| Composition | gram |
|---|---|
| Fat | 3.6 |
| Carbohydrate | 0.0 |
| Protein | 23.3 |
| Dietary fibre | 0.0 |
| Alcohol | 0.0 |
| Water | 73.0 |
| Energy content | energiprosent |
|---|---|
| Fat | 25 |
| Carbohydrate | 0 |
| Protein | 75 |
| Dietary fibre | 0 |
| Alcohol | 0 |
| Nutrient | Source | Quantity | Energiprosent |
|---|---|---|---|
| Fat | 25 E% | ||
| Carbohydrate | 0 E% | ||
| Dietary fibre | 0 E% | ||
| Protein | 74 E% | ||
| Alcohol | 0 E% | ||
| Water | - |
| Carbohydrate | Source | Quantity |
|---|---|---|
| Starch | ||
| Sugar, total | ||
| Sugar, added | ||
| Sugar, free |
| Fat | Source | Quantity |
|---|---|---|
| Saturated fatty acids | ||
| Trans fatty acids | ||
| Monounsaturated fatty acids | ||
| Polyunsaturated fatty acids | ||
| Omega-3 | ||
| Omega-6 | ||
| Cholesterol |
| Saturated fatty acids | Source | Quantity |
|---|---|---|
| C12:0 (lauric acid) | ||
| C14:0 (myristic acid) | ||
| C16:0 (palmitic acid) | ||
| C18:0 (stearic acid) |
| Monounsaturated fatty acids | Source | Quantity |
|---|---|---|
| C16:1 sum (palmitoleic acid) | ||
| C18:1 sum (oleic acid) |
| Fat-soluble vitamins | Source | Quantity | |
|---|---|---|---|
| Vitamin A (RAE) | |||
| Vitamin A (RE) | 4 RE | 0 % | |
| Retinol | |||
| Beta-carotene | |||
| Vitamin D | 0 % | ||
| Vitamin E | 7 % |
| Minerals | Source | Quantity | |
|---|---|---|---|
| Salt (NaCl) | |||
| Calcium (Ca) | 0 % | ||
| Sodium (Na) | |||
| Potassium (K) | 10 % | ||
| Magnesium (Mg) | 8 % | ||
| Phosphorus (P) | 41 % |
| Trace elements | Source | Quantity | |
|---|---|---|---|
| Iron (Fe) | 34 % | ||
| Zinc (Zn) | 47 % | ||
| Selenium (Se) | 20 % | ||
| Copper (Cu) | 26 % | ||
| Iodine (I) | 4 % |
Food ID: 03.115
Scientific name: Rangifer tarandus (Linnaeus, 1758)
| LanguaL | Classification |
|---|---|
| A0150 | Meat or meat product (FROM MAMMAL) (US CFR) |
| A0794 | Red meat (EUROFIR) |
| B1619 | Reindeer |
| C0268 | Skeletal meat part, without bone, without skin |
| E0151 | Solid |
| F0003 | Not heat-treated |
| G0003 | Cooking method not applicable |
| H0003 | No treatment applied |
| J0142 | Preserved by chilling or freezing |
| K0003 | No packing medium used |
| M0001 | Container or wrapping not known |
| N0001 | Food contact surface not known |
| P0024 | Human consumer, no age specification |
The foods in the Food Composition Table are described using two classification systems.
FoodEx2 is a classification and standardization system for foods and feed developed by the European Food Safety Authority (EFSA). The system consists of a main code that describes the type of food. In addition, there are facets that provide more detailed information about the food, for example about ingredients, packaging, or method of preparation.
LanguaL is a similar system. LanguaL stands for “Langua aLimentaria”, or “language of food”. It also consists of a description of the type of food, and facets with additional information.
Missing value, content not known.
Estimated value.
Estimated as a naturally occurring zero value, not analysed.
Calculated from a specific factor for fatty acids in total fat.
Personal communication. Ammar Ali Hassan, Centre for Sami Health Research, Department of Community Medicine, University of Tromsø, 2011.
Triumf, EC., Purchas, RW., Mielnik, M., Maehre, HK., Elvevoll, E., Slinde, E., Egelandsdal, B. Composition and some quality characteristics of the longissimus muscle of reindeer in Norway compared to farmed New Zealand red deer. Meat Science 90(2012), 122-129.
Swedish National Food Agency. The food database, version 2013.01.10.
Öhrvik, V., Engman, J., von Malmborg, A., Wretling, S. Kött - analys av näringsämnen - hjort, lamm, nötdjur, ren, rådjur, vildsvin och kalkon [Rapport 24-2013]. [Meat - nutrient analysis - deer, lamb, beef, reindeer, roe deer, wildboar and turkey]. Livsmedelsverket, Uppsala, 2013. Online version, www.livsmedelsverket.se
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])
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)
Missing value, content not known.
Estimated value.
Estimated as a naturally occurring zero value, not analysed.
Calculated from a specific factor for fatty acids in total fat.
Personal communication. Ammar Ali Hassan, Centre for Sami Health Research, Department of Community Medicine, University of Tromsø, 2011.
Triumf, EC., Purchas, RW., Mielnik, M., Maehre, HK., Elvevoll, E., Slinde, E., Egelandsdal, B. Composition and some quality characteristics of the longissimus muscle of reindeer in Norway compared to farmed New Zealand red deer. Meat Science 90(2012), 122-129.
Swedish National Food Agency. The food database, version 2013.01.10.
Öhrvik, V., Engman, J., von Malmborg, A., Wretling, S. Kött - analys av näringsämnen - hjort, lamm, nötdjur, ren, rådjur, vildsvin och kalkon [Rapport 24-2013]. [Meat - nutrient analysis - deer, lamb, beef, reindeer, roe deer, wildboar and turkey]. Livsmedelsverket, Uppsala, 2013. Online version, www.livsmedelsverket.se
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])
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 | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Atomic absorption spectroscopy |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Atomic absorption spectroscopy |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method indicator | Imputation |
| Value type | As reported |
| Acquisition type | Other acquisition type |
| Method type | Other method type |
| Method indicator | Other method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method indicator | Imputation |
| Value type | Best estimate |
| Acquisition type | Food composition table |
| Method type | Method type not known |
| Method indicator | Method not known |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method indicator | Imputation |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculated on component profile |
| Method indicator | Imputation of a component from one or more components in the same food |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Other acquisition type |
| Method type | Imputed/estimated, generic |
| Method indicator | Other method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Atomic absorption spectroscopy |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method indicator | Imputation |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculations including conversion factors |
| Method indicator | Vitamin A activity calculated from retinol and beta-carotene (factor 1/12) (VITA[µg] = RETOL[µg] + (CARTB[µg] / 12)) |
| Value type | Best estimate |
| Acquisition type | Food composition table |
| Method type | Method type not known |
| Method indicator | Method not known |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Atomic absorption spectroscopy |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method indicator | Carbohydrate, available calculated from sugar and starch (CHO[g] = SUGAR[g] + STARCH[g]) |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Best estimate |
| Acquisition type | Food composition table |
| Method type | Method type not known |
| Method indicator | Method not known |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculated on component profile |
| Method indicator | Imputation of a component from one or more components in the same food |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Imputed/estimated, generic |
| Method indicator | Imputation |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method indicator | Salt equivalent calculated from sodium (NACL[g]=2.5*NA[mg]/1000.0) |
| Value type | Average |
| Acquisition type | Independent laboratory |
| Method type | Method type not known |
| Method indicator | Method not known |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Summation from constituent components |
| Method indicator | Water by difference (WATER[g] = 100 - PROT[g] - FAT[g] - CHO[g] - FIBT[g] - ALC[g]) |
| Value type | Logical zero |
| Acquisition type | Value created within host system |
| Method type | Estimated according to logical deduction |
| Method indicator | Imputation |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculations including conversion factors |
| Method indicator | Niacin equivalents calculated from niacin and tryptophan (NIAEQ[mg] = NIA[mg] + TRP[mg] / 60) |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Value created within host system |
| Method type | Calculated on component profile |
| Method indicator | Imputation of a component from one or more components in the same food |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Atomic absorption spectroscopy |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Inductively Coupled Plasma Mass Spectrometry |
| Value type | Weighted |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Below limit of quantification |
| Acquisition type | Independent laboratory |
| Method type | Analytical results |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |
| Value type | Best estimate |
| Acquisition type | Scientific communication |
| Method type | Analytical, generic |
| Method indicator | Analytical method |