5 Must Know Facts For Your Next Test

1. C4 photosynthesis involves two distinct types of cells: mesophyll cells, which initially capture CO₂, and bundle sheath cells, where the Calvin cycle occurs.
2. This pathway enables C4 plants to thrive in conditions where water is scarce by reducing the stomatal opening time, thus limiting water loss.
3. Examples of C4 plants include maize (corn), sugarcane, and sorghum, which are often found in tropical and subtropical regions.
4. The C4 pathway was a significant evolutionary adaptation, allowing these plants to outperform C3 plants under high temperatures and intense sunlight.
5. C4 photosynthesis not only improves carbon fixation efficiency but also leads to higher biomass production in suitable environments compared to C3 plants.

Review Questions

• How does C4 photosynthesis enhance the efficiency of carbon fixation compared to C3 photosynthesis?
  • C4 photosynthesis enhances carbon fixation by utilizing a two-step process that separates the initial capture of CO₂ from the Calvin cycle. In mesophyll cells, CO₂ is fixed into a four-carbon compound before being transported to bundle sheath cells for conversion into glucose. This separation helps reduce photorespiration, especially in hot and dry conditions, allowing C4 plants to outperform C3 plants in terms of overall photosynthetic efficiency.
• Discuss the structural adaptations that enable C4 photosynthesis to function effectively in certain plant species.
  • C4 plants exhibit unique structural adaptations known as Kranz anatomy, which consists of two layers of mesophyll cells surrounding the vascular bundles. This arrangement facilitates the efficient transport and concentration of CO₂ within the bundle sheath cells. The specialized structure allows these plants to maintain high levels of CO₂ for the Calvin cycle while minimizing water loss through transpiration, ultimately enhancing their ability to thrive in arid environments.
• Evaluate the ecological significance of C4 photosynthesis in the context of global climate change and agricultural practices.
  • C4 photosynthesis plays a critical ecological role as climate change intensifies conditions such as drought and increased temperatures. As traditional agricultural practices may struggle with these changes, crops that utilize C4 pathways could become increasingly important for food security. Evaluating their potential for enhanced productivity under stress conditions could lead to better crop varieties and sustainable farming practices that adapt to changing climates, highlighting the need for research focused on improving C4 crop yields and resilience.

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