1. Fig. 7-00

2. Photosynthetic Protists Photosynthetic Bacteria
Fig. 7-01
PHOTOSYNTHETIC AUTOTROPHS
Plants
(mostly on land)
Photosynthetic Protists
(aquatic)
Photosynthetic Bacteria
(aquatic) LM
Forest plants
Kelp, a large alga
Micrograph of cyanobacteria

3. Plants (mostly on land)
Fig. 7-01a
Plants
(mostly on land)
Forest plants

4. Photosynthetic Protists
Fig. 7-01b
Photosynthetic Protists
(aquatic)
Kelp, a large alga

5. Photosynthetic Bacteria
Fig. 7-01c
Photosynthetic Bacteria
(aquatic) LM
Micrograph of cyanobacteria

6. Fig
Vein
CO2
Stomata O2
Leaf cross section

7. Inner membrane Outer membrane Chloroplast Vein Granum Stroma Thylakoid
Fig
Inner
membrane
Outer
membrane
Chloroplast
Vein
Granum
Stroma
Thylakoid
CO2
Stomata O2 LM
Leaf cross section
Interior cell
TEM

8. Fig. 7-02a
Vein
CO2 O2
Stomata
Leaf cross section

9. Chloroplast Inner membrane Outer membrane Granum Stroma Thylakoid
Fig. 7-02b
Inner
membrane
Chloroplast
Outer
membrane
Granum
Stroma
Thylakoid
TEM

10. Fig
H2O
Light
Chloroplast
Light
reactions
ATP
NADPH O2

11. H2O CO2 Light Calvin Light cycle reactions O2 NADP+ ADP P ATP NADPH
Fig
H2O
CO2
Light
Chloroplast
NADP+
ADP P
Calvin
cycle
Light
reactions
ATP
NADPH O2
Sugar
(C6H12O6)

12. Micro- waves Radio waves Infrared
Fig. 7-04
Increasing wavelength
10–5 nm
10–3 nm
1 nm
103 nm
106 nm
1 m
103 m
Micro-
waves
Radio
waves
Gamma
rays
X-rays UV
Infrared
Visible light
500
600
700
750
Wavelength (nm)
Wavelength =
580 nm

13. Wavelength of light (nm)
Fig. 7-05
Light
Prism
Microscope slide
Bacterium
Number of bacteria
Algal cells
400
500
600
700
Wavelength of light (nm)

14. Light Reflected light Chloroplast Absorbed light Transmitted light
Fig. 7-06
Light
Reflected
light
Chloroplast
Absorbed
light
Transmitted
light

15. Light Reflected light Chloroplast Absorbed light Transmitted light
Fig. 7-06a
Light
Reflected
light
Chloroplast
Absorbed
light
Transmitted
light

16. Fig. 7-06b

17. Fig. 7-07

18. (a) Absorption Excited state of a photon Light Heat
Fig. 7-08
(a) Absorption
of a photon
Excited state e–
Light
Heat
Light (fluorescence)
Photon
Ground state
Chlorophyll
molecule
(b) Fluorescence
of a glow stick

19. e– Excited state Light Heat Light (fluorescence) Photon Ground state
Fig. 7-08a
Excited state e–
Light
Heat
Light (fluorescence)
Photon
Ground state
Chlorophyll
molecule
(a) Absorption of a photon

20. (b) Fluorescence of a glow stick
Fig. 7-08b
(b) Fluorescence of a glow stick

21. Fig
Chloroplast

22. Fig
Chloroplast
Pigment molecules
Thylakoid
membrane

23. Chloroplast Thylakoid membrane Photosystem Transfer of energy
Fig
Chloroplast
Pigment molecules
Photon
Primary
electron
acceptor
Reaction
center
Electron
transfer
Reaction-
center
chlorophyll a
Antenna pigment
molecules
Transfer of energy
Thylakoid
membrane
Photosystem

24. Primary electron acceptor Light Reaction- center chlorophyll H2O
Fig
Primary
electron
acceptor 2e –
Light
Reaction-
center
chlorophyll
H2O 2e –
Water-splitting
photosystem
2 H + + O2

25. Electron transport chain
Fig
Energy
to make
ATP
Primary
electron
acceptor 2e –
Electron transport chain
Light
Reaction-
center
chlorophyll
H2O 2e –
Water-splitting
photosystem
2 H + + O2

26. Electron transport chain
Fig
Primary
electron
acceptor
NADP 2e –
Energy
to make
ATP
Primary
electron
acceptor 2e –
NADPH 2e –
Light
Electron transport chain
Light
Reaction-
center
chlorophyll
Reaction-
center
chlorophyll
NADPH-producing
photosystem
H2O 2e –
Water-splitting
photosystem
2 H + + O2

27. – Fig. 7-11 To Calvin cycle Light Light Stroma ATP Thylakoid synthase
NADPH
ATP
ADP  P
NADP H
Stroma
Electron transport chain
Thylakoid
membrane
Photosystem
Photosystem
ATP
synthase
Inside thylakoid
Electron flow 2e – H H
H2O H H H+ O2

28. – To Calvin cycle Light Light Stroma ATP Thylakoid synthase membrane
Fig. 7-11a
To Calvin cycle
Light H
Light
NADPH
ATP
ADP  P
NADP H
Stroma
Electron transport chain
Thylakoid
membrane
Photosystem
Photosystem
ATP
synthase
Inside thylakoid
Electron flow 2e – H H
H2O H H H O2

29. – – – – – – – ATP NADPH Water-splitting photosystem NADPH-producing
Fig. 7-12 e –
ATP e – e –
NADPH e – e – e –
Photon e –
Photon
Water-splitting
photosystem
NADPH-producing
photosystem

30. Three-carbon molecule
Fig
CO2 (from air) P
RuBP sugar
Three-carbon molecule P P
Calvin
cycle

31. Three-carbon molecule
Fig
CO2 (from air) P
RuBP sugar
Three-carbon molecule
ATP P P
ADP  P
Calvin
cycle
NADPH
NADP
G3P sugar P

32. Three-carbon molecule
Fig
CO2 (from air) P
RuBP sugar
Three-carbon molecule
ATP P P
ADP  P
Calvin
cycle
NADPH
NADP
G3P sugar
G3P sugar P P
G3P sugar
Glucose (and
other organic
compounds) P

33. Three-carbon molecule
Fig
CO2 (from air) P
RuBP sugar
Three-carbon molecule
ATP P P
ADP  P
ADP  P
Calvin
cycle
NADPH
ATP
NADP
G3P sugar
G3P sugar P P
G3P sugar
Glucose (and
other organic
compounds) P

34. C4 Pathway (example: sugarcane) CAM Pathway (example: pineapple)
Fig. 7-14
ALTERNATIVE PHOTOSYNTHETIC PATHWAYS
C4 Pathway
(example: sugarcane)
CAM Pathway
(example: pineapple)
Cell
type 1
CO2
CO2
Night
Four-carbon
compound
Four-carbon
compound
CO2
CO2
Cell
type 2
Calvin
cycle
Calvin
cycle
Sugar
Sugar
Day
C4 plant
CAM plant

35. C4 Pathway (example: sugarcane)
Fig. 7-14a
C4 Pathway
(example: sugarcane)
Cell
type 1
CO2
Four-carbon
compound
CO2
Cell
type 2
Calvin
cycle
Sugar
C4 plant

36. CAM Pathway (example: pineapple)
Fig. 7-14b
CAM Pathway
(example: pineapple)
CO2
Night
Four-carbon
compound
CO2
Calvin
cycle
Sugar
Day
CAM plant

37. Light energy 6 CO2 6 H2O C6H12O6 6 O2 Photo- synthesis Carbon dioxide
Fig. 7-UN01
Light
energy
6 CO2
6 H2O
C6H12O6
6 O2
Photo-
synthesis
Carbon
dioxide
Water
Glucose
Oxygen gas

38. Calvin cycle Light reactions
Fig. 7-UN02
CO2
H2O
Light
NADP
ADP P
Calvin
cycle
Light
reactions
ATP
NADPH
Sugar O2
(C6H12O6)

39. Calvin cycle Light reactions
Fig. 7-UN03
CO2
Light
H2O
NADP
ADP P
Calvin
cycle
Light
reactions
ATP
NADPH
Sugar O2
(C6H12O6)

40. Light energy Photosynthesis Carbon dioxide Water Glucose Oxygen gas
Fig. 7-UN04
Light energy
6 CO2
6 H2O
C6H12O6
6 O2
Photosynthesis
Carbon
dioxide
Water
Glucose
Oxygen
gas

41. H2O Chloroplast CO2 Light Stack of thylakoids NADP+ Stroma ADP Calvin
Fig. 7-UN05
Chloroplast
CO2
Light
H2O
Stack of
thylakoids
NADP+
Stroma
ADP P
Calvin
cycle
Light
reactions
ATP
NADPH O2
Sugar
(C6H12O6)

42. – – NADP+ ADP ATP NADPH Photon Photon H2O NADPH-producing photosystem
Fig. 7-UN06
NADP+ e – 2e –
ADP
ATP
acceptor e – 2e –
acceptor 2e
NADPH –
Photon
Electron transport chain
Photon
Chlorophyll
H2O
Chlorophyll
NADPH-producing
photosystem 2e –
Water-splitting
photosystem
2 H 2 1 + O2 +

43. CO2 ATP ADP P Calvin cycle NADPH NADP G3P Glucose and other compounds
Fig. 7-UN07
CO2
ATP
ADP P
Calvin
cycle
NADPH
NADP
G3P
Glucose and
other compounds P