Main food preservation methods
| Method |
Effect on microbial growth or survival |
| Refrigeration or chilling |
Low temperature to retard growth |
| Freezing |
Low temperature and reduction of water activity to prevent growth |
| Drying, curing and conserving |
Reduction in water activity sufficient to delay or
prevent growth |
| Vacuum and oxygen free
modified atmosphere
packaging |
Low oxygen
tension in inhibit strict aerobes and delay growth of facultive anaerobes |
| Carbon dioxide enriched modified atmosphere packaging |
Specific inhibition of some micro-organisms by carbon
dioxide |
| Addition of acids |
Reduction of pH value and sometimes additional inhibition by the particular
acid |
| Lactic fermentation |
Reduction of pH value in situ by microbial action and sometimes additional inhibition by the lactic
and acetic acids formed and by other microbial products e.g. ethanol, bacteriocins |
| Emulsification |
Compartmentalisation and nutrient limitation within the aqueous droplets in
water-in-oil emulsion foods |
| Addition of preservatives |
Inhibition of specific groups of micro-organisms |
| Pasteurization and appertization |
Delivery of heat sufficient to inactivate target micro-organisms to the
desired extent |
| Radurization,
radicidation and radappertization |
Delivery of ionising radiation |
| Application of high hydrostatic pressure Pascalization |
Pressure-inactivation of vegetative bacteria, yeasts and moulds |
Food preservation is the process of treating and handling food in such
a way as to stop or greatly slow down spoilage to prevent foodborne
illness while maintaining nutritional value, texture and flavor.
Preservation usually involves preventing the growth of bacteria, fungi and other micro-organisms, as
well as retarding the oxidation of fats which
causes rancidity.
Common methods of preserving food include drying, freezing, vacuum-packing, canning, radiation-treatment and adding preservatives. Other methods that not only help to preserve food, but also add flavor, include pickling, salting, smoking and curing.
The oldest method of food preservation is by drying, which reduces
water activity sufficient to delay or prevent bacterial growth. Smoking is sometimes done in
conjunction with drying. Although not sufficient by itself to permit long term storage of food, smoking adds chemicals that help
inhibit the growth of micro-organisms. Meat is often also cured with salt or sugar, or a
combination of the two.
Curing draws moisture from the meat through a process of osmosis. Nitrates and nitrites are also often used to cure meat.
Pickling is a method of preserving food by placing it in either a brine (high in salt), or a solution of vinegar which is too acidic to permit bacterial
growth.
Canning involves cooking fruits or
vegetables, sealing them in sterile cans or jars, and boiling the containers to kill or weaken any remaining bacteria. Various foods have varying degrees of
natural protection against spoilage and may require that the final step occur in a pressure cooker. High-acid fruits like strawberries
require no preservatives to can and only a short boiling cycle, whereas marginal fruits such as tomatoes require longer boiling and addition of other acidic elements. Many vegetables require pressure
canning.
A 1950s issue of Popular
Mechanics details the impending arrival of "food irradiation". However, at the present time, the implications surrounding the
irradiation of food are still not fully understood, and the technology is
therefore still not in widespread use. However, irradiation of potatoes,
strawberries, and meat is common in many countries where refrigerated facilities and trucks are not common. In 2002, the FDA permitted irradiation of meat and poultry to
reduce the spread of E. coli and Salmonella. In the US and most of Europe irradiation of spices is common, as the only alternative (treatment
with gas) has been shown to be potentially carcinogenic. The process is incorrectly called "pasteurization" to avoid the reduced
sales that arise from the correct term of "irradiation".
|