Chapter : Transport in Flowering Plants

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Presentation transcript:

Chapter : Transport in Flowering Plants state the functions of xylem and phloem. identify the positions of xylem and phloem tissues as seen in transverse section of roots, stems and leaves. investigate, using a suitable stain, the pathway of water in a cut stem.

How is water transported against gravity from the roots, up the xylem and to the leaves?

Think Like a Scientist Scientists use ‘thought experiments’ to help them solve problems. 3

I wonder where trees get water from? Well, obviously from the ground. What are the processes involved?

How does water move through the transport system of a plant IF it does not have a heart to act as a pump? How is water lifted against gravity from the ground to the leaves through this transport system? Are the products of photosynthesis also carried in a set of vessels from the leaves to the roots? PAUSE to PONDER 5

Vascular bundles: xylem & phloem Xylem transports water & dissolved minerals from roots to leaves. Phloem transports food (sugar) made in leaves to all other parts of the plant.

Distribution of vascular bundles in roots xylem phloem Distribution of vascular bundles in roots xylem phloem

Xylem & phloem tissues in stems.

Distribution of vascular bundles in leaves. xylem phloem Distribution of vascular bundles in leaves.

Diagram showing a section through a leaf. xylem phloem

Chapter 6: Transport in Flowering Plants describe the structure and functions of root hair cells in relation to their surface area, and to water and ion uptake. define transpiration. describe how factors (e.g humidity, temperature, light intensity) affect the rate of transpiration. describe how wilting occurs.

How do water & dissolved minerals move from the soil to the roots? Transport of water & minerals Thousands of tiny root hairs on each root allows water to enter the plant very quickly. How do water & dissolved minerals move from the soil to the roots?

Osmosis occurs due to presence of : i) concentration gradient between the sap in a root hair cell and the soil water. ii) partially permeable membrane

Water enters by osmosis from root hairs and continues until it reaches the xylem vessels.

Movement of Water inside a Leaf chloroplasts cuticle Movement of Water inside a Leaf upper epidermis arrows show path of water vapour and water palisade mesophyll nucleus 1 film of water 1 Water continuously moves out of the mesophyll cells to form a thin film of moisture over their surfaces. xylem of vein phloem spongy mesophyll cell sap intercellular air space sub-stomatal air space lower epidermis guard cell stomatal pore

The loss of water vapour from the stomata. Transpiration: The loss of water vapour from the stomata.

How do nitrate ions get into plants? Are they directly absorbed from the air? No. Even though the air has 79% of nitrogen, it is highly unreactive. PAUSE to PONDER How are ions transported around in plants?

Diffusion and active transport are involved in the absorption of dissolved mineral salts. Xylem vessel

What happens when the concentration of dissolved sugars and mineral salts in the sap of root hair is higher than the surrounding soil water? Concentration of dissolved sugars and mineral salts is higher in roots. Concentration of dissolved sugars and mineral salts is lower in soil.

Inv. 8.2: Path of water through a plant (p105)

Inv. 8.3 : The ringing experiment (p107) In the ringing experiment, a ring of bark is scraped away that also removes the phloem.

Results: twig A twig B twig C The phloem tissues have been removed. Manufactured food substances (e.g sugar and amino acid) accumulate above the cut region and cause swelling in twigs A and C. However in twig B, manufactured food can pass through the phloem without any barrier. This suggests that food is made in the leaves and are transported through the phloem.

A B Inv. 8.6: Investigating transpiration in leaves and stems At the beginning A B Inv. 8.6: Investigating transpiration in leaves and stems

After placing the bell jars in sunlight for 1 hour Results: Drops of liquid are seen on the inner surface of the bell jar A.

6) There is no change. No liquid droplets form on the inner surface of the bell jar. 7) The anhydrous copper sulphate turns blue. 8) Water Questions: 1) To prevent the water in the soil from evaporating. 2) Roots have absorbed water in the soil and transported it up the plant. Water vapour given off by the plant condenses on the inner surface of the bell jar.

Investigation 8.6 : Comparing Transpiration in Leaves and Stems 6) Water condensed on the inner surface of the bell jar. 7) Some water condensed on the inner surface of the bell jar but not as much as in the bell jar with the leafy twig. 8) Transpiration has occurred in both jars. Transpiration occurs mainly through the leaves, so more water condensed on the inner surface of the bell jar with the leafy twig.

Water is drawn up the xylem in the stem by three factors: Root pressure Capillary action Transpiration pull 2) Capillary action 3) Transpiration pull 1) Root pressure

Root pressure refers to the forces that draws water up to the xylem vessels by osmosis and active transport. Capillary action plays a part in upward movement of water in small plants. Transpiration pull refers to the strongest force that causes water to rise up to the leaves of tall trees. It is a result of loss of water vapour from the leaves (transpiration).

Factors affecting rate of transpiration: Humidity of the air Temperature of the air Strong wind Light

Which has a higher rate of transpiration? Light affects the opening and closing of stomata. Daylight: Stomata open and become wider. At night: Stomata close.

Excessive transpiration causes mesophyll cells to become flaccid. Wilting Excessive transpiration causes mesophyll cells to become flaccid. wilting results

phloem food (e.g sucrose & amino acids) TRANSPORT IN PLANTS xylem conducts TRANSPORT IN PLANTS is carried out by xylem transport in plants is aided by transpiration pull root pressure capillary action xylem vessels which transport water mineral salts in plants can be lost via is affected by many external factors such as transpiration is transported from root hair cells to other plant parts wind speed temperature light relative humidity

Online Resources: http://www.purchon.com/biology/flash/leaf.swf http://scienceyear.digitalbrain.com/scienceyear/web/data/ks4/year10/practise/?backto=Gverb%3d http://www.bbc.co.uk/education/gcsebitesize/science_biology/plants/transpiration_rev.shtml#trans2