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Biology 2 Chapter 29: Plant Structure and Function Section 1 Notes: Plant Cells and Tissues (pages 582-586) Plant Cells 1. There are three basic types of plant cells: Parenchyma cells are usually loosely packed cube-shaped or elongated cells with a large central vacuole and thin, flexible cell walls. Parenchyma cells are involved in metabolic functions. The cell walls of collenchyma cells are thicker than those of parenchyma cells. Collenchyma cells support regions of the plant that are still lengthening. Sclerenchyma cells have thick, even, rigid cell walls. They support and strengthen plants in areas where growth is no longer occurring. Plant Tissue Systems 2. Tissues are arranged into systems in plants, including the dermal system, ground system, and vascular system. 3. These systems are further organized into the three major plant organs—the roots, stems, and leaves. The organization of each organ reflects adaptations to the environment. Dermal Tissue System 4. The dermal tissue system forms the outside covering of plants. In young plants, it consists of the epidermis, the outer layer made of parenchyma cells. 5. The outer epidermal wall is often covered by a waxy layer called the cuticle, which prevents water loss. Ground Tissue System 6. Dermal tissue surrounds the ground tissue system, which consists of all three types of plant cells. Ground tissue functions in storage, metabolism, and support. 7. Parenchyma cells are the most common type of cell found in ground tissue. Vascular Tissue System 8. Ground tissue surrounds the vascular tissue system, which functions in transport and support. Recall that the term vascular system refers to both xylem and phloem. 9. In angiosperms, xylem has two main components—tracheids and vessel elements. A tracheid is a long, thick-walled sclerenchyma cell with tapering ends. 10. Water moves from one tracheid to another through pits, which are thin, porous areas of the cell wall. 11. A vessel element is a sclerenchyma cell that has either large holes in the top and bottom walls or no end walls at all. 12. Vessel elements are stacked to form long tubes called vessels. Water moves more easily in vessels than in tracheids. 13. Most seedless vascular plants and most gymnosperms contain only tracheids. The vessel elements in angiosperms probably evolved from tracheids. 14. The conducting parenchyma cell of angiosperm phloem is called a sieve tube member. Sieve tube members are stacked to form long sieve tubes. 15. Compounds move from cell to cell through end walls called sieve plates. Each sieve tube member lies next to a companion cell, a specialized parenchyma cell that assists in transport. Plant Growth 16. Plant growth originates mainly in meristems, regions where cells continuously divide. 17. Most plants grow in length through apical meristems located at the tips of stems and roots. 18. Gymnosperms and most dicots also have lateral meristems, which allow stems and roots to increase in diameter. 19. There are two types of lateral meristems: The vascular cambium, located between the xylem and phloem, produces additional vascular tissue. The cork cambium, located outside the phloem, produces cork. Cork replaces the epidermis in woody stems and roots.