4.1.2 Factors Affecting Photosynthesis

    Cards (73)

    • Very high light intensity can damage the photosynthetic apparatus
      True
    • Water is a reactant necessary for photosynthesis
      True
    • Very high temperatures can damage plants by denaturing enzymes

      True
    • Very high light intensity can damage the photosynthetic apparatus
    • Increasing carbon dioxide concentration always enhances the rate of photosynthesis
      False
    • What happens to the rate of photosynthesis if the temperature becomes too high?
      It decreases
    • Higher light intensity always increases the rate of photosynthesis.
      False
    • Photosynthesis uses sunlight, water, and carbon dioxide to create oxygen and energy in the form of glucose
    • High temperatures can denature enzymes, which reduces the rate of photosynthesis
    • Increasing carbon dioxide concentration increases the rate of photosynthesis up to a saturation
    • Match the factor with its effect on photosynthesis:
      Light Intensity ↔️ Increases up to a point
      CO2 Concentration ↔️ Increases up to saturation
      Temperature ↔️ Increases up to optimal range
      Water Availability ↔️ Increases with more water
    • What happens to photosynthesis when carbon dioxide concentration reaches a saturation point?
      No further increase
    • Carbon dioxide is a key reactant in photosynthesis.

      True
    • Match the factor with its effect on photosynthesis:
      Light Intensity ↔️ Increases the rate up to a point
      Carbon Dioxide Concentration ↔️ Increases the rate up to saturation
      Temperature ↔️ Increases to optimal range, then decreases
      Water Availability ↔️ Lack of water limits photosynthesis
    • As temperature increases, the rate of photosynthesis generally increases because higher temperatures speed up chemical reactions
    • Limiting factors restrict the rate of photosynthesis by being in short supply
    • Low carbon dioxide levels limit glucose synthesis
    • Chlorophyll reflects green light, which gives plants their green color
    • What is photosynthesis?
      Creates oxygen and energy
    • What is the effect of increasing carbon dioxide concentration on photosynthesis?
      Increases photosynthesis up to a limit
    • What happens to the rate of photosynthesis at very high light intensity?
      It decreases
    • What is the effect of water availability on photosynthesis?
      Lack of water limits photosynthesis
    • As light intensity increases, the rate of photosynthesis continues to increase indefinitely
      False
    • Why does increasing CO2 concentration beyond a saturation point not enhance photosynthesis?
      Enzymes reach maximum capacity
    • The equation for photosynthesis is: 6CO₂ + 6H₂O + Sunlight → C₆H₁₂O₆ + 6O₂. This equation shows that oxygen is produced as a byproduct
    • Why is there a saturation point for CO2 concentration in photosynthesis?
      Enzymes reach maximum capacity
    • Water is one of the reactants necessary for photosynthesis.

      True
    • Limiting factors restrict the rate of photosynthesis, while optimum conditions are ideal levels of light, carbon dioxide, temperature, and water
    • Low light intensity reduces ATP and NADPH production.

      True
    • What type of light does chlorophyll absorb most efficiently?
      Blue and red light
    • Photosynthesis uses sunlight, water, and carbon dioxide to create oxygen and glucose
    • What are the four key factors affecting photosynthesis?
      Light, CO₂, temperature, water
    • What happens to photosynthesis at extremely high or low temperatures?
      Rate reduces
    • Why does increasing carbon dioxide concentration enhance photosynthesis?
      More glucose production
    • High temperatures can denature enzymes involved in photosynthesis.
      True
    • Match the pigment with its role in photosynthesis:
      Chlorophyll ↔️ Absorbs light energy
      Carotenoids ↔️ Absorb blue-green light
      Phycobilins ↔️ Absorb green-yellow light
    • What type of light do carotenoids absorb?
      Blue-green light
    • Why are carotenoids considered accessory pigments in photosynthesis?
      They broaden the light range
    • Chlorophyll reflects green
    • In the light intensity experiment, what happens to the photosynthesis rate as light intensity increases?
      Increases up to a point
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