Calvin Cycle and Photorespiration Calvin Cycle Where does

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Calvin Cycle and Photorespiration

Calvin Cycle and Photorespiration

Calvin Cycle • • • Where does the Calvin Cycle occur? In the stroma

Calvin Cycle • • • Where does the Calvin Cycle occur? In the stroma What goes into the Calvin Cycle? ATP, NADPH, Carbon Dioxide What comes out of the Calvin Cycle? Sugar, ADP, NADP+

The G 3 P made in the Calvin Cycle is involved in the biosynthesis

The G 3 P made in the Calvin Cycle is involved in the biosynthesis of other organic molecules

Rate of Photosynthesis • What is a rate? • It is the activity per

Rate of Photosynthesis • What is a rate? • It is the activity per unit time. • What factors can affect the photosynthetic rate?

Light Intensity

Light Intensity

The Effect of Light Intensity on Photosynthetic Rate

The Effect of Light Intensity on Photosynthetic Rate

Temperature

Temperature

The Effect of Temperature on Photosynthetic Rate

The Effect of Temperature on Photosynthetic Rate

The Effect of Light Intensity and Temperature on Photosynthetic Rate Which is the limiting

The Effect of Light Intensity and Temperature on Photosynthetic Rate Which is the limiting factor here; light intensity or temp. ?

Oxygen Concentration What would a graph for increasing levels of CO 2 look like?

Oxygen Concentration What would a graph for increasing levels of CO 2 look like?

Why Does Oxygen Effect Photosynthetic Rate? • What is the role of rubisco? •

Why Does Oxygen Effect Photosynthetic Rate? • What is the role of rubisco? • Rubisco incorporates carbon dioxide into the Ru. BP during the Calvin cycle. • Rubisco, however, has an active site that accommodates both oxygen and carbon dioxide. • What happens when rubisco incorporates oxygen into the Ru. BP molecule?

Photorespiration • The overall rate of photosynthesis decreases. • Photorespiration and photosynthesis occur at

Photorespiration • The overall rate of photosynthesis decreases. • Photorespiration and photosynthesis occur at the same time

Conditions for Photorespiation • What conditions will lead to a lot of photorespiration? •

Conditions for Photorespiation • What conditions will lead to a lot of photorespiration? • Hot • Dry • Sunny • What happens to stomates under such conditions? • They close.

Evolution • Why does rubisco bind both oxygen and carbon dioxide? • When Calvin

Evolution • Why does rubisco bind both oxygen and carbon dioxide? • When Calvin Cycle evolved there was little oxygen in the atmosphere.

Solutions • What solutions have some plants found for this problem? • C 4

Solutions • What solutions have some plants found for this problem? • C 4 Pathway. • Sugarcane, corn, crabgrass have all evolved a different structure that minimizes photorespiration.

What is the new structure?

What is the new structure?

The bundle sheath cells! How do the bundle sheath cells minimize photorespiration?

The bundle sheath cells! How do the bundle sheath cells minimize photorespiration?

Different between C 3 vs. C 4 plants • Photorespiration? • Leaf anatomy? •

Different between C 3 vs. C 4 plants • Photorespiration? • Leaf anatomy? • Levels of tolerancy under the hot, dry, sunny conditions that favor photorespiration? • Light comp. point? • CO 2 comp. point?

CAM Plants • At night, stomata open, take in CO 2, incorporate it into

CAM Plants • At night, stomata open, take in CO 2, incorporate it into organic acids and store those acids in vacuoles until daylight • during the day, stomates close • The organic acids stored at night, break down, release CO 2 and rubisco incorporates it into sugar.

Mesophyll cell

Mesophyll cell

• C 4 plants use a new structure to solve the photorespiration problem.

• C 4 plants use a new structure to solve the photorespiration problem. • CAM plants use time to solve the photorespiration problem.

Photorespiration cycle

Photorespiration cycle