expanding their range. By growing higher than other plants, tall trees cast their shadow on shorter plants and limit competition for water and precious nutrients in the soil. The tracheids do not have end openings like the vessels do, but their ends overlap with each other, with pairs of pits present. The pit pairs allow water to pass horizontally from cell to cell.

    image
    Figure \(\PageIndex{1}\): Tracheids and vessel elements: Tracheids (top) and vessel elements (bottom) are the water conducting cells of xylem tissue.

    Phloem tissue is responsible for translocation, which is the transport of soluble organic substances, for example, sugar. The substances travel along sieve elements, but other types of cells are also present: the companion cells, parenchyma cells, and fibers. The end walls, unlike vessel members in xylem, do not have large openings. The end walls, however, are full of small pores where cytoplasm extends from cell to cell. These porous connections are called sieve plates. Despite the fact that their cytoplasm is actively involved in the conduction of food materials, sieve-tube members do not have nuclei at maturity. The activity of the sieve tubes is controlled by companion cells through plasmadesmata.


    This page titled 25.4B: Vascular Tissue- Xylem and Phloem is shared under a CC BY-SA 4.0 license and was authored, remixed, and/or curated by Boundless.

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