1. Investigate interactions between humans and micro-organisms Science A.S. 1.11
2011 Introduce topic Brain storm (what are they, relate to pet MRS GREN)
Microbes include fungi, bacteria, virus microscopic organismsIntroduce topic Brain storm (what are they, relate to pet MRS GREN)
Microbes include fungi, bacteria, virus microscopic organisms
2. Micro-organisms� Students encouraged to discuss size of the microorganisms and how something so small might cause illness
Can only see them when there are millions growing together -colony
Students encouraged to discuss size of the microorganisms and how something so small might cause illness
Can only see them when there are millions growing together -colony
3. Definitions Parasites feed on living hosts
Saprophytes feed on dead matter
Decomposers breakdown dead matter and recycle the nutrients
Pathogens are disease causing organisms (most parasites are also pathogens)
Extra cellular digestion is the process by which bacteria and fungi feed
Binary fission is the process by which bacteria reproduce Parasites feed on living, saprophytes feed on dead (decomposers) pathogen disease causing
Parasites feed on living, saprophytes feed on dead (decomposers) pathogen disease causing
4. Bacteria Structure Flagella movement
Cell wall shape
Cell membrane lets things in and out of the cell
Extra cellular digestion
Capsule protection (shiny round colonies) Parasites, pahogens, decomposers but hey are all consumers they cant make their own foodDiscuss parts and functions
Copy and label diagram on page 104 new directionsParasites, pahogens, decomposers but hey are all consumers they cant make their own foodDiscuss parts and functions
Copy and label diagram on page 104 new directions
5. Bacterial Life Processes Reproduction
Binary fission
Nutrition
Parasites, saprophytes
Extra cellular digestion
Excretion
Toxins (cause human disease)
Respiration
Aerobic / anaerobic
Reproduce by binary fission 2 daughter cells
Draw process pg 104
Extra cellular digestion, secrete and reabsorb
As they respire they produce energy and waste (toxin)
EXPT how to innoculate and incubate and agar plate
Reproduce by binary fission 2 daughter cells
Draw process pg 104
Extra cellular digestion, secrete and reabsorb
As they respire they produce energy and waste (toxin)
EXPT how to innoculate and incubate and agar plate
6. Bacterial Growth Humans get sick because bacteria numbers increse quickly and their waste products reach toxic levels
COLONIESHumans get sick because bacteria numbers increse quickly and their waste products reach toxic levels
COLONIES
7. Boils, gangrene, madura foot, necrotising fascitis Everyone has bacteria, sometimes they are opportunistic infectionsEveryone has bacteria, sometimes they are opportunistic infections
8. Test yourself Discuss why a person has no side effects in the first stages of bacterial infection, but after 24 hours feel unwell. Refer to bacterial life processes in your answer.
Growth graph
Small numbers = no side effect
Fast reproduction
Large numbers, respiration, waste (toxin)
9. Fungi Structure Hyphae threads
Absorb nutrients and water
Extra cellular digestion
Mycelium mat of hyphae (furry edge colonies)
Fruiting body (cap/sporangium) spore production and release
New directions pg 106 draw and label typical structure
New directions pg 106 draw and label typical structure
10. Fungi Life Processes Respiration
Tend to be aerobic so cause skin diseases
Nutrition
Saprophyte or parasite
Extra cellular digestion
Reproduction
Spores
Antibiotics
defence
Largest organism
Describe drawing fungi are saprophytes or parasites depending what they feed on. Most fungi are aerobes so tend to produce skin infections
Many fungi produce chemicals which can slow bacterial growth or even kill them =Ab like penicillin
Read paragraph on pg 106 answer Q2
Inoculate (transfer microbes to) and incubate (warm) AGAR plate draw picture on boardDescribe drawing fungi are saprophytes or parasites depending what they feed on. Most fungi are aerobes so tend to produce skin infections
Many fungi produce chemicals which can slow bacterial growth or even kill them =Ab like penicillin
Read paragraph on pg 106 answer Q2
Inoculate (transfer microbes to) and incubate (warm) AGAR plate draw picture on board
11. Thrush, Athletes foot, Ringworm Fungi Fungi, bread, beer, mushrooms and bad sideFungi, bread, beer, mushrooms and bad side
12. Viral Structure Protein coat
Attaching to host
Nuclear material
DNA or RNA
Package of genetic material
HIV picturedHIV pictured
13. Viral Life Processes Alive or not?
MRS GREN
Reproduction
Hijacks living cell
Injects genetic material
Host copies and packages
Causes cell lysis (destroys host cell function and therefore leads to disease) Think mrs gren
Either Dna or Rna, in protein coat
Describe process of bacteriophage replicating in e coli, bind surface, inject material, incorporate into host genome, lots copies made, packed in cell cytoplasm, cell lysis, kills host
Smallpox estimated to have killed 0.5 billion, in 1796 Jenner saw cowpox prevented smallpox and vaccinated himself
in 1967 it killed 2m by 1980 WHO declared world free, 1996 monkey pox (mutation)kills 500 in africaThink mrs gren
Either Dna or Rna, in protein coat
Describe process of bacteriophage replicating in e coli, bind surface, inject material, incorporate into host genome, lots copies made, packed in cell cytoplasm, cell lysis, kills host
Smallpox estimated to have killed 0.5 billion, in 1796 Jenner saw cowpox prevented smallpox and vaccinated himself
in 1967 it killed 2m by 1980 WHO declared world free, 1996 monkey pox (mutation)kills 500 in africa
14. Smallpox, Mumps, Measles - Virus The bad side of virus, discuss inoculation, and antibiotic useThe bad side of virus, discuss inoculation, and antibiotic use
15. Compare and Contrast Virus
Needs living host to reproduce
Doesnt feed
Doesnt move
Doesnt respire
Non- living? Bacteria
Reproduces via binary fission
Saprophyte/
parasite
Moves with Flagella/ pilli
Aerobic or anaerobic
Living
Draw a comparison table of all 3
EXPT agar plate and antisepticsDraw a comparison table of all 3
EXPT agar plate and antiseptics
16. Test yourself Explain why a person with a viral infection will not show any effects from toxins. In your answer describe how toxins are produced.
Virus non living
No respiration
No waste = no toxins
17. Defense against Microbes Human
Prevention The skin and mucus secretions act as a barrier preventing infection
Passive immunity W.B.C.s called phagocytes engulf and digest antigens
Active immunity W.B.C.s called lymphocytes produce antibodies against the antigen Passive born with this defence, body recognises foreign particles and attacks them result swelling, heat, dead phagocytes(killed by toxins) = pus
Active immunity is aquired during your life. when you encounter a antigen antibodies are produced which remember the foreign substance next time you encounter it they are activated and send a quich response to fight it off. This is why we dont catch things like measles more than once. It is also the basis of vaccination (attenuated) antigen
Case study from book? New directions pg 121 Q5 AIDSPassive born with this defence, body recognises foreign particles and attacks them result swelling, heat, dead phagocytes(killed by toxins) = pus
Active immunity is aquired during your life. when you encounter a antigen antibodies are produced which remember the foreign substance next time you encounter it they are activated and send a quich response to fight it off. This is why we dont catch things like measles more than once. It is also the basis of vaccination (attenuated) antigen
Case study from book? New directions pg 121 Q5 AIDS
18. Defense against Microbes Chemical
Disinfectants chemicals which kill or inhibit the growth of microbes
Antibiotics naturally occurring chemicals (fungi) which kill or inhibit bacterial growth but have no affect on virus
Antiseptic term for anything which reduces or controls infection View agar plate antiseptic EXPT
Talk toxin build up againView agar plate antiseptic EXPT
Talk toxin build up again
19. Drug Resistant Micro-organisms Microbes with greater fitness may be capable of surviving drug treatment.
Resistant traits are inherited by offspring.
Population becomes drug resistant. Individual organisms vary in their sensitivity to the drug used and some with greater fitness may be capable of surviving drug treatment. Drug resistant traits are accordingly inherited by subsequent offspring, resulting in a population that is more drug resistant.
ALWAYS TAKE THE FULL DOSEIndividual organisms vary in their sensitivity to the drug used and some with greater fitness may be capable of surviving drug treatment. Drug resistant traits are accordingly inherited by subsequent offspring, resulting in a population that is more drug resistant.
ALWAYS TAKE THE FULL DOSE
20. Pandemic An infectious disease that is spreading through human populations across the world.
In 1918 Spanish Flu killed 50-100 million people.
This was 3% of the world's population.
1 in 3 people were infected. HIV is a pandemicHIV is a pandemic
21. Swine Flu The rapid reproduction of micro-organisms means they can evolve very quickly.
Animal infections can mutate and infect humans who are in close contact.
Infections can become airborne. The rapid reproduction of micro-organisms means they can evolve very quickly. Immune to Ab.
Animal infections can mutate and infect humans who are in close contact.
Infections can become airborneThe rapid reproduction of micro-organisms means they can evolve very quickly. Immune to Ab.
Animal infections can mutate and infect humans who are in close contact.
Infections can become airborne
22. Government Pandemic Control Plan for it
Engage with all relevant agencies
Keep it out
Border Management
Stamp it out
Cluster Control
Manage it
Public Health Measures, Antivirals
Recover from it
Begins when the first cases are seen
Hospitals, government, schools, personal household plans
Agressively contain and quarantine
out reach clinics set up to cope with demand, drug stockpiles, press awareness campaignsHospitals, government, schools, personal household plans
Agressively contain and quarantine
out reach clinics set up to cope with demand, drug stockpiles, press awareness campaigns
23. Personal Preparedness Who do you need to help?
Who could help you?
Do you have an emergency supplies kit? Do you have a list of key contact information?
Doctors
People who live near you
Family
Complete preparedness plan and kitComplete preparedness plan and kit
24. Personal Hygiene Wash and dry hands regularly.
Cover coughs and sneezes.
Put tissues into the bin .
Stay away from sick people. before - cooking and eating
after - coughing, sneezing, blowing noses, using the toilet or looking after sick people.
1m distance from the sick
before - cooking and eating
after - coughing, sneezing, blowing noses, using the toilet or looking after sick people.
1m distance from the sick
25. Factors Affecting Microbial growth Microbes have
adapted to live
in almost every
environment In order to grow microbes need:
Food
Moisture
Warmth
Time
Oxygen?
Students work out what the factors are based on previous learning about food hygiene then look at each factor in next 4 slides, relate adaptation to environment and Rotoroa
Draw up table heading factors, what the factors influence, reasons links kids fill it in as we proceed through the next slidesStudents work out what the factors are based on previous learning about food hygiene then look at each factor in next 4 slides, relate adaptation to environment and Rotoroa
Draw up table heading factors, what the factors influence, reasons links kids fill it in as we proceed through the next slides
26. Factors Affecting Microbial growth Moisture
�Microbes need moisture to grow. Salt lowers the freezing point of water providing extremophiles the moisture they need to survive at low temperatures.
Influence growth as Life depends on water
Reasons nutrients dissolve in water and become available to the cell, water makes up most of the cell
No water equals dormant or spores all microbes need water to grow
Influence growth as Life depends on water
Reasons nutrients dissolve in water and become available to the cell, water makes up most of the cell
No water equals dormant or spores all microbes need water to grow
27. Factors Affecting Microbial growth Temperature
Bacteria grow well between 4°C - 63°C. This is called the danger zone.
Extremophiles can survive in:
the Antarctic at -56°C(as long as water and food are present)
deep sea vents at 400°C. Influence growth rate, each microbe has an optimum growth range
Reason enzymes that control cell reactions work best at the optimum range
Links Making cheese, wine, bread, incubatng diseaseInfluence growth rate, each microbe has an optimum growth range
Reason enzymes that control cell reactions work best at the optimum range
Links Making cheese, wine, bread, incubatng disease
28. Factors Affecting Microbial growth Nutrition
photosynthesis accounts for 99% of the energy that powers life
Extremophiles can be found in:
aphotic (non-light) environments e.g. deep sea trenches. They use thermal and chemical energy sources.
anoxic (non-oxygen) environments e.g. swamps. Methanogens combine carbon dioxide (CO2) and hydrogen (H2) to produce organic matter, and methane. Life mostly depends on the sun
Inluence growth as nutrients mean more growth
Reasons fod vitamins mnerals needed for energy, cellular growth and reproduction
Links biotechnology, wine, disease etc as nutrients converted to waste products
OXYGEN required by fungi and aerobic bacteria, oxygen releases energy from food, growth slows if oxygen limited
Anaerobic bacteria are limited or killed by oxygen
(Aerobic/Anaerobic respiration demo?)
Life mostly depends on the sun
Inluence growth as nutrients mean more growth
Reasons fod vitamins mnerals needed for energy, cellular growth and reproduction
Links biotechnology, wine, disease etc as nutrients converted to waste products
OXYGEN required by fungi and aerobic bacteria, oxygen releases energy from food, growth slows if oxygen limited
Anaerobic bacteria are limited or killed by oxygen
(Aerobic/Anaerobic respiration demo?)
29. Factors Affecting Microbial growth Oxygen
Aerobic bacteria use oxygen for respiration.
Anaerobic bacteria can respire without using oxygen.
Both reactions produce energy. What is it used for?
FERMENTATION EXPT make ginger beer
Anaerobes might use Hydrogen sulphide
Our muscles can do this to produce lactic acid = cramp
YEAST FUNGI REPRODUCE BY BINARY AND IS ANAEROBIC
FERMENTATION EXPT make ginger beer
Anaerobes might use Hydrogen sulphide
Our muscles can do this to produce lactic acid = cramp
YEAST FUNGI REPRODUCE BY BINARY AND IS ANAEROBIC
30. Factors Affecting Microbial growth pH
Most bacteria like neutral pH
microbes have been shown to occupy nearly every range of pH. E.g. acid mine drainage at pH 0.5 and soda lakes at pH 11. Some bacteria can thrive in extremes
Influence enzymes denature if not in correct pH
Reasons enzymes need correct ph, organism dies if enzymes dont work
Links biotechnology wine, beer, yoghurt need right pH to get good productSome bacteria can thrive in extremes
Influence enzymes denature if not in correct pH
Reasons enzymes need correct ph, organism dies if enzymes dont work
Links biotechnology wine, beer, yoghurt need right pH to get good product
31. Factors Affecting Microbial growth Time
Microbes need time to grow.
In ideal conditions bacteria can multiply every 20 mins.
After two hours at room temperature food could have enough bacteria to cause food poisoning.
Exponential growth in ideal conditions, new ideas pg 105 q8 Provide GRAPH PAPER
Experiment to grow microbes on agar, finger print, wash hand, lick finger, control
Handout for plating up
Soil and antiseptic dots?Exponential growth in ideal conditions, new ideas pg 105 q8 Provide GRAPH PAPER
Experiment to grow microbes on agar, finger print, wash hand, lick finger, control
Handout for plating up
Soil and antiseptic dots?
32. Micro-organisms are helpful Food production
Bread
Alcohol
Cheese
Yoghurt
Nutrient recycling
Composting
Medicine production
Antibiotics
Insulin Discuss each of the beneficial ways depicted with questioning to identify understanding and prior knowledge
So microbes are good?
Expt make ginger beer fermentation reaction co2 and alcohol production relate to bread, why not alcoholic
Expt make yoghurtDiscuss each of the beneficial ways depicted with questioning to identify understanding and prior knowledge
So microbes are good?
Expt make ginger beer fermentation reaction co2 and alcohol production relate to bread, why not alcoholic
Expt make yoghurt
33. Microbial food production Cheese
Alcohol
Yoghurt
Mushrooms
Bread Expt make ginger beer, yoghurt cheese?Expt make ginger beer, yoghurt cheese?
34. Sewage treatment by microbes
35. Microbes clean our water Stores rainwater
Metal grids keep out weeds and debris
Chemicals make particles stick together
Stands for 3hr to let large particles sink (digested by microbes)
Gravel and sand removes most particles
Kills microbes
36. Composting and Nutrient Recycling As living organic species die, decomposing microbes recycle them.
Nitrogen cycle
Carbon cycle
Composting
Green
Brown
Air
water Turn it monthly and it will be ready in 3-4 months otherwise 1 year
WHY DO THEY RECYCLE FOR US?Turn it monthly and it will be ready in 3-4 months otherwise 1 year
WHY DO THEY RECYCLE FOR US?
37. Nitrogen Recycling How do microbes aid us in recycling
Plants and animals cannot get nitrogen to make their proteins from the air - although it is 80% nitrogen. Nitrogen is not reactive.
Nitrogen is essential for plant growth.
Factors such as soil moisture, aeration, temperature, pH, and microbial breakdown of soil organic matter influence the availability of nitrogen to plants.
The availability of nitrogen increases through application of inorganic or organic fertilizers to the soil.
Nitrogen availability also increases through bacterial fixation of gaseous nitrogen (N2) to ammonium (NH4) compounds which can be absorbed by plants.
Nitrification
Two forms of nitrogen available to plants are nitrate (NO3-) and ammonium (NH4+) nitrogen.
Roots can absorb both of these forms.
Ammonium-nitrogen is often converted to nitrate-nitrogen by microorganisms before absorption through a process called nitrification.
Modification of NH4+ to NO3- depends on the temperature of the soil; transformation proceeds more quickly under warmer soil temperatures (above 50 F).
How do microbes aid us in recycling
Plants and animals cannot get nitrogen to make their proteins from the air - although it is 80% nitrogen. Nitrogen is not reactive.
Nitrogen is essential for plant growth.
Factors such as soil moisture, aeration, temperature, pH, and microbial breakdown of soil organic matter influence the availability of nitrogen to plants.
The availability of nitrogen increases through application of inorganic or organic fertilizers to the soil.
Nitrogen availability also increases through bacterial fixation of gaseous nitrogen (N2) to ammonium (NH4) compounds which can be absorbed by plants.
Nitrification
Two forms of nitrogen available to plants are nitrate (NO3-) and ammonium (NH4+) nitrogen.
Roots can absorb both of these forms.
Ammonium-nitrogen is often converted to nitrate-nitrogen by microorganisms before absorption through a process called nitrification.
Modification of NH4+ to NO3- depends on the temperature of the soil; transformation proceeds more quickly under warmer soil temperatures (above 50 F).
38. Bacteria in root nodules of legumes (beans and peas) convert Nitrogen to Nitrate
39. Carbon Recycling Discuss and question students on carbon cycle new directions 109 q3
How is mans activity affecting the process, logging, fossil fuels, cars
What can we do to reduce the effect
Greenhouse gases, global warming
New dir 107 q3Discuss and question students on carbon cycle new directions 109 q3
How is mans activity affecting the process, logging, fossil fuels, cars
What can we do to reduce the effect
Greenhouse gases, global warming
New dir 107 q3
40. Micro-organisms are Harmful Micro-organisms will spoil food and cause disease or food poisoning.
Symptoms include:
nausea
Vomiting
Diarrhoea
abdominal cramping Can be caused by any microbe but virus most common, generally lasts 24-48 hrsCan be caused by any microbe but virus most common, generally lasts 24-48 hrs
41. Micro-organisms cause disease Discuss black death in Europe PLAGUE, LEPROSY
Disease in plants Irish famine 1845 potato blight caused by fungi, feed on plant grow through it, move by spore release
tobacco mosaic virus (first virus discovered 30s)Discuss black death in Europe PLAGUE, LEPROSY
Disease in plants Irish famine 1845 potato blight caused by fungi, feed on plant grow through it, move by spore release
tobacco mosaic virus (first virus discovered 30s)
43. N.Z. Food Poisoning 119,000
360
19,000
400
22
2
55.1
www.beehive.govt.nz/Print/PrintDocument.aspx?DocumentID=9227 In the next 7 slides Students decide how the numbers relate to food poisoningIn the next 7 slides Students decide how the numbers relate to food poisoning
51. Kitchen Hygiene Always wash hands thoroughly before starting to cook.
Wash all fruits and vegetables.
Use separate chopping boards for fruit/vegetables and meat.
Store cooked and raw food separately and always wash your hands after handling raw meat or fish.
Always check the sell-by dates on ingredients.
food hygiene
Discuss food hygiene and link to interactive programme 15 qs alien quizDiscuss food hygiene and link to interactive programme 15 qs alien quiz
52. Test Yourself Using named examples explain how micro-organisms can be both helpful and harmful to humans. You should consider life processes and waste products in your answer. Harmful bacteria disease nutrition and respiration (anaerobic or anaerobic) excretion toxin production
Helpful fungi make alcohol and bread, anaerobic fermantation(respiration) excrete alcohol, fungi make Ab as defence against bacteria
- bacteria decompose (saprophytes) sewage treatment,Harmful bacteria disease nutrition and respiration (anaerobic or anaerobic) excretion toxin production
Helpful fungi make alcohol and bread, anaerobic fermantation(respiration) excrete alcohol, fungi make Ab as defence against bacteria
- bacteria decompose (saprophytes) sewage treatment,
53. Food Preservation- �to prolong the storage of food by preventing microbial growth/ reproduction Temperature
Cooking food at 75°C - 80°C kills bacteria within two minutes
Pasturisation 60°C
Canning
Cooking kills all microbes
Pasturisation doesnt affect the taste of milk
Canned food is heatedCooking kills all microbes
Pasturisation doesnt affect the taste of milk
Canned food is heated
54. Food Preservation Moisture
If you remove water from food, bacteria will not grow.
Jam high sugar, dehydrated spaceman food, mummiesJam high sugar, dehydrated spaceman food, mummies
55. Food Preservation Freezing/Refrigerating
Food in the refrigerator (4°C) is safe for only short periods of time.
Remove Oxygen
Vacuum pack
Foil
Toxins can still build up
Mammoth 10000 yr old so well preserve still got fur and eyes potential to bring back from extinction transplans sperm/ egg dna into elephant
Log fell in anaerobic swamp, lack of oxygen then minerals leech in
New directions pg 111 q1,23,4Toxins can still build up
Mammoth 10000 yr old so well preserve still got fur and eyes potential to bring back from extinction transplans sperm/ egg dna into elephant
Log fell in anaerobic swamp, lack of oxygen then minerals leech in
New directions pg 111 q1,23,4
56. Disinfectant- Chemical that destroys or inhibits growth of microbes
Antibiotic naturally produced substance which kills or inhibits bacterial growth but has no effect on virusDisinfectant- Chemical that destroys or inhibits growth of microbes
Antibiotic naturally produced substance which kills or inhibits bacterial growth but has no effect on virus
57. Sewage Treatment
58. Sewage Treatment Where does your sewage go?
Whenever you flush the toilet or open the drain on your sink, you are releasing sewage. Sewage is mainly water along with a small amount of impurities which may be suspended solids or dissolved substances.
Your sewage will go through the sewage system to a sewage treatment plant. At the sewage treatment plant the organic material in the sewage has to be decomposed so that the sewage has little to no effect on the oxygen demand in the waters into which the sewage is released.
Screening: the water flows through a grate to remove large solid objects from the water. The debris that gets caught on the grate is cleaned off at regular intervals.
3. Grit removal: The raw sewage contains sand and gravel. This sand and gravel has to be removed from the wastewater. The wastewater is pumped into aerated grit tanks. In the aerated grit tanks, the sand and gravel are removed. Once the sand and gravel are removed, the sand and gravel are washed and then hauled to the sanitary landfill. The liquid left in the grit tanks is sent for primary clarification.
4. Primary Clarification: This consists of water sitting undisturbed in settling tanks for approximately 3 hours. During this time, larger organic particles settle to the bottom of the tanks. This forms a dense sludge at the bottom of the tanks. This sludge is sent to the Anaerobic Digester (step 7).
5. Aeration: Oxygen and aerobic bacteria go to work here. With an abundant supply of oxygen the bacteria or microorganisms feed on the organic nutrients in the sewage and thus "use up" the sewage. The bacteria and microorganisms are said to be "digesting the sewage". After about three hours, the mixture from these aeration tanks is sent for clarification.
6. Final Clarification: The water mixture sits in these clarifying tanks for about four hours. The sludge that forms at the bottom of the tanks is collected underwater and pumped back into the aeration tanks to maintain the balance that is needed in the aeration tanks. This sludge is controlled in order to balance the digestion of the sewage. Any excess sludge is put into the primary clarification tanks to be reprocessed. After the four hours are up in the final clarification tanks, the wastewater is released into Yorkton Creek.
7. Sludge Digestion: The sludge collected in any of the tanks and not used in the control of the aeration environment is pumped to the primary Anaerobic Digester. Here the sludge is digested in a hot environment containing no oxygen. This digestion requires about 20 days. After the 20 days the sludge goes to the secondary digester where the sludge needs to be thickened. Any excess liquid that forms on the top is returned to the plant while the thickened sludge is put in storage lagoons. When the sludge is thick enough, it is spread on farm land nearby.
Where does your sewage go?
Whenever you flush the toilet or open the drain on your sink, you are releasing sewage. Sewage is mainly water along with a small amount of impurities which may be suspended solids or dissolved substances.
Your sewage will go through the sewage system to a sewage treatment plant. At the sewage treatment plant the organic material in the sewage has to be decomposed so that the sewage has little to no effect on the oxygen demand in the waters into which the sewage is released.
Screening: the water flows through a grate to remove large solid objects from the water. The debris that gets caught on the grate is cleaned off at regular intervals.
3. Grit removal: The raw sewage contains sand and gravel. This sand and gravel has to be removed from the wastewater. The wastewater is pumped into aerated grit tanks. In the aerated grit tanks, the sand and gravel are removed. Once the sand and gravel are removed, the sand and gravel are washed and then hauled to the sanitary landfill. The liquid left in the grit tanks is sent for primary clarification.
4. Primary Clarification: This consists of water sitting undisturbed in settling tanks for approximately 3 hours. During this time, larger organic particles settle to the bottom of the tanks. This forms a dense sludge at the bottom of the tanks. This sludge is sent to the Anaerobic Digester (step 7).
5. Aeration: Oxygen and aerobic bacteria go to work here. With an abundant supply of oxygen the bacteria or microorganisms feed on the organic nutrients in the sewage and thus "use up" the sewage. The bacteria and microorganisms are said to be "digesting the sewage". After about three hours, the mixture from these aeration tanks is sent for clarification.
6. Final Clarification: The water mixture sits in these clarifying tanks for about four hours. The sludge that forms at the bottom of the tanks is collected underwater and pumped back into the aeration tanks to maintain the balance that is needed in the aeration tanks. This sludge is controlled in order to balance the digestion of the sewage. Any excess sludge is put into the primary clarification tanks to be reprocessed. After the four hours are up in the final clarification tanks, the wastewater is released into Yorkton Creek.
7. Sludge Digestion: The sludge collected in any of the tanks and not used in the control of the aeration environment is pumped to the primary Anaerobic Digester. Here the sludge is digested in a hot environment containing no oxygen. This digestion requires about 20 days. After the 20 days the sludge goes to the secondary digester where the sludge needs to be thickened. Any excess liquid that forms on the top is returned to the plant while the thickened sludge is put in storage lagoons. When the sludge is thick enough, it is spread on farm land nearby.
59. Hospital Hygiene Newspaper headlines mostly linked to poor hygiene
Create poster to raise awareness of correct handwashing what is the audience doctor, family, student, kidsNewspaper headlines mostly linked to poor hygiene
Create poster to raise awareness of correct handwashing what is the audience doctor, family, student, kids
64. Nitrogen Cycle Sapprophyte Vs parasite recap
How do microbes aid us in recycling
NO3 Nitrate
No2 Nitrite
N2 fixed NO3 by lightning, bacteria(anaerobic), industry
Discuss prior to book workSapprophyte Vs parasite recap
How do microbes aid us in recycling
NO3 Nitrate
No2 Nitrite
N2 fixed NO3 by lightning, bacteria(anaerobic), industry
Discuss prior to book work
65. Micro-organisms are Good Yeast is a micro-organism, essential to make bread Microbes are good for usMicrobes are good for us
