Biology Revision

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Biology Revision

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Title: Biology Revision

1
Biology Revision

B6 Beyond the Microscope

2
6a Understanding Bacteria

Bacteria smaller than animal or plant cells,
typically a few microns long (1000 of a mm)
Flagellum for movement
Cell wall for maintaining
shape stop it bursting
Bacterial DNA for
cell replication control of cell
Bacteria lack
A true nucleus
Mitochondria
Chloroplasts
A vacuole

Main shapes Spherical Rod Spiral Curved rods
3
6a Understanding Bacteria

Food sources some consume organic nutrients
like carbohydrates proteins, some make their
own using sunlight
Survival extreme habitats e.g. hot springs,
inside humans
Reproduction by binary fission
Rapid reproduction
causes fast spread of
disease food
spoilage, but can be
useful

4
6a Understanding Bacteria

Making Yoghurt
In large steel fermenters
Equipment sterilised
Raw milk pasteurised heated to 80C, then
cooled rapildy
Heated to 40C
Live bacterial culture added incubated
Bacteria feed on lactose make lactic acid
Manufacturer samples yoghurt
Flavours colours added

5
6b Harmful Microorganisms

Pathogens microbes that cause disease

Pathogen Illness caused Transmission method
Bacteria Cholera (Vibrio) Contaminated water
Bacteria TB Airborne droplets
Bacteria Food poisoning (salmonella E. coli) Contaminated food
Bacteria Septic wound Contact with wound
Protozoa Dysentery (Entamoeba) Contaminated food/water
Protozoa Malaria Mosquito bite
Viruses Flu Airborne droplets
Viruses Chickenpox/smallpox Direct contact or airborne droplets
Fungi Athletes foot Direct contact
6
6b Harmful Microorganisms

Natural Disasters
Rapid spread of disease because
Sewage systems water supplies damaged
Electrical supplies damaged -gt food decay
Disrupted health services
Dysentery, cholera food poisoning common

7
6b Harmful Microorganisms

History of Disease Treatment
Pasteur 1860s Germ Theory microbes in the
air cause food decay passed from person to
person causing disease
Lister 1865 development of antiseptics use
of carbolic acid during surgery
Fleming 1928 Penicillin discovered
accidentally that this mould killed bacteria

8
6c Microorganisms factories for the future?

Yeast single celled fungus
Asexual reproduction budding
Conditions for reproduction
Lots of sugar
Optimum temperature (rate doubles for every 10C
rise, above 40C?) pH
Removal of waste products e.g. alcohol

9
6c Microorganisms factories for the future?

Fermentation anaerobic respiration in yeast
Sugar -gt Alcohol Carbon Dioxide
Uses
Cleaning sugar in water from food processing
factories
Making alcohol e.g. beer from barley, wine from
grapes, cider from apples

10
6c Microorganisms factories for the future?

Brewing Beer
Mashing extraction of sugar from source
material
Hops added for flavour
Yeast added to ferment (keep warm)
Tank sealed to cause anaerobic respiration
prevent unwanted microbes entering
Clarifying/clearing to leave a clear liquid
Pasteurising to kill harmful microbes
Bottling or casking

11
6c Microorganisms factories for the future?

Distilling spirits
Rum from cane sugar
Whisky form malted barley
Vodka from potatoes
Process
Liquid heated to evaporate alcohol
Concentrated alcohol trapped and condensed into a
liquid
Fermentation is limited by increasing levels of
alcohol that eventually kill yeast

12
6d Biofuels

Biogas contains mainly methane (50 burns
easily 10 is explosive), some carbon dioxide,
traces of hydrogen, nitrogen hydrogen sulphide
Biogas produced by decomposer bacteria in
marshes, septic tanks, animals digestive systems
Uses
Burned to generate electricity
Burned to produce hot water steam for central
heating
Fuel for buses (cleaner than diesel petrol, but
doesnt produce as much energy)

13
6d Biofuels

Large scale production of methane
Continuous flow method in a digester organic
material added daily gas siphoned off
Optimum temperature too low, little gas
produced above 45c enzymes denatured, no gas
produced
Advantages of biofuels
Alternative source to fossil fuels reduce
greenhouse effect
No particulates produced
Cheap
Renewable/sustainable
Conservation of resources

14
6e Life in Soil

Composition of soil
Rock particles
Humus (dead organic matter)
Water
Living organisms e.g. fungi, microscopic
protozoans, nematode works, earthworms, bacteria
Importance of worms
Burying organic material for decomposition
Mixing soil layers
Aerating draining soil
Neutralising acid soil

15
6e Life in Soil

Soil Food Webs

Detritivores e.g. earthworms Decomposers e.g.
fungi
16
6e Life in Soil

Nitrogen Cycle

Nitrogen fixing e.g. Azobacter, Rhizobium
Clostridium
Nitryfying e.g. Nitrosomonas Nitrobacter
convert ammonia to nitrates
Saprophytic bacteria start decomposition make
ammonia
17
6f Microscopic life in water
Advantages of living in water Disadvantages of living in water
No problem of water shortage or dehydration Water is dense so resists movement
Less variation in temperature Difficult to control the absorption release of water from living cells
Water gives more support so organisms grow bigger without increases in skeleton size
Waste is easily disposed
Amoeba use active transport to pump water into
small vacuoles which join into one contractile
vacuole which empties out of the cell
Salmon move from salt to fresh water they alter
their urine concentration to counteract osmosis
in or out of cells
18
6f Microscopic life in water