|
 Food
preservation methods
| Method |
Advantages |
Disadvantages |
|
Drying (e.g. freeze-drying, spray-drying,
sun-drying) |
Produces concentrated form of food.
Inhibits
microbial growth & autolytic
enzymes.
Retains most nutrients.
|
Can cause loss of some nutrients,
particularly thiamin & vitamin
C.
Sulphur dioxide is sometimes added
to dried fruits to retain vitamin
C, but some individuals are sensitive
to this substance.
|
|
Smoking |
Preserve partly by drying, partly
by incorporation of substances from
smoke. |
Eating a lot of smoked foods has been
linked with some cancers in some parts
of the world. |
|
Refrigeration |
Slows microbial multiplication.
Slows
autolysis by enzymes
|
Slow loss of some nutrients with time |
|
Freezing |
Prevents microbial growth by low temperature
& unavailability of water.
Generally
good retention of nutrients.
|
Blanching of vegetables prior to freezing
causes loss of some B-Group vitamins
and vitamin C.
Unintended
thawing can reduce product quality.
|
|
Adding salt or sugar |
Makes water unavailable for microbial
growth.
Process does not destroy nutrients.
|
Increases salt and sugar content of
food. |
|
High heat processing (e.g. pasteurisation) |
Inactivates autolytic enzymes
Destroys
microorganisms.
|
Loss of heat-sensitive nutrients. |
|
Canning (involves high heat processing) |
Destroys microorganisms & autolytic
enzymes. |
Water-soluble nutrients can be lost
into liquid in can. |
|
Chemical preservatives |
Prevent microbial growth
No loss of nutrient.
|
Some people are sensitive to some
chemical preservatives. |
|
Ionizing radiation |
Sterilizes foods (such as spices)
whose flavour would change with heating.
Inhibits
sprouting potatoes
Extends
shelf life of strawberries and mushrooms
|
Longer shelf life of fresh foods can
lead to greater nutrient losses than
if eaten sooner after harvesting. |
Stability
of nutrients in food.
|
Nutrient |
Stability Characteristics |
|
Vitamin A |
Quite stable during processing and
cooking |
|
Vitamin D |
Very stable to heat but sensitive
to exposure to air and light. |
|
Vitamin E |
Relatively stable except at deep frying
temperatures |
|
Vitamin K |
Stable in cooking but sensitive to
light. |
|
Thiamin |
Quite unstable to heat and alkaline
conditions. Lost during refining of
cereals. Dissolves in cooking water. |
|
Riboflavin |
Very sensitive to light: 50% lost
from milk left in sun for 2 hours.
Relatively stable to most home cooking
methods (unless bicarbonate of soda
added). |
|
Niacin |
Stable to most processing but leaches
into cooking water. |
|
Vitamin B-6 |
Moderate retention during most processing. |
|
Vitamin B-12 |
Moderate retention, but losses occur
when heated under acid and alkaline
conditions. |
|
Folic acid |
Large losses can occur during cooking.
Presence of copper aids
destruction. |
|
Pantothenic acid |
Relatively stable during most home
processing. |
|
Biotin |
Good retention during most home processing. |
|
Vitamin C |
Unstable. Losses occur from exposure
to air, light, heat and copper.
Also dissolves in cooking water. |
Saving
the nutrients in food.
Do not store fresh foods for long periods
- purchase just enough to last a week or
less, and
eat soon after buying.
Store foods in a cool, dark place.
If slicing or chopping, keep the pieces
as large as possible.
When boiling, add the raw food once the
water is already boiling.
Use the smallest amount of cooking water
possible.
Cook all foods for the shortest possible
time. (Especially in the case of vegetables,
lengthy cooking causes large losses of nutrients).
Do not use copper pots or utensils.
Do not use baking soda to preserve the colour
of vegetables, as this increases vitamin
losses.
Use cooking water and liquid from canned
foods for gravies, sauces and soups.
Microwave cooking, because it is quick and
avoids the use of cooking water in most
instances, is a good way to save nutrients.
Last
Updated: March 27, 2001.
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