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Nitrogen & Bacteria A biological journey through the environment

Nitrogen & Bacteria A biological journey through the environment. Sources of Nitrogen to the Environment. Agricultural. Natural. Industrial. Transportation. N: An essential element for life on earth.

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Nitrogen & Bacteria A biological journey through the environment

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  1. Nitrogen & BacteriaA biological journey through the environment

  2. Sources of Nitrogen to the Environment Agricultural Natural Industrial Transportation

  3. N: An essential element for life on earth • Nitrogen is critical for the formation of cells and the biological activity in all living things – microbes, plants & animals • It is part of … • Amino acids – the building blocks of proteins. • Proteins – the workhorses of cells, used in both structural components (such as muscles) and in enzymes that drive metabolism. • Nitrogen transformations are also used by bacteria to make energy for growth.

  4. Too much Nitrogen can cause ecological and human health problems. Normally a limiting nutrient, an overload of nitrogen can lead to excess plant growth and decay( Eutrophication). Decay of plants and algae consumes available oxygen, leading to death of fish and other aquatic life. Nitrite (NO2) or nitrate (NO3-) in drinking water pose a health risk to infants. When these compounds are in excess, red blood cells have a reduced oxygen-carrying capacity. Nitrogen as a pollutant

  5. Nitrogen in the Atmosphere • Nitrogen is not a major component of rocks, but is enriched in soil by biological activity. • The atmosphere is 78% nitrogen, 21% oxygen, and 1% everything else. • Nitrogen transformations occur in soil, sediments, and aquatic systems. • Biological activity converts atmospheric N to various forms: organic N, ammonium (NH4+), nitrate (NO3-) or nitrite (NO2-). NH4+, NOx-

  6. A cycle that includes all living things Nitrogen as N2 N2 Amino acids, Organic-N NH4+ NOx- NH4+, NOx-

  7. Nitrogen as N2 • N2 is converted into ammonium (NH4+) by nitrogen-fixing bacteria. • Plants take up ammonium as a part of their biomass. NH4+, NOx-

  8. Microorganisms decompose proteins from dead cells and release amino acids. • Ammonium is freed by microbial ammonification of the amino acids. • The nitrogen in ammonia is oxidized to produce nitrates (NO3-) for energy by nitrifying bacteria. NH4+ NOx-

  9. Denitrifying bacteria reduce nitrates to molecular nitrogen (N2). N2 NH4+ NOx-

  10. Bacteria use Nitrogen as a source of energy and as an essential element for growth Examples: Fixation of Nitrogen for cell growth: N2 + Energy  Ammonium (NH4+)  Amino acids  Proteins Dissimilation of Nitrogen for energy: Nitrate (NO3-) + Organic matter  Nitrogen gas (N2) + CO2 + Energy!

  11. NO3- Respiration, Dissimilation, Assimilation Nitrification NO2- Denitrification NO Nitrification Denitrification Dissimilation, Assimilation N2O NH2OH Denitrification N2 Nitrification Fixation NH4+ Ammonification Organic nitrogen

  12. Nitrogen in Soils N2 • Where some key transformations occur. • Microbial influence an important link. • First a word about soils… N2 NH4+ NOx- NH4+, NOx-

  13. Soil formation • Soil is formed slowly as rock breaks into tiny pieces near the Earth's surface. • Organic matter decays and mixes with the broken rock to form soil. • Microbes, such as bacteria and fungi, help break down the organic matter.

  14. What makes up soil?

  15. Bacteria create microcolonies within the soil

  16. What are bacteria? A simple design that comes in lots of shapes and sizes. • Single-cell organisms • Nucleoid instead of nucleus • Ribosomes – where proteins are made • Cell wall

  17. Bacteria are small Small

  18. What do bacteria need to survive? • Carbon • Organic matter • CO2 • Water • Vitamins & Minerals • Energy source

  19. All of this can be found in soil. • In the ground, soil bacteria have everything they need. • In addition to using organic carbon, many bacteria have unique metabolic capabilities that allow them to utilize inorganic molecules such as nitrogen, iron, sulfur and hydrogen for energy and growth. • They can be found almost every environment, because they will ‘eat’ just about anything.

  20. The bulk of microbial activity will occur in the upper levels of the soil.

  21. What role do bacteria play in soils? • Cycle elements between ecosystems. • Breakdown dead organic matter, which adds nutrients to the soil. • Restore oxygen to the atmosphere. • Fix nitrogen (N2 NH4+) that other organisms can use to make proteins. • Return the nitrogen to the atmosphere. • All life on Earth depends on bacteria.

  22. Some critical roles that bacteria play in the Nitrogen cycle • Fixation of N2 to NH4+ for plants • Nitrogen fixing “plants” are actually bacterial colonies located on the roots. • Remediation of soils contaminated with too much Nitrate/Nitrite • NO3- N2 gas  back to atmosphere

  23. Some Elemental Cycles dependent on bacterial activity • Carbon Cycle • Organic carbon  CO2 • Iron Cycle • Fe(III)  Fe(II)  Fe(III)… • Sulfur Cycle • SO4-2 H2S  S0  SO4-2

  24. Reasons to love bacteria Food production Medicine Energy: Methane & Ethanol

  25. Reasons to love soil bacteria Bioremediation of polluted soils Release of nutrients to food crops

  26. This presentation brought to you by… • National Science Foundation • Indiana University - Bloomington • University of Wisconsin - Madison • Fulbright Academy of Science & Technology

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