Cells and tissues of the plant body
Transcription
Cells and tissues of the plant body
Cells and tissues of the plant body Lecture #2 Levels of Organization in Vascular Plants • Cells – the basic unit of the plant body • Tissues – a group of cells with a similar function in the plant – Simple tissue – cells all of one type – Complex tissue – cells of several cell types • Organs – made up of tissues, e.g., root, stem, leaf, sporangium (sprg) each with a specific function • Tissue systems – a system of tissues that runs through the whole plant, e.g., dermal, vascular, ground tissues Tissue Systems 1. Vascular 2. Dermal 3. Ground Shoot apex Mature cell types in the plant body • Parenchyma • Collenchyma • Sclerenchyma • Other specialized cells-most fit into these 3 categories Basic cell types • Parenchyma- polygonal cells with thin walls (primary wall only) of cellulose, have intercellular spaces and function in storage in the plant body • Collenchyma-rectangular cells with thickened corners, function in support (usually found just beneath the epidermis) • Sclerenchyma-thick-walled cells with both primary and secondary wall, function in support, and in conduction of water Parenchyma cell Parenchyma tissue Simple tissue= composed of one cell type (parenchyma) Parenchyma cells have Primary wall only – cellulose Stains green with fast green stain Alive & has nucleus & cytoplasm Note: intercellular spaces & shapes of cells Collenchyma Celery petiole showing collenchyma Medicago stem x.s. collenchyma Parenchyma cell Primary wall Plasmodesmata= Cytoplasmic connections β1,4 linked Sclerenchyma cell types • Sclereid (support) stone cell stellate sclereid • Fiber (support) • Tracheid (support & conduction of water) • Vessel element (support & conduction) in Pear fruit Brachysclereids =stone cells Stellate (star-shaped) sclereid Used for support in the leaf of Nymphaea (water lily) Sclerenchyma - fibers Bamboo vascular bundle Collenchyma and sclerenchyma fiber bundle Tilia fibers in secondary phloem Tracheids Elongate cells Oblique end walls Have primary and secondary wall Imperforate – have thin areas in wall Dead when functioning in conduction Function in support of the plant and in the conduction of water and dissolved minerals • Have various secondary wall thickening patterns • Found in all vascular plant groups • • • • • • Tracheids Types of secondary wall thickenings Primary wall Secondary wall (Red stain is safranin) Circular bordered pit pair Vessel element • Found in flowering plants (mostly) • Shorter, more barrel-shaped cell than a tracheid • Larger diameter cell – more efficient water conduction; less drag • Horizontal end walls • End wall perforated – perforation plate, i.e., a hole - dead cell • Usually has circular-bordered pits but can have scalariform or other 2o thickenings • Has both primary and secondary cell wall • Functions in water conduction & support • A chain of vessel elements = a vessel - open pipeline Vessel element with simple perforation Sclerenchyma cells (in oak wood) a. Vessel element b. Vessel element c. Vessel element d. Tracheid e. Fiber f. Fiber Differentiation of a vessel element Tracheary element = any water conducting cell in the xylem Xylem & Phloem are complex tissues i.e., they are composed of several cell types Xylem Function: Conduction of water and dissolved minerals Function of sclerenchyma cells in xylem: Support General direction of flow is upward, from roots through stem to leaves to atmosphere Phloem Function: Conduction of sugar (photosynthates) General direction of flow is downward from leaves to stems to roots and storage in the roots as starch Xylem– a complex tissue with several cell types • Parenchyma – xylem parenchyma (wood parenchyma) • Fibers • Tracheids- major water conducting cell, found in all vascular plant groups • Vessel elements (flowering plants) (Note we will talk about the arrangement of these tissues in the plant on 15 Jan.) Phloem is a complex tissue • Parenchyma (phloem parenchyma) • Fibers (phloem fibers) • Conducting cells – Sieve cells – Sieve tube elements – Companion cells (parenchyma) Sieve cells • • • • • • • Basic sugar conducting cell in vascular plants Elongate Oblique end walls Thin-walled Have sieve areas on side walls and on end walls Live cells when functioning No nuclei, have cytoplasm Sieve area = pit-like areas (small pores) in the walls, lined with callose and connect to other sieve cells by plasmodesmata Conifer sieve cells with sieve areas Conifer phloem Aniline blue stains callose - (1,3 linked glucose molecules) (Cellulose is 1, 4 linked) (If you are interested in the structure of these molecules see pp. 20-21 text) Pteridium x.s. vascular tissue Arrow indicates sieve cell Sieve tube elements (sieve tube member) Companion cells (in flowering plants) –come from the same precursor cell STE= shorter more barrel-shaped cell than sieve cell, More horizontal end walls Live when functioning, No nucleus; have cytoplasm, ER Thin-walled only Have sieve areas on side walls Perforate end walls have a SIEVE PLATE can be simple or compound – wider pores in the end walls than side walls of these cells Sieve tube = a chain of sieve tube elements (STE) Companion cell = small parenchyma cell attached to the side of an STE by plasmodesmata, has a large nucleus, moves substances into and out of STE originated from the same cell (precursor cell) in the procambium Found in flowering plants only Cucumis sieve plate Formation of a sieve tube element a. Mother cell divides b. STE & companion cell c. Nucleus degenerates & vacuole breaks up, pores develop in sieve plate (P-protein = phloem protein) d. Pores open— Pprotein, ER, mitochondria & plastids still in STE. p. 552 textbook Cucurbita phloem showing sieve plates Companion cells at arrows