1. Photosynthesis
Key Idea: Autotrophs do not consume their food. Instead, they must make their own high-energy food molecules. Photosynthesis is the method plants use to make food.

2. 6CO2 + 6H20 + Light Energy C6H12O6 + 6O2
Chlorophyll & Enzymes
Reactants:
Products:

3. 6CO2 + 6H20 + Light Energy C6H12O6 + 6O2
Chlorophyll & Enzymes
Reactants: 6CO2 + 6H20 + Light Energy
Products:

4. 6CO2 + 6H20 + Light Energy C6H12O6 + 6O2
Chlorophyll & Enzymes
Reactants: 6CO2 + 6H20 + Light Energy
Products: C6H12O6 + 6O2

5. Where does photosynthesis occur?
Only occurs in the “green”
parts of plants
Thylakoid
Granum
Stroma

6. Two Stages of Photosynthesis

7. Two Stages of Photosynthesis
Light Reactions
Functions

8. Two Stages of Photosynthesis
Light Reactions
Functions
Produce oxygen gas

9. Two Stages of Photosynthesis
Light Reactions
Functions
Produce oxygen gas
Convert ADP and NADP+ into energy carriers ATP and NADPH

10. Two Stages of Photosynthesis
Light Reactions
Functions
Produce oxygen gas
Convert ADP and NADP+ into energy carriers ATP and NADPH
Calvin Cycle

11. Two Stages of Photosynthesis
Light Reactions
Functions
Produce oxygen gas
Convert ADP and NADP+ into energy carriers ATP and NADPH
Calvin Cycle
Converts ATP and NADPH into high-energy sugars

12. Light Reactions: Energy Building

13. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast?

14. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast? Within the thylakoid membranes

15. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast? Within the thylakoid membranes
Part 1: Absorbing Light
Substances absorb and reflect light. Absorbed light is energy the substance can use. Reflected light can’t be used. Instead, it gives the substance its color.

16. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast? Within the thylakoid membranes
Part 1: Absorbing Light
Substances absorb and reflect light. Absorbed light is energy the substance can use. Reflected light can’t be used. Instead, it gives the substance its color.
Example: A red ball reflects light but absorbs light.

17. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast? Within the thylakoid membranes
Part 1: Absorbing Light
Substances absorb and reflect light. Absorbed light is energy the substance can use. Reflected light can’t be used. Instead, it gives the substance its color.
Example: A red ball reflects red light but absorbs light.

18. Light Reactions: Energy Building
Where do the light reactions occur in the chloroplast? Within the thylakoid membranes
Part 1: Absorbing Light
Substances absorb and reflect light. Absorbed light is energy the substance can use. Reflected light can’t be used. Instead, it gives the substance its color.
Example: A red ball reflects red light but absorbs all other light.

19. Light Reactions: Energy Building
Pigments:

20. Light Reactions: Energy Building
Pigments: light absorbing molecules

21. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:

22. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll:
Absorb Reflect

23. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb Reflect

24. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect

25. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect green, yellow

26. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect green, yellow
Carotenoids:
Absorb Reflect

27. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect green, yellow
Carotenoids: secondary pigment in plants
Absorb Reflect

28. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect green, yellow
Carotenoids: secondary pigment in plants
Absorb green, blue Reflect

29. Light Reactions: Energy Building
Pigments: light absorbing molecules
Examples include:
Chlorophyll: the most abundant pigment found in green plants
Absorb red, blue Reflect green, yellow
Carotenoids: secondary pigment in plants
Absorb green, blue Reflect Yellow, orange, red

30. Light Reactions: Energy Building
Most leaves are green because their main pigment, chlorophyll, reflects green light.

31. Light Reactions: Energy Building
Part II: Making ATP

32. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the and become .

33. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become .

34. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .

35. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.

36. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.

37. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.
The energy in ATP and NADPH is called This is the energy that cell can use to power work, such as making sugar.

38. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.
The energy in ATP and NADPH is called chemical energy . This is the energy that cell can use to power work, such as making sugar.

39. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.
The energy in ATP and NADPH is called chemical energy. This is the energy that cell can use to power work, such as making sugar.
To trap light energy in ATP and NADPH, is used and is produced as a waste product.

40. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.
The energy in ATP and NADPH is called chemical energy. This is the energy that cell can use to power work, such as making sugar.
To trap light energy in ATP and NADPH, water is used and is produced as a waste product.

41. Light Reactions: Energy Building
Part II: Making ATP
ADP and a phosphate group gain the energy and become ATP .
NADPH is another energy storing molecule that traps light. It acts like ATP and can quickly give up energy to chemical reactions.
The energy in ATP and NADPH is called chemical energy. This is the energy that cell can use to power work, such as making sugar.
To trap light energy in ATP and NADPH, water is used and oxygen is produced as a waste product.

42. Review
What molecules are used in the light reactions of photosynthesis?

43. Review
What molecules are used in the light reactions of photosynthesis?
H2O, ADP, NADP+

44. Review
What molecules are used in the light reactions of photosynthesis?
H2O, ADP, NADP+
2) What molecules are made in the light reactions of photosynthesis?

45. Review
What molecules are used in the light reactions of photosynthesis?
H2O, ADP, NADP+
2) What molecules are made in the light reactions of photosynthesis?
O2, ATP, NADPH

46. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast?

47. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma

48. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from are joined together to make

49. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make

50. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar

51. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from and which were made in the of photosynthesis, is used to power the making of sugar

52. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from ATP and which were made in the of photosynthesis, is used to power the making of sugar

53. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from ATP and NADPH which were made in the of photosynthesis, is used to power the making of sugar

54. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from ATP and NADPH which were made in the light reactions of photosynthesis, is used to power the making of sugar

55. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from ATP and NADPH which were made in the light reactions of photosynthesis, is used to power the making of sugar
Enzymes are also used to the reactions of the Calvin Cycle.

56. Calvin Cycle: Food Building
Where does the Calvin Cycle occur in the chloroplast? In the stroma
Carbon atoms from CO2 are joined together to make sugar
Energy from ATP and NADPH which were made in the light reactions of photosynthesis, is used to power the making of sugar
Enzymes are also used to speed up the reactions of the Calvin Cycle.

57. The Calvin Cycle is also called the light-independent or dark reactions. Why are these names appropriate?

58. The Calvin Cycle is also called the light-independent or dark reactions. Why are these names appropriate?
They do not require sunlight, or solar energy, to occur. They use the energy stored in the ATP and NADPH molecules.

59. Review

60. Review
What molecules are used in the Calvin Cycle of photosynthesis?

61. Review What molecules are used in the Calvin Cycle of photosynthesis?
CO2, H2O, ATP, NADPH

62. Review What molecules are used in the Calvin Cycle of photosynthesis?
CO2, H2O, ATP, NADPH
2) What molecules are made in the Calvin Cycle of photosynthesis?

63. Review What molecules are used in the Calvin Cycle of photosynthesis?
CO2, H2O, ATP, NADPH
2) What molecules are made in the Calvin Cycle of photosynthesis?
C6H12O6, ADP, NADP+

64. Review What molecules are used in the Calvin Cycle of photosynthesis?
CO2, H2O, ATP, NADPH
2) What molecules are made in the Calvin Cycle of photosynthesis?
C6H12O6, ADP, NADP+
3) Why do plants bother making food through the process of photosynthesis if they are just going to break it down later to make ATP in cellular respiration?

65. Review What molecules are used in the Calvin Cycle of photosynthesis?
CO2, H2O, ATP, NADPH
2) What molecules are made in the Calvin Cycle of photosynthesis?
C6H12O6, ADP, NADP+
3) Why do plants bother making food through the process of photosynthesis if they are just going to break it down later to make ATP in cellular respiration?
ATP breaks down too quickly for long term storage

66. How do the following environmental factors influence photosynthesis?
Amount of Sunlight

67. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight the rate of photosynthesis because

68. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight increases the rate of photosynthesis because

69. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight increases the rate of photosynthesis because there is more light energy available to power the light reactions.

70. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight increases the rate of photosynthesis because there is more light energy available to power the light reactions.
A lack of sunlight breaks down . This happens during the fall when the days get shorter. Leaves change color when the green chlorophyll breaks down and the colors of the other pigments are revealed. Deciduous trees lose their leaves in the fall because

71. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight increases the rate of photosynthesis because there is more light energy available to power the light reactions.
A lack of sunlight breaks down chlorophyll . This happens during the fall when the days get shorter. Leaves change color when the green chlorophyll breaks down and the colors of the other pigments are revealed. Deciduous trees lose their leaves in the fall because

72. How do the following environmental factors influence photosynthesis?
Amount of Sunlight
Increasing the amount of sunlight increases the rate of photosynthesis because there is more light energy available to power the light reactions.
A lack of sunlight breaks down chlorophyll . This happens during the fall when the days get shorter. Leaves change color when the green chlorophyll breaks down and the colors of the other pigments are revealed. Deciduous trees lose their leaves in the fall because there is not enough sunlight during the winter

73. How do the following environmental factors influence photosynthesis?
Amount of Rain

74. How do the following environmental factors influence photosynthesis?
Amount of Rain
In a drought, the rate of photosynthesis because

75. How do the following environmental factors influence photosynthesis?
Amount of Rain
In a drought, the rate of photosynthesis decreases because

76. How do the following environmental factors influence photosynthesis?
Amount of Rain
In a drought, the rate of photosynthesis decreases because there is not enough water to help start the light reactions of photosynthesis .

77. How do the following environmental factors influence photosynthesis?
Amount of Rain
In a drought, the rate of photosynthesis decreases because there is not enough water to help start the light reactions of photosynthesis .
C6H12O6 + 6o2
6CO2 +
6H2O

78. How do the following environmental factors influence photosynthesis?
Temperature

79. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures the rate of photosynthesis because

80. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures decrease the rate of photosynthesis because

81. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures decrease the rate of photosynthesis because the enzymes that help speed up photosynthesis stop working and molecules move slower .

82. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures decrease the rate of photosynthesis because the enzymes that help speed up photosynthesis stop working and molecules move slower .
Extreme hot temperatures the rate of photosynthesis because

83. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures decrease the rate of photosynthesis because the enzymes that help speed up photosynthesis stop working and molecules move slower .
Extreme hot temperatures decrease the rate of photosynthesis because

84. How do the following environmental factors influence photosynthesis?
Temperature
Extreme cold temperatures decrease the rate of photosynthesis because the enzymes that help speed up photosynthesis stop working and molecules move slower .
Extreme hot temperatures decrease the rate of photosynthesis because the enzymes denature, and so they stop working .