Plant Physiology

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Stomatal Conductance

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Plant Physiology

Definition

Stomatal conductance refers to the rate at which carbon dioxide (CO2) enters and water vapor exits a leaf through the stomata, which are tiny openings on the leaf surface. This process plays a crucial role in photosynthesis and transpiration, affecting plant water use efficiency and gas exchange. Stomatal conductance can be influenced by environmental factors such as light, humidity, and soil moisture, as well as plant physiological responses, making it essential in understanding how plants adapt to changing conditions.

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5 Must Know Facts For Your Next Test

  1. Stomatal conductance is often measured in moles of CO2 per square meter per second (mol/m²/s), indicating how efficiently gases are exchanged.
  2. Higher light intensity generally increases stomatal conductance because more CO2 is needed for photosynthesis during daylight.
  3. Stomatal conductance can decrease under drought conditions as plants close their stomata to conserve water, impacting photosynthesis negatively.
  4. C4 and CAM plants have adapted different strategies for managing stomatal conductance to optimize photosynthesis while minimizing water loss.
  5. The relationship between stomatal conductance and environmental factors like temperature and humidity is crucial for understanding plant responses to climate change.

Review Questions

  • How does stomatal conductance affect the balance between photosynthesis and transpiration in plants?
    • Stomatal conductance plays a key role in balancing photosynthesis and transpiration by regulating the exchange of CO2 and water vapor. When stomata are open, CO2 can enter for photosynthesis while water vapor exits through transpiration. However, excessive water loss can stress the plant, leading to a decrease in stomatal conductance to conserve water. Thus, plants must carefully manage this trade-off to optimize growth and survival.
  • Discuss how environmental factors influence stomatal conductance and the implications for plant health.
    • Environmental factors such as light intensity, humidity, temperature, and soil moisture significantly influence stomatal conductance. For instance, increased light can enhance conductance, promoting photosynthesis. Conversely, high temperatures or low humidity may lead to increased transpiration rates, causing plants to close their stomata to avoid dehydration. These responses can impact overall plant health by affecting growth rates and resilience under stress conditions.
  • Evaluate the adaptations of C4 and CAM plants concerning stomatal conductance in relation to their environments.
    • C4 and CAM plants have evolved unique adaptations that optimize stomatal conductance based on their specific environments. C4 plants maintain higher stomatal conductance during the day but employ a special mechanism to fix CO2 efficiently even when stomata are partially closed. In contrast, CAM plants open their stomata at night to minimize water loss during hot days while still capturing CO2 for photosynthesis. This strategic management of stomatal conductance allows these plants to thrive in arid or variable environments while maintaining efficient gas exchange.

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