15.3: C4 and CAM Photosynthesis

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Most plants use C3 photosynthesis, the type of photosynthesis we have talked about so far. However, C4 and CAM plants have evolved unique adaptations that allow them to thrive in specific environmental conditions, particularly those involving heat and aridity.

**Figure \(\PageIndex{1}\):** A comparison of carbon fixation in C3, C4 and CAM plants. (Lugano, G. (2023) BioRender.)

Comparison between C3, C4, and CAM Plants — **Figure \(\PageIndex{1}\):** A comparison of carbon fixation in C3, C4 and CAM plants. (Lugano, G. (2023) BioRender.)

C4 plants utilize a specialized photosynthetic process known as C4 carbon fixation. This adaptation enables them to efficiently fix carbon dioxide (CO₂) into a four-carbon compound before entering the Calvin cycle. This process is facilitated by the enzyme phosphoenolpyruvate (PEP) carboxylase, which has a higher affinity for CO₂ and does not react with oxygen, thus minimizing photorespiration. C4 plants exhibit a distinct leaf anatomy so that carbon fixation happens in the mesophyll cells and an the calvin cycle happens in the bundle sheath cells (Figure \(\PageIndex{1}\)). C4 photosynthesis is particularly advantageous in hot, dry environments as it allows plants to minimize water loss by partially closing their stomata while still efficiently fixing CO₂. This adaptation helps them avoid the energy losses associated with photorespiration. Common examples of C4 plants include maize, sugarcane, and sorghum, which are typically found in tropical and subtropical regions where they can outcompete C3 plants under high light intensity and temperature conditions.

On the other hand, CAM (Crassulacean Acid Metabolism) plants have developed a different strategy to cope with arid conditions. CAM plants open their stomata at night to fix CO₂ into organic acids, such as malate, which are stored in vacuoles. During the day, when stomata are closed to conserve water, the stored CO₂ is released from these acids for use in the Calvin cycle. This ability to fix CO₂ at night allows CAM plants to significantly reduce water loss compared to plants that open their stomata during the day, making them well-suited for extremely arid environments. Examples of CAM plants include many succulents such as cacti and some orchids, which are often found in deserts or other environments where water conservation is critical.

Both C4 and CAM photosynthesis represent evolutionary adaptations that enable plants to optimize photosynthetic efficiency and survival under challenging environmental conditions.

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