- Low CO?
- ATP availability
- Light exposure
- NADPH recycling
No category found.
- Reducing light input
- Triggering stomatal closure
- Activating chlorophyllase
- Limiting ATP
- CO? becomes toxic
- Chlorophyll is destroyed
- Enzymes denature
- Light is absorbed less
- CO?
- Water
- Chlorophyll
- Enzyme concentration
- Increased CO? uptake
- Increased H?O loss
- Decreased internal CO?
- ATP gain
- Increase in CO? usage
- Increase in water absorption
- Decrease in glucose production
- Increase in oxygen output
- Halt electron flow
- Inhibit chlorophyll
- Reduce Rubisco specificity
- Have no effect
- Enhancing ATP synthase
- Increasing photorespiration
- Inhibiting enzyme function
- Increasing chlorophyll
- Stops
- Decreases
- Increases then plateaus
- Becomes anaerobic
- Decreased yield
- Slower ATP production
- Faster respiration
- Increased plant growth
- CO? concentration
- Water availability
- Light intensity
- Enzyme activity
- Glucose breakdown
- CO? fixation
- ATP synthesis
- Electron supply
- Photoinhibition
- Increased CO? fixation
- Faster chlorophyll repair
- Enhanced water use
- Stimulates Rubisco
- Reduces respiration
- Activates mitochondria
- Opens stomata wider
- NADPH deficiency
- Lack of CO?
- Low ATP production
- High chlorophyll
- Rubisco is inhibited
- CO? is absent
- Light saturation point is reached
- Water breaks down
- Increased ATP production
- Enhanced carbon fixation
- Stomatal closure
- Increased NADPH
- HCO?? ions
- Air pockets
- O?
- Carbonate rocks
- Increasing sugar output
- Increasing CO? intake
- Reducing CO? availability
- Enhancing water entry
