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How can you explain the shape of these two graphs that describe the rate of photosynthesis as a function of temperature and light intensity? Answers: Light.

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Presentation on theme: "How can you explain the shape of these two graphs that describe the rate of photosynthesis as a function of temperature and light intensity? Answers: Light."— Presentation transcript:

1 How can you explain the shape of these two graphs that describe the rate of photosynthesis as a function of temperature and light intensity? Answers: Light intensity – this is a saturation curve graph. Initially increases light increases the production of key reaction intermediates in photosynthesis, however eventually the enzymes become saturated and the rate plateaus. Temperature- This is a bell curve. There is an optimum temperature at which the activity of the enzymes that catalyze the reactions of photosynthesis operate most efficiently.

2 Practice IB Bioenergetics Question
The concentration of O2 was measured in the dark in a container of fixed volume for 1 hour. Next a plant was added to the container with the lights off for 1 hour. Finally high intensity lights were turned on in the container for 3 hours. Sketch a plausible graph of what would be observed during the experiment. Label the y-axis as O2 concentration and time on the x-axis.

3 [O2] Introduce Plant in Dark LIGHT ON TIME

4 The Main Product of the Light-independent Reactions
In the Light-independent Reactions, the Calvin cycle uses ATP and NADPH to convert CO2 to sugar 1. Carbon fixation to a 3-carbon organic acid C3 Ribulose -1,5-bisphosphate carboxylase oxygenase 2. Reduction to an aldehyde (ATP & NADPH) The Main Product of the Light-independent Reactions VIDEO LINK OVERVIEW Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings

5 Electron transport chain
Fig H2O CO2 CALVIN CYCLE INPUTS: CO2 + NADPH + ATP Light NADP+ ADP + P i Light Reactions: Photosystem II Electron transport chain Photosystem I RuBP 3-Phosphoglycerate Calvin Cycle ATP G3P Starch (storage) NADPH Chloroplast in Mesophyll cells Chloroplast CALVIN CYCLE OUTPUTS: G3P(or glucose) + NADP+ + ADP O2 Sucrose (export)

6 Figure 10.17 The Calvin cycle (Layer 1)
Link to Smith College Animation

7 The addition of CO2 to RuBP to form 3-PGA is catalyzed by the enzyme Rubisco
-Very inefficient enzyme Slow rate means that many copies of enzyme are required in each chloroplast

8 Figure 10.17 The Calvin cycle (Layer 2)

9 Figure 10.17 The Calvin cycle (Layer 3)

10 6 turns required to make 1 glucose molecules
Link to McGraw-Hill Animation

11

12 Link to animation Light source
Stop reaction at different time intervals by dropping sample into hot, boiling ethanol.

13 Link to Arizona Biology Project

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