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BIOREMEDIATION

BIOREMEDIATION. Jiří Mikeš. Bioremediation. "use of living organisms (e.g., bacteria) to clean up oil spills or remove other pollutants from soil, water, and wastewater.“ Source: United States Environmental Protection Agency, Office of Compliance and Assurance

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BIOREMEDIATION

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  1. BIOREMEDIATION Jiří Mikeš

  2. Bioremediation "use of living organisms (e.g., bacteria) to clean up oil spills or remove other pollutants from soil, water, and wastewater.“ Source: United States Environmental Protection Agency, Office of Compliance and Assurance “clean-up of pollution from soil, groundwater, surface water and air, using biological, usually microbiological processes” Source: Philp et al., 2001

  3. Bioremediation Bioremediation relies largely on the enzymatic activities of living organisms, usually microbes, to catalyze the destruction of pollutants or their transformation to less harmful forms.

  4. Bioremediation Why are microorganisms so important in this process? They have extraordinary metabolic diversity!

  5. Bioremediation A complex process depending on many factors including: ambient environmental conditions composition of the microbial community nature and amount of pollution present

  6. Ambientenvironmentalconditions pH temperature lack of nutrients & molecular oxygen

  7. soil particles are not homogeneous in terms of oxygen content contour map of [O2] in a soil particle

  8. Composition of the microbial community depends on the environment soil has very complex microbial communities with hundreds of:

  9. Typesofpollutants Types of pollutants Organic pollutants → catabolized Naturally occurring Xenobiotics-substances foreign to an entire biological system, i.e. artificial substances, which did not exist in nature before their synthesis by humans Metalsfrom ore extraction and manufacturing

  10. Contaminants Potentially Amenable to Bioremediation

  11. Biological solution

  12. Fundamentals of cleanup reactions • Aerobic metabolism • Microbes use O2 in their metabolism to degrade contaminants • Anaerobic metabolism • Microbes substitute another chemical for O2 to degrade contaminants • Nitrate, iron, sulfate, carbon dioxide, uranium, technicium, perchlorate

  13. Cometabolism Bacterium uses some other carbon and energy source to partially degrade contaminant (organic aromatic ring compound) degradation products contaminant bacterium corn starch CO2 + H2O

  14. What types of treatment technologies are in use to remove contaminants from the environment? • Soil vapor extraction • air sparging • bioremediation • thermal desorption • soil washing • chemical dehalogenation • soil extraction • in situ soil flushing

  15. What Makes Bioremediation a Promising Approach? • permanence • contaminant is degraded • potentially low cost • 60-90% less than other technologies

  16. Economics of in-situ vs. ex-situ remediation of contaminated soils • Cost of treating contaminated soil in place $80-$100 per ton • Cost of excavating and trucking contaminated soil off for incineration is $400 per ton. • Over 90% of the chemical substances classified as hazardous today can be biodegraded.

  17. Bioremediation techniques Natural attenuation In situ bioremediation Ex situ bioremediation Phytoremediation

  18. NA – MNA & ENA

  19. NaturalAttenuation

  20. Bioventing

  21. Airsparging

  22. In-situ bioremediation

  23. Biostimulation

  24. Biostimulation

  25. Biostimulation

  26. Bioreactors

  27. Bioremediation Research Bioaugmentationvs.biostimulation: Biostimulationinvolves the modification of the environment to stimulate existing microorganisms capable of bioremediation. Indigenous populations may not be capable of degrading the xenobiotics or the wide range of potential substrates present in complex pollutant mixtures. Bioaugmentationis the introduction of a group of natural microbial strains or a genetically engineered variant to treat contaminated soil or water.

  28. Careers in Bioremediation • Outdoor inspection • Lab testing • Administration Government Employee Regulatory oversight Company employee

  29. Summary • Many factors control biodegradability of a contaminant in the environment • Before attempting to employ bioremediation technology, one needs to conduct a thorough characterization of the environment where the contaminant exists, including the microbiology, geochemistry, mineralogy, geophysics, and hydrology of the system

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