Microbes In Human Welfare PDF

Summary

This document explores the various roles of microbes in human welfare, including their applications in household products like curd and yogurt, as well as in the production of alcoholic beverages, cheeses, and other fermented foods. The document also looks into microbes' involvement in the manufacture of vitamins, enzymes, and antibiotics. It covers topics like fermentation processes, microbes in industries, and chemical enzymes and bioactive compounds.

Full Transcript

**MICROBES IN HUMAN WELFARE**

**MICROBES IN HOUSEHOLD PRODUCTS:**

- **Microbes convert complex food into simpler substances and alter
the appearance, flavour odour and other qualities of food.**

- **I.Lacto bacillus (bacteria): Lactic acid bacteria LAB for making
curd and yoghurt Milk is converted to curd as it produces lactic
acid that curdles milk. The small amount of curd added to milk
contains millions of bacteria that curdle milk**

- **Advantage: 1.Increases Vitamin B12**

- **2.In our stomach checks the growth of disease causing microbes.**

- **II. Fungus yeast: Saccharomyces cerevisiae anaerobic respiration
produces CO~2~ and C~2~H~5~ OH**

- **CO~2~ : leavens dough to make soft bread , batter of idli , appam-
makes it soft**

- **Ethanol : Toddy from palm sap and other beverages.**

- **III.Microbes : fermented foods like fish , soya(tofu) and bamboo
shoots**

- **IV.Used for curing of cheese: Bacterium Propionibacterium
sharmanii produces large holes for Swiss cheese.**

- **Fungus Penicillium Roqueforti used to make blue chees from goats
milk for Roquefort cheese.**

- **MICROBES INDUSTRIES:**

- **Fermentation can yield many products like beverages, vinegar,
organic acids, vitamins , enzymes and antibiotics.**

- **Fermented beverages: Depending on the type of material used for
fermentation and type of processing various alcoholic drinks are
produced**

+-----------------+-----------------+-----------------+-----------------+
| **Beverage** | **Source** | **Microbe** | **Process** |
+=================+=================+=================+=================+
| 1.Whiskey | Corn , Rye | *Saccharomyces | Distillation |
| | | cerevisiae* | |
+-----------------+-----------------+-----------------+-----------------+
| 2\. cider | Apples | *Saccharomyces | Distillation |
| | | sp.* | |
+-----------------+-----------------+-----------------+-----------------+
| 3.sake | Rice | *Saccharomyces | Distillation |
| | | saki* | |
+-----------------+-----------------+-----------------+-----------------+
| 4\. Beer | Barley malt | *Saccharomyces | No distillation |
| | | sp* | |
+-----------------+-----------------+-----------------+-----------------+
| 5\. Wine | Grapes | *Saccharomyces | No distillation |
| | | cerevisiae* | |
| 6\. Rum | Molasses | | Distillation |
| | | *Saccharomyces | |
| 7\. Brandy | Fruit juices | cerevisiae* | Distillation |
| | | | |
| 8.Vodka | Potato | *Saccharomyces | Distillation |
| | | cerevisiae* | |
| | | | |
| | | *Sacharomyes | |
| | | cerevisiae* | |
+-----------------+-----------------+-----------------+-----------------+

-

**CHEMICAL ENZYMES AND BIOACTIVE COMPOUNDS**

- **Many microbes produce organic acids and chemical of commercial
importance**

- **Fungus *Aspergillus niger* : citric acid**

- ***Acetobacter aceti* :acetic acid used in the manufacture of
vinegar**

- ***Clostridium butylicum*: Butyric acid**

- **Lactobacillus : lactic acid for formation of curd and yoghurt**

- **Fungus ,yeast: *Saccharomyces cerevisiae*: ethanol & *yeast
Saccharomycopsis lipolytica* : lipase**

- **Fungus a*spergillu*s species : pectinases and proteases &Bacillus
sp: proteases**

- **Lipases ,proteases enzymes remove oil stains from laundry and
enzymes pectinases and proteases clear fruit juices that are
produced commercially**

- **Streptococcus produces streptokinase : clot buster to dissolve
clots for myocardial infarction patients**

- **Fungus *Trichoderma polysporum*: Cyclosporin A an immuno-supresent
in organ transplant patients.**

- **Fungus ,an yeast ,*Monascus purpureus*: Statins, cholesterol
lowering agents**

- **Substrate acted by enzyme forms cholesterol. statins act as a
competitive inhibitor of the enzyme preventing the formation of
cholesterol.**

- **MICROBES IN ANTIBIOTIC PRODUCTION:**

- **These are chemical produced by microbes that kill or inhibit the
growth of other microbes**

- **Anti=against bios = life as they kill microbes but from our point
of view they are prolife**

- **Discovered by Dr alexander Flemming while working on
Staphylococcus bacterium which wer killed by the antibiotics
produced by fungus *Penicillium notatum* and was called penicillin.
Its true potential was established by Ernest Chain and Howard Florey
for which they shared the Nobel Prize( 1945) with Flemming.**

- ***Cephalosporium acremonium :* cephalosporin**

- ***Streptomyces erythreus* : erythromycin**

- ***Streptomyces griseus* : Streptomycin**

- ***Streptomyces rimosus*: Tetracycline**

- ***Streptomyces mediterranei* : Rifamycin**

- ***Micromonaspora purpurea* : Gentamycin**

- **Properties of a good antibiotic: 1. It should be harmless to the
host without side effect**

- **2. harmless to the symbiotic microflora in our intestine**

- **3. It should be broad spectrum.**

- **4. It should have quick action**

- **A sewage treatment plant-STP- is a giant microbial breeding
facility where the microbes oxidize the organic wastes and producei
norganic chemicals like phosphates , nitrates which are later
removed by tertiary treatment. In the STP pathogens are killed, and
harmful chemicals are eliminated from the sewage before they are
discharged into water bodies.**

- **WORKING OF STP : 3 types of treatment takes place: Primary
secondary and tertiary treatment of sewage.**

- **I.Primary treatment: the process of filtration and sedimentation
are used remove the suspended material. In the I step by sequential
filtration, the floating debris are removed**

- **After this the grit is removed by sedimentation.Primary sludge is
what settles down and supernatant water is the effluent**

- **II.Secondary treatment: involves aerobic bacteria in oxidation
pond where there is an input of Oxygen and flocs into the effluent
from the primary treatment. The effluent is constantly agitated
mechanically in order to sufficiently aerate the water and promote
vigorous growth of the aerobic bacteria.**

- **Flocs: fungal mycelium with aerobic bacteria that forms a mesh.**

- **Biochemical oxygen demand (BOD): The amount of oxygen that would
be consumed if all the organic matter in one litre of water were
oxidised.**

- **.The aerobic bacteria digest the organic matter reducing the BOD
of water & killing the pathogenic bacteria. When BOD is reduced the
water is passed into settling tanks, where the bacterial flocs are
allowed to settle down -what sediments : activated sludge. A part of
this is pumped into the oxidation pond as inoculum.**

- **Effluent from settling tanks is sent for tertiary treatment**

- **Major part of the Activated sludge is pumped into :**

- **III.Anaerobic sludge digesters: anaerobic bacteria degrade the
sludge to form CH~4~, H~2~S, andCO~2.~ This forms Biogas**

- **Effluent sent for tertiary treatment to remove toxic chemicals.**

- **Biogas production:**

- **Biogas is a mixture of gases is generated by methanogens acting on
cellulosic material.We call them as Gobar gas plants and the
technology of biogas production was developed due to the efforts
IARI ( Indian Agricultural Research Institute) and KVIC ( Khadi and
village Industries Commission**

- **Methanogens are bacteria found in swamps and in the rumen of
cattle**

- **Therefore they will be found in cow dung which is the source of
methanobacterium for the Biogas plant.**

- **Raw material : any waste plant material which include domestic and
agricultural wastes**

- **Composition of Biogas consists of : CH~4~ = 50-68% ,CO~2~ = 25-35%
,H~2~ = 1-5% , N~2~ =2-7%**

- **O~2~ =0-0.1%**

- **Steps in Biogas production:1. Hydrolysis: Organic polymers are
converted to monomers by bacteria like *Clostridium cellulosolvens*
and *Eubacterium cellulosolvens***

- **2. Acid formation: In this process the monomers are converted to
simple compounds like CO~2~, H~2~ , NH~3~ using acetogenic bacteria
like *Acetivibrio cellulolyticus***

Floating Drum type biogas plant \| KVIC \| GTU \| Constant Pressure \...

**PRODUCTION OF BIOGAS:**

- **Process of biogas production:**

- **A slurry made of crop and domestic waste is mixed with cow dung
and fed into the concrete digester through the charge pit. The
digester has a metal floating gas holder with an outlet pipe to
remove the biogas, and a pit where the spent slurry can be collected
to be used as manure.**

- **As the biogas is generated by microbial activity, the gas holder
keeps on rising. The out let pipe for the gas is connected by pipes
to houses where the gas is used for cooking and lighting.**

- **Advantages:**

- **1.It is a storable form of energy which can be used when
required.**

- **2. It improves sanitation and minimises the spread of faecal
pathogen**

- **3. It is an eco friendly pollution free source of energy**

- **4.It is used for cooking , lighting and for running tube wells.**

- **5. The spent slurry is used ass manure for crop**

- **MICROBES AS BIO CONTROL AGENTS:**

- **Organic method of farming tries to ensure biodiversity in the
cropland and hence will not try to eliminate pests but will keep the
pest population in a manageable level. The organic believes that
these pest are needed as they form the food of beneficial predatory
and parasitic insects**

- **Therefore it's better to use predators and pathogens of pest
insects to control their population.Pesticides will cause
pollution**

- **Predators of insect pests.**

- **Lady bird beetle preys on aphids and dragon flies on mosquito
larvae**

- **Bacterium Bacillus Thuringiensis --Bt- toxins kill insects
belonging**

- **lepidoptera , Coleoptera, Diptera. The bacterium is available as
sachets**

- **of dry spores which can be sprayed on the field. When the larvae
feed**

- **on the crop , the bacteria enter them and the toxin released
kills**

- **the pest. Scientist have also produced GM crops that contain the**

- **gene for the toxin making the crop resistant too pest attack**

- **Trichoderma are free living fungi that live in association with
roots of crop plants. Fungus Trichoderma feed on plant pathogens
that causes disease of crop plants and negate the use of chemicals
to control them**

- **Bacculovirus belonging to genus Nucleopolyhedrovirus are pathogens
of insect pests and cause diseases in them. They are species
specific, narrow spectrum, insecticidal bio-control agents. Kill
only target pests and do not harm non target insects or plants,
mammals, birds and fish. Excellent for IPM**

- **Biofertilizers :these are organisms that enrich the nutrient
quality of the soil. They do not pollute the environment as the
chemical fertilizers do**

- **Symbiotic association of Rhizobium leguminosorum with the root
nodules of leguminous plants Fix atmospheric nitrogen as nitrates
which can be absorbed by the plants**

- **Azospirullum and acetobacter are free living bacteria that can do
this.**

- **Mycorrhiza are symbiotic association of fungal mycelium with the
roots of Gymnosperm and Angiosperms.**

- **Fungus Glomus forms mycorrhizae with roots of Gymnosperms.**

- **Advantages for the plant:**

- **1.Fungal partner absorb phosphorus and pass it on to the plant.**

- **2.Such plants are more resistant to root borne pathogens.**

- **3.They have greater tolerance to abiotic stress like drought or
increased salinity.**

- **4.There is overall increase in plant growth.**

- **BIOFERTILIZERS**

- **Cyanobacteria: Anabaena, Nostoc, Oscillatoria can fix nitrogen as
nitrates which plants can utilise They are especially important in
paddy fields**

- **Advantages of biofertilizers over chemical fertilizers:**

- **1.They are cheap and economical**

- **2.They do not pollute the soil and some act as bio-pesticides**

- **3.No fossil fuels are utilised in their production.**

- **4.They are effective even in semiarid conditions and improve soil
structure and function**

- **5. They do not allow pathogens to flourish**

- **6.They make available vitamins and other growth promoting
substances**

- **Harmful effects of Chemical fertilizer.**

- **1.Agricultural run off from the crop lands contaminate water
bodies leading to eutrophication & death of marine organism**

- **2.It may also make drinking water unfit for consumption.**

- **3.Chemical fertilizer being powdery do not bind the soil leading
to a change in the soil structure.**

- **4. They are far more expensive to manufacture than
biofertilizers.**

- **5. They are manufactured at the expense of already depleting
resources of coal and petroleum.**

- **6.They kill many useful organisms in the soil.**

- **7.They enter the food chain and cause diseases at various trophic
levels.**

- **8.They affect the salinity of the soil.**

- **INTEGRATED PEST MANAGEMENT-IPM**

- **It is the practise of pest control through biological methods and
use of chemical pesticieds to base minimum and only when
essential.**

- **1. To keep pest population under control by using their natural
parasites, predators and parasitoids. Eg: Ladybird Beatles feed on
aphid pest. Bacculovirus cause diseases in pests and kill them and
Trichoderma cause diseases of plant pathogens and save the crop.**

- **2. To use non-pollutant pesticides like pyrethrin and cinerin.**

- **3. Growing pest resistant varieties of plants, like Bt cotton**

- **4.Practise crop rotation , Mixed cropping etc to reduce pests.**

- **5.A target crop preferred by the pest is planted away from the
main crop so as to keep the pests away.**

- **6. Improve soil condition, sanitation practises to reduce pests**