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Nitrogen

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Biology for Non-STEM Majors

Definition

Nitrogen is a colorless, odorless gas that makes up about 78% of the Earth's atmosphere. It is an essential element for life, as it is a key component of amino acids, proteins, and nucleic acids, playing a critical role in biological processes and the biogeochemical cycles that regulate ecosystem functioning.

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5 Must Know Facts For Your Next Test

  1. Nitrogen is crucial for the synthesis of amino acids, which are the building blocks of proteins, essential for growth and repair in living organisms.
  2. The nitrogen cycle includes several key processes: nitrogen fixation, nitrification, assimilation, ammonification, and denitrification.
  3. Most organisms cannot use atmospheric nitrogen directly; they depend on nitrogen-fixing bacteria to convert it into forms they can utilize.
  4. Excess nitrogen from fertilizers can lead to environmental issues such as water pollution and algal blooms due to runoff into aquatic systems.
  5. Nitrogen plays a significant role in regulating plant growth and productivity, making it a vital nutrient in agriculture.

Review Questions

  • How does nitrogen fixation contribute to the availability of nitrogen for living organisms?
    • Nitrogen fixation is crucial because it transforms atmospheric nitrogen gas into ammonia or related compounds that plants can absorb. This process is primarily carried out by specialized bacteria in soil or root nodules of certain plants. Without nitrogen fixation, most organisms would struggle to access this essential nutrient, as they cannot utilize atmospheric nitrogen directly.
  • Discuss the impact of excess nitrogen from agricultural practices on ecosystems.
    • Excess nitrogen from fertilizers can lead to significant ecological consequences. When it runs off into nearby water bodies, it can cause eutrophication, resulting in harmful algal blooms that deplete oxygen in the water. This creates dead zones where aquatic life cannot survive. Such shifts disrupt local ecosystems and can have cascading effects on biodiversity and water quality.
  • Evaluate the interconnectedness of the nitrogen cycle with other biogeochemical cycles.
    • The nitrogen cycle is deeply interconnected with other biogeochemical cycles such as the carbon cycle and phosphorus cycle. For instance, plant growth stimulated by available nitrogen also affects carbon uptake through photosynthesis. Moreover, organisms involved in various cycles often rely on nitrogen compounds for metabolic functions. Disruption in one cycle can lead to imbalances in others, illustrating the complex web of nutrient interactions within ecosystems.
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