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By the end of today I should be able to… Explain osmoregulation and predict movement of water Describe water potential Calculate water potential To.

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Presentation on theme: "By the end of today I should be able to… Explain osmoregulation and predict movement of water Describe water potential Calculate water potential To."— Presentation transcript:

1 By the end of today I should be able to… Explain osmoregulation and predict movement of water Describe water potential Calculate water potential To start today… I would like you to take the first 6 minutes to reread through , paying particular attention to the “water balance of cells with walls” section

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3 Water potential is calculated to tell us…
Where water is going to move… from areas of high water potential to areas of lower water potential

4 Plasmolysis

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6 Water potential = solute potential + pressure potential

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8 Solute Potential  S Solute potential is also called the osmotic potential because solutes affect the direction of osmosis.  S of any solution at atmospheric pressure is always negative – why? Answer = less free water molecules to do work

9 Solute Potential  S Solutes bind water molecules reducing the number of free water molecules  lowers waters ability to do work.

10 Pressure potential A force that resists water flow due to a container (cell) being full and not wanting to expand any more. Cell walls of plant cells are important in this regard.

11 P is the physical pressure on a solution.
Pressure Potential P P is the physical pressure on a solution. P can be negative  transpiration in the xylem tissue of a plant (water tension) P can be positive  water in living plant cells is under positive pressure (turgid)

12 Standard for measuring 
Pure water is the standard. Pure water in an open container has a water potential of zero at one atmosphere of pressure.

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15 Water Potential: an artificial model
(a) addition of solutes on right side reduces water potential. S = -0.23 Water flows from “hypo” to “hyper” Or from hi  on left to lo  on right

16 (b) adding +0.23 pressure with plunger  no net flow of water

17 Water Potential: an artificial model
(c) applying pressure increases water potential solution now has  of +0.07 Water moves right to left

18 Water Potential: an artificial model
(d) negative pressure or tension using plunger decreases water potential on the left. Water moves from right to left

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