1. Adapted from Mader by D Herder
Photosynthesis
Biology Sylvia S. Mader Michael Windelspecht
Chapter 7 Photosynthesis
Lecture Outline
Adapted from Mader by D Herder

2. Photosynthetic Organisms
Biology, 9th ed,Sylvia Mader
Chapter 07
Photosynthetic Organisms
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
mosses
trees
garden plants
kelp
Euglena
cyanobacteria
diatoms
(Moss): © Steven P. Lynch; (Trees): © Digital Vision/PunchStock; (Kelp): © Chuck Davis/Stone/Getty Images; (Cyanobacteria): © Sherman Thomas/Visuals Unlimited; (Diatoms): © Ed Reschke/Peter Arnold; (Euglena): © T.E. Adams/Visuals Unlimited; (Sunflower): © Royalty-Free/Corbis

3. Biology, 9th ed,Sylvia Mader
Chapter 08
Photosynthesis
Cellular Respiration
Oxidation
Solar Energy
glucose
6H2O +
6CO2
6O2 +
C6H12O6
Reduction
LEOxidized and GEReduced
H+ + e- -Therefore H atoms are removed electrons are also removed.

4. Biology, 9th ed,Sylvia Mader
Chapter 08
NADP+
Cellular Respiration
Coenzyme of oxidation-reduction
Electron Carrier

5. Photosynthesis
Light Reaction
Calvin Cycle

6. Leaves and Photosynthesis
Biology, 9th ed,Sylvia Mader
Chapter 07
Leaves and Photosynthesis
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
cuticle
upper
epidermis
Leaf cross section
mesophyll
lower
epidermis
CO2 O2
leaf vein
stoma
outer membrane
inner membrane
stroma
stroma
granum
Chloroplast
37,000
thylakoid space
thylakoid membrane
Grana
independent thylakoid
in a granum
overlapping thylakoid
in a granum
© Dr. George Chapman/Visuals Unlimited

7. Biology, 9th ed,Sylvia Mader
Chapter 07
Light Reactions
Photosynthesis
Take place in the presence of light
Energy‑capturing reactions
Chlorophyll absorbs solar energy
This energizes electrons
Electrons move down an electron transport chain
Pumps H+ into thylakoids
Used to make ATP out of ADP and NADPH out of NADP

8. Overview of Photosynthesis
Biology, 9th ed,Sylvia Mader
Overview of Photosynthesis
Chapter 07
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
thylakoid
membrane

9. Overview of Photosynthesis
Biology, 9th ed,Sylvia Mader
Overview of Photosynthesis
Chapter 07
Slide #9
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
solar
energy
thylakoid
membrane

10. Overview of Photosynthesis
Biology, 9th ed,Sylvia Mader
Overview of Photosynthesis
Chapter 07
Slide #10
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
solar
energy
ADP +
NADP+
Light
reactions
thylakoid
membrane

11. Overview of Photosynthesis
Biology, 9th ed,Sylvia Mader
Overview of Photosynthesis
Chapter 07
Slide #11
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
solar
energy
ADP +
NADP+
Light
reactions
NADPH
ATP
thylakoid
membrane O2

12. Photosynthesis Releases Oxygen
Biology, 9th ed,Sylvia Mader
Chapter 07
Photosynthesis Releases Oxygen
Photosynthesis

13. Solar Energy Converters
Biology, 9th ed,Sylvia Mader
Chapter 07
Solar Energy Converters
Photosynthesis
Pigments:
Chemicals that absorb certain wavelengths of light
Wavelengths that are not absorbed are reflected/transmitted
Absorption Spectrum
Pigments found in chlorophyll absorb various portions of visible light
Chlorophyll is green because it absorbs much of the reds and blues of white light

14. Photosynthetic Pigments
Biology, 9th ed,Sylvia Mader
Chapter 07
Photosynthetic Pigments
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Increasing wavelength
chlorophyll a
chlorophyll b
carotenoids
Increasing energy
Gamma
rays
Micro-
waves
Radio
waves
X rays UV
Infrared
Relative Absorption
visible light
500
600
750
380
500
600
750
Wavelengths (nm)
Wavelengths (nm)
a. The electromagnetic spectrum includes visible light.
b. Absorption spectrum of photosynthetic pigments.

15. Organization of a Thylakoid
Biology, 9th ed,Sylvia Mader
Organization of a Thylakoid
Chapter 07
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
CO2
solar
energy
ADP + P
NADP +
Calvin
cycle
reactions
Light
reactions
NADPH
ATP
thylakoid
membrane
thylakoid membrane
thylakoid
thylakoid space O2
CH2O
granum
photosystem II
electron transport
chain H+
stroma
photosystem I
NADP
reductase H+ Pq e- e- e-
NADP+
NADPH e- e- H+ H+
H2O 2 1 H+ + O2 2 H+ H+ H+ H+ H+
ATP synthase H+ H+ H+ H+ H+ H+
ATP
Thylakoid
space H+ H+ H+
chemiosmosis P
+ ADP
Stroma

16. Plants as Solar Energy Converters
Biology, 9th ed,Sylvia Mader
Chapter 07
Plants as Solar Energy Converters
Photosynthesis
Noncyclic pathway
Thylakoid membrane
Uses two photosystems, PS I and PS II
PS II captures light energy
Causes an electron to be ejected from the reaction center (chlorophyll a)
Electron travels down electron transport chain to PS I
Replaced with an electron from water, which is split to form O2 and H+
This causes H+ to accumulate in thylakoid chambers
The H+ gradient is used to produce ATP
PS I captures light energy and ejects an electron
The electron is transferred permanently to a molecule of NADP+
Causes NADPH production

17. Noncyclic Electron Pathway
Biology, 9th ed,Sylvia Mader
Chapter 07
Slide #17
Noncyclic Electron Pathway
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
CO2
solar
energy
ADP+ P
NADP+
Calvin
cycle
sun
Light
reactions
sun
NADPH
ATP
electron
acceptor
thylakoid
membrane
electron
acceptor O
CH2O
energy level e– e– e–
electron transport chain (ETC) e–
NADP+ H +
ATP e– e–
NADPH
reaction center
reaction center
pigment
complex
pigment
complex
Photosystem I
Photosystem II e–
CO2
CH2O
H2O
Calvin cycle
reactions
2H+ 1 – O2 2

18. Calvin Cycle Reactions
Take place in the stroma
CO2 is reduced to a carbohydrate
Use ATP and NADPH to produce carbohydrate

19. Overview of Photosynthesis
Biology, 9th ed,Sylvia Mader
Overview of Photosynthesis
Chapter 07
Slide #19
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
CO2
solar
energy
ADP + P
NADP+
Calvin
cycle
reactions
Light
reactions
NADPH
ATP
stroma
thylakoid
membrane
CH2O O2

20. Biology, 9th ed,Sylvia Mader
Chapter 07
Carbon Dioxide Fixers
Photosynthesis
Series of reactions that use atmospheric carbon dioxide to produce carbohydrates
Known as C3 photosynthesis
Involves three stages:
Carbon dioxide fixation
Carbon dioxide reduction
RuBP regeneration
CO2 is “fixed” into a carbohydrate

21. The Calvin Cycle Reactions
Biology, 9th ed,Sylvia Mader
The Calvin Cycle Reactions
Chapter 07
Slide #21
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
H2O
CO2
solar
energy
ADP + P
NADP +
Calvin
cycle
Light
reactions
NADPH
ATP
Metabolites of the Calvin Cycle
stroma
RuBP ribulose-1,5-bisphosphate O2
CH2O
3PG phosphoglycerate
3CO2
intermediate
BPG ,3-bisphosphoglycerate
G3P glyceraldehyde-3-phosphate
3 C6
6 3PG C3
3 RuBP C5
CO2
fixation 6
ATP
CO2
reduction
These ATP and
NADPH molecules were produced by the light reactions.
Calvin cycle
3 ADP + 3 P
6 ADP + 6 P
regeneration
of RuBP
6 BPG C3
These ATP
molecules were
produced by the
light reactions. 3
ATP
5 G3P C3
6 NADPH
6 G3P C3
6 NADP+
net gain of one G3P
Other organic molecules
Glucose

22. Plants as Carbon Dioxide Fixers
Biology, 9th ed,Sylvia Mader
Chapter 07
Plants as Carbon Dioxide Fixers
Photosynthesis
Importance of the Calvin Cycle:
G3P (glyceraldehyde-3-phosphate) can be converted to many other molecules
The hydrocarbon skeleton of G3P can form
Fatty acids and glycerol to make plant oils
Glucose phosphate (simple sugar)
Fructose (which with glucose = sucrose)
Starch and cellulose
Amino acids

23. © Herman Eisenbeiss/Photo Researchers, Inc.
Biology, 9th ed,Sylvia Mader
Fate of G3P
Chapter 07
Slide #23
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
G3P
fatty acid
synthesis
amino acid
synthesis
glucose
phosphate +
fructose
phosphate
Sucrose (in leaves,
fruits, and seeds)
Starch (in roots
and seeds)
Cellulose (in trunks,
roots, and branches)
© Herman Eisenbeiss/Photo Researchers, Inc.

24. Other Types of Photosynthesis
Biology, 9th ed,Sylvia Mader
Chapter 07
Other Types of Photosynthesis
Photosynthesis
In hot, dry climates
Stomata must close to avoid wilting
CO2 decreases and O2 increases
O2 starts combining with RuBP, leading to the production of CO2
This is called photorespiration
C4 plants solve the problem of photorespiration
Fix CO2 to PEP (a C3 molecule)
The result is oxaloacetate, a C4 molecule
In hot & dry climates
C4 plants avoid photorespiration
Net productivity is about 2-3 times greater than C3 plants
In cool, moist environments, C4 plants can’t compete with C3 plants

25. Chloroplast Distribution in C4 vs. C3 Plants
Biology, 9th ed,Sylvia Mader
Chapter 07
Chloroplast Distribution in C4 vs. C3 Plants
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
C3 Plant
C4 Plant
mesophyll
cells
bundle sheath
cell
vein
vein
bundle sheath
cell
stoma
stoma

26. CO2 Fixation in C3 and C4 Plants
Biology, 9th ed,Sylvia Mader
CO2 Fixation in C3 and C4 Plants
Chapter 07
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
CO2
RuBP
Calvin
cycle
3PG
G3P
mesophyll cell
a. CO2 fixation in a C3 plant, wildflowers
CO2
mesophyll
cell C4
bundle
sheath
cell
CO2
Calvin
cycle
G3P
b. CO2 fixation in a C4 plant, corn, Zea mays
a: © Brand X Pictures/PunchStock RF; b: Courtesy USDA/Doug Wilson, photographer

27. CO2 Fixation in a CAM Plant
Biology, 9th ed,Sylvia Mader
Chapter 07
CO2 Fixation in a CAM Plant
Photosynthesis
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
night
CO2 C4
day
CO2
Calvin
cycle
G3P
CO2 fixation in a CAM plant, pineapple, Ananas comosus
© S. Alden/PhotoLink/Getty Images.

28. Other Types of Photosynthesis
Biology, 9th ed,Sylvia Mader
Chapter 07
Other Types of Photosynthesis
Photosynthesis
Each method of photosynthesis has advantages and disadvantages
Depends on the climate
C4 plants most adapted to:
High light intensities
High temperatures
Limited rainfall
C3 plants better adapted to
Cold (below 25°C)
High moisture
CAM plants are better adapted to extreme aridity
CAM occurs in 23 families of flowering plants
Also found among nonflowering plants