Plants utilize the sun energy in a process called photosynthesis.

The chloroplasts in the plant leaves harness that light and convert it into chemical energy.

Plants are called autotrophs because they use sunlight energy directly and combine inorganic compounds to form organic molecules.

Heterotrophs, on the other hand, obtain their energy by consuming other life forms. Humans are an example of heterotrophs.

Balanced equation for photosynthesis

6 CO2 + 12 H2O + light energy C6H12O6 + 6 O2 + 6 H2O

carbon water (sun) glucose oxygen water

dioxide

2

3

wavelengths

http://www.youtube.com/watch?feature=player_embedded&v=MkUGz6kEQMg

4

A spectrophotometer can be used to measure absorption and transmittance of light through solutions.

Go back to the chapter of spectrophotometry to understand the use of the blank (B)

Experiment Carotene (C) and spinach (S)

extracts will be tested regarding their absorption and transmittance at different wavelengths.

C B S

5

Carrot extract WL %T WL %T

WL= wavelength%T = transmittance

6

Spinach extract WL %T WL %T 7

If you invert this graph, you will see the classic absorbance graph found in your text book.

Wave length (nm)

T

ran

smit

tan

ce

(%)

8

9

Inverted graph

Ab

sorb

an

ce

400 500 625 675 WL (nm)

CaroteneSpinach

10

WL

400

425

450

475

500

525

550

575

600

625 650

675

700

S 0.35

0.5 0.7 0.8 0.6 0.2

0.1 0.2

0.5 0.35

0.3 0.2 0.1

C 0.8 0.8 0.8 0.75

0.7 0.6

0.6 0.5

0.1 0.1 0.1 0.1 0.2

The same procedure was done, but reading the absorbance of both spinach and carrot extracts.

The data was used to draw the graph shown in the next slide.

11

ab

sorb

an

ce

Wavelength (nm)

Is used to separate substances from one another based on their characteristics.

This exercise will separate pigments of a spinach leaf.

The separation is due to the solubility of the pigment in the chromatography solvent (10% acetone in petroleum ether) and the affinity of the pigment to the paper surface.

Roll of chromatography paper

solvent

12

Adding pigment to the paperOn a 3 cm x 20 cm strip of chromatography paper, a baseline is drawn with pencil (graphite) about 2 cm from the bottom. On this pencil line the spinach leaf pigment is deposited by rolling a coin over the leaf, onto the paper.

Paper strip

Graphite line

13

Place the strip into the chamber.

The paper with pigment is placed into a test tube containing 1 cm of chromatography solvent.

Left undisturbed for 10-15 minutes the solvent moves up the paper and carries with it the pigments of the spinach leaf. The pigments move at their own characteristic rate. solvent

Solvent movement

14

There are four pigments that are seen on the chromatogram. Carotene (orange) Xanthophyll (yellow) Chlorophyll a (blue-green) Chlorophyll b (yellow-green)

Which pigment has the greatest affinity for the solvent?

Which has the greatest affinity for the paper?

Baseline

Chlorophyll b

15

carotene

Determine the Rf (ratio factor) value of each pigment. To determine the Rf value of a pigment

you must measure the distance traveled by the pigment/distance traveled by the solvent.

To determine distance traveled by the pigment you must measure from the middle of the pigment band to the baseline.

To determine the distance traveled by the solvent you must measure from the solvent line to the baseline.

baseline

Solvent line

16

This experiment proves that the most common form of carbohydrate stored by plants is starch, a polymer of glucose.

To test for starch, the leaf pigments must first be removed by placing it in boiling 95% ethanol.

Coleus sp.

Ethanol cannot be boiled directly on the hotplate. A beaker containing ethanol is placed into a larger beaker of boiling water 17

Iodine is then added to the leaf. If starch is present the area will become blue-black .

Before boiling After boiling and staining

The End 18