1. Norsk nynorsk

About the data in the Norwegian Food Composition Table

The Norwegian Food Composition Table is an important tool in food management and nutrition policy, in education and for consumers, health professionals and researchers. The table can also be used by the food industry as a basis for food declarations.

Published

The official Norwegian Food Composition Table is owned by the Norwegian Food Safety Authority. The practical work is carried out by the Norwegian Food Safety Authority, in collaboration with the Department of Nutrition at the University of Oslo.st av Mattilsynet, i samarbeid med avdeling for ernæringsvitskap ved Universitetet i Oslo.

Definitions of nutrients

The table includes the list of the nutrients in the Norwegian Food Composition Table, and information about the calculation of the nutrients.

 
NutrientDefinition/calculation methodEuroFIR component code
Energy

The content of energy is given in kilojoules (kJ) and kilocalories (kcal).

The energy content is calculated according to the Food Information Regulation, with these conversion factors:

1 g fat = 37 kJ or 9 kcal 
1 g carbohydrate = 17 kJ or 4 kcal 
1 g of dietary fiber = 8 kJ or 2 kcal 
1 g protein = 17 kJ or 4 kcal 
1 g alcohol = 29 kJ or 7 kcal 

ENERCJ/ENERCC
Fat

Total fat
sum saturated fatty acids
sum trans fatty acids
sum monounsaturated (cis) fatty acids
sum polyunsaturated (cis) fatty acids
sum omega 3 fatty acids
sum omega 6 fatty acids  

C12:0 (lauric acid)  
C14:0 (myristic acid)  
C16:0 (palmitic acid)  
C18:0 (stearic acid)  
C16:1 sum  
C18:1 sum  
C18:2n-6 (linoleic acid)  
C18:3n-3 (alpha-linolenic acid)  
C20:3n-3 (eicosatric acid)  
C20:3n-6 (dihomo-gamma-linolenic acid)  
C20:4n-3 (eicosatetraenoic acid)  
C20:4n-6 (arachidonic acid)  
C20:5n-3 (eicosapentaenoic acid, EPA)  
C22:5n-3 (docosapentaenoic acid, DPA)  
C22:6n-3 (docosahexaenoic acid, DHA)  

The fat content usually consists of 90-95% of fatty acids, but in some foods the amount can be much lower. The rest of the fat consists of glycerol, some cholesterol, plant sterol and phospholipids. 

There may be a difference between the amount of total fat and the amount of fatty acids in a food.

It is important to note that the published values for fatty acids are a selection of individual fatty acids in the foods, not a complete fatty acid profile. The sum of the individual fatty acids will be equal to or lower than the sum of the saturated, monounsaturated and polyunsaturated fatty acids or the sum of omega 3 / omega 6 fatty acids.

FAT 

FASAT 

FATRS 

FAMS 

FAPU 

FAN3 

FAN6 

F12:0 

F14:0 

F16:0 

F18:0 

F16:1 

F18:1 

F18:2CN6 

F18:3N3 

F20:3N3 

F20:3N6 

F20:4N3 

F20:4N6 

F20:5N3 

F22:5N3 

F22:6N3

Cholesterol CHORL
Carbohydrate

Carbohydrates are calculated as the sum of starch and sugars.

Please note that other sources can calculate carbohydrate by difference, i.e. carbohydrate = 100 – (water, fat, protein, alcohol, dietary fibre and ash).

Carbohydrate values calculated by difference are often somewhat higher than carbohydrate calculated as the sum of starch and sugars.

CHO
SugarsSugars (mono- and disaccharides) include naturally occurring glucose, fructose, lactose, maltose and sucrose or other sugars added during processing and cooking.

SUGAR

Starch STARCH
Added sugars

The values for added sugars include refined or industrially produced sugars in the form of glucose, fructose, lactose, maltose, sucrose, glycose syrup and other hydrolysed starch products such as glucose syrup and high fructose syrup, which are added during industrial production or when prepared at home.

Naturally occurring sugars in fruits, vegetables and milk are not considered added sugars.

SUGAD
Natural sugarsThe values for natural sugar include added sugar and sugar naturally occurring in honey, syrup, fruit juice and fruit juice concentrate. SUGAN
Dietary fibre

Dietary fiber is not included in carbohydrates.

The values for dietary fibre are based on different definitions of dietary fibre, depending on when the value is from.  

From 2015, the Norwegian analytical values are based on the methods AOAC 2009.01/AOAC 2011.25. These methods include both higher and lower molecular weight fractions. 

Older analytical values and most values borrowed from other sources are based on older definitions of dietary fibre such as AOAC 985.29 and AOAC 991.43. These methods contained fewer fiber fractions. For some food groups, the fiber value will therefore be somewhat lower for these than those based on the latest analytical methods.

FIBT
Protein

The content of protein is calculated from the analysed content of nitrogen. The calculation factor from nitrogen to protein varies with the food composition of amino acids: 

  • Milk, eggs, meat, fish, potatoes, vegetables, fruits, miscellanous foods (6.25) 
  • Wheat flour (5,70) 
  • Wheat flour (wholemeal), barley, oats, rye (5,83) 
  • Wheat bran, millet (6,31) 
  • Wheat germ (8,80) 
  • Rice (5.95) 
  • Almonds (5,18) 
  • Peanuts, Brazil nuts (5,46) 
  • Other nuts, seeds (5,30) 
  • Soybeans (5.71) 
PROT
AlcoholWhen labelling alcoholic beverages, the content of alcohol is usually given as a volume percentage. In the Norwegian Food Composition Table, the content of alcohol is converted to a percentage by weight, i.e. grams per 100 g of drink. For beer, wine and other alcoholic beverages with about the same specific gravity as water, i.e. 1, the percentage by weight is calculated as 0.8 times the percentage by volume. Liqueur and sweet vermouth have a higher specific gravity, at 1.1 and 1.05 due to their sugar content. Pure liquor has a specific gravity of 0.95.ALC
Vitamin A

There are two calculation methods for vitamin A in the Norwegian Food Composition Table.

Vitamin A (RE) is calculated as the sum of retinol + 1/6 beta-carotene, with the unit retinol equivalents (RE). It is this unit used by the Norwegian Directorate of Health's reference values for energy and nutrients refer to.

Vitamin A (RAE) is calculated as the sum of retinol + 1/12 beta-carotene, with the unit of retinol activity equivalents (RAE). 

NB: Both calculations of vitamin A include retinol and beta-carotene only, not other carotenoids such as α-carotene and β-cryptoxanthin.

VITA

RETOL 

CARTB

Vitamin E 

Vitamin E is given as alpha-tocopherol equivalents (mg-TE).

There are several vitamin E compounds (tocopherols and tocotrienols), but only alpha-tocopherol has vitamin E activity.

VITE 
Vitamin D  VITD
Vitamin B1/ thiamine

The values for thiamine are given as thiamine hydrochloride.

THIA
Vitamin B2/ riboflavine RIBF
Vitamin B3/niacinNicotin acid + nicotin amidNIA
Niacin equivalents

Niacin equivalents are calculated as the sum of the preformed niacin and the niacin activity from the amino acid tryptophan. 60 mg tryptophan provides the same vitamin activity as 1 mg niacin. The content of tryptophan varies with the type of protein the food contains. The following factors are used when calculating niacin equivalents:

Protein source / Content of tryptophan

  • Eggs / 1.5%
  • Milk / 1.4%
  • Meat, fish / 1.1%
  • Cereals, vegetables, fruits / 1.0 %
  • Corn / 0.6%
  • Product of unknown composition / 1.0%
 
Vitamin B6Pyridoxine + Pyridoxal + Pyridoxamine VITB6
FolatFolic acid + derivative of folic acidFOL
Vitamin B12  VITB12
Vitamin C Vitamin C is calculated as the sum of ascorbic acid and dehydroascorbic acid.
Some values borrowed from other food tables may contain ascorbic acid only		VITC

Sodium

Salt

Salt is calculated as (sodium x 2.5)/1000

NA

NACL

Calsium CA
Iron FE
Potassium

 

K
Magnesium 

 

MG 
Zink 

 

ZN 
Selenium 

 

SE
Copper

 

CU
Phosphorus

 

Iodine

 ID