1. Photosynthesis

2. Energy for Life What are autotrophs? Why are they important?

3. Energy for Life AUTOTROPHS are organisms that can make their own food. –Also called PRODUCERS. –Ex. PLANTS, ALGAE

4. Energy for Life HETEROTROPHS are organisms that depend on other organisms for food. –Also called CONSUMERS. –Ex. ANIMALS, BACTERIA

5. Energy for Life TWO biological processes are needed to create usable energy for organisms. Photosynthesis – the process that converts sunlight into sugar. (autotrophs only) Respiration – process that releases energy in sugar into usable energy for cells. (autotrophs and heterotrophs)

6. ATP Adenine (nitrogen base) Ribose (sugar) 3 Phosphate groups Adenosine triphosphate (ATP) – energy storage molecule.

7. ATP ATP is the universal currency for energy ATP stores energy in the BONDS BETWEEN THE PHOSPHATE GROUPS. When a BOND IS BROKEN energy is released. +phosphateenergy+ATP (tri) ADP (di)

8. Structure of a Chloroplast A chloroplast is the structure in a plant cell where photosynthesis occurs. Internal Structure: Thylakoid membrane – internal membrane, look like stacks of pancakes. Lumen – space inside thylakoid membrane. Grana – stacks of thylakoids. Stroma – protein solution that thylakoids are embedded in.

9. Structure of a Chloroplast

11. Pigments Pigments are light absorbing molecules. Each pigment absorbs and reflects different wavelengths of light. (we see the reflected color)

12. Pigments CHLOROPHYLL is the primary pigment in photosynthesis. –Gives plants their GREEN color. CAROTENOIDS are accessory pigments that absorb light that chlorophyll cannot. –They are YELLOW, ORANGE, AND BROWN.

13. Checkpoint Why do leaves turn yellow, orange and brown in the fall? Production of chlorophyll is slowed down in the fall due to lower temperatures and less sunlight!

14. Pigments

15. Photosynthesis 6 CO 2 + 6 H 2 O + sunlight C 6 H 12 O 6 + 6O 2 Photosynthesis song :) Sunlight Carbon Dioxide Water Glucose Oxygen

16. Important Scientists Involved in discovering processes of Photosynthesis

17. Van Helmont Measured plant mass and soil mass before and after 5 years of growth Most of gain in mass came from water

18. Priestly Candle with a jar over it would die out. Why? –Required oxygen Sprig of mint plus candle caused candle to last longer. Why? –Plant produced oxygen

19. Ingenhousz Plant produced oxygen only in the presence of light

20. Photosynthesis There are two stages to photosynthesis, the light-dependent reactions and light-independent (dark) reactions.

21. Light-dependent Reactions Occur in the THYLAKOID MEMBRANES. 1.Light is absorbed by chlorophyll in Photosystem II and electrons are excited. –Proteins in the thylakoid membrane organize chlorophyll and other pigments into clusters called a photosystem (a.k.a, light system) 2.The excited electrons move through a series of reactions – the electron transport chain.

22. Light-dependent Reactions

23. 3.The light energy splits water molecules into H and O 2 4.The O 2 is released into the atmosphere and the H bonds to a carrier molecule (NADPH) to be carried to the Dark Reactions. 5.Splitting the water also creates ATP.

25. Light Reactions O2O2 Light Reactions NADPH ATP NADPH ATP Sunlight, water, and CO 2 Chloroplast Light- dependent Reactions Chloroplast NADPH ATP The end products of the light reactions are NADPH, ATP, and O 2

26. Light-independent Reactions Don’t Require LIGHT Also called the DARK REACTIONS OR THE CALVIN CYCLE. Occur in the STROMA Melvin Calvin

27. Light-independent Reactions 1.Carbon dioxide enters the plant and attaches to a sugar molecule. This is called carbon fixation 2.Carbon Dioxide, NADPH, and ATP combine with enzymes to make glucose (C 6 H 12 O 6 ) and more CO 2. 3.NADPH becomes NADP+ and ATP becomes ADP +P

28. What happens in the Calvin Cycle?

29. Dark Reactions Chloroplast Light, water, and CO 2 O2O2 Glucose CO 2 Light- independent Reactions NADPH ATP ADP + P NADP+ Chloroplast Carbon Fixation Light- dependent Reactions

30. Factors Affecting Photosynthesis Light Intensity – the more light the faster the rate of photosynthesis. CO 2 Concentration – the more CO 2, the faster the rate of photosynthesis. Temperature – rate of photosynthesis slows down at extremes of hot or cold. Photosynthesis video