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Applied Microbiology

Applied Microbiology. Applied Microbiology . applied microbiology is the interaction of the microbial world and the rest of the world genetic variances microbial effect on soil, water, our food microorganisms are present in most every aspect of our lives

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Applied Microbiology

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  1. Applied Microbiology

  2. Applied Microbiology • applied microbiology is the interaction of the microbial world and the rest of the world • genetic variances • microbial effect on soil, water, our food • microorganisms are present in most every aspect of our lives • microorganisms are critical to our survival on Earth • to be a successful ecosystem on Earth, you’d best be nice to the microorganisms!

  3. Microbial Ecology: relationship of microorganisms with each other and their environment • ecosystem: interaction of living and non-living components • oceans, deserts, marshes, forests, tundra, lakes • microorganisms play a key role in ecosystem structure

  4. Microbial Ecology:relationship of microorganisms with each other and their environment • microenvironment: immediately surrounds a microorganism • relevant to survival and growth of the microorganism

  5. Nutrient Acquisition within an Ecosystem • 3 main levels exist in every ecosystem in regards to nutrient acquisition • producer • consumer • decomposer 1. primary producers: convert CO2 to organic material

  6. Nutrient Acquisition within an Ecosystem 2. consumers • heterotrophs • utilize organic material created by producers

  7. Nutrient Acquisition within an Ecosystem 3. decomposers • heterotrophs • digest leftovers of primary producers and consumers • detritus ( fresh or partially decomposed organic matter) • bacteria and fungi are key players in the process of decomposition

  8. Low Nutrient Environments: common in nature • bacteria do best in biofilms if nutrition availability is low • biofilms are a polysaccharide encased community of microorganisms • microorganisms extract nutrients that are absorbed by water from air or nutrients that are adsorbed onto the biofilm

  9. Microbial competition and antagonism • most environments are suitable to many kinds of microorganisms • only one or a few can actually occupy the environment at a given time

  10. Competition and Antagonism: among microorganisms • competition: • fierce competition for nutrients and water • the faster a microbe reproduces the larger the population • the larger population competes better • critical, especially if the microorganisms competing utilize similar nutrients • antagonism • bacteriocins: protein produced by bacteria that destroys similar strains “WINNER TAKES ALL AND IS KING/QUEEN OF THE MICROBIAL ECOSYSTEM”

  11. Example of Competition • stability of microbial community in human intestine is attributed to competition and antagonism amongst its members • compete nicely for nutrients • produce toxins to limit growth of new microbes

  12. Environmental Change affect microbial population • environmental fluctuations are common and resident microorganisms may respond by • producing enzymes to help adapt to changing environment • additional or different enzymes may be necessary for survival • mutation • domination by other species (can’t compete any more)

  13. Microbial Mat: thick, dense, organized biofilm • generally found attached to a solid substrate or at air-water interfaces Microbial mat attached to rocks Microbial mat in stream bed

  14. The Study of Microbial Ecology • somewhat difficult to accomplish • less than 1% of environmental microorganisms can be successfully cultured in the lab

  15. Microbial Habitat • aquatic • marine: • deep waters are usually stable and consistent • shoreline habitat varies due to nutrient rich run-off

  16. Microbial Habitat • freshwater: • lakes • stratification allows for the mixing of the water seasonally. • Increases the presence of O2 in the deeper H2O algae paramecium

  17. Microbial Habitat • moving water • rivers • generally aerobic due to turbulence facilitating O2 circulation river ostracod

  18. Microbial Habitat • terrestrial • microorganisms are critical to soil habitat • composition of microbes is dependent on soil conditions • wet soil: anaerobic conditions due to water filling the pore space in the soil, soil dries and microbes go produce endospores for survival Endospores

  19. Mutualism with Eukaryotes • mychorrhizae: fungus • assist plants in the uptake of phosphorous • mychorrizae gain nutrient from plant

  20. Mutualism • nitrogen fixers: fix nitrogen and make it available for the use by their partner plant • most common is Rhizobium, a microorganism found in many root nodules Rhizobium in root nodules

  21. Nitrogen Cycle

  22. Mutualism: microorganisms and the world • microorganisms and herbivores • animal with a rumens (cow) or cecums (horse) need microorganisms to digest the plant food they ingest Bacillus in a cow rumen

  23. Microorganisms in Sewage Treatment • decreasing biochemical oxygen demand (BOD) decreases impact of sewage on the environment • BOD is the amount of O2 needed for microbial decomposition of the organic material in a sample Grit chamber Biological filter Clarifier

  24. Microorganisms in Sewage Treatment • if not treated the high BOD found in sewage could deplete the O2 level in the receiving water • in other words if raw sewage is deposited into a lake or stream without treatment, it would effectively suck the oxygen out of the water, leaving very little for the fish and other organisms

  25. Microorganisms in Sewage Treatment • sewage treatment is a controlled process that strives to eliminate the excess organic material, thus diminishing the BOD • most of the removal of organic matter is done by microorganisms bacterial filaments

  26. Microorganisms and Water Treatment and Testing • municipal water supplies are tested and treated for the removal of pathogenic microorganisms and chemicals • this is done with the use of chemicals

  27. Microorganisms and Solid Waste Treatment • the elimination of organic waste material can be enhanced by microorganisms • increase cost to separate organic material from inorganic (glass, metal, plastic) • composting: natural decomposition of organic solid materiel results in excellent fertilizer

  28. Compost microorganisms are needed to breakdown the organic material

  29. Bioremediation: use of microorganisms to eliminate or make harmless pollutants in an environment • pollutants removed can include • organic solvents • toxic chemicals • hydrocarbons oil spill

  30. Bioremediation • introduces specific organisms to the polluted area • many toxic substances are man-made/new to the environment (xenobiotics) • no time for naturally occurring microbes to have evolved biochemical pathways for their degradation • scientists are trying to develop new microbes for the degradation of environmental polluters Cleaning an oil spill

  31. Bioremediation • scientists are also making use of organisms already found in the environment • enhance their requirements for growth, such as nutrition or water availability Bacteria in an oil spill

  32. Why Bioremediation? • current methods of controlling some environmental polluters are incineration or storage in land fills, which result in • more pollution • health risks • bioremediation is • inexpensive • publicly accepted • non-polluting (ideally) • in situ treatment (at the site)

  33. Food Microbiology • food is an ecosystem and microorganisms play a key role in the stability of that ecosystem • microorganisms are introduced to the food ecosystem from the soil, harvesting, handling, storage, and packaging

  34. Food Microbiology • fermentation: good food microbiology • food that have been intentionally altered such as sour cream, cheese, beer • any desirable change a microorganism makes to food

  35. Food Microbiology • spoilage: bad food microbiology • undesirable changes to food; sour milk, moldy bread • preservatives and refrigeration inhibit the growth of microorganisms Moldy Spam

  36. Microorganisms in Food • factors that affect the presence of microorganisms in food include • intrinsic • extrinsic

  37. Intrinsic growth factors: naturally present in food • water availability is measured as water activity (aw) • this is the amount available in the food • most microorganisms require an aw of 0.90 or above for growth • fungi can grow with a aw of 0.80 • fresh food have an aw 0.98

  38. Intrinsic Growth Factors • pH • many species of bacteria are inhibited by low pH, including most pathogens Testing soil pH

  39. biological barriers: shells, rinds protect foods from invading microorganisms antimicrobial chemicals: naturally occurring in some foods egg whites have lysozyme which will destroy lysozyme susceptible bacteria Intrinsic Growth Factors

  40. Extrinsic Factors: environmental conditions • temperature of storage • below freezing water is unavailable for microorganisms • low temperatures (above freezing) enzyme reactions are non-existent or slow • refrigerated food microbial growth is likely psychrophiles

  41. Extrinsic Factors • atmosphere: presence or absence of O2 • obligate aerobes (need O2)won’t grow in sealed containers • may allow growth of anaerobic microbes

  42. Microorganisms in Food Production • using microorganisms for food production has been done for thousands of years • cheese, yeast, beer • microorganisms used in food often produce an acidic by-product as a result of metabolism • can inhibit growth of many spoilage microorganisms • can inhibit growth of many foodborne pathogens Yeast cells

  43. Food Spoilage: undesirable changes in food • smell bad, taste bad, look bad • probably are not harmful • microorganisms that cause food spoilage compete with pathogens • in the case of food spoilage vs. pathogens, the spoilers are winning • evidence is obvious, though I wouldn’t eat anything that smelled or looked like that

  44. Foodborne Intoxication • illness from microbial exotoxin • microorganism does not cause the illness, the toxin released by the microorganism does • common exotoxin producing microorganisms • Staphylococcus aureus • Clostridium botulinum

  45. Foodborne Infection • requires consumption of microorganism • symptomatic about 1 day following ingestion of contaminated food • common foodborne infecting microorganisms • Salmonella and Campylobacter • poultry product infections • Escherichia coli 0157:H7 • undercooked hamburger Campylobacter Salmonella

  46. Food Preservation: preventing growth and metabolic activities of microorganisms • spices, salting, drying are methods that have been around for years • most common methods of current food preservation are • high temperature treatment • low-temperature storage • antimicrobial chemicals • irradiation

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