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Transport in Plants. Section 3.4 Unit C. Objectives. distinguish between cohesion and adhesion, giving examples describe water transport from root to leaf including different processes used relate tonicity of plant environment to movement of water in and out of the cell
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Transport in Plants Section 3.4 Unit C
Objectives distinguish between cohesion and adhesion, giving examples describe water transport from root to leaf including different processes used relate tonicity of plant environment to movement of water in and out of the cell summarize the process of sugar transport in plants
Review What is osmosis? What is diffusion? What is active transport? What is transpiration? Where does it take place?
Plant Transport of Water: 3 Main Steps 1) Water uptake in roots – root pressure 2) Cohesion & Adhesion in Xylem 3) Leaf transpiration
Animation: http://www.biology.ualberta.ca/facilities/multimedia/uploads/alberta/transport.html
Root Pressure • Movement of water from roots to leaves • Pressure built up in xylem • Dissolved minerals in root cells due to active transport • What does this mean? • What substance will follow the higher concentration of solute inside the cell? Why? • Water enters cell, creating positive pressure, forcing fluid up the xylem • Water forced from area of higher pressure in roots to area of lower pressure in leaves
Root Pressure • When would root pressure not be the complete explanation for water movement in plants? • When the plant is very large (maximum of a few metres) • Overall process affected by transpiration
Cohesion and Adhesion • Cohesion • Attraction of water molecules to other water molecules • Due to polar nature of water (slightly positive end attracts slightly negative end of another water molecule)
Cohesion and Adhesion • Adhesion • Attraction of water molecules to molecules of other substances • Usually polar interactions
Cohesion & Adhesion in the plant • Cohesion and adhesion are two properties of water that helps it to travel from roots to leaves. • Cohesion • Causes water molecules to cling to each other • Adhesion • allows water to pull itself up the plant • Video: http://www.youtube.com/watch?v=EKyHbanzYnI&feature=related
Trees & Capillary Action: http://www.davidlnelson.md/Cazadero/Trees&CapillaryAction.htm
Transpiration • Evaporation of water through stomata and lenticels through transpiration creates a tension or transpiration pull. • When combined with cohesion, adhesion, and root pressure, water is able to be drawn up the xylem. • Transpiration is dependent on temperature. Higher temperatures increase the rate of evaporation and cause rapid movement in xylem.
Video: Plant Transport - Summary http://www.youtube.com/watch?v=U4rzLhz4HHk&feature=related
Why would the carnation/celery change color? • How is it related to root pressure and transpiration? • Transpiration causes the loss of water through the stem and leaves. • This water must be replaced, drawing water up from the roots • Note that only certain cells in the celery are stained • Which cells might these be? • Xylem
Do Now • Individually, draw a summary diagram of water transport in a large plant using the information on p. 317-318 • Explain in your diagram how the plant uses adhesion and cohesion properties of water to its advantage • Include the different transport mechanisms used at different parts of the plant • i.e. not every type of transport will work for each part!
Tonicity & its Effect on the Plant • Tonicity concentration of solute particles in an solution • Related to hypertonic and hypotonic (which one would have a higher tonicity?) • What will happen to a plant cell that is placed in a concentrated salt solution? • Water leaves the plant cell by osmosis • Effect = plasmolysis (cell looks shrunken) • Water leaves vacuole, cell contents pull into center, cell membrane becomes visible
Hypertonic solution Hypotonic solution
Question • What would happen to a plant that was placed in a hypertonic solution (salt solution)? • Becomes flaccid • What would happen to the plant when it was moved from this solution to a hypotonic environment? • Becomes turgid
Sugar Transport • Phloem is essential • Removal causes plant death • Takes sugar from source (leaves) to place to be used/stored (sink) • Composed of sieve tube cells • Need companion cells to control its activity • Why? • Uses carrier proteins and active transport to take in sugar molecules
Sugar Transport • If sugar is being moved into the cells, what else will follow it? • Water! • Moves in by osmosis which increases pressure • Increased pressure pushes water and sugars through phloem to rest of plant • Called the pressure-flow theory
Sugar Uses • Actively transported from sieve cells in phloem to adjacent cells • Use: • Growth • Respiration • Other life processes • Stored in roots, stems, or leaves • Water follows movement of sugar and can: • Increase turgidity of other cells • Leave through transpiration • Move into xylem