2. Photosynthesis: Life from Light and Air

3. Energy needs of life All life needs a constant input of energy
Animals = Heterotrophs
get their energy from “eating others”
eat food = other organisms = organic molecules
make energy through respiration
Plants = Autotrophs
get their energy from “self”
get their energy from sunlight
build organic molecules (food) from CO2
make energy through photosynthesis

5. + water + energy  glucose + oxygen
Photosynthesis
+ water + energy  glucose + oxygen
carbon
dioxide
6CO2
6H2O
C6H12O6
6O2
light
energy  +
This is the equation you are used to seeing, but this is not the whole story…

6. How do plants live? Photosynthesis Energy building reactions
collect sun energy
make ATP
Sugar building reactions
use ATP for energy
use CO2 as carbon for new sugars
build sugars
glucose, cellulose, starch
build all other organic molecules
proteins, lipids, carbohydrates, DNA
store energy for future use
starch in seeds & roots

7. Energy building reactions Sugar building reactions
Photosynthesis
sun
Actually 2 separate reactions
Energy building
use sunlight
make energy (ATP)
Sugar building
use ATP
use CO2
make sugars (C6H12O6)
Energy building reactions
ADP
ATP
Sugar building reactions
sugar
CO2

8. Chloroplasts absorb sunlight & CO2 Leaf Leaf Chloroplasts Chloroplasts
contain
Chlorophyll
Chloroplast
make energy & sugar

10. Energy Building Reactions
H2O +
light
energy 
ATP + O2
H2O
makes ATP energy
releases oxygen as a waste product
sunlight
Energy Building
Reactions
ATP O2

12. Sugar Building Reactions
CO2 + 
ATP
C6H12O6 +
ADP
CO2
builds sugars
uses ATP
cycles ADP back to make more ATP
ADP
Sugar Building
Reactions
ATP
sugars
C6H12O6

13. Putting it all together
CO2
H2O
C6H12O6 O2
light
energy  +
H2O
CO2
Plants make both:
ATP
sugars
sunlight
ADP
Energy Building
Reactions
Sugar Building
Reactions
ATP
sugars
C6H12O6 O2

14. So what does a plant need?
Bring In
CO2
H2O
light
Let Out O2
Move Around
sugars
leaves
shoot
roots
6CO2
6H2O
C6H12O6
6O2
light
energy  +

16. Leaf Structure xylem (water) phloem (sugar) cuticle epidermis
palisades
layer
spongy
layer O2
H2O
CO2
stomate
guard cell
gases in & out
water out
transpiration O2
H2O
CO2

17. Stomates
Function of stomates
CO2 in
O2 out
H2O out
guard cell
stomate

20. Xylem
carry water up from roots

21. Phloem: food-conducting cells
carry sugars around the plant wherever they are needed
new leaves
fruit
seeds

22. Putting it all together
Making a living…
sunlight
leaves = solar collectors
photosynthesis
gases: CO2 in & O2 out
stomates = gases in & out
H2O
roots take in water from soil
pulled up by leaf evaporation
nutrients
roots take in from soil

24. How are they connected? Respiration  Photosynthesis 
glucose + oxygen  carbon + water + energy
dioxide
C6H12O6
6O2
6CO2
6H2O
ATP  +
Photosynthesis
So, in effect, photosynthesis is respiration run backwards powered by light.
Cellular Respiration
oxidize C6H12O6  CO2 & produce H2O
fall of electrons downhill to O2
exergonic
Photosynthesis
reduce CO2  C6H12O6 & produce O2
boost electrons uphill by splitting H2O
endergonic
+ water + energy  glucose + oxygen
carbon
dioxide
6CO2
6H2O
C6H12O6
6O2
light
energy  +

26. The Great Circle of Life!
sun
Energy cycle
Photosynthesis
plants
H2O
CO2
glucose O2
animals, plants
Cellular Respiration
The Great Circle of Life!
Where’s Mufasa?
ATP

28. The poetic perspective
All of the solid material of every plant was built out of thin air
All of the solid material of every animal was built from plant material
sun
air
Then all the cats, dogs, mice, people & elephants… are really strands of air woven together by sunlight!