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Micro-organisms and their applications – WJECBacterial growth

Handling micro-organisms safely requires specific techniques. Growing and studying micro-organisms gives us vital information about their rapid growth and their possible uses.

Part of Biology (Single Science)Variation, homeostasis and micro-organisms

Bacterial growth

can replicate approximately every 20 minutes by , which is a simple form of . This level of replication will depend on the availability of nutrients and other suitable conditions, such as temperature.

Micro-organism diagram: 0 minutes; One bacterium. 20 minutes; Two bacteria. 40 minutes; Four bacteria. 60 minutes; Eight bacteria

There are many ways to grow, or , bacteria, eg:

  • nutrient broth solution
  • on an agar plate

Nutrient broth solution, or culture medium, allows a liquid or gel to provide all the nutrients needed for bacteria to grow successfully. These must include carbohydrates for energy, nitrogen for , plus other minerals.

are created by pouring hot molten agar into sterile , which is then allowed to set. Bacteria can be spread onto the plates, and allowed to form individual colonies of the specific bacterium.

Uncontaminated cultures

If a specific bacterium is going to be cultured, other contaminating bacteria would compete for nutrients in the broth or agar. Some bacteria could also be harmful, such as , and would complicate the results of experiments when testing the efficiency of antibiotics or other anti-microbial compounds.

It is therefore important that any petri dish or agar used is sterilised before use, and that aseptic techniques are used to inoculate the plates.

Use of aseptic techniques to avoid contamination

An inoculating loop can be used to transfer bacteria. It is sterilised by heating it to red hot in a Bunsen flame, before and after use.

A hand holding an object over a blue Bunsen flame

To inoculate the agar, lift the lid of the Petri dish and tilt. Do not fully remove or place on the desk as the lid prevents micro-organisms from the air contaminating the culture, and vice versa.

A hand putting an object in a petri dish

Following inoculation, the lid of the Petri dish should be secured in place by strips of adhesive tape for safety reasons. The dish should be labelled and dated.

Inoculated agar plates are incubated at 25°C in school laboratories for no more than 24–48 hours. This encourages growth of the culture without growing human pathogens which thrive at body temperature (37°C).

For safety reasons, plates and equipment should be sterilised after use.

A petri dish

Colonies of bacteria

Bacteria are micro-organisms, and individual cells cannot be seen without a microscope. However, when grown on agar in a Petri dish, each individual cell divides multiple times to form a visible colony.

If we count the number of individual colonies of bacteria on the plates, it is possible to estimate the numbers of individual bacteria in the original sample.

Six petri dishes from above. The first has two grains, their contents gradually grows, the sixth is full

In order to make an accurate calculation of the numbers of bacteria in a sample, the original sample will need to be diluted - this is known as a serial dilution. Only when the sample is sufficiently dilute that it produces clear individual colonies can a calculation be made.