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Guard cells

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Biological Chemistry II

Definition

Guard cells are specialized cells located in the epidermis of plant leaves and stems that control the opening and closing of stomata. By regulating the size of the stomatal pore, guard cells play a crucial role in gas exchange, allowing carbon dioxide to enter for photosynthesis while minimizing water loss through transpiration.

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5 Must Know Facts For Your Next Test

  1. Guard cells respond to environmental conditions such as light, humidity, and carbon dioxide levels to regulate stomatal opening.
  2. When guard cells take up water and become turgid, they bow outward, causing the stomata to open; when they lose water, they become flaccid and close the stomata.
  3. The opening and closing of stomata by guard cells is essential for maintaining a balance between gas exchange for photosynthesis and minimizing water loss.
  4. In addition to their role in gas exchange, guard cells also help prevent excess water loss in times of drought by closing the stomata.
  5. Abscisic acid is a hormone that plays a significant role in signaling guard cells to close during water stress.

Review Questions

  • How do guard cells contribute to the regulation of photosynthesis in plants?
    • Guard cells play a vital role in regulating photosynthesis by controlling the opening and closing of stomata. When stomata are open, carbon dioxide enters the leaf for photosynthesis while oxygen and water vapor exit. If guard cells sense high light levels or low internal CO2 concentrations, they will open the stomata to maximize gas exchange necessary for efficient photosynthesis.
  • Discuss the relationship between guard cells and transpiration. How does this impact plant health?
    • Guard cells directly influence transpiration by regulating stomatal openings. When stomata are open, transpiration occurs, allowing for water movement from roots to leaves and helping with nutrient uptake. However, if guard cells remain open too long under dry conditions, excessive water loss can occur, leading to wilting or reduced plant health. Thus, they must strike a balance to ensure optimal hydration and nutrient flow while allowing for necessary gas exchange.
  • Evaluate the impact of environmental factors on the function of guard cells and their overall importance in plant physiology.
    • Environmental factors like light intensity, humidity, and CO2 concentration significantly impact guard cell function. For instance, high light levels typically trigger guard cells to open stomata for increased CO2 uptake, essential for photosynthesis. Conversely, during drought stress, abscisic acid signals guard cells to close stomata to prevent water loss. This adaptability is crucial for maintaining plant homeostasis and ensuring survival in varying environmental conditions. The ability of guard cells to respond dynamically highlights their importance in plant physiology and overall ecosystem health.

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