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Transport in Plants

Transport in Plants. Learning Objectives. Features of effective transport systems in plants. Nature of waste products and excretory mechanisms and systems in plants. Features of effective surfaces of gaseous exchange; mechanisms and systems of gaseous exchange in plants; process of diffusion.

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Transport in Plants

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  1. Transport in Plants

  2. Learning Objectives • Features of effective transport systems in plants. • Nature of waste products and excretory mechanisms and systems in plants. • Features of effective surfaces of gaseous exchange; mechanisms and systems of gaseous exchange in plants; process of diffusion.

  3. Structure of a Stem

  4. Phloem Cambium Vascular bundle Xylem Pith Cortex Epidermis

  5. Phloem • Food substances such as sucrose and amino acids travel in the phloem. • The sucrose is made in the leaves, through photosynthesis, and travels to the rest of the plant to be used as food for cellular respiration. • The cells in the phloem tissue form elongated tubes called sieve tubes. • The cells in the phloem remain alive, although they lose their nuclei. • The end walls of each cell become perforated to allow substances to pass through. These are called sieve plates.

  6. Xylem • Water and mineral salts are transported in the xylem from the roots to the rest of the plant. • The cells become vessels – long cells joined end to end (like a straw). The end walls break down and the cells die when they are mature. • Cell walls in xylem vessels become strengthened with a substance called lignin. This makes the cell walls impermeable. • Xylem vessels are further strengthened by many elongated, lignified cells called fibres.

  7. Questions • What are the differences between xylem and phloem: • in structure? • in function?

  8. Roots • Internal structure with vascular bundles are set out differently compared with stems. • Vascular bundle is in centre of the root. • Xylem carries salts and water from roots to stem. • Phloem will bring food from the stem to the roots.

  9. Root Hairs • The cells of the outer layer of the root just above the root cap produce tiny, tube-like outgrowths called root hairs. • Root hairs grow between soil particles and stick closely to them. • Root hairs take up water by osmosis. • They absorb mineral salts by active transport. • The large number of root hairs greatly increases the surface area for absorption.

  10. Transpiration • Evaporation of water from leaves of a plant. • Water moves from inside the cell walls of the cells in the leaf to the air spaces between the cells. • The water evaporates from here and passes by diffusion through the air spaces in the mesophyll and out of the stomata. • This creates a force that draws water up from the soil through the plant – it causes a tension up the stem, which ‘sucks’ water molecules along. • The transpiration stream is the flow of water up the vascular bundles.

  11. Rate of Transpiration • Can be altered by reducing or increasing evaporation from leaves. • What processes might affect the rate of transpiration? • Light intensity • Humidity • Air movement • Temperature

  12. How does the water move from roots to leaves? • Draw a flowchart or annotated diagram to illustrate and summarise how water moves through the plant.

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