BIOLOGY Chapter 7: 10th Edition Photosynthesis
Transcript of BIOLOGY Chapter 7: 10th Edition Photosynthesis
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Sylv
ia S
. Ma
der
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BIOLOGY 10th Edition
Insert figure 7.4 here
1
Photosynthesis
Chapter 7: pp. 117-132
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thylakoid
membrane
NADP+
NADP
ATP
Calvin
Cycle
reactions Light
reactions
Solar
energy
H2O CO2
CH2O
O2
stroma thylakoid
membrane
NADP+
ADP + P
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2
Outline
Photosynthetic Organisms
Photosynthetic Process
Plants as Solar Energy Converters
Photosynthesis
Light Reactions
Noncyclic
Cyclic
Calvin Cycle Reactions
Fixation of Carbon Dioxide
C4
CAM
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Photosynthetic Organisms
All life on Earth depends on a star 93 million miles away (solar energy)
Photosynthetic organisms (algae, plants, and cyanobacteria) transform solar energy into carbohydrates Called autotrophs because they produce their own
food. Photosynthesis:
A process that captures solar energy Transforms solar energy into chemical energy Energy ends up stored in a carbohydrate
Photosynthesizers produce all food energy Only 42% of sun’s energy directed towards Earth reaches surface Of this, only 2% is captured by photosynthesizers Of this, only a tiny portion results in biomass
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Photosynthetic Organisms
mosses
garden plants trees
cyanobacteria Euglena diatoms kelp
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(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
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Photosynthesis
Photosynthesis takes place in the green portions of plants
Leaf of flowering plant contains mesophyll tissue
Cells containing chloroplasts
Specialized to carry on photosynthesis
Raw materials for photosynthesis are carbon dioxide and water Roots absorb water that moves up vascular tissue
Carbon dioxide enters a leaf through small openings called stomata
Diffuses into chloroplasts in mesophyll cells
In stroma, CO2 combined with H2O to form C6H12O6 (sugar)
Energy supplied by light
Chlorophyll and other pigments absorbs solar energy and energize electrons prior to reduction of CO2 to a carbohydrate
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Leaves and Photosynthesis
Grana
Chloroplast
Leaf cross section
granum
independent thylakoid
in a granum
mesophyll
lower
epidermis
upper
epidermis
cuticle
leaf vein outer membrane
inner membrane
thylakoid space
thylakoid membrane
overlapping thylakoid
in a granum
CO2
O2
stoma
stroma stroma
37,000
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Photosynthetic Pigments
Pigments:
Chemicals that absorb some colors in rainbow more than others
Colors least absorbed reflected/transmitted most
Absorption Spectra
Pigments found in chlorophyll absorb various portions of visible light
Graph showing relative absorption of the various colors of the rainbow
Chlorophyll is green because it absorbs much of the reds and blues of white light
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Photosynthetic Pigments
Wavelengths (nm)
Increasing wavelength
a. The electromagnetic spectrum includes visible light. b. Absorption spectrum of photosynthetic pigments.
Increasing energy
Gamma
rays X rays UV Infrared
Micro-
waves
Radio
waves
visible light
500 600 750
Wavelengths (nm)
380 500 600 750
chlorophyll a
chlorophyll b
carotenoids
Rela
tive
Ab
so
rpti
on
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Photosynthesis Releases Oxygen
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© B. Runk/ S. Schoenberger/ Grant Heilman Photography
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Photosynthetic Reactions: Two Sets of
Reaction
Light Reaction – takes place only in the presence of light
They are the energy-capturing reactions
Chlorophyll absorbs solar energy
This energizes electrons
Electrons move down electron transport chain
Pumps H+ into thylakoids
Used to make ATP out of ADP and NADPH out of NADP
Calvin Cycle Reaction takes place in stroma
CO2 is reduced to a carbohydrate
Use ATP and NADPH produced carbohydrate
They are synthetic reactions
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Photosynthesis Overview
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thylakoid
membrane
ADP + P
NADP+
NADP
ATP
Calvin
Cycle
reactions Light
reactions
Solar
energy
H2O CO2
CH2O O2
stroma
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Photosynthetic Reactions:
The Light Reactions
Light reactions consist of two alternate electron pathways:
Noncyclic electron pathway
Cyclic electron pathway
Capture light energy with photosystems
Pigment complex helps collect solar energy like an antenna
Occur in the thylakoid membranes
Both pathways produce ATP
The noncyclic pathway also produces NADPH
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Light Reactions:
The Noncyclic Electron Pathway
Takes place in 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 causes H+ to concentrate in thylakoid chambers
Which causes ATP production
PS-I captures light energy and ejects an electron Transferred permanently to a molecule of NADP+
Causes NADPH production
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Light Reactions:
Noncyclic Electron Pathway
NADPH
2H+
H2O
electron
acceptor
NADP+
H +
pigment
complex
pigment
complex
reaction center reaction center
sun sun
Photosystem II
Photosystem I
NADPH
thylakoid
membrane
solar
energy
Calvin
cycle
ATP
Calvin cycle
reactions
en
erg
y l
evel
CO2 CH2O
Light
reactions
O2 1 2
ADP+ P
NADP+
e-
e-
e
e
e e-
e-
electron
acceptor CH2O
H2O CO2
O2
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Light Reactions:
The Cyclic Electron Pathway
Uses only photosystem I (PS-I)
Begins when PS I complex absorbs solar energy
Electron ejected from reaction center
Travels down electron transport chain
Causes H+ to concentrate in thylakoid chambers
Which causes ATP production
Electron returns to PS-I (cyclic)
Pathway only results in ATP production
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Organization of the Thylakoid Membrane
PS II: Consists of a pigment complex and electron-acceptors Adjacent to an enzyme that oxidizes water Oxygen is released as a gas
Electron transport chain: Consists of cytochrome complexes Carries electrons between PS II and PS I Also pump H+ from the stroma into thylakoid space
PS I: Has a pigment complex and electron acceptors Adjacent to enzyme that reduces NADP+ to NADPH
ATP synthase complex: Has a channel for H+ flow Which drives ATP synthase to join ADP and Pi
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Organization of a Thylakoid
stroma
P
NADPH
Calvin
cycle
reactions
ATP
thylakoid
photosystem II
Stroma
NADP
reductase
NADP+
H+
H +
Pq
H+
H+
ATP synthase
chemiosmosis
electron transport
chain
photosystem I
granum
thylakoid membrane
thylakoid space
stroma
ATP
NADPH
+ADP P
O2
2 + 2 1
Thylakoid
space
e-
H2O CO2
O2 CH2O
solar
energy
thylakoid
membrane
Light
reactions
ADP+
NADP+
NADP+
NADP+
NADP+
e- e-
H+
H+
H+
H+ H+
e-
H2O
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ATP Production
Thylakoid space acts as a reservoir for hydrogen ions (H+)
Each time water is oxidized, two H+ remain in the thylakoid space
Electrons yield energy
Used to pump H+ across thylakoid membrane
Move from stroma into the thylakoid space
Flow of H+ back across thylakoid membrane
Energizes ATP synthase
Enzymatically produces ATP from ADP + Pi
This method of producing ATP is called chemiosmosis
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Ecology Focus: Tropical Rain Forests
Equatorial; Temp>26ºC; Rainfall>200cm & uniform
Most plants woody; many vines and epiphytes; little or no undergrowth
Contribute greatly to CO2 uptake, slowing global warming
Development has reduced them from 14% to 6% of Earth’s surface
Deforestation adds 20-30% of atmospheric CO2, but also removes CO2 sink
Increasing temps also reduce productivity
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Ecology Focus: Global Warming and
Tropical Rain Forests
b.
-0.5
0.5
1.5
2.5
3.5
4.5
5.5
1860 1940
minimum likely increase
maximum likely increase
2020 2060 2100
Me
an
Glo
ba
l T
em
pe
ratu
re C
ha
ng
e (
°C)
Y ear
a.
most probable temperature
increase for 2 × CO2
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Calvin Cycle Reactions:
Overview of C3 Photosynthesis
A cyclical series of reactions
Utilizes atmospheric carbon dioxide to produce carbohydrates
Known as C3 photosynthesis
Involves three stages:
Carbon dioxide fixation
Carbon dioxide reduction
RuBP regeneration
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Calvin Cycle Reactions: Carbon Dioxide
Fixation
CO2 is attached to 5-carbon RuBP molecule
Result in a 6-carbon molecule
This splits into two 3-carbon molecules (3PG)
Reaction accelerated by RuBP Carboxylase (Rubisco)
CO2 now “fixed” because it is part of a carbohydrate
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The Calvin Cycle: Fixation of CO2
RuBP ribulose-1,5-bisphosphate
3PG 3-phosphoglycerate
BPG 1,3-bisphosphoglycerate
G3P glyceraldehyde-3-phosphate
Metabolites of the Calvin Cycle
These ATP and
NADPH molecules
were produced by
the light reactions.
3 ADP + 3 P 6 ADP + 6 P
These ATP
molecules were
produced by the
light reactions.
net gain of one G3 P
Glucose
CO2
fixation
CO2
reduction
regeneration
of RuBP
intermediate
6 NADPH+
5 G3P C3
3 RuBP C5
6 G3P C3
6 BPG C3
3 CO2
Other organic molecules
6 NADPH 3
ATP
6 ATP
Calvin cycle
6 3PG C3
3
C6
CH2O
stroma
H2O CO2
ADP+ P
NADPH
ATP
O2
2
solar
energy
Light
reactions
Calvin
cycle
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Calvin Cycle Reactions: Carbon Dioxide
Reduction
3PG reduced to BPG
BPG then reduced to G3P
Utilizes NADPH and some ATP produced
in light reactions
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The Calvin Cycle: Reduction of CO2
NADPH NADP+
ATP
3PG G3P BPG
ADP + P
As 3PG becomes G3P, ATP becomes
ADP + and NADPH becomes NADP+ P
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Calvin Cycle Reactions:
Regeneration of RuBP
RuBP used in CO2 fixation must be replaced
Every three turns of Calvin Cycle,
Five G3P (a 3-carbon molecule) used
To remake three RuBP (a 5-carbon molecule)
5 X 3 = 3 X 5
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The Calvin Cycle: Regeneration of RuBP
As five molecules of G3P become three
molecules of RuBP, three molecules of ATP
become three molecules of ADP + .
3 ATP
5 G3P 3 RuBP
3 ADP + P
P
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Importance of 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
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Fate of G3P
G3P
starch
fatty acid
synthesis glucose
phosphate
+
fructose
phosphate
cellulose sucrose
amino acid
synthesis10
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C4 Photosynthesis
In hot, dry climates Stomata must close to avoid wilting
CO2 decreases and O2 increases
O2 starts combining with RuBP instead of CO2
Photorespiration, a problem solve in C4 plants
In C4 plants Fix CO2 to PEP a C3 molecule
The result is oxaloacetate, a C4 molecule
In hot & dry climates Avoid photorespiration
Net productivity about 2-3 times C3 plants
In cool, moist, can’t compete with C3
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Chloroplast Distribution in C4 vs. C3 Plants
C3 Plant C4 Plant
bundle sheath
cell
bundle sheath
cell
mesophyll
cells
vein vein stoma stoma
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CO2 Fixation in C4 vs. C3 Plants
Calvin
cycle
CO2
G3P
3PG
RuBP
mesophyll cell
CO2
CO2
C4
G3
bundle
sheath
cell
mesophyll
cell
a. CO2 fixation in a C3 plant, blue columbine, Aquilegia
caerulea
b. CO2 fixation in a C4 plant, corn, Zea mays
Calvin
cycle
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CAM Photosynthesis
Crassulacean-Acid Metabolism
CAM plants partition carbon fixation by time
During the night
CAM plants fix CO2
Forms C4 molecules,
Stored in large vacuoles
During daylight
NADPH and ATP are available
Stomata closed for water conservation
C4 molecules release CO2 to Calvin cycle
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CO2 Fixation in a CAM Plant
Calvin
cycle
CO2
CO2
C4
G3P
CO2 fixation in a CAM plant, pineapple, Ananas
comosus
night
day
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Climatic Adaptation: 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 better adapted to extreme aridity CAM occurs in 23 families of flowering plants
Also found among nonflowering plants
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43
Review
Flowering Plants
Photosynthetic Pigments
Photosynthesis
Light Reactions
Noncyclic
Cyclic
Carbon Fixation
Calvin Cycle Reactions
C4
CAM
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Sylv
ia S
. Ma
der
Copyright © The McGraw Hill Companies Inc. Permission required for reproduction or display
PowerPoint® Lecture Slides are prepared by Dr. Isaac Barjis, Biology Instructor
BIOLOGY 10th Edition
Insert figure 7.4 here
44
Photosynthesis
Chapter 7: pp. 117-132
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
thylakoid
membrane
NADP+
NADP
ATP
Calvin
Cycle
reactions Light
reactions
Solar
energy
H2O CO2
CH2O
O2
stroma thylakoid
membrane
NADP+
ADP + P