2.3.3 Factors Affecting Transpiration

Cards (49)

  • What is the process called by which plants lose water vapor through their leaves?
    Transpiration
  • Light intensity affects transpiration by regulating the opening of stomata.
    True
  • Under low light conditions, stomata close
  • Describe the relationship between light intensity and transpiration rate.
    High light increases transpiration
  • Why does high humidity decrease the transpiration rate?
    Air is saturated with moisture
  • Low wind speed results in more humid air near the leaves, causing the transpiration rate to decrease
  • What happens to the transpiration rate when the air surrounding the leaves becomes more humid?
    Decreases
  • Wind speed influences transpiration rates in plants.

    True
  • When wind speed is low, the transpiration rate decreases
  • What is the primary function of transpiration in plants?
    Draw water and nutrients
  • Arrange the relationship between light intensity, stomata opening, and transpiration rate:
    1️⃣ High light intensity
    2️⃣ Stomata open wider
    3️⃣ Transpiration rate increases
  • What happens to the transpiration rate under low temperatures?
    Decreases
  • When humidity is high, the stomata open less
  • High wind speed reduces humidity near leaves, increasing transpiration.

    True
  • Higher rates of evaporation lead to an increase in the transpiration rate.

    True
  • High humidity levels result in smaller stomata openings
  • What is the primary role of wind speed in transpiration?
    Sweeps away moisture-saturated air
  • High wind speed leads to wider stomata openings
  • What does soil water availability refer to?
    Water accessible to plant roots
  • Low soil water availability causes plants to conserve water by closing their stomata
  • Stomata are tiny pores on the surface of leaves
  • What two environmental factors do plants respond to when controlling stomatal opening?
    Light and CO2 levels
  • High temperature increases the evaporation rate, resulting in greater transpiration
  • What are the ideal conditions for maximizing transpiration rates in plants?
    High light, temperature, wind, low humidity
  • Transpiration occurs mainly through tiny pores on the leaves called stomata
  • What happens to stomata under high light conditions?
    Open wider and more frequently
  • How does high light intensity affect the transpiration rate?
    Increases it
  • How does low temperature affect the transpiration rate?
    Decreases it
  • Low humidity allows for a higher transpiration rate because the air can hold more water vapor.
    True
  • What happens to stomata under high wind speed conditions?
    Open wider
  • When wind speed is high, the stomata opening becomes wider
  • Why do stomata close slightly under low wind speed conditions?
    To conserve water
  • Match the part of the plant with its role in transpiration:
    Leaves ↔️ Site of water loss
    Stomata ↔️ Tiny pores controlling water release
    Water Vapor ↔️ Water in gaseous form lost
  • Under low light intensity, the stomata close
  • Temperature influences transpiration by affecting the kinetic energy of water molecules.

    True
  • High temperatures cause the stomata to open
  • What is humidity and its role in regulating transpiration?
    Water vapor in air
  • Arrange the relationship between humidity level, stomata opening, and transpiration rate:
    1️⃣ High humidity
    2️⃣ Stomata open less
    3️⃣ Transpiration rate decreases
  • The air is drier and can hold more water vapor
  • Why do stomata open wider when the air is dry?
    To release more water vapor