Microbes in Foods
Nature uses microorganisms to carry out fermentation
processes, and for thousands of years mankind has used yeasts, moulds and bacteria
to make food products such as bread, beer, wine, vinegar, yoghurt and cheese, as
well as fermented fish, meat and vegetables. Currently, more than 3500 traditionally
fermented foods exist in the world. They are of animal or vegetable origin and are
part of our daily life. Alcoholic drinks are not the only fermented drinks; cocoa
beans and coffee grains are fermented after harvest in order to develop their typical
flavour profiles. Moreover, fermented products have geographical specificities:
in Europe, cheese and bread are widely consumed. In Africa, products manufactured
from fermented manioc play a key role in the diet and in Asia, products derived
from soy or fish are consumed on a daily basis. Fermentation is one of the oldest
transformation and preservation techniques for food. This biological process allows
not only the preservation of food but also improves its nutritional and organoleptic
qualities (relating to the senses; taste, sight, smell, touch). A well conducted
fermentation will favour useful flora, to the detriment of undesirable flora in
order to prevent spoilage and promote taste and texture.
The first realization that microorganisms were
involved in food production processes was in 1837, when scientists discovered the
role of yeast in an alcoholic fermentation. Later, when the world renowned French
chemist and biologist Louis Pasteur was trying to explain what happened during the
production of beer and vinegar in the 1860es, he found that microorganisms were
responsible. However, it wasn’t until after the Second World War that the food
industry began to develop the biotechnological techniques we rely on today to produce
a wide variety of better, safer foods under controlled conditions.
Food safety is a major focus of food microbiology. Pathogenic bacteria, viruses and toxins produced by microorganisms are all possible contaminants of food.
However, microorganisms and their products can also be used to combat these
pathogenic microbes. Probiotic bacteria,
including those that produce bacteriocins,
can kill and inhibit pathogens. Alternatively, purified bacteriocins such as nisin can be added directly to food products. Finally, bacteriophages, viruses that only infect bacteria, can be used
to kill bacterial pathogens. Thorough
preparation of food, including proper cooking, eliminates most bacteria and viruses. However, toxins produced by contaminants
may not be liable to change to non-toxic forms by heating or cooking the contaminated food.
Food Poisoning
Foodborne infection is caused by the
ingestion of food containing live bacteria which grow and establish themselves
in the human intestinal tract.
Foodborne intoxication is caused by
ingesting food containing toxins formed by bacteria which resulted from the
bacterial growth in the food item. The live microorganism does not have to be
consumed.
For a foodborne illness (poisoning)
to occur, the following conditions must be present:
- The microorganism or its toxin must be present in food,
- The food must be suitable for the microorganism to grow,
- The temperature must be suitable for the microorganism to grow,
- Enough time must be given for the microorganism to grow (and to produce a toxin).
- The food must be eaten.
Food Microbiology and Foodborne Illness
Bacteria, yeasts, and mold are
microorganisms associated with foods. The individual microorganism cannot be
seen without the aid of a microscope. The size of these microorganisms is
measured in microns (1 micron is 1/1000 of a millimeter). More than a thousand
microorganisms in a cluster are barely visible to the eye.
Microorganisms may be classified into three
groups according to their activity:
Beneficial
microorganisms may be used in the process of making new foods. Cheese is
made with microorganisms which convert the milk sugar to an acid.
Spoilage
microorganisms cause food to spoil and are not harmful to humans. A
spoilage microorganism is responsible for souring milk.
Pathogenic
microorganisms are disease-causing microorganisms. The living
microorganism or a toxin (microbial waste product) must be consumed to cause
symptoms associated with specific pathogenic microorganisms.
Microorganisms can be found virtually
everywhere. Bacteria and molds are found in the soil and water. Yeasts are
found mainly in the soil. Plant and animal food products support the growth of
microorganisms. Bacteria have been detected on plants and animals; molds are
usually found on fruits and vegetables; yeasts are generally found on fruits.
Many bacteria are part of the normal microflora of the
intestinal tracts of man and animals. Microorganisms may be transferred from
soil and water to plants and animals. Raw food stuffs contain microorganisms
which may be transferred to processed foods by careless handling. Food handlers
with poor hygiene practices may transfer microorganisms to food. If suitable
conditions exist, some of these microorganisms may grow to create a public
health concern. Specific bacterial species (pathogenic microorganisms) are the
main causes of foodborne illnesses in humans.
Growth Factors of Microorganisms
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Moisture
Microorganisms are composed of about 80%
water which is an essential requirement for microorganisms to grow. Moisture
requirements vary for each species of microorganism. In general bacteria need
more water than yeasts. Yeasts require more water than molds to grow. If water
is not available for microorganisms in a food product, the microorganisms may
remain but will not grow and multiply. Certain components in foods will make
water unavailable for microorganisms(and thus can inhibit growth).
Salt
& Sugar
Salt and sugar added to foods
"tie" up water and lower the water activity. When enough salt
or sugar is added to a food, the water activity will be lowered to a level
that will prevent microorganisms from growing. In general, bacterial growth is
inhibited by the addition of 5-15% salt. Yeasts and molds can tolerate up to
15% salt. To inhibit mold growth, 65-70% sugar must be added. The addition of
up to 50% sugar will inhibit bacteria and yeast growth.
Some microorganisms are tolerant of certain
conditions:
Osmiophilic (sugar-liking)
microorganisms, usually yeasts, grow best at high concentrations of sugar.
Xerophilic (dry-liking)
microorganisms can grow with limited moisture.
Food
Microorganisms need a source of nutrients
to grow and multiply.
Time
Microorganisms need time to grow and
multiply. Under favorable conditions (enough moisture and food available with
the desired temperature), cell division (reproductive growth) may occur every
20 to 30 minutes. The time for a microbial cell to double is called the generation
time.
Temperature
Microorganisms grow best within certain
temperature ranges. Bacteria are classified into three groups, depending on the
temperature at which the bacteria grow best.
Psychrophilic (cold-liking)
bacteria (responsible for food spoilage in refrigerators, grow rapidly at room
temp.)
- Growth range
32-77°F
- Optimum
temperature 68-77°F
Mesophilic (middle-liking)
bacteria
- Growth range
68-110°F
- Optimum
temperature 68-113°F
Thermophilic (heat-liking)
bacteria
- Growth range 113-158°F
- Optimum
temperature 122-131°F
Other
factors affecting growth
Varying requirements for Oxygen (aerobic vs. anaerobic bacteria,
e.g.)
pH - acidity or
alkalinity (most microorganisms prefer a pH near neutral [pH = 7.0])
Darkness vs. Light (Ultraviolet light is
lethal to microorganisms)
The bacteria which cause foodborne illness
in humans grow best at body temperature (98.6°F - mesophilic bacteria).
References
Frazier, W.C. and Westhoff, D.C. 1988. Food
Microbiology 4th Edition. McGraw-Hill Inc., New York, N.Y.
Frazier, W.C. and Westhoff, D.C. 1988. Food
Microbiology 4th Edition. McGraw-Hill Inc., New York, N.Y.
http://food.unl.edu/safety/poisoning
http://en.wikipedia.org/wiki/Food_microbiology
http://www.effca.org/content/microorganisms-food-production
very good knowledge
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