Plant Physiology (Biology 327) - Dr. Stephen G. Saupe; College of St. Benedict/ St. John's University; Biology Department; Collegeville, MN 56321; (320) 363 - 2782; (320) 363 - 3202, fax; ssaupe@csbsju.edu |
Preparing a Hofler Diagram
(note:
this lab is 'experimental.' It may need
some fine tuning)
In this exercise we will use our Gravimetric
data to prepare a Hofler diagram to represent the changes in water
potential, osmotic potential and pressure potential that occur in the potato
tuber as they absorb water.
Protocol:
1. Record the temperature of the samples in table 1. Convert to K.
2. Complete
Table 2.
At
equilibrium, the water potential of the core will equal the water potential
of the sucrose solution. Calculate with the
van't Hoff equation (see Chardakov
lab)
Transfer the equilibrium weights (=final weight) and initial weights of the cores from the Gravimetric experiment for columns 3 & 4, respectively.
The relative cell volume (column 5) will equal 1.0 for a solution that has the same Y as the tuber. In other words, when the solution and the tuber have the same water potential there will be no net change in size of the tuber cells since there will be no net uptake/loss of water. However, cells gaining weight will have a larger relative cell volume while those loosing weight will have a smaller relative cell volume.
Calculate Ψs (column 6) at equilibrium by dividing the solute potential (Ψs; measured with FP apparatus) by the relative cell volume. This will correct for changes in Ψs due to water loss/gain.
Calculate Ψ
2.
Plot a
graph of relative cell volume vs. [sucrose]
3.
Prepare
on a single graph the following plots: water potential vs. relative cell volume;
osmotic potential vs. relative cell volume; and pressure potential vs. relative
cell volume.
Table 1. Incubation Temperature | |
temperature ( C) | |
temperature (K) |
Table
2: Potato Tuber Data |
||||||
[Sucrose]
(molality) |
Ψ
of the core at equilibrium |
Equilibrium (final) Weight (g) | Initial Weight (g) | Relative cell volume (equilibrium weight / initial weight) | Equilibrium Ψs (corrected for cell volume) | Pressure Potential (Ψp ) |
0 | ||||||
0.1 | ||||||
0.2 | ||||||
0.3 | ||||||
0.4 | ||||||
0.5 | ||||||
0.6 | ||||||
0.7 |
Data/Analysis:
How does the graph we prepared compare to the expected plot?
References:
Koning, Ross. 1999.
Osmosis
Lab. Web Site
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Last updated:
01/07/2009 � Copyright by SG
Saupe