Download - PHOTOSYNTHESIS
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PHOTOSYNTHESISUsing Light to Make Food
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Photosynthesis is the most important chemical process on earth because:
• It provides food for virtually all organisms
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Why study Photosynthesis?
• Impact on agriculture – making photosynthesis more efficient
• Impact on energy production• Control pollution• Electronics • Medicine
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BIG PICTURE:
Light energyLight energy is is used to make used to make sugarsugar and other and other food molecules food molecules from from carbon carbon dioxidedioxide andand waterwater
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Chemical Reaction
• 6 H2O + 6 CO2 ---------->
C6H12O6+ 6 O2
sunlightsunlight
Photosynthesis: An Overview of Photosynthesis (click)(click)
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Photosynthetic Plants
DiatomsDiatoms
(microscopic(microscopic))
Kelp (oceanKelp (ocean)) Forests Forests (land)(land)
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Leaf Structure
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1. Stoma in leaf lower epidermis
• Is the opening• carbon dioxide,
oxygen. And water in/out
Stomata (pl.)Stomata (pl.)
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Leaf Cross section2. Upper 2. Upper EpidermisEpidermis
4. Mesophyll-4. Mesophyll-cells cells containing containing chloroplastschloroplasts
3. Lower 3. Lower epidermisepidermis
Covers and protectsCovers and protects
see stoma –in lower see stoma –in lower epidermis onlyepidermis only
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4. Mesophyll
• = Palisade Layer + Spongy Layer
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5. CuticleWaxy, Waxy, waterproof waterproof coating (to retain coating (to retain HH22O)O)
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6. Palisade Layer
• cylindrical cells, vertically oriented, closely packed
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7. Spongy Layer
• cells are irregular in shape and loosely packed
OO22 ,CO ,CO2, 2, HH220 vapor 0 vapor
go in/outgo in/out
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8. Guard Cells Control Stomata
• Full guard cells (turgid) opens the stoma.
• Flaccid (lost water) guard cells, the stoma closes.
• ANIMATION: Stoma• What causes them to open?
What goes into the stomata?
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9. Plant Vein: Xylem + Phloem
XylemXylem-(-(blueblue) ) carries carries waterwater
Phloem Phloem (thicker cell (thicker cell
wallwall))-(-(yellowyellow)) carries foodcarries food
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10: Air Space Gas Flow Through Leaf
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Guard Cells Animations
• LabBench (guard cell animation)
• Another animation of opening and closing of guard cells
http://academic.kellogg.cc.mi.us/herbrandsonc/bio111/animations/0021.swf
(really nice)
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Water Movement
• LINK: http://www.sciencemag.org/sciext/vis2005/show/transpiration.swf
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Elodea Cell 400X
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Leaf cross section
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Photosynthesis in Elodea LabSee oxygen bubbles See oxygen bubbles coming from the Elodeacoming from the Elodea
What conditions are best?What conditions are best?
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Autotrophs and Heterotrophs
– Living things need energy to survive.– This energy comes from food. The energy in most
food comes from the sun.– Where do plants get the energy they need to
produce food?
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Autotrophs and Heterotrophs• Autotrophs and Heterotrophs
– Plants and some other types of organisms are able to use light energy from the sun to produce food.
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Autotrophs and Heterotrophs
• Organisms, such as plants, which make their own food, are called autotrophs.
• Organisms, such as animals, that must obtain energy from the foods they consume are heterotrophs.
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Chemical Energy and ATP
• Chemical Energy and ATP • Energy comes in many forms including light, heat, and
electricity. • Energy can be stored in chemical compounds, too.
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Organisms that make their own food are called….
1 2 3 4
25% 25%25%25%1.autotrophs.2.heterotrophs.3.decomposers.4.consumers.
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8-1
– Organisms that make their own food are called• autotrophs.• heterotrophs.• decomposers.• consumers.
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Most autotrophs obtain their energy from…..
1 2 3 4
25% 25%25%25%1.chemicals in the environment.2. sunlight.3. carbon dioxide in the air.4. other producers.
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8-1
– Most autotrophs obtain their energy from• chemicals in the environment.• sunlight.• carbon dioxide in the air.• other producers.
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Chemical Energy and ATP
• An important chemical compound that cells use to store and release energy is adenosine triphosphate, abbreviated ATP.
• ATP is used by all types of cells as their basic energy source.
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Chemical Energy and ATP
• ATP consists of:– adenine
– ribose (a 5-carbon sugar)
– 3 phosphate groups
Adenine
ATP
Ribose 3 Phosphate groups
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Chemical Energy and ATP
• The three phosphate groups are the key to ATP's ability to store and release energy.
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Chemical Energy and ATP– Storing Energy
• ADP has two phosphate groups instead of three.• A cell can store small amounts of energy by adding a
phosphate group to ADP.
ADPATP
Energy
Energy
Partiallycharged battery
Fullycharged battery
+
Adenosine Diphosphate (ADP) + Phosphate
Adenosine Triphosphate (ATP)
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Chemical Energy and ATP
– Releasing Energy• Energy stored in ATP is released by breaking the
chemical bond between the second and third phosphates.
P
ADP
2 Phosphate groups
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How is energy released from ATP?
1 2 3 4
25% 25%25%25%1. A phosphate is added.2. An adenine is added.3. A phosphate is removed.4. A ribose is removed
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8-1
– How is energy released from ATP?• A phosphate is added.• An adenine is added.• A phosphate is removed.• A ribose is removed.
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Chemical Energy and ATP
– What is the role of ATP in cellular activities?
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Chemical Energy and ATP The energy from ATP is needed for many cellular activities,
including active transport across cell membranes, protein synthesis and muscle contraction.
ATP’s characteristics make it exceptionally useful as the basic energy source of all cells.
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Using Biochemical Energy
• Using Biochemical Energy• Most cells have only a small amount of ATP, because it
is not a good way to store large amounts of energy.• Cells can regenerate ATP from ADP as needed by using
the energy in foods like glucose.
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How is it possible for most cells to function with only a small amount of ATP?
1 2 3 4
25% 25%25%25%1.Cells do not require ATP for
energy.2.ATP can be quickly regenerated
from ADP and P.3.Cells use very small amounts of
energy.4.ATP stores large amounts of
energy.
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8-1
– How is it possible for most cells to function with only a small amount of ATP?
• Cells do not require ATP for energy.
• ATP can be quickly regenerated from ADP and P.
• Cells use very small amounts of energy.
• ATP stores large amounts of energy.
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Compared to the energy stored in a molecule of glucose, ATP stores
1 2 3 4
25% 25%25%25%1.much more energy.2.much less energy.3.about the same amount of
energy.4.more energy sometimes and less
at others.
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8-1
– Compared to the energy stored in a molecule of glucose, ATP stores
• much more energy.• much less energy.• about the same amount of energy.• more energy sometimes and less at others.
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REVIEW
• Let’s review section 8.1
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Organisms that make their own food are called….
1 2 3 4
25% 25%25%25%1.autotrophs.2.heterotrophs.3.decomposers.4.consumers.
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Most autotrophs obtain their energy from…..
1 2 3 4
25% 25%25%25%1.chemicals in the environment.2. sunlight.3. carbon dioxide in the air.4. other producers.
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How is energy released from ATP?
….
1 2 3 4
25% 25%25%25%1. A phosphate is added.2. An adenine is added.3. A phosphate is removed.4. A ribose is removed
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How is it possible for most cells to function with only a
small amount of ATP?
1 2 3 4
25% 25%25%25%1.Cells do not require ATP for
energy.2.ATP can be quickly regenerated
from ADP and P.3.Cells use very small amounts of
energy.4.ATP stores large amounts of
energy.
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Compared to the energy stored in a molecule of glucose, ATP stores
1 2 3 4
25% 25%25%25%1.much more energy.2.much less energy.3.about the same amount of
energy.4.more energy sometimes and less
at others.
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8-2 Photosynthesis: An Overview
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8-2 Photosynthesis: An Overview
• The key cellular process identified with energy production is photosynthesis.
• Photosynthesis is the process in which green plants use the energy of sunlight to convert water and carbon dioxide into high-energy carbohydrates and oxygen.
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Investigating Photosynthesis
– What did the experiments of van Helmont, Priestley, and Ingenhousz reveal about how plants grow?
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Investigating Photosynthesis
• Investigating Photosynthesis• Research into photosynthesis began centuries ago.
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Investigating Photosynthesis
– Van Helmont’s Experiment• In the 1600s, Jan van Helmont wanted to find out if
plants grew by taking material out of the soil.• He determined the mass of a pot of dry soil and a small
seedling, planted the seedling in the pot, and watered it regularly.
• After five years, the seedling was a small tree and had gained 75 kg, but the soil’s mass was almost unchanged.
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Investigating Photosynthesis
• Van Helmont concluded that the gain in mass came from water because water was the only thing he had added.
• His experiment accounts for the “hydrate,” or water, portion of the carbohydrate produced by photosynthesis.
• But where does the carbon of the “carbo-” portion come from?
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Investigating Photosynthesis
• Although van Helmont did not realize it, carbon dioxide in the air made a major contribution to the mass of his tree.
• In photosynthesis, the carbon in carbon dioxide is used to make sugars and other carbohydrates.
• Van Helmont had only part of the story, but he had made a major contribution to science.
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8-2
– In van Helmont's experiment, most of the added mass of the tree came from
• soil and carbon dioxide.• water and carbon dioxide.• oxygen and carbon dioxide.• soil and oxygen.
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Investigating Photosynthesis
– Priestley’s Experiment• More than 100 years after van Helmont’s experiment,
Joseph Priestley provided another insight into the process of photosynthesis.
• Priestley took a candle, placed a glass jar over it, and watched as the flame gradually died out.
• He reasoned that the flame needed something in the air to keep burning and when it was used up, the flame went out. That substance was oxygen.
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Investigating Photosynthesis
• Priestley then placed a live sprig of mint under the jar and allowed a few days to pass.
• He found that the candle could be relighted and would remain lighted for a while.
• The mint plant had produced the substance required for burning. In other words, it had released oxygen.
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Investigating Photosynthesis
– Jan Ingenhousz• Later, Jan Ingenhousz showed that the effect observed
by Priestley occurred only when the plant was exposed to light.
• The results of both Priestley’s and Ingenhousz’s experiments showed that light is necessary for plants to produce oxygen.
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Investigating Photosynthesis
– The experiments performed by van Helmont, Priestley, and Ingenhousz led to work by other scientists who finally discovered that, in the presence of light, plants transform carbon dioxide and water into carbohydrates, and they also release oxygen.
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The Photosynthesis Equation
– What is the overall equation for photosynthesis?
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The Photosynthesis Equation
• The Photosynthesis Equation• The equation for photosynthesis is:
• 6CO2 + 6H2O C6H12O6 + 6O2
• carbon dioxide + water sugars + oxygen
Light
Light
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The Photosynthesis Equation
– Photosynthesis uses the energy of sunlight to convert water and carbon dioxide into high-energy sugars and oxygen.
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Plants use the sugars produced in photosynthesis to make….
1 2 3 4
25% 25%25%25%
1. oxygen.2. starches.3. carbon dioxide.4. protein.
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8-2
– Plants use the sugars produced in photosynthesis to make
• oxygen.• starches.• carbon dioxide.• protein.
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The raw materials required for plants to carry out photosynthesis are…
.
1 2 3 4
25% 25%25%25%
1. carbon dioxide and oxygen.2. oxygen and sugars.3. carbon dioxide and water.
4. oxygen and water..
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8-2
– The raw materials required for plants to carry out photosynthesis are
• carbon dioxide and oxygen.• oxygen and sugars.• carbon dioxide and water.• oxygen and water.
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Slide 71 of 20
8-1 Energy and Life The Photosynthesis Equation
O2
CO2
+H20
Sugar
ADPNADP+
Light energy
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Slide 72 of 20
8-1 Energy and Life Light and Pigments
What is the role of light and chlorophyll in photosynthesis?
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Slide 73 of 20
8-1 Energy and Life Light and Pigments
Light and Pigments
How do plants capture the energy of sunlight?
In addition to water and carbon dioxide, photosynthesis requires light and chlorophyll.
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Slide 74 of 20
8-1 Energy and Life Light and Pigments
Plants gather the sun's energy with light-absorbing molecules called pigments.
The main pigment in plants is chlorophyll.
There are two main types of chlorophyll:
• chlorophyll a
• chlorophyll b
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The principal pigment in plants is….
1 2 3 4
25% 25%25%25%
1. chloroplast.2. chlorophyll.3. carotene.4. carbohydrate.
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8-2
– The principal pigment in plants is• chloroplast.• chlorophyll.• carotene.• carbohydrate.
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Pigments in Plants• Pigments are light-absorbing
molecules• Different
pigments absorb or reflect different colors
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Chlorophyll a
• wavelengths absorbed:
blue-violet and red
• Reflects: grass green WavelengthWavelength
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Chlorophyll b
• Absorbs: blue and orange
• Reflects: yellow-green
•An accessory chlorophyll in plants
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Other pigments in plants
• Absorb: blue-green
• Reflect: yellow-orange
Carotenoids-orangeCarotenoids-orange
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FYI Why do leaves change color?
• As fall comes there are shorter days of sunlight
• Less photosynthesis means less food for plants.
• Chlorophyll breaks down and exposes the other colors that were there all along, but were masked by the green chlorophyll.
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WORKSHEET
• “Absorption of Chlorophyll”
• Photosynthesis: The Action Spectrum for Photosynthesis (experiment link)
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Light and Pigments
• Chlorophyll absorbs light well in the blue-violet and red regions of the visible spectrum.
Wavelength (nm)
Est
imat
ed A
bso
rpti
on
(%
) 100
80
60
40
20
0400 450 500 550 600 650 700 750
Chlorophyll b
Chlorophyll a
Wavelength (nm)
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Light and Pigments
• Chlorophyll does not absorb light well in the green region of the spectrum. Green light is reflected by leaves, which is why plants look green.
Est
imat
ed A
bso
rpti
on
(%
) 100
80
60
40
20
0400 450 500 550 600 650 700 750
Chlorophyll b
Chlorophyll a
Wavelength (nm)
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Light and Pigments
• Light is a form of energy, so any compound that absorbs light also absorbs energy from that light.
• When chlorophyll absorbs light, much of the energy is transferred directly to electrons in the chlorophyll molecule, raising the energy levels of these electrons.
• These high-energy electrons are what make photosynthesis work.
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The colors of light that are absorbed by chlorophylls are….
1 2 3 4
25% 25%25%25%
1. green and yellow.2. green, blue, and violet.3. blue, violet, and red.4. red and yellow.
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8-2
– The colors of light that are absorbed by chlorophylls are
• green and yellow.• green, blue, and violet.• blue, violet, and red.• red and yellow.
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REVIEW
• Let’s review section 8.2
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In van Helmont's experiment, most of the added mass of the tree came from
1 2 3 4
25% 25%25%25%1.oil and carbon dioxide.2.water and carbon dioxide.3.oxygen and carbon dioxide.4.soil and oxygen.
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Plants use the sugars produced in photosynthesis to make….
1 2 3 4
25% 25%25%25%
1. oxygen.2. starches.3. carbon dioxide.4. protein.
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The raw materials required for plants to carry out photosynthesis are…
.
1 2 3 4
25% 25%25%25%
1. carbon dioxide and oxygen.2. oxygen and sugars.3. carbon dioxide and water.
4. oxygen and water..
![Page 92: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/92.jpg)
The principal pigment in plants is….
1 2 3 4
25% 25%25%25%
1. chloroplast.2. chlorophyll.3. carotene.4. carbohydrate.
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The colors of light that are absorbed by chlorophylls are….
1 2 3 4
25% 25%25%25%
1. green and yellow.2. green, blue, and violet.3. blue, violet, and red.4. red and yellow.
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8-3 The Reactions of Photosynthesis
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Inside a Chloroplast
• Inside a Chloroplast• In plants, photosynthesis takes place inside
chloroplasts.Plant
Plant cells
Chloroplast
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In plants, photosynthesis takes place inside the….
1 2 3 4
25% 25%25%25%
1. thylakoids.2. chloroplasts.3. photosystems.4. chlorophyll.
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8-3
– In plants, photosynthesis takes place inside the• thylakoids.• chloroplasts.• photosystems.• chlorophyll.
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Inside a Chloroplast
• Chloroplasts contain thylakoids—saclike photosynthetic membranes.
Chloroplast
Singlethylakoid
![Page 99: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/99.jpg)
Inside a Chloroplast
• Thylakoids are arranged in stacks known as grana. A singular stack is called a granum.
Granum
Chloroplast
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Inside a Chloroplast
• Proteins in the thylakoid membrane organize chlorophyll and other pigments into clusters called photosystems, which are the light-collecting units of the chloroplast.
Chloroplast
Photosystems
![Page 101: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/101.jpg)
Energy to make ATP in the chloroplast comes most directly from
.
1 2 3 4
25% 25%25%25%
1. hydrogen ions flowing through an enzyme in the thylakoid membrane.
2. transfer of a phosphate from ADP.
3. electrons moving through the electron transport chain.
4. electrons transferred directly from NADPH.
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8-3
– Energy to make ATP in the chloroplast comes most directly from
• hydrogen ions flowing through an enzyme in the thylakoid membrane.
• transfer of a phosphate from ADP.• electrons moving through the electron transport chain.
• electrons transferred directly from NADPH.
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Chloroplast Diagram• Stroma = thick fluid
between the thylakoids
• thylakoids = disks within the chloroplasts
• granum=stack of thylakoids (grana pl.)
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Inside a Chloroplast•The reactions of photosystems include: the light-dependent reactions and the light-independent reactions, or Calvin cycle.•The light-dependent reactions take place within the thylakoid membranes.•The Calvin cycle takes place in the stroma, which is the region outside the thylakoid membranes.
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GRANA
• What is the difference between grana and granum?
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STROMA
• So what’s the difference between the stoma and the stroma?
• STOMA = opening in lower epidermis• STROMA = area around thylakoid
disks in the chloroplast
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Chloroplast DiagramStromal lamellaStromal lamella = connect grana= connect grana D. Outer MembraneD. Outer Membrane
Thylakoid Thylakoid membranemembrane
Thylakoid Thylakoid spacespaceIntermembrane Intermembrane
SpaceSpace
Inner Inner MembraneMembrane
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Chloroplasts TEM
• Note the stacks of thylakoid disks =
grana• Note area between =
stroma
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Inside a Chloroplast
Chloroplast
Light
H2O
O2
CO2
Sugars
NADP+
ADP + P
Calvin Cycle
Light- dependent reactions
Calvin cycle
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Electron Carriers
• Electron Carriers• When electrons in chlorophyll absorb sunlight, the
electrons gain a great deal of energy.• Cells use electron carriers to transport these high-
energy electrons from chlorophyll to other molecules.
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THYLAKOIDS
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Summary IN
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Summary OUT
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Electron Carriers
• One carrier molecule is NADP+.• Electron carriers, such as NADP+, transport electrons.• NADP+ accepts and holds 2 high-energy electrons along
with a hydrogen ion (H+). This converts the NADP+ into NADPH.
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Nice Little Photosynthesis Movies
• VCAC: Cellular Processes: Photosynthesis: The Movie
• VCAC: Cellular Processes: Photosystem II: The Movie
![Page 116: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/116.jpg)
Overview of Photosynthesis
![Page 117: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/117.jpg)
What happens here?
• Light Dependent Reaction (LDR)
• Converts light energy to chemical energy + O2
• Light Independent Reaction (LIR)
• Assembles sugar molecules using CO2
![Page 118: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/118.jpg)
Where does energy come from?
• Light Dependent Reaction LDR
• Uses light energy
• Light Independent Reaction LIR
• (Calvin Cycle)
• uses ATP and NADPH (from LDR)
![Page 119: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/119.jpg)
PSI and PSII
• PSI and PSII animation
• Another PSI and PSII animation
![Page 120: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/120.jpg)
Where is it located in the cell?
• LDR• occurs in
thylakoid membranes of chloroplast’s grana
• LIR (aka Calvin cycle)
• occurs in stroma of chloroplast
![Page 121: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/121.jpg)
Final Products of Each?
• LDR
• ATP and NADPH
• Also O2
• LIR
• sugar
![Page 122: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/122.jpg)
Electron Carriers
• The conversion of NADP+ into NADPH is one way some of the energy of sunlight can be trapped in chemical form.
• The NADPH carries high-energy electrons to chemical reactions elsewhere in the cell.
• These high-energy electrons are used to help build a variety of molecules the cell needs, including carbohydrates like glucose.
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Light-Dependent Reactions
– What happens in the light-dependent reactions?
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Light-Dependent Reactions
• Light-Dependent Reactions» The light-dependent reactions require light. » The light-dependent reactions produce oxygen gas and
convert ADP and NADP+ into the energy carriers ATP and NADPH.
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Slide 125 of 20
8-1 Energy and Life Light-Dependent Reactions
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8-1 Energy and Life Light-Dependent Reactions
Photosynthesis begins when pigments in photosystem II absorb light, increasing their energy level.
Photosystem II
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8-1 Energy and Life Light-Dependent Reactions
These high-energy electrons are passed on to the electron transport chain.
Photosystem II
Electroncarriers
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
Enzymes on the thylakoid membrane break water molecules into:
Photosystem II
2H2O
Electroncarriers
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
• hydrogen ions
• oxygen atoms
• energized electrons
Photosystem II
2H2O
+ O2
Electroncarriers
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
Photosystem II
2H2O
+ O2
The energized electrons from water replace the high-energy electrons that chlorophyll lost to the electron transport chain.
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
Photosystem II
2H2O
As plants remove electrons from water, oxygen is left behind and is released into the air.
+ O2
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
Photosystem II
2H2O
The hydrogen ions left behind when water is broken apart are released inside the thylakoid membrane.
+ O2
High-energy electron
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8-1 Energy and Life Light-Dependent Reactions
Photosystem II
2H2O
Energy from the electrons is used to transport H+ ions from the stroma into the inner thylakoid space.
+ O2
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8-1 Energy and Life Light-Dependent Reactions
Photosystem II
2H2O
High-energy electrons move through the electron transport chain from photosystem II to photosystem I.
+ O2
Photosystem I
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8-1 Energy and Life Light-Dependent Reactions
2H2O
Pigments in photosystem I use energy from light to re-energize the electrons.
+ O2
Photosystem I
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8-1 Energy and Life Light-Dependent Reactions
2H2O
NADP+ then picks up these high-energy electrons, along with H+ ions, and becomes NADPH.
+ O2
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
As electrons are passed from chlorophyll to NADP+, more H+ ions are pumped across the membrane.
+ O2
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
Soon, the inside of the membrane fills up with positively charged hydrogen ions, which makes the outside of the membrane negatively charged.
+ O2
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
The difference in charges across the membrane provides the energy to make ATP.
+ O2
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
H+ ions cannot cross the membrane directly.
+ O2
ATP synthase
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
The cell membrane contains a protein called ATP synthase that allows H+ ions to pass through it.
+ O2
ATP synthase
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
As H+ ions pass through ATP synthase, the protein rotates.
+ O2
ATP synthase
2 NADP+
2 NADPH2
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8-1 Energy and Life Light-Dependent Reactions
2H2O
As it rotates, ATP synthase binds ADP and a phosphate group together to produce ATP.
+ O2
2 NADP+
2 NADPH2
ATP synthase
ADP
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8-1 Energy and Life Light-Dependent Reactions
2H2O
Because of this system, light-dependent electron transport produces not only high-energy electrons but ATP as well.
+ O2
ATP synthase
ADP2 NADP+
2 NADPH2
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Slide 145 of 20
8-1 Energy and Life Light-Dependent Reactions
The light-dependent reactions use water, ADP, and NADP+.
The light-dependent reactions produce oxygen, ATP, and NADPH.
These compounds provide the energy to build energy-containing sugars from low-energy compounds.
![Page 146: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/146.jpg)
NADPH is produced in light-dependent reactions and carries energy in the form of
.
1 2 3 4
25% 25%25%25%
1. ATP.2. high-energy electrons.3. low-energy electrons.4. ADP.
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8-3
– NADPH is produced in light-dependent reactions and carries energy in the form of
• ATP.• high-energy electrons.• low-energy electrons.• ADP.
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The Calvin Cycle
–
What is the Calvin cycle?
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Calvin Cycle
• Occurs in stroma of chloroplasts
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7.11 Review of Photosynthesis
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Summary: Calvin Cycle
![Page 152: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/152.jpg)
Overall Equation
![Page 153: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/153.jpg)
The Calvin Cycle
• The Calvin Cycle • ATP and NADPH formed by the light-dependent
reactions contain an abundance of chemical energy, but they are not stable enough to store that energy for more than a few minutes.
• During the Calvin cycle plants use the energy that ATP and NADPH contain to build high-energy compounds that can be stored for a long time.
•
![Page 154: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/154.jpg)
The Calvin Cycle» The Calvin cycle uses ATP and NADPH from the light-
dependent reactions to produce high-energy sugars.» Because the Calvin cycle does not require light, these
reactions are also called the light-independent reactions.
•
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What is another name for the Calvin cycle?
.
1 2 3 4
25% 25%25%25%
1. light-dependent reactions2. light-independent reactions3. electron transport chain4. photosynthesis
![Page 156: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/156.jpg)
8-3
– What is another name for the Calvin cycle?• light-dependent reactions• light-independent reactions• electron transport chain• photosynthesis
![Page 157: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/157.jpg)
Slide 157 of 20
8-1 Energy and Life The Calvin Cycle
Six carbon dioxide molecules enter the cycle from the atmosphere and combine with six 5-carbon molecules.
CO2 Enters the Cycle
![Page 158: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/158.jpg)
Slide 158 of 20
8-1 Energy and Life The Calvin Cycle
The result is twelve 3-carbon molecules, which are then converted into higher-energy forms.
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Slide 159 of 20
8-1 Energy and Life The Calvin Cycle
The energy for this conversion comes from ATP and high-energy electrons from NADPH.
12 NADPH
12
12 ADP
12 NADP+
Energy Input
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Slide 160 of 20
8-1 Energy and Life The Calvin Cycle
Two of twelve 3-carbon molecules are removed from the cycle.
Energy Input
12 NADPH
12
12 ADP
12 NADP+
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Slide 161 of 20
8-1 Energy and Life The Calvin Cycle
The molecules are used to produce sugars, lipids, amino acids and other compounds.
12 NADPH
12
12 ADP
12 NADP+
6-Carbon sugar produced
Sugars and other compounds
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Slide 162 of 20
8-1 Energy and Life The Calvin Cycle
The 10 remaining 3-carbon molecules are converted back into six 5-carbon molecules, which are used to begin the next cycle.
12 NADPH
12
12 ADP
12 NADP+
5-Carbon MoleculesRegenerated
Sugars and other compounds
6
6 ADP
![Page 163: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/163.jpg)
Which of the following factors does NOT directly affect photosynthesis?
.
1 2 3 4
25% 25%25%25%
1. wind2. water supply3. temperature4. light intensity
![Page 164: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/164.jpg)
8-3
– Which of the following factors does NOT directly affect photosynthesis?
• wind• water supply• temperature• light intensity
![Page 165: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/165.jpg)
The Calvin Cycle• The two sets of photosynthetic reactions work together.
– The light-dependent reactions trap sunlight energy in chemical form.
– The light-independent reactions use that chemical energy to produce stable, high-energy sugars from carbon dioxide and water.
![Page 166: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/166.jpg)
Factors Affecting Photosynthesis
– Factors Affecting Photosynthesis • Many factors affect the rate of photosynthesis, including:
• Water• Temperature• Intensity of light
![Page 167: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/167.jpg)
Which equation summarizes photosynthesis?
• A. water + starch ---> glucose + glucose + glucose B. water + carbon dioxide ---> oxygen + glucose + water C. glucose + oxygen ---> water + carbon dioxide + ATP D. glucose + glucose ---> maltose + water
![Page 168: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/168.jpg)
ANSWER
• B. water + carbon dioxide ---> oxygen + glucose + water
![Page 169: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/169.jpg)
In what organelle does photosynthesis occur?
• A. the nucleus B. chloroplasts C. the vacuole D. the cell wall
![Page 170: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/170.jpg)
ANSWER
•B. Chloroplast
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QUESTION:
• Four identical plants are grown under different colored light bulbs. Under which color will the release of oxygen gas be slowest? A. Green
• B. blue C. orange D. red
![Page 172: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/172.jpg)
ANSWER:
•A. Green
![Page 173: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/173.jpg)
QUIZ TIME
• The reason why ADP + P form ATP in thylakoid membranes is…
• A movement of electrons between photosystem II and photosystem I.
• B oxidation of water • C oxidation of NADPH • D absorption of photons by chloroplast pigments • E higher concentration of H+ inside versus outside
the thylakoid membranes
![Page 174: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/174.jpg)
ANSWER
• E. a higher concentration of H+ ions inside vs. outside the thylakoid membranes
![Page 175: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/175.jpg)
QUIZ TIME
• Water is broken down and the electrons from water pass through photosystem II and photosystem I before adding e- to:
• A carbon dioxide • B NADP+ • C plastoquinones • D FAD • E rubisco
![Page 176: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/176.jpg)
ANSWER
• NADP+ to make higher energy NADPH
![Page 177: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/177.jpg)
• REVIEW ALL OF CHAPTER 8
![Page 178: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/178.jpg)
QUIZ TIME
• Which of the following would have the smallest effect on the rate of photosynthesis in a green plant? A. carbon dioxide concentration B. light intensity C. oxygen concentration D. water available
![Page 179: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/179.jpg)
ANSWER:
• C. oxygen concentration
![Page 180: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/180.jpg)
QUIZ TIME
• During photosynthetic electron transport, the interior compartment of the thylakoid membranes becomes:
• A. more concentrated with ATP• B. more concentrated with H+ ions• C. less concentrated with H+ ions
![Page 181: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/181.jpg)
HINT: Distribution of H+ ions
• Light Rx• more inside
• Dark Rx• Even in and out
![Page 182: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/182.jpg)
ANSWER
•More concentrated with H+ ions
![Page 183: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/183.jpg)
QUIZ TIME
• Which of the following is produced during photosynthesis? A. carbon dioxide B. lactic acidC. DNA D. PGAL
•
![Page 184: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/184.jpg)
ANSWER
•D. PGAL
![Page 185: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/185.jpg)
QUIZ TIME
• Atmospheric oxygen that is inhaled by animals comes from: A. carbon dioxide molecules split during the light reactions B. carbon dioxide split during the dark reactions C. water molecules split during the light reactions D. water molecules split during the dark reactions
![Page 186: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/186.jpg)
ANSWER
• C. water molecules split during the light reactions
![Page 187: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/187.jpg)
QUIZ TIME
• What change occurs during photosynthesis? A. solar energy is converted to chemical energy B. kinetic energy is converted to chemical energy C. chemical energy is converted to radiant energy D. water is converted to chemical energy
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ANSWER
• A. solar energy is converted to chemical energy
![Page 189: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/189.jpg)
Cuticle Cuticle Epidermis Epidermis Guard cells Guard cells Palisade Palisade PhloemPhloemXylemXylemSpongy Spongy MesophyllMesophyllStomata Stomata Bundle Sheath Bundle Sheath
![Page 190: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/190.jpg)
A=cuticleA=cuticle
B=Upper epidermisB=Upper epidermis
C=VeinC=Vein
D=PhloemD=Phloem
E=xylemE=xylem
F=Palisade layerF=Palisade layer
G=spongy layerG=spongy layer
H=guard cellH=guard cell
I=stomataI=stomata
![Page 191: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/191.jpg)
QUIZ TIME
• The overall source of energy for photosynthesis is:
• A. energy from the sun• B. energy from ATP• C. energy when oxygen is produced
![Page 192: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/192.jpg)
ANSWER
• A. energy from the sun
![Page 193: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/193.jpg)
QUIZ TIME
• What three events occur during the light reactions of photosynthesis? –Forming ATP–NADP+ to NADPH–Fixing CO2
–Releasing O2
![Page 194: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/194.jpg)
ANSWER
–Forming ATP–NADP+ to NADPH–Releasing O2
![Page 195: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/195.jpg)
QUIZ TIME
• Which of the following does not happen in photosystem I?–ATP is produced–electron transport in the thylakoid
membranes– light energy is used–NADPH is formed
![Page 196: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/196.jpg)
HINT
![Page 197: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/197.jpg)
ANSWER (which is NOT)
• NADPH is formed
![Page 198: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/198.jpg)
QUIZ TIME
• Where does the Calvin Cycle take place?–Thylakoid membranes of chloroplasts–Stroma of chloroplasts–Matrix of mitochondria–Inner membrane of mitochondria
![Page 199: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/199.jpg)
ANSWER
• Stroma of chloroplasts
![Page 200: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/200.jpg)
QUIZ TIME
• What is the name of the enzyme that causes CO2 to form glucose?–ATPase–glucosease–rubisco
![Page 201: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/201.jpg)
ANSWER
• rubisco
![Page 202: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/202.jpg)
QUIZ TIME
• What two high energy compounds are required for this reaction?–ATP–NADH–NADPH–ADP–FADH
![Page 203: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/203.jpg)
ANSWER
• ATP and NADPH
![Page 204: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/204.jpg)
QUIZ TIME
• What is the name of the process in which carbon dioxide is made into glucose?–Krebs cycle–Calvin cycle–Einstein cycle
![Page 205: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/205.jpg)
ANSWER
• CALVIN CYCLE• (or sometimes the Calvin-Bensen
Cycle)
![Page 206: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/206.jpg)
QUIZ TIME
• Which does NOT happen in the Dark Reaction:–using ATP–using NADPH–using Carbon Dioxide–making water
![Page 207: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/207.jpg)
ANSWER
• MAKING WATER
![Page 208: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/208.jpg)
QUIZ TIME
• What are the products of the dark reaction?–ATP–ADP–glucose–CO2
–NADP+
![Page 209: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/209.jpg)
ANSWER
• ADP• NADP+• glucose
![Page 210: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/210.jpg)
QUIZ TIME
• The reason why ADP + P form ATP in thylakoid membranes is…
A movement of electrons between photosystem II and photosystem I.
B oxidation of water C oxidation of NADPH D absorption of photons by chloroplast pigments E higher concentration of H+ inside versus outside the
thylakoid membranes
![Page 211: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/211.jpg)
ANSWER
• a higher concentration of H+ ions inside vs. outside the thylakoid membranes
![Page 212: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/212.jpg)
QUIZ TIME
• During photosynthetic electron transport, the interior compartment of the thylakoid membranes becomes:
• A. more concentrated with ATP• B. more concentrated with H+ ions• C. less concentrated with H+ ions
![Page 213: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/213.jpg)
ANSWER
• More concentrated with H+ ions
![Page 214: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/214.jpg)
QUIZ TIME
• The overall source of energy for photosynthesis is:
• A. energy from the sun• B. energy from ATP• C. energy when oxygen is produced
![Page 215: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/215.jpg)
ANSWER
• A. energy from the sun
![Page 216: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/216.jpg)
QUIZ TIME
• What three events occur during the light reactions of photosynthesis? –Forming ATP–NADP+ to NADPH–Fixing CO2
–Releasing O2
![Page 217: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/217.jpg)
ANSWER
–Forming ATP–NADP+ to NADPH–Releasing O2
![Page 218: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/218.jpg)
QUIZ TIME
• What is the name of the process in which carbon dioxide is made into glucose?–Krebs cycle–Calvin cycle–Einstein cycle
![Page 219: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/219.jpg)
ANSWER
• CALVIN CYCLE• (or sometimes the Calvin-Bensen
Cycle)
![Page 220: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/220.jpg)
8-1
– Organisms that make their own food are called• autotrophs.• heterotrophs.• decomposers.• consumers.
![Page 221: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/221.jpg)
8-1
– Most autotrophs obtain their energy from• chemicals in the environment.• sunlight.• carbon dioxide in the air.• other producers.
![Page 222: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/222.jpg)
8-1
– How is energy released from ATP?• A phosphate is added.• An adenine is added.• A phosphate is removed.• A ribose is removed.
![Page 223: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/223.jpg)
8-1
– How is it possible for most cells to function with only a small amount of ATP?
• Cells do not require ATP for energy.• ATP can be quickly regenerated from ADP and P.• Cells use very small amounts of energy.• ATP stores large amounts of energy.
![Page 224: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/224.jpg)
8-1
– Compared to the energy stored in a molecule of glucose, ATP stores
• much more energy.• much less energy.• about the same amount of energy.• more energy sometimes and less at others.
![Page 225: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/225.jpg)
8-2
– In van Helmont's experiment, most of the added mass of the tree came from
• soil and carbon dioxide.• water and carbon dioxide.• oxygen and carbon dioxide.• soil and oxygen.
![Page 226: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/226.jpg)
8-2
– Plants use the sugars produced in photosynthesis to make
• oxygen.• starches.• carbon dioxide.• protein.
![Page 227: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/227.jpg)
8-2
– The raw materials required for plants to carry out photosynthesis are
• carbon dioxide and oxygen.• oxygen and sugars.• carbon dioxide and water.• oxygen and water.
![Page 228: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/228.jpg)
8-2
– The principal pigment in plants is• chloroplast.• chlorophyll.• carotene.• carbohydrate.
![Page 229: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/229.jpg)
8-2
– The colors of light that are absorbed by chlorophylls are
• green and yellow.• green, blue, and violet.• blue, violet, and red.• red and yellow.
![Page 230: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/230.jpg)
8-3
– In plants, photosynthesis takes place inside the• thylakoids.• chloroplasts.• photosystems.• chlorophyll.
![Page 231: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/231.jpg)
8-3
– Energy to make ATP in the chloroplast comes most directly from
• hydrogen ions flowing through an enzyme in the thylakoid membrane.
• transfer of a phosphate from ADP.• electrons moving through the electron transport chain.
• electrons transferred directly from NADPH.
![Page 232: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/232.jpg)
8-3
– NADPH is produced in light-dependent reactions and carries energy in the form of
• ATP.• high-energy electrons.• low-energy electrons.• ADP.
![Page 233: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/233.jpg)
8-3
– What is another name for the Calvin cycle?• light-dependent reactions• light-independent reactions• electron transport chain• photosynthesis
![Page 234: PHOTOSYNTHESIS](https://reader035.vdocuments.site/reader035/viewer/2022070403/5681399b550346895da13532/html5/thumbnails/234.jpg)
8-3
– Which of the following factors does NOT directly affect photosynthesis?
• wind• water supply• temperature• light intensity