MICROBES IN HUMAN WELFARE class 12- Presentation

1. MICROBES IN HUMAN WELFARE

2. 8.1 MICROBES IN HOUSEHOLD PRODUCTS

3. • Lactic acid bacteria (LAB) convert milk into curd, improving nutritional quality and preventing disease.
 • • LAB also play a role in checking disease-causing microbes in the stomach. • 
• Dough, used in food production like dosa and idli, is fermented by bacteria, producing CO2 gas.
 • • Baker’s yeast is used for bread fermentation.
 • • Microbes also ferment traditional drinks and foods like 'Toddy', fish, soyabean, and bamboo shoots.
 • • Cheese, one of the oldest food items, is a product of microbes, with unique texture, flavor, and taste.

4. • 'Swiss cheese' has large holes due to CO2 production by Propionibacterium sharmanii, while 'Roquefort cheese' is ripened by specific fungi.

5. 8.2 MICROBES IN INDUSTRIAL PRODUCTS

6. Fermented Beverages • 
• Microbes, particularly yeasts, have been used for the production of beverages like wine, beer, whisky, brandy, or rum. • 
• The yeast Saccharomyces cerevisiae, used for bread-making, is used for fermenting malted cereals and fruit juices to produce ethanol. • 
• Different types of alcoholic drinks are obtained based on the type of raw material used for fermentation and the type of processing (with or without distillation).

Antibiotics
 • • Antibiotics produced by microbes are significant discoveries of the 20th century.

7. • Antibiotics are chemical substances produced by some microbes and can kill or retard the growth of other disease-causing microbes.
 • • Penicillin, the first antibiotic, was discovered by Alexander Fleming and later established by Ernest Chain and Howard Florey.
 • • Other antibiotics were also purified from other microbes, improving our capacity to treat deadly diseases such as plague, whooping cough, diphtheria, and leprosy.

Chemicals, Enzymes and other Bioactive Molecules
 • • Microbes are used for the production of organic acids, alcohols, and enzymes.

8. • Acid producers include Aspergillus niger, Acetobacter aceti, Clostridium butylicum, and Lactobacillus. • 
• Microbes also produce enzymes, such as lipases used in detergent formulations and streptokinase used as a 'clot buster'. • 
• Cyclosporin A, produced by the fungus Trichoderma polysporum, is used as an immunosuppressive agent in organ-transplant patients. • 
• Statins produced by the yeast Monascus purpureus have been commercialised as blood-cholesterol lowering agents.

9. 8.3 MICROBES IN SEWAGE TREATMENT

10. • Wastewater, also known as sewage, is generated daily in cities and towns, containing large amounts of organic matter and microbes, many of which are pathogenic.
 • • Sewage is treated in sewage treatment plants (STPs) to make it less polluting. • 
• Treatment involves two stages: primary treatment and secondary treatment. • 
• Primary treatment involves physical removal of particles through filtration and sedimentation, forming the primary sludge and the effluent.
 • • Secondary treatment involves the growth of aerobic microbes into flocs, which consume the organic matter in the effluent, reducing the biochemical oxygen demand (BOD).

11. • The BOD test measures the rate of oxygen uptake by micro-organisms in a sample of water, indirectly indicating the organic matter present in the water.
 • • Once the BOD of sewage is reduced, the effluent is passed into a settling tank where the bacterial 'flocs' sediment, called activated sludge.
 • • The remaining part of the sludge is pumped into anaerobic sludge digesters, where bacteria digest the bacteria and fungi in the sludge, producing a mixture of gases such as methane, hydrogen sulphide, and carbon dioxide. • 
• The effluent from the secondary treatment plant is generally released into natural water bodies like rivers and streams.

12. • The Ministry of Environment and Forests has initiated the Ganga Action Plan and Yamuna Action Plan to save major rivers from pollution.

13. 8.4 MICROBES IN PRODUCTION OF BIOGAS

14. • Biogas is a mixture of gases produced by microbial activity, primarily methane, used as fuel.
 • • The type of gas produced depends on the microbes and the organic substrates they use.
 • • Methanogens, bacteria that grow anaerobically on cellulosic material, produce a large amount of methane along with CO2 and H2.
 • • Methanobacterium, a common bacterium, is found in anaerobic sludge during sewage treatment and in cattle's rumen.
 • • These bacteria aid in breaking down cellulose in cattle's food, contributing to the nutrition of cattle.
 • • The excreta (dung) of cattle, known as gobar, is rich in these bacteria, which can be used for biogas generation.

15. • Biogas plants consist of a concrete tank, a slurry of dung, and an outlet connected to a pipe for supply to nearby houses.
 • • Biogas produced is used for cooking and lighting in rural areas.
 • • The technology of biogas production was developed in India mainly through the efforts of the Indian Agricultural Research Institute (IARI) and the Khadi and Village Industries Commission (KVIC).

16. 8.5 MICROBES AS BIOCONTROL AGENTS

17. • Biocontrol refers to the use of biological methods to control plant diseases and pests.
 • • Chemicals like insecticides and pesticides are toxic and harmful to humans and animals, polluting the environment.
 • • Organic farming focuses on natural predation rather than chemical methods to control pests.
 • • Organic farming aims to maintain biodiversity and sustainability by creating a system where pests are managed within a vibrant ecosystem.
 • • The eradication of pests is seen as undesirable as it affects beneficial predatory and parasitic insects. • 
• Biocontrol measures reduce dependence on toxic chemicals and pesticides.

18. • Understanding the life forms, predators, and pests in the field is crucial for developing appropriate biocontrol methods.
 • • Beetles like Ladybird and Dragonflies are useful for controlling aphids and mosquitoes.
 • • Bacillus thuringiensis (Bt) is a microbial biocontrol agent for controlling butterfly caterpillars.
 • • Trichoderma species are effective biocontrol agents of several plant pathogens.
 • • Baculoviruses, particularly in the genus Nucleopolyhedrovirus, are ideal for species-specific, narrow spectrum insecticidal applications.
 • • These viruses have shown no negative impacts on plants, mammals, birds, fish, or non-target insects.

19. 8.6 MICROBES AS BIOFERTILISERS

20. • Overuse of chemical fertilisers has led to environmental pollution.
 • • Overuse of chemical fertilisers has led to pressure to switch to organic farming.
 • • Biofertilisers are organisms that enrich soil nutrient quality.
 • • Bacteria, fungi, and cyanobacteria are main sources of biofertilisers.
 • • Bacteria like Rhizobium and Azospirillum fix atmospheric nitrogen, enriching soil nitrogen content.
 • • Fungi form symbiotic associations with plants, absorbing phosphorus and passing it to the plant.
 • • Plants with such associations show benefits like resistance to pathogens, tolerance to salinity and drought, and increased growth.

21. • Cyanobacteria, like Anabaena, Nostoc, and Oscillatoria, serve as important biofertilizers in paddy fields.
 • • Blue green algae also add organic matter to soil and increase fertility.
 • • Commercially available biofertilisers are used by farmers to replenish soil nutrients and reduce reliance on chemical fertilisers.

22. SUMMARY (POINT WISE)

23. • Microbes are essential to life on earth, not all are pathogenic.
 • • They are used in daily life, including in milk, bread, cheese, and industrial products.
 • • Lactic acid bacteria (LAB) convert milk into curd, while Saccharomyces cerevisiae ferments bread dough.
 • • Microbes also impart texture, taste, and flavor to cheese.
 • • Antibiotics produced by microbes are used to control infectious diseases like diphtheria, whooping cough, and pneumonia. • 
• Microbes treat sewage through activated • sludge formation, aiding in water recycling.
 • • Methanogens produce biogas, used as energy in rural areas.
 • • Biocontrol measures help avoid heavy use of toxic pesticides.

24. • The need for biofertilizers over chemical fertilisers is increasing.