Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled

Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled is a meat at 103 calories per 100g. It is an excellent source of Manganese and Vitamin B12, providing 264% and 95% of the Daily Value respectively. This meat is a moderate protein source. Beef is a concentrated source of complete protein, heme iron, zinc, and B vitamins. Nutrient density varies significantly across different cuts and cooking methods. Our database tracks 78 nutrients for this food, plus insulin index, environmental footprint data.

103

Calories

kcal

19.0

Protein

3.0

Fat

Carbs

Fiber

Serving size: or

Top Nutrients

💎

Manganese

6.1 mg

264% DV

☀️

Vitamin B12

2.3 µg

95% DV

💎

Iron

3.7 mg

46% DV

Data for 78 of 150 tracked nutrients

Nutrient Fingerprint

How this food scores across key nutrient categories, as a percentage of the daily recommended value per 100 g. Based on USDA DRIs for adults.

Complete Nutrient Profile

Macronutrients 9

Nutrient	Per 100g	Unit	Per Serving	% DV
Water SR	77.7	g	—	2%
Calories SR	103	kcal	—	—
Energy (kJ) SR	430	kj	—	—
Protein SR	19.0	g	—	34%
Total Fat SR	3.0	g	—	—
Carbohydrate SR	0	g	—	—
Fiber SR	0	g	—	—
Total Sugars SR	0	g	—	—
Ash SR	0.89	g	—	—

Minerals 10

Nutrient	Per 100g	Unit	Per Serving	% DV
Calcium SR	158	mg	—	16%
Iron SR	3.7	mg	—	46%
Magnesium SR	24.0	mg	—	6%
Phosphorus SR	168	mg	—	24%
Potassium SR	102	mg	—	3%
Sodium SR	40.0	mg	—	3%
Zinc SR	2.4	mg	—	22%
Copper SR	0.11	mg	—	12%
Manganese SR	6.1	mg	—	264%
Selenium SR	4.3	µg	—	8%

Vitamins 19

Nutrient	Per 100g	Unit	Per Serving	% DV
Vitamin A (RAE) SR	20.0	µg	—	2%
Vitamin A (IU) SR	6.0	IU	—	—
Retinol SR	6.0	µg	—	—
Beta-Carotene SR	0	µg	—	—
Alpha-Carotene SR	0	µg	—	—
Beta-Cryptoxanthin SR	0	µg	—	—
Lycopene SR	0	µg	—	—
Lutein + Zeaxanthin SR	0	µg	—	—
Vitamin C SR	0	mg	—	—
Vitamin D SR	0.30	µg	—	2%
Vitamin D (IU) SR	10.0	IU	—	—
Vitamin D3 SR	0.30	µg	—	—
Vitamin E SR	0.51	mg	—	3%
Thiamin (B1) SR	0.02	mg	—	2%
Riboflavin (B2) SR	0.10	mg	—	8%
Niacin (B3) SR	2.6	mg	—	16%
Pantothenic Acid (B5) SR	0.23	mg	—	4%
Vitamin B6 SR	0.01	mg	—	1%
Vitamin B12 SR	2.3	µg	—	95%

Fatty Acids 9

Nutrient	Per 100g	Unit	Per Serving	% DV
Saturated Fat SR	0.92	g	—	—
Monounsaturated Fat SR	0.72	g	—	—
Polyunsaturated Fat SR	0.16	g	—	—
Trans Fat SR	0.07	g	—	—
Cholesterol SR	199	mg	—	—
Omega-3 ALA SR	0.02	g	—	1%
Omega-3 EPA SR	0.01	g	—	—
Omega-3 DPA SR	0.02	g	—	—
Omega-3 DHA SR	0.004	g	—	—

Individual Fatty Acids 12

Nutrient	Per 100g	Unit	Per Serving	% DV
Butyric Acid (4:0) SR	0	g	—	—
Caproic Acid (6:0) SR	0	g	—	—
Caprylic Acid (8:0) SR	0	g	—	—
Capric Acid (10:0) SR	0	g	—	—
Lauric Acid (12:0) SR	0.001	g	—	—
Myristic Acid (14:0) SR	0.04	g	—	—
Palmitic Acid (16:0) SR	0.41	g	—	—
Stearic Acid (18:0) SR	0.41	g	—	—
Linoleic Acid (18:2) SR	0.07	g	—	0%
Omega-6 LA SR	0.05	g	—	—
Omega-6 GLA SR	0	g	—	—
Linolenic Acid (18:3) SR	0.02	g	—	—

Amino Acids 16

Nutrient	Per 100g	Unit	Per Serving	% DV
Tryptophan SR	0.20	g	—	—
Threonine SR	0.69	g	—	—
Isoleucine SR	0.79	g	—	—
Leucine SR	1.4	g	—	—
Lysine SR	1.5	g	—	—
Methionine SR	0.62	g	—	—
Phenylalanine SR	0.74	g	—	—
Tyrosine SR	0.64	g	—	—
Valine SR	0.84	g	—	—
Arginine SR	1.2	g	—	—
Histidine SR	0.68	g	—	—
Alanine SR	0.99	g	—	—
Glutamic Acid SR	2.6	g	—	—
Glycine SR	1.0	g	—	—
Proline SR	0.61	g	—	—
Serine SR	0.67	g	—	—

Other 3

Nutrient	Unit	Per Serving	% DV
Caffeine SR	mg	—	—
Theobromine SR	mg	—	—
Alcohol SR	g	—	—

Nutrient Density Score

The NRF9.3 score measures overall nutritional quality per 100 kcal. It rewards 9 nutrients to encourage (protein, fiber, vitamins A, C, E, calcium, iron, magnesium, potassium) and penalizes 3 to limit (saturated fat, added sugars, sodium). Higher is better; negative scores indicate the food is high in limit nutrients relative to its beneficial content.

NRF9.3 Score

Good · per 100 kcal

Poor (<0) Moderate Good Excellent (100+)

NRF9.3 index: Fulgoni et al. (2009), J Nutr 139(8). DVs based on FDA 2020 reference values.

Nutrient Interactions in This Food

Nutrients in this food that enhance or compete with each other during absorption.

✔ Synergies — nutrients that help each other

Protein + Calcium●●●

Moderate protein intake enhances calcium absorption and supports bone health. The acid-ash hypothesis suggesting protein harms bones has been largely disproven.

Kerstetter et al., J Clin Endocrinol Metab, 2005

⚠ Antagonisms — nutrients that compete

Calcium vs Iron●●●

Calcium inhibits both heme and non-heme iron absorption when consumed in the same meal. The effect is dose-dependent, with significant inhibition at 300+ mg calcium.

Hallberg et al., Am J Clin Nutr, 1991

Zinc vs Copper●●●

High zinc intake induces metallothionein in enterocytes, which traps copper and blocks its absorption. Prolonged high-dose zinc can cause copper deficiency.

Prasad et al., JAMA, 1978; Fosmire, Am J Clin Nutr, 1990

Zinc vs Iron●●●

Zinc and non-heme iron compete for the same intestinal transporter (DMT1). High doses of one can reduce absorption of the other when taken simultaneously.

Rossander-Hulten et al., Am J Clin Nutr, 1991

Calcium vs Magnesium●●●

Very high calcium intake can reduce magnesium absorption by competing for shared intestinal transport pathways. A calcium:magnesium ratio above 2.6:1 may impair magnesium status.

Rosanoff et al., Nutr Rev, 2012

Calcium vs Zinc●●●

High calcium intake may modestly reduce zinc absorption, though the effect is smaller than calcium's impact on iron. Phytate amplifies this interaction.

Wood & Zheng, Am J Clin Nutr, 1997

Amino Acid Profile

Essential amino acid composition compared to the WHO/FAO adult reference pattern. The Amino Acid Score indicates protein quality — 100 means all essential amino acid requirements are met.

113

Amino Acid Score

Complete

Valine

Lowest Scoring

Amino Acids Tracked

✓ Complete protein — all essential amino acids meet or exceed WHO reference levels.

All Amino Acids (16)

Amino Acid	g / 100g	mg / g protein
Tryptophan	0.20	10.5
Threonine	0.69	36.2
Isoleucine	0.79	41.6
Leucine	1.4	75.4
Lysine	1.5	79.2
Methionine	0.62	32.9
Phenylalanine	0.74	38.9
Tyrosine	0.64	33.6
Valine	0.84	44.2
Arginine	1.2	65.8
Histidine	0.68	36.0
Alanine	0.99	52.1
Glutamic Acid	2.6	139.4
Glycine	1.0	54.5
Proline	0.61	32.1
Serine	0.67	35.2

Fatty Acid Profile

Breakdown of fat types per 100g. A healthy fat profile favours unsaturated fats (mono + poly) and a balanced omega-3 to omega-6 ratio.

0.92g

Saturated

0.72g

Monounsaturated

0.16g

Polyunsaturated

1.1:1

Omega-3 : Omega-6 Ratio

Omega-3 dominant — ideal range is 1:1 to 1:4

Omega Fatty Acids

EPA (20:5 n-3)0.01 g

DHA (22:6 n-3)0.004 g

ALA (18:3 n-3)0.02 g

DPA (22:5 n-3)0.02 g

Linoleic acid (18:2 n-6)0.05 g

How Cooking Changes Nutrients

Estimated percentage of each nutrient retained after cooking, based on USDA retention factors for the “Beef” food category. Values of 100% mean no loss; lower values indicate nutrients lost to heat, water, or oxidation.

Key insights

⚡Thiamin loses up to 50% when braised. Broiled / Grilled retains 75%.

⚡Vitamin B6 loses up to 60% when braised. Broiled / Grilled retains 60%.

Source: USDA Table of Nutrient Retention Factors, Release 6 (2007). Retention values are category-level averages — actual retention depends on cooking time, temperature, and water volume.

USDA Retention Factors

Insulin Response

The Insulin Index (II) measures the actual insulin response to food on a scale where white bread = 100. Unlike the Glycemic Index (which only measures blood sugar), the II captures the full hormonal response — including the effect of protein and fat on insulin secretion. This is why high-protein foods like meat and dairy can have significant insulin scores despite having low or zero GI values.

Insulin Index

Moderate Insulin Response

Insulin Index Scale 51

0 Low ≤30 Mod ≤60 High ≤100 120

Category ●●● Assigned from measured food category

Source: Holt et al. 1997; Bao et al. 2016; Bell 2014

Environmental Impact

Environmental footprint per kilogram of food produced. Data represents the global average for the “Beef (beef herd)” category.

99.5

kg CO₂e / kg

Very High Impact

326

m² land / kg

Land Use

1,451

L water / kg

Water Use

319

g SO₂e / kg

Acidification

How this compares (GHG emissions)

Potatoes (0.5)Chicken (9.9)Beef (99.5)

Greenhouse Gas Emissions99.5 kg CO₂e / kg

Land Use326 m² / kg

Water Use1,451 L / kg

Eutrophication301 g PO₄e / kg

Acidification319 g SO₂e / kg

⚠️ Important context about this data

Global averages: These figures are production-weighted averages from a meta-analysis of ~38,700 farms across 119 countries (Poore & Nemecek, 2018). Actual impact varies enormously by farming method, geography, and supply chain.
System boundary: Cradle-to-retail only — does not include consumer transport, home cooking energy, or food waste.
Soil carbon not included: This data does not account for soil carbon sequestration. Some argue that well-managed regenerative grazing partially offsets ruminant emissions; however, full lifecycle accounting — including methane, land-use change, and the opportunity cost of using land for grazing vs. reforestation — typically makes the net footprint of ruminant meat higher, not lower. This is especially relevant in temperate grassland regions like Ireland.
Not gospel: This data is informational and illustrative. It is useful for understanding relative magnitudes, but should not be treated as precise measurements for any individual product or farm.

Source: Poore & Nemecek (2018), Science 360(6392). Meta-analysis of ~38,700 farms, 119 countries, 46 product categories.

Global Supply: Meat

Top 10 countries by per capita supply of the “Meat” food group (kcal/capita/day, 2023). This is food group–level data from FAO Food Balance Sheets, not specific to this individual food.

Tonga

755

Mongolia

643

Argentina

571

China; Macao SAR

546

Marshall Islands

539

Ireland

532

Bahamas

527

Saint Vincent and the Grenadines

516

Nauru

510

10.

Belarus

498

Global Supply Trend (1961–2023)

+56%

1961: 156 kcal2023: 244 kcal

Source: FAO Food Balance Sheets (2023). Supply = production + imports − exports − waste, converted to kcal/capita/day.

Related Foods in Beef Products

Frequently Asked Questions

How many calories are in Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled?

Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled contains 103 kcal per 100 grams, making it a moderate-calorie food. The energy comes from 19.0g of protein (74% of calories), 3.0g of fat (26%), and 0g of carbohydrates (0%). Protein is the primary energy source.

What is Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled most nutritious for?

The standout nutrient in Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled is Manganese, providing 6.1 mg per 100g (264% of the Daily Value). It is also a notable source of Vitamin B12 (95% DV). Our database tracks 78 individual nutrients for this food, allowing detailed comparison across vitamins, minerals, amino acids, and fatty acids.

Is Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled high in protein?

Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled provides 19.0g of protein per 100 grams — a moderate amount. Protein contributes 74% of its calories.

How much fiber is in Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled?

Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled contains no dietary fiber. This is typical for animal-derived food. Pair with plant-based foods to ensure adequate fiber intake.

What is the insulin index of Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled?

Beef, New Zealand, imported, variety meats and by-products, tripe cooked, boiled has a moderate insulin response (II: 51) (estimated from macronutrient composition) on the insulin index scale (white bread = 100). This is a typical insulin response for most mixed foods. Note that the insulin index can differ substantially from the glycemic index — dairy products and high-protein foods often have higher insulin responses than their GI would suggest.

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