Bioremediation

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Nitrogen-fixing bacteria

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Bioremediation

Definition

Nitrogen-fixing bacteria are specialized microorganisms that convert atmospheric nitrogen (N₂) into ammonia (NH₃) or related compounds, making nitrogen available for uptake by plants. This process is crucial in nutrient cycling as it enhances soil fertility and supports plant growth, ultimately impacting the availability of nitrogen in ecosystems.

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5 Must Know Facts For Your Next Test

  1. Nitrogen-fixing bacteria play a critical role in the nitrogen cycle by transforming inert atmospheric nitrogen into biologically accessible forms.
  2. These bacteria can be free-living in the soil or form symbiotic relationships with the roots of certain plants, especially legumes.
  3. The process of nitrogen fixation is energy-intensive, requiring ATP and specific enzymes called nitrogenases.
  4. Nitrogen-fixing bacteria can significantly enhance crop yields by improving soil nitrogen levels, reducing the need for synthetic fertilizers.
  5. Some well-known genera of nitrogen-fixing bacteria include Azotobacter, Rhizobium, and Frankia.

Review Questions

  • How do nitrogen-fixing bacteria contribute to nutrient cycling in ecosystems?
    • Nitrogen-fixing bacteria are essential for nutrient cycling because they convert atmospheric nitrogen into forms that plants can use, such as ammonia. This transformation increases soil fertility and helps maintain the nitrogen balance within ecosystems. By providing a direct source of nitrogen to plants, these bacteria facilitate plant growth and productivity, ultimately supporting entire food webs.
  • Discuss the relationship between rhizobia and leguminous plants in the context of nitrogen fixation.
    • Rhizobia are a specific group of nitrogen-fixing bacteria that establish symbiotic relationships with leguminous plants. Within root nodules formed on the plant's roots, rhizobia convert atmospheric nitrogen into ammonia, which the plant can utilize for growth. In return, the plant provides carbohydrates and a suitable environment for the bacteria. This mutualistic relationship enhances soil fertility and significantly contributes to agricultural productivity.
  • Evaluate the impact of nitrogen-fixing bacteria on sustainable agriculture practices and their role in reducing chemical fertilizer reliance.
    • Nitrogen-fixing bacteria play a pivotal role in sustainable agriculture by naturally enriching soil with nitrogen, reducing the reliance on chemical fertilizers. By incorporating legumes into crop rotations or intercropping systems, farmers can enhance soil health while lowering costs associated with synthetic fertilizers. This practice not only improves soil structure and biodiversity but also decreases environmental pollution from fertilizer runoff, promoting a more sustainable farming approach.
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