Food processing and nutrition
Food processing and nutrition
About food processing
Almost all food is processed in some way before it is eaten. Commercially, the main reasons to process food are to eliminate micro-organisms (which may cause disease) and to extend shelf life.
Simply cooking or combining a food with other foodstuffs to create a recipe is also considered a form of food processing. Whatever the case, the nutrient value of any food is often altered by the processing.
Effects of processing and storage of food
Some
vitamins
are more stable (less affected by processing) than others. Water-soluble vitamins (
B-group
and C) are more unstable than fat-soluble vitamins (K, A, D and E) during food processing and storage.
The most unstable vitamins include:
folate
thiamine
vitamin C.
More stable vitamins include:
niacin (vitamin B3)
vitamin K
vitamin D
biotin (vitamin B7)
pantothenic acid (vitamin B5).
Processes affecting food nutrient content
A variety of things can happen during the growing, harvesting,
storage
and
preparing of food
that can affect its nutritional content. Processes that expose foods to high levels of heat, light or oxygen cause the greatest nutrient loss.
Fertilisers
Most plant crops are produced with the aid of fertilised soils. High use of nitrogen fertilisers tends to reduce the vitamin C content in many fruit and vegetable crops. It does not seem to make any difference to the plant’s nutrient value whether the fertiliser is organic or not.
Milling
Cereals
such as wheat can be ground to remove the fibrous husks. The husks contain most of the plant’s
dietary fibre
, B-group vitamins, phytochemicals and some minerals.
That is why products such as white bread are less nutritious than wholemeal varieties, even if they have been artificially fortified with some of the nutrients that were lost after milling.
It is impossible to add back everything that is taken out, especially the phytochemicals. The ‘fibre’ that is added back to some products is often in the form of resistant starch, which may not be as beneficial as the fibre removed.
Blanching
Before a food is canned or frozen, it is usually heated very quickly with steam or water. The water-soluble vitamins, including vitamin C and B-complex, are sensitive and easily destroyed by blanching.
Canning
Food is heated inside the can to kill any dangerous micro-organisms and extend the food’s shelf life. Some types of micro-organisms require severe heat treatment and this may affect the taste and texture of the food, making it less appealing. Preservatives are generally not needed or used in canned foods.
Water-soluble vitamins are particularly sensitive to high temperatures. Many people believe that canned foods are not as nutritious as their fresh counterparts, but this is not always the case, as fresh food often deteriorates more rapidly than canned foods.
Freezing
The nutrient value of a food is retained when it is frozen. Any nutrient losses are due to the processing prior to freezing and the cooking once the frozen food is thawed.
Pasteurisation
Pasteurisation involves heating liquid foods such as
milk
and fruit juices to specific temperatures to destroy micro-organisms. The nutrient value of milk is generally unaffected. In the case of pasteurised fruit juices, some losses of vitamin C can occur.
High pressure processing
This alternative preservation method subjects a food to elevated pressures, with or without the use of heat to kill micro-organisms. This method has been used in foods such as fruit juices. As heat is not required, this process impacts less on the vitamin content, flavour and colour of foods.
Dehydrating
Drying out foods such as
fruits
can reduce the amount of vitamin C they retain, but it can also concentrate other nutrients, particularly fibre in plant foods. Dehydrating food also makes food products more energy dense, which may contribute to weight gain.
If a dehydrated food is reconstituted and cooked with water, further nutrients are leached out of the food and lost in the cooking water.
Preparation of vegetables
Most
vegetables
are peeled or trimmed before cooking to remove the tough skin or outer leaves. But most nutrients, such as vitamins, tend to lie close to the skin surface, so excessive trimming can mean a huge reduction in a vegetable’s nutrient value.
Losing nutrients through cooking
Some vitamins dissolve in water, so you lose your vitamins to the cooking water if you prefer to boil your vegetables. For example, boiling a potato can cause much of the potato’s B and C vitamins to migrate into the boiling water.
It is still possible to benefit from these nutrients if you consume the liquid, for example, by turning the potato and the liquid into a soup. Alternative cooking methods such as grilling, roasting, steaming, stir-frying or microwaving generally preserve a greater amount of vitamins and other nutrients.
Benefits of cooking food
It would be inaccurate to say that cooking food always lessens the nutrient value. Cooking can be advantageous in many ways, including:
making the food tastier
breaking down parts of vegetables that would otherwise be indigestible
destroying bacteria or other harmful micro-organisms
making phytochemicals more available, for instance, phytochemicals are more available in cooked tomatoes than in raw tomatoes. (Phytochemicals are chemicals produced by plants.)
Preserving the nutrient value of vegetables
Some suggestions to retain the maximum nutrition in the foods you cook include:
Store foods properly, such as keeping cold foods cold and sealing some foods in airtight containers.
Keep vegetables in the crisper section of the refrigerator.
Try washing or scrubbing vegetables rather than peeling them.
Use the outer leaves of vegetables like cabbage or lettuce unless they are wilted or unpalatable.
Microwave, steam, roast or grill vegetables rather than boiling them.
If you boil your vegetables, save the nutrient-laden water for soup stock.
Use fresh ingredients whenever possible.
Cook foods quickly.
Ultra-processed foods
Ultra-processed foods and beverages are products formulated from industrial processes and/or contain industrially derived ingredients.
The processing techniques used in ultra-processed foods differ from the more basic and traditional methods described above. Industrial techniques include fractionation, hydrogenation, hydrolysis, extrusion, moulding and pre-frying.
Ultra-processed foods are typically highly convenient and palatable, and tend to be high in added
sugars
,
salt
, oils and
fats
. They also contain ingredients and
additives
that can’t usually be found in a home pantry, such as artificial colours and flavours, emulsifiers, and inverted sugars.
Some common examples of ultra-processed foods include:
carbonated soft drinks and energy drinks
confectionary, biscuits, pastries
sweetened breakfast cereals
pre-prepared meat, cheese, pasta and pizza dishes
sausages, burgers, hot dogs and other reconstituted meat products
powdered and packaged ‘instant’ soups, noodles and desserts.
Ultra-processed food and health
Consumption of ultra-processed foods can lead to increased energy intake, resulting in
weight gain
.
A high proportion of ultra-processed foods in the diet is also linked to:
obesity
cardiovascular
and
metabolic
diseases
cancer
gastrointestinal disorders
depression
.
The mechanisms explaining the association between consumption of ultra-processed foods and chronic disease are still unclear. However it is likely explained in part by increased intake of sugar, salt, fats and oils, increased energy intake due to their hyperpalatable nature, and the displacement of meals prepared from nutritious unprocessed and minimally processed foods.
Where to get help
Your
GP (doctor)
Dietitians
Australia
External Link
Tel.
1800 812 942
Australian guide to healthy
eating
External Link