Textbook Question
Complete this summary map of photosynthesis.
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Ch. 7 Photosynthesis: Using Light to Make Food
Taylor, Simon, Dickey, Hogan10th EditionCampbell Biology: Concepts & ConnectionsISBN: 9780136538783
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Table of contents
- Ch. 1 Biology: The Study of Scientific Life19
- Ch. 2 The Chemical Basis of Life17
- Ch. 3 The Molecules of Cells21
- Ch. 4 A Tour of the Cell20
- Ch. 5 The Working Cell17
- Ch. 6 How Cells Harvest Chemical Energy18
- Ch. 7 Photosynthesis: Using Light to Make Food15
- Ch. 8 The Cellular Basis of Reproduction and Inheritance22
- Ch. 9 Patterns of Inheritance17
- Ch. 10 Molecular Biology of the Gene13
- Ch. 11 How Genes Are Controlled13
- Ch. 12 DNA Technology and Genomics23
- Ch. 13 How Populations Evolve17
- Ch. 14 The Origin of Species19
- Ch. 15 Tracing Evolutionary History18
- Ch. 16 Microbial Life: Prokaryotes and Protists16
- Ch. 17 The Evolution of Plant and Fungal Diversity15
- Ch. 18 The Evolution of Invertebrate Diversity13
- Ch. 19 The Evolution of Vertebrate Diversity18
- Ch. 20 Unifying Concepts of Animal Structure and Function11
- Ch. 21 Nutrition and Digestion16
- Ch. 22 Gas Exchange16
- Ch. 23 Circulation17
- Ch. 24 The Immune System16
- Ch. 25 Control of Body Temperature and Water Balance20
- Ch. 26 Hormones and the Endocrine System10
- Ch. 27 Reproduction and Embryonic Development12
- Ch. 28 Nervous Systems10
- Ch. 29 The Senses12
- Ch. 30 How Animals Move19
- Ch. 31 Plant Structure, Growth, and Reproduction9
- Ch. 32 Plant Nutrition and Transport12
- Ch. 33 Control Systems in Plants15
- Ch. 34 The Biosphere: An Introduction to Earth's Diverse Environments15
- Ch. 35 Behavioral Adaptations to the Environment12
- Ch. 36 Population Ecology15
- Ch. 37 Communities and Ecosystems14
- Ch. 38 Conservation Biology14
Taylor, Simon, Dickey, Hogan10th EditionCampbell Biology: Concepts & ConnectionsISBN: 9780136538783Not the one you use?Change textbook
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Taylor, Simon, Dickey, Hogan 10th EditionCh. 7 Photosynthesis: Using Light to Make FoodProblem 4
Taylor, Simon, Dickey, Hogan 10th EditionCh. 7 Photosynthesis: Using Light to Make FoodProblem 4Chapter 7, Problem 4
When light strikes chlorophyll molecules in the reaction-center complex, they lose electrons, which are ultimately replaced by
a. Splitting water
b. Oxidizing NADPH
c. The primary electron acceptor
d. The electron transport chain
Verified step by step guidance1
Understand the context: The question is about the light-dependent reactions of photosynthesis, specifically what happens when chlorophyll molecules in the reaction-center complex lose electrons.
Recall the process: In the light-dependent reactions, chlorophyll molecules absorb light energy, which excites their electrons to a higher energy state. These high-energy electrons are transferred to the primary electron acceptor in the reaction-center complex.
Identify the problem: When chlorophyll loses electrons, it becomes oxidized and needs to replace the lost electrons to continue the process of photosynthesis.
Determine the source of replacement electrons: In photosystem II, the lost electrons are replaced by splitting water molecules (a process called photolysis). This reaction produces electrons, protons (H⁺), and oxygen (O₂) as byproducts.
Eliminate incorrect options: Oxidizing NADPH (b) is incorrect because NADPH is a product of the light-dependent reactions, not a source of electrons. The primary electron acceptor (c) and the electron transport chain (d) are involved in electron transfer but do not replace the lost electrons. Therefore, the correct answer is splitting water (a).
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Chlorophyll and Photosynthesis
Chlorophyll is a green pigment found in plants that plays a crucial role in photosynthesis by absorbing light energy, primarily from the blue and red wavelengths. This energy is used to excite electrons in the chlorophyll molecules, initiating a series of reactions that convert light energy into chemical energy.
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05:58
Pigments of Photosynthesis
Electron Transport Chain
The electron transport chain (ETC) is a series of protein complexes located in the thylakoid membrane of chloroplasts. It facilitates the transfer of electrons from excited chlorophyll to various acceptors, ultimately leading to the production of ATP and NADPH, which are essential for the Calvin cycle in photosynthesis.
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07:41Electron Transport Chain
Water Splitting (Photolysis)
Water splitting, or photolysis, occurs during the light-dependent reactions of photosynthesis, where water molecules are split into oxygen, protons, and electrons. This process replenishes the electrons lost by chlorophyll, ensuring a continuous flow of energy and maintaining the cycle of electron transport necessary for the synthesis of energy-rich molecules.
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Related Practice
Textbook Question
In photosynthesis, _________ is oxidized and _________ is reduced.
a. Water . . . Oxygen
b. Carbon dioxide . . . Water
c. Water . . . Carbon dioxide
d. Glucose . . . Carbon dioxide
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Textbook Question
Which of the following are produced by reactions that take place in the thylakoids and consumed by reactions in the stroma?
a. CO₂ and H₂O
b. ATP and NADPH
c. ATP, NADPH, and CO₂
d. ATP, NADPH, and O₂
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Textbook Question
The reactions of the Calvin cycle are not directly dependent on light, but they usually do not occur at night. Why? (Explain your answer.)
a. It is often too cold at night for these reactions to take place.
b. Carbon dioxide concentrations decrease at night.
c. The Calvin cycle depends on products of the light reactions.
d. Plants usually close their stomata at night.
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Textbook Question
Which of the following does not occur during the Calvin cycle?
a. Carbon fixation
b. Oxidation of NADPH
c. Consumption of ATP
d. Release of oxygen
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Textbook Question
Why is it difficult for C3 plants to carry out photosynthesis in very hot, dry environments such as deserts?
a. The light is too intense and destroys the pigment molecules.
b. The closing of stomata keeps CO₂ from entering and O₂ from leaving the plant.
c. They must rely on photorespiration to make ATP.
d. CO₂ builds up in the leaves, blocking carbon fixation.
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