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C3 and C4 Pathways

Photosynthesis is the biological process by which all green plants, photosynthetic bacteria and other autotrophs convert light energy into chemical energy. In this process, glucose is synthesised from carbon dioxide and water in the presence of sunlight. Furthermore, oxygen gas is released out into the atmosphere as the by-product of photosynthesis.
The balanced chemical equation for the photosynthesis process is as follows:
6CO2 + 6H2O → C6H12O6 + 6O2
Sunlight is the ultimate source of energy. Plants use this light energy to prepare chemical energy during the process of photosynthesis. The whole process of photosynthesis takes place in two phases - photochemical phase and biosynthetic phase.
The photochemical phase is the initial stage where ATP and NADPH for the biosynthetic phase are prepared. In the biosynthetic phase, the end product – glucose is produced. Let us focus more on pathways in biosynthetic phase.
C4 Pathway: Hatch & Slack Pathway | Biology for JAMBDuring the biosynthetic phase, carbon dioxide and water combine to give carbohydrates i.e. sugar molecules. This reaction of carbon dioxide is termed as carbon fixation. Different plants follow different pathways for carbon fixation.
Based on the first product formed during carbon fixation there are two pathways: the C3 pathway and C4 pathway.

The Pathway of Photosynthesis

  1. CPathway (Calvin Cycle)


    The majority of plants produce 3-carbon acid called 3-phosphoglyceric acid (PGA) as a first product during carbon dioxide fixation. Such a pathway is known as the C3 pathway which is also called the Calvin cycle.
    Calvin Cycle occurs in three steps:
    (i) 
    carboxylation
    (ii) reduction
    (iii) regeneration
    In the first step, the two molecules of 3-phosphoglyceric acid (PGA) are produced with the help of the enzyme called RuBP carboxylase. Later in the second and third steps, the ATP and NADPH phosphorylate the 3-PGA and ultimately produces glucose. Then the cycle restarts again by regeneration of RuBP.
    Beans, Rice, Wheat, and Potatoes are an example of plants that follow the C3 pathway.
  2. C4 Pathway (Hatch and Slack Pathway)


    Every photosynthetic plant follows Calvin cycle, but in some plants, there is a primary stage to the Calvin Cycle known as C4 pathway. Plants in tropical desert regions commonly follow the C4 pathway. Here, a 4-carbon compound called oxaloacetic acid (OAA) is the first product by carbon fixation. Such plants are special and have certain adaptations as well.
    The C4 pathway initiates with a molecule called phosphoenolpyruvate (PEP) which is a 3-carbon molecule. This is the primary CO2 acceptor and the carboxylation takes place with the help of an enzyme called PEP carboxylase. They yield a 4-C molecule called oxaloacetic acid (OAA).
    Eventually, it is converted into another 4-carbon compound known as malic acid. Later, they are transferred from mesophyll cells to bundle sheath cells. Here, OAA is broken down to yield carbon dioxide and a 3-C molecule.
    The CO2 thus formed, is utilized in the Calvin cycle, whereas 3-C molecule is transferred back to mesophyll cells for regeneration of PEP.
    Corn, sugarcane and some shrubs are examples of plants that follow the C4 pathway. Calvin pathway is a common pathway in both C3 plants and C4 plants, but it takes place only in the mesophyll cells of the C3 Plants but not in the C4 Plants.
The document C4 Pathway: Hatch & Slack Pathway | Biology for JAMB is a part of the JAMB Course Biology for JAMB.
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FAQs on C4 Pathway: Hatch & Slack Pathway - Biology for JAMB

1. What is the C4 pathway in photosynthesis?
The C4 pathway is a metabolic pathway used by certain plants to efficiently fix carbon dioxide (CO2) and perform photosynthesis. It involves the initial fixation of CO2 into a four-carbon compound, which is then transported to specialized cells where it is converted back to CO2 for use in the Calvin cycle. This pathway is an adaptation to hot and dry environments, as it minimizes water loss and increases photosynthetic efficiency.
2. How does the Hatch & Slack pathway differ from the C4 pathway?
The Hatch & Slack pathway, also known as the C4 cycle or C4 photosynthesis, is a type of C4 pathway that occurs in certain plants. It differs from the regular C4 pathway in that it involves the direct decarboxylation of malate or aspartate in specialized cells, rather than the conversion of a four-carbon compound. This direct decarboxylation allows for a more efficient use of CO2 and enhances water use efficiency.
3. Which plants commonly utilize the C4 pathway?
Many plants in tropical and subtropical regions have evolved to utilize the C4 pathway. Examples include maize (corn), sugarcane, sorghum, and certain types of grasses. These plants are able to thrive in hot and dry environments due to the efficiency of the C4 pathway in conserving water and fixing CO2.
4. What are the advantages of the C4 pathway in photosynthesis?
The C4 pathway offers several advantages for plants in hot and dry environments. Firstly, it allows for a more efficient use of CO2, as the initial fixation step incorporates CO2 into a four-carbon compound, reducing the wasteful process of photorespiration. Secondly, the C4 pathway minimizes water loss by concentrating CO2 in specialized cells, reducing the need for stomatal opening and transpiration. This enhances water use efficiency and allows plants to survive in arid conditions.
5. How does the C4 pathway contribute to global carbon cycling?
The C4 pathway has implications for global carbon cycling as it affects the balance of atmospheric CO2. Plants utilizing the C4 pathway have a higher photosynthetic efficiency and can fix more carbon per unit of water compared to plants using the regular C3 pathway. This can lead to increased carbon sequestration and potentially impact the global carbon dioxide levels. Additionally, C4 plants are often more resilient to heat and drought, making them important contributors to terrestrial ecosystems in a changing climate.
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