| Composition | gram |
|---|---|
| Fat | 1.4 |
| Carbohydrate | 0.0 |
| Protein | 20.5 |
| Dietary fibre | 0.0 |
| Alcohol | 0.0 |
| Water | 78.0 |
| Energy content | energiprosent |
|---|---|
| Fat | 13 |
| Carbohydrate | 0 |
| Protein | 87 |
| Dietary fibre | 0 |
| Alcohol | 0 |
| Nutrient | Source | Quantity | Energiprosent |
|---|---|---|---|
| Fat | 12% | ||
| Carbohydrate | 0% | ||
| Dietary fibre | 0% | ||
| Protein | 87% | ||
| Alcohol | 0% | ||
| Water | - |
| Carbohydrate | Source | 0 g |
|---|---|---|
| Starch | ||
| Sugar, total | ||
| Sugar, added | ||
| Sugar, free |
| Fat | Source | 1.4 g |
|---|---|---|
| Saturated fatty acids | ||
| Trans fatty acids | ||
| Monounsaturated fatty acids | ||
| Polyunsaturated fatty acids | ||
| Omega-3 | ||
| Omega-6 | ||
| Cholesterol |
| Saturated fatty acids | Source | 0.2 g |
|---|---|---|
| C12:0 (lauric acid) | ||
| C14:0 (myristic acid) | ||
| C16:0 (palmitic acid) | ||
| C18:0 (stearic acid) |
| Monounsaturated fatty acids | Source | 0.2 g |
|---|---|---|
| C16:1 sum (palmitoleic acid) | ||
| C18:1 sum (oleic acid) |
| Fat-soluble vitamins | Source | Quantity | |
|---|---|---|---|
| Vitamin A (RAE) | |||
| Vitamin A (RE) | 0 RE | 0 % | |
| Retinol | |||
| Beta-carotene | |||
| Vitamin D | 3 % | ||
| Vitamin E | 20 % |
| Minerals | Source | Quantity | |
|---|---|---|---|
| Salt (NaCl) | |||
| Calcium (Ca) | 17 % | ||
| Sodium (Na) | |||
| Potassium (K) | 4 % | ||
| Magnesium (Mg) | 13 % | ||
| Phosphorus (P) | 34 % |
| Trace elements | Source | Quantity | |
|---|---|---|---|
| Iron (Fe) | 7 % | ||
| Zinc (Zn) | 18 % | ||
| Selenium (Se) | 31 % | ||
| Copper (Cu) | 211 % | ||
| Iodine (I) | 86 % |
Food ID: 04.121
Scientific name: Procambarus clarkii
| Facets | |
|---|---|
| F01 Source | Reptantia - Lobsters (generic) (as animal) (A053Z) |
| F02 Part-nature | Crustaceans meat (as part-nature) (A0EMF) |
| F27 Source-commodities | Freshwater crayfishes (A02FG) |
| F28 Process | Boiling (A07GL) |
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.
| LanguaL | Classification |
|---|---|
| A0267 | Seafood or seafood product (US CFR) |
| A0802 | Fish or related organism (EUROFIR) |
| B2686 | Crawfish or crayfish |
| C0125 | Skeletal meat part, without bone or shell |
| E0150 | Whole, natural shape |
| F0014 | Fully heat-treated |
| G0012 | Cooked by moist heat |
| H0001 | Treatment applied not known |
| J0001 | Preservation method not known |
| K0003 | No packing medium used |
| M0001 | Container or wrapping not known |
| N0001 | Food contact surface not known |
| P0024 | Human consumer, no age specification |
Missing value, content not known.
Estimated as a naturally occurring zero value, not analysed.
Estimated as zero value when the analysed value is below the limit of quantification.
Estimated value. Due to value falling in between the limit of detection and the limit of quantification, the value is estimated to be half of the limit of quantification.
Norwegian Seafood Export Council, Directorate for Fisheries, Fresh Fish Sales Association, Information Council for Fish and Norwegian National Council for Nutrition. Facts about fish. Tromsø, 1993.
NIFES, National Institute of Nutrition and Seafood Research. Seafood Database, November 5th 2013
Reksten, AM, Wiech, M, Aakre, I, Markhus, MW, Nøstbakken, OJ, Hannisdal, R, Madsen, L, Dahl, L. Exploring the nutrient composition of various shellfish available in Norway and their role in providing key nutrients. Journal of Food Composition and Analysis, 128 (2024). doi.org
Swedish National Food Agency. The food database, version 2015.03.09.
Salt equivalent calculated from sodium (NACL[g]=2.5*NA[mg]/1000.0)
Water by difference (WATER[g] = 100 - PROT[g] - FAT[g] - CHO[g] - FIBT[g] - ALC[g])
Carbohydrate, available calculated from sugar and starch (CHO[g] = SUGAR[g] + STARCH[g])
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])
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])
Vitamin A activity calculated from retinol and beta-carotene (factor 1/6) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 6))
Vitamin A activity calculated from retinol and beta-carotene (factor 1/12) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 12))
Niacin equivalents calculated from niacin and tryptophan (NIAEQ[mg] = NIA[mg] + TRP[mg] / 60)
| Value type | Below limit of detection |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | High-performance liquid chromatography |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | 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]) |
| Value type | Below limit of quantification |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Method type not known |
| Method | Method not known |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | Salt equivalent calculated from sodium (NACL[g]=2.5*NA[mg]/1000.0) |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | Fatty acids, total cis n-3 polyunsaturated, calculated as sum of cis n-3 polyunsaturated fatty acids |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | Water by difference (WATER[g] = 100 - PROT[g] - FAT[g] - CHO[g] - FIBT[g] - ALC[g]) |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | High-performance liquid chromatography |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | Fatty acids, total cis n-6 polyunsaturated, calculated as the sum cis n-6 polyunsaturated fatty acids |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | Carbohydrate, available calculated from sugar and starch (CHO[g] = SUGAR[g] + STARCH[g]) |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Best estimate |
| Acquisition type | Food composition table |
| Method type | Method type not known |
| Method | Method not known |
| Value type | Below limit of detection or quantification |
| Acquisition type | Value created within host system |
| Method type | Analytical, generic |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | High-performance liquid chromatography |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | High-performance liquid chromatography |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculations including conversion factors |
| Method | Niacin equivalents calculated from niacin and tryptophan (NIAEQ[mg] = NIA[mg] + TRP[mg] / 60) |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method | Imputation |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | High-performance liquid chromatography |
| Value type | Best estimate |
| Acquisition type | Independent laboratory |
| Method type | Analytical, generic |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method | 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]) |
| Value type | Mean |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculations including conversion factors |
| Method | Vitamin A activity calculated from retinol and beta-carotene (factor 1/12) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 12)) |