Nutritional Information

Macro nutrients

Composition
Compositiongram
Fat65.0
Carbohydrate3.3
Protein13.2
Dietary fibre9.0
Alcohol0.0
Water9.0
Energy content
Energy contentenergiprosent
Fat87
Carbohydrate2
Protein8
Dietary fibre3
Alcohol0
  • Fat
  • Carbohydrate
  • Protein
  • Dietary fibre
  • Alcohol
  • Water
  • Energy in 100 g: 2,761 kJ (670 kcal)
  • Edible part: 41 %
NutrientSourceQuantityEnergiprosent
Fat87%
Carbohydrate2%
Dietary fibre2%
Protein8%
Alcohol0%
Water-

Carbohydrates

CarbohydrateSource3.3 g
Starch
Sugar, total
Sugar, added
Sugar, free

Fatty acids

FatSource65 g
Saturated fatty acids
Trans fatty acids
Monounsaturated fatty acids
Polyunsaturated fatty acids
Omega-3
Omega-6
Cholesterol
Saturated fatty acidsSource3.7 g
C12:0 (lauric acid)
C14:0 (myristic acid)
C16:0 (palmitic acid)
C18:0 (stearic acid)
Monounsaturated fatty acidsSource39.8 g
C16:1 sum (palmitoleic acid)
C18:1 sum (oleic acid)
Polyunsaturated fatty acidsSource5 g
C18:2n-6 (linoleic acid)
C18:3n-3 (alpha-linolenic acid)
C20:3n-3 (eicosatrienoic acid)
C20:3n-6 (dihomo-gamma-linolenic acid, DGLA)
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)

Vitamins

Fat-soluble vitaminsSourceQuantity
Vitamin A (RAE)
Vitamin A (RE)2 RE0 %
Retinol
Beta-carotene
Vitamin D0 %
Vitamin E252 %
Water-soluble vitaminsSourceQuantity
Vitamin B1 (thiamin)17 %
Vitamin B2 (riboflavin)23 %
Vitamin B3 (niacin)
Niacin equivalents17 %
Vitamin B6 (pyridoxine)12 %
Vitamin B9 (folate)24 %
Vitamin B12 (cobalamin)0 %
Vitamin C (askorbic acid)5 %

Minerals and trace elements

MineralsSourceQuantity
Salt (NaCl)
Calcium (Ca)14 %
Sodium (Na)
Potassium (K)17 %
Magnesium (Mg)43 %
Phosphorus (P)52 %
Trace elementsSourceQuantity
Iron (Fe)25 %
Zinc (Zn)18 %
Selenium (Se)1 %
Copper (Cu)155 %
Iodine (I)0 %

Classification

Food ID: 06.553

Scientific name: Corylus avellana L.

FoodEx2: Hazelnuts (A014L)

LanguaL

The foods in Matvaretabellen are described using a classification system called LanguaL. LanguaL stands for "Langua aLimentaria" or "language of food". This language enables standardized descriptions of foods.

LanguaLClassification
A0260Nut or nut product (US CFR)
A0823Nut, seed or kernel (EUROFIR)
B1533European filbert
C0133Seed, skin present, germ present
E0151Solid
F0001Extent of heat treatment not known
G0001Cooking method not known
H0138Water removed
J0116Dehydrated or dried
K0003No packing medium used
M0001Container or wrapping not known
N0001Food contact surface not known
P0024Human consumer, no age specification

10

Missing value, content not known.

50

Estimated as a naturally occurring zero value, not analysed.

70

Calculated from a specific factor for fatty acids in total fat.

331

Frydenberg, H, Urke EB & Carlsen MH. Sugar project 2021-2024. University of Oslo, department of nutrition.

420f

National Food Institute - Technical University of Denmark (DTU). Food database, Frida version 3.7. (2019). Online version, http://frida.fooddata.dk

460g

US Department of Agriculture, Agricultural Research Service. USDA National Nutrient Database for Standard Reference, Release 28 (2015). Nutrient Data Laboratory Home Page

611a

Jacobsen, J., Bysted, A., Nielsen, C.W., Saxholt, E., Ygil, K.H., Trolle, E. Næringsstofindhold i mel, gryn, kerner og frø. DTU Fødevareinstituttet, 2019. Online version, www.food.dtu.dk

MI0120

Salt equivalent calculated from sodium (NACL[g]=2.5*NA[mg]/1000.0)

MI0142

Water by difference (WATER[g] = 100 - PROT[g] - FAT[g] - CHO[g] - FIBT[g] - ALC[g])

MI0181

Carbohydrate, available calculated from sugar and starch (CHO[g] = SUGAR[g] + STARCH[g])

MI0208

Fatty acids, saturated, calculated as the sum of individual fatty acids, excluding branched chain isomers (FASAT[g] = F4:0[g] + F5:0[g] + F6:0[g] + F7:0[g] + F8:0[g] + F9:0[g] + F10:0[g] + F11:0[g] + F12:0[g] + F13:0[g] + F14:0[g] + F15:0[g] + F16:0[g] + F17:0[g] + F18:0[g] + F18:0DO[g] + F19:0[g] + F20:0[g] + F21:0[g] + F22:0[g] + F23:0[g] + F24:0[g] + F25:0[g] + F26:0[g])

MI0210

Fatty acids, monounsaturated, calculated as sum of individual fatty acids, cis isomers only (FAMSCIS[g] =F10:1CIS[g] +F12:1CIS[g] +F14:1CIS[g] + F15:1CN8[g] + F16:1CIS[g] + F17:1CIS[g] + F18:1CIS[g] + F20:1CIS[g] + F22:1CIS[g] + F24:1CIS[g])

MI0212

Fatty acids, polyunsaturated, calculated as sum of individual fatty acids, all-cis isomers only (FAPUCIS[g] = F16:2CN4[g] + F16:3CN3[g] + F18:2CN6[g] + F18:2CN9[g] + F18:3CN3[g] + F18:3CN6[g] + F18:4CN3[g] + F20:2CN6[g] + F20:3CN3[g] + F20:3CN6[g] + F20:3CN9[g] + F20:4CN3[g] + F20:4CN6[g] + F20:5CN3[g] + F22:2CN3[g] + F22:2CN6[g] + F22:4CN6[g] + F22:5CN3[g] + F22:5CN6[g] + F22:6CN3[g] + F24:2CN6[g])

MI0322

Vitamin A activity calculated from retinol and beta-carotene (factor 1/6) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 6))

MI0325

Vitamin A activity calculated from retinol and beta-carotene (factor 1/12) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 12))

MI0421

Niacin equivalents calculated from niacin and tryptophan (NIAEQ[mg] = NIA[mg] + TRP[mg] / 60)

MI_SUGAR_NO

Sugar calculated as the sum of fructose, glucose, lactose, maltose and sucrose (SUGAR[g] = FRUS[g] + GLUS[g] + LACS[g] + MALS[g] + SUCS[g])

Sodium (Na) in Hazelnuts

Value typeBelow limit of quantification
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Dietary fibre in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin B2 (riboflavin) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C20:5n-3 (eicosapentaenoic acid, EPA) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Iron (Fe) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C20:3n-6 (dihomo-gamma-linolenic acid, DGLA) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Fat in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin B1 (thiamin) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Starch in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeImputed/estimated, generic
MethodImputation

C16:0 (palmitic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeCalculated on component profile
MethodImputation of a component from one or more components in the same food

Polyunsaturated fatty acids in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeSummation from constituent components
MethodFatty acids, polyunsaturated, calculated as sum of individual fatty acids, all-cis isomers only (FAPUCIS[g] = F16:2CN4[g] + F16:3CN3[g] + F18:2CN6[g] + F18:2CN9[g] + F18:3CN3[g] + F18:3CN6[g] + F18:4CN3[g] + F20:2CN6[g] + F20:3CN3[g] + F20:3CN6[g] + F20:3CN9[g] + F20:4CN3[g] + F20:4CN6[g] + F20:5CN3[g] + F22:2CN3[g] + F22:2CN6[g] + F22:4CN6[g] + F22:5CN3[g] + F22:5CN6[g] + F22:6CN3[g] + F24:2CN6[g])

Water in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeSummation from constituent components
MethodWater by difference (WATER[g] = 100 - PROT[g] - FAT[g] - CHO[g] - FIBT[g] - ALC[g])

C12:0 (lauric acid) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Magnesium (Mg) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Selenium (Se) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C18:2n-6 (linoleic acid) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin B3 (niacin) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Zinc (Zn) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Potassium (K) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin D in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

Alcohol in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

C18:0 (stearic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeCalculated on component profile
MethodImputation of a component from one or more components in the same food

Retinol in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

C22:5n-3 (docosapentaenoic acid, DPA) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Beta-carotene in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeAnalytical results
MethodAnalytical method

Salt (NaCl) in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeSummation from constituent components
MethodSalt equivalent calculated from sodium (NACL[g]=2.5*NA[mg]/1000.0)

Saturated fatty acids in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeSummation from constituent components
MethodFatty acids, saturated, calculated as the sum of individual fatty acids, excluding branched chain isomers (FASAT[g] = F4:0[g] + F5:0[g] + F6:0[g] + F7:0[g] + F8:0[g] + F9:0[g] + F10:0[g] + F11:0[g] + F12:0[g] + F13:0[g] + F14:0[g] + F15:0[g] + F16:0[g] + F17:0[g] + F18:0[g] + F18:0DO[g] + F19:0[g] + F20:0[g] + F21:0[g] + F22:0[g] + F23:0[g] + F24:0[g] + F25:0[g] + F26:0[g])

C16:1 sum (palmitoleic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Omega-3 in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeSummation from constituent components
MethodFatty acids, total cis n-3 polyunsaturated, calculated as sum of cis n-3 polyunsaturated fatty acids

C20:4n-3 (eicosatetraenoic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeFood composition table
Method typeMethod type not known
MethodMethod not known

Iodine (I) in Hazelnuts

Value typeBelow limit of quantification
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin C (askorbic acid) in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeAnalytical results
MethodAnalytical method

Vitamin B9 (folate) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Calcium (Ca) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin A (RAE) in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeCalculations including conversion factors
MethodVitamin A activity calculated from retinol and beta-carotene (factor 1/12) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 12))

Omega-6 in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeSummation from constituent components
MethodFatty acids, total cis n-6 polyunsaturated, calculated as the sum cis n-6 polyunsaturated fatty acids

C14:0 (myristic acid) in Hazelnuts

Value typeBelow limit of quantification
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Protein in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeAnalytical results
MethodMethod not known

Sugar, total in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeImputed/estimated, generic
MethodSugar calculated as the sum of fructose, glucose, lactose, maltose and sucrose (SUGAR[g] = FRUS[g] + GLUS[g] + LACS[g] + MALS[g] + SUCS[g])

Carbohydrate in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeSummation from constituent components
MethodCarbohydrate, available calculated from sugar and starch (CHO[g] = SUGAR[g] + STARCH[g])

C18:1 sum (oleic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Sugar, free in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

Copper (Cu) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Phosphorus (P) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Monounsaturated fatty acids in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeSummation from constituent components
MethodFatty acids, monounsaturated, calculated as sum of individual fatty acids, cis isomers only (FAMSCIS[g] =F10:1CIS[g] +F12:1CIS[g] +F14:1CIS[g] + F15:1CN8[g] + F16:1CIS[g] + F17:1CIS[g] + F18:1CIS[g] + F20:1CIS[g] + F22:1CIS[g] + F24:1CIS[g])

Trans fatty acids in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

C18:3n-3 (alpha-linolenic acid) in Hazelnuts

Value typeBelow limit of quantification
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C20:3n-3 (eicosatrienoic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C20:4n-6 (arachidonic acid) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

C22:6n-3 (docosahexaenoic acid, DHA) in Hazelnuts

Value typeBest estimate
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Sugar, added in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

Niacin equivalents in Hazelnuts

Value typeBest estimate
Acquisition typeValue created within host system
Method typeCalculations including conversion factors
MethodNiacin equivalents calculated from niacin and tryptophan (NIAEQ[mg] = NIA[mg] + TRP[mg] / 60)

Vitamin B12 (cobalamin) in Hazelnuts

Value typeLogical zero
Acquisition typeValue created within host system
Method typeEstimated according to logical deduction
MethodImputation

Vitamin B6 (pyridoxine) in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Vitamin E in Hazelnuts

Value typeWeighted
Acquisition typeIndependent laboratory
Method typeAnalytical results
MethodAnalytical method

Cholesterol in Hazelnuts

Value typeWeighted
Acquisition typeFood composition table
Method typeAnalytical results
MethodAnalytical method

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