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Announcements
&
Assignments
Lecture
Objectives
Photosynthesis
Web
Resources
Basic
Reaction
of Photosynthesis
Biomes
and
Productivity
The Big
Picture
Light
Dependent
Reactions
Calvin
Cycle
Summary
(What to Know)
Lecture
Syllabus
IB 100/101 Home
Page
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Text Readings in Life, Lewis et. al.
Chapter 3, Life's Chemistry (the sections on proteins &
enzymes),
Pages 35-39
Chapter 6, The Energy of Life, Pages 92-101
Chapter 7, Photosynthesis, Pages 105-117
The "Reviewing Concepts" boxes are valuable summaries of the
main
ideas in these sections of the text.
You have open access (no log-in or password needed) to
instructional
materials on the Text web site. Select the text chapter you want and
use the links to the e-learning modules or other available materials.
There is also a collection of study materials called the "Essential
Study Partner" that you may find useful.
Web Crossing
You may also ask questions and see answers to your classmates'
questions in Web Crossing in the "Talk to Sarah and Ed" discussion.
Objectives:
The content of today's lecture will help you complete this
assignment:
After studying this material you should be able to:
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Explain how the process of photosynthesis is involved in
net primary
production and an increase in plant biomass.
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Draw a sketch of a chloroplast, identify the structural
components,
and indicate where the photosynthetic energy transformations of the
light reactions and the Calvin cycle take place.
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List the inputs (raw materials) and outputs (products) of
the light
dependent reactions and the Calvin Cycle.
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Describe how the light-dependent reactions and Calvin
Cycle
are
chemically and energetically linked.
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Describe the role of enzymes in the process of
photosynthesis.
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Explain how the following factors affect photosynthesis:
stomatal
opening, temperature, light intensity, water availability, and CO2
availability.
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Explain what the plant does with the carbohydrate that is
produced
by photosynthesis.
Initiative
will put Illinois at forefront of farm bioenergy production
A collection of animations for Photosythesis from the Smith College Biology 231 Web Page
Photosynthesis
| CO2
+ |
H2O
+ |
--- |
Light
Energy |
---> |
Simple
Carbohydrates
(Organic Compounds) |
+ O2
+ |
Heat |
(Cellular) Respiration
| O2
+ |
Simple
Carbohydrates
(Organic Compounds) |
----> |
Heat + |
Usable
Chemical
Energy
(ATP) |
+
CO2 |
+
H2O |
Lecture activity
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Get into groups with one or two other students. Each
person
will
turn in her/his own paper.
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From your understanding of biomes and the basic equation
of
photosynthesis, write down the factors you predict to be limiting
the
rate of photosynthesis and Net Primary Productivity (NPP) for trees
in:
Biomes of North America
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Taiga (boreal forests - violet area on the map)
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Deserts (red area on the map)
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Tropical forests (dark green area in Mexico and
central america)
PRINT YOUR NAME and SIGN your name on the top of your paper.
Pass your paper to the aisle when asked to do so.
Photosynthesis, the big picture
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What is sunlight? (Text, Pg. 109, fig. 7.3)
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Why are plants green? (Text, Pg. 110, fig.
7.4)
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Plant Cell - Text, page 54 fig. 4.10
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Where does photosynthesis happen? (Text, Pg. 112,
fig. 7.7)
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Chlorophyll (Text, Pg. 110, fig. 7.6)
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Chlorophyll, accessory pigments, and reaction
centers (Photosystems II and I) (Text, Pg. 112, fig. 7.8)
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Light Absorbance by pigments (Text, Pg. 110, fig.
7.5 - modified)
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Photosynthesis: Summary (Text, Pg. 113, fig.
7.9)
The Light-Dependent
Reactions
The conversion of light energy from the sun into
usable chemical energy (ATP & NADPH) in the thylakoid
membrane of
the chloroplasts of plants
The Calvin Cycle
The production of carbohydrate (sugar) from CO2, using the
energy of ATP and
NADPH produced by the light dependent reactions of Photosynthesis
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Photosynthesis: light reactions and Calvin Cycle
(Text fig. 7.9, page 113)
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Calvin Cycle (Text, Pg. 117, fig. 7.12)
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Cyclic series of enzyme reactions
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Addition of CO2 to a 5 carbon compound (RuBP)
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Rubisco (the enzyme that fixes CO2)
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Enzyme action (Text, Pg. 100, fig. 6.16)
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Animation of the Calvin Cycle from Smith College
Summary of energy transformation enzyme reactions in the
Calvin Cycle
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Addition (fixing) of gaseous CO2 to RUBP, a 5 carbon
compound in the
stroma of chloroplasts.
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Energy input from ATP
(ATP from the light reactions ---> ADP +
Phosphate back to the light reactions)
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Addition of H+ and energy from NADPH
(NADPH from the light
reactions ---> NADP back to the light reactions
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Production of carbohydrates for storage, transport, and
biosynthesis
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Recycling of 5 carbon compound (RUBP) to fix more CO2
Plant anatomy: structural and functional integration of
cellular
activity
This is what it all distills down to - (Lewis, Pg. 113, fig.
7.9)
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