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1.4: Classification of Nutrients

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    Food is one of life’s greatest pleasures. It offers amazing flavors, aromas, and textures. Food also provides our body with essential nutrients and non-nutrients like phytochemicals, both of which are vital to health. This section will discuss the six classes of nutrients and how these nutrients can be classified.

    What are Nutrients?

    Nutrients are chemical substances found in food that are required by the body to provide energy, give the body structure, and help regulate chemical processes. There are six classes of nutrients:

    1. carbohydrates

    2. lipids

    3. proteins

    4. water

    5. vitamins

    6. minerals

    Nutrients can be further classified as either macronutrients or micronutrients and either organic or inorganic, as well as whether or not they provide energy to the body (energy-yielding). We’ll discuss these different ways of classifying nutrients in the following sections.

    Macronutrients

    Nutrients that are needed in large amounts are called macronutrients. There are three classes of macronutrients: carbohydrates, lipids, and proteins. Water is also a macronutrient in the sense that you require a large amount of it, but unlike the other macronutrients, it does not yield energy.se that you require a large amount of it, but unlike the other macronut

    This image shows the chemical structure of each macronutrient along with typical food sources. Cheese, eggs and meat are shown for protein, bread for carbohydrates, oil for lipids and a glass of water for water.
    Figure 1.5. Macronutrients include proteins, carbohydrates, lipids, and water. This figure illustrates each nutrient’s chemical structure and examples of food sources.

    Carbohydrates

    Carbohydrates are molecules composed of carbon, hydrogen, and oxygen. The major food sources of carbohydrates are grains, dairy products, fruits, legumes, and starchy vegetables, like potatoes. Non-starchy vegetables, like carrots, also contain carbohydrates, but in lesser quantities.

    Carbohydrates are broadly classified into two groups based on their chemical structure: simple carbohydrates (often called simple sugars) and complex carbohydrates, which include fiber, starch, and glycogen. Carbohydrates are a major fuel source for all cells of the body, and certain cells, like cells of the central nervous system and red blood cells, rely solely on carbohydrates for energy.

    Lipids

    Lipids are also a family of molecules composed of carbon, hydrogen, and oxygen, but unlike carbohydrates, they are insoluble in water. Lipids are found predominantly in butter, oils, meats, dairy products, nuts and seeds, and in many processed foods. The three main types of lipids are triglycerides, phospholipids, and sterols. The main job of lipids is to provide or store energy. In addition to energy storage, lipids serve as major components of cell membranes, surround and protect organs, provide insulation to aid in temperature regulation, and regulate many other functions in the body.

    Proteins

    Proteins are large molecules composed of chains of amino acids, which are simple subunits made of carbon, oxygen, hydrogen, and nitrogen. Food sources of proteins include meats, dairy products, seafood, and a variety of plant-based foods, like beans, nuts, and seeds. The word protein comes from a Greek word meaning “of primary importance,” which is an apt description of these macronutrients as they are also known as the “workhorses” of life. Proteins provide structure to bones, muscles, and skin, and they play a role in conducting most of the chemical reactions occurring in the body. Scientists estimate that more than 100,000 different proteins exist within the human body. Proteins can also provide energy, though this is a relatively minor function, as carbohydrates and fat are preferred energy sources.

    Water

    There is one other nutrient that we must have in large quantities: water. Water does not contain carbon but is composed of two hydrogens and one oxygen per molecule of water. More than 60 percent of your total body weight is water. Without it, nothing could be transported in or out of the body, chemical reactions would not occur, organs would not be cushioned, and body temperature would fluctuate widely. On average, an adult consumes just over two liters of water per day from food and drink combined. Since water is so critical for life’s basic processes, we can only survive a few days without it, making it one of the most vital nutrients.

    Micronutrients

    Micronutrients are nutrients required by the body in smaller amounts, but they’re still essential for carrying out bodily functions. Micronutrients include all of the essential minerals and vitamins. There are 16 essential minerals and 13 essential vitamins (Table 1.1 and Table 1.2). In contrast to carbohydrates, lipids, and proteins, micronutrients are not a source of energy, but they assist in the process of energy metabolism as cofactors or components of enzymes (known as coenzymes). Enzymes are proteins that catalyze (or accelerate) chemical reactions in the body; they’re involved in all aspects of body functions, including producing energy, digesting nutrients, and building macromolecules.

    Minerals

    Minerals are inorganic substances that are classified depending on how much the body requires. Trace minerals, such as molybdenum, selenium, zinc, iron, and iodine, are only required in amounts of a few milligrams or less per day. Major minerals, such as calcium, magnesium, potassium, sodium, and phosphorus, are required in amounts of hundreds of milligrams or more per day. Many minerals are critical for enzyme function, and others are used to maintain fluid balance, build bone tissue, synthesize hormones, transmit nerve impulses, contract and relax muscles, and protect against harmful free radicals in the body. To give you an appreciation of the many functions of minerals, the table below has a complete list of all the minerals and their major functions. (Note: There is no need to memorize these minerals and functions at this point in the course.)

    Major Minerals

    Major Function

    Sodium

    Fluid balance, nerve transmission, muscle contraction

    Chloride

    Fluid balance, stomach acid production

    Potassium

    Fluid balance, nerve transmission, muscle contraction

    Calcium

    Bone and teeth health maintenance, nerve transmission, muscle contraction, blood clotting

    Phosphorus

    Bone and teeth health maintenance, acid-base balance

    Magnesium

    Protein production, nerve transmission, muscle contraction

    Sulfur

    Protein production

    Trace Minerals

    Function

    Iron

    Carries oxygen, assists in energy production

    Zinc

    Protein and DNA production, wound healing, growth, immune system function

    Iodine

    Thyroid hormone production, growth, metabolism

    Selenium

    Antioxidant

    Copper

    Coenzyme, iron metabolism

    Manganese

    Coenzyme

    Fluoride

    Bone and teeth health maintenance, tooth decay prevention

    Chromium

    Assists insulin in glucose metabolism

    Molybdenum

    Coenzyme

    Table 1.1. Minerals and their major functions

    Vitamins

    Vitamins are organic nutrients that are categorized based on their solubility in water. The water-soluble vitamins are vitamin C and all of the B vitamins. The fat-soluble vitamins are vitamins A, D, E, and K. Vitamins are required to perform many functions in the body, such as making red blood cells, synthesizing bone tissue, and playing a role in normal vision, nervous system function, and immune function. To give you an appreciation of the many functions of vitamins, the table below lists the 13 essential vitamins and their major functions. (Note: There is no need to memorize these vitamins and functions at this point in the course.)

    Water-Soluble Vitamins

    Major Functions

    Thiamin (B1)

    Coenzyme, energy metabolism assistance

    Riboflavin (B2 )

    Coenzyme, energy metabolism assistance

    Niacin (B3)

    Coenzyme, energy metabolism assistance

    Pantothenic acid (B5)

    Coenzyme, energy metabolism assistance

    Pyridoxine (B6)

    Coenzyme, energy metabolism assistance

    Biotin (B7)

    Coenzyme, amino acid and fatty acid metabolism

    Folate (B9)

    Coenzyme, essential for growth

    Cobalamin (B12)

    Coenzyme, red blood cell synthesis

    C (ascorbic acid)

    Collagen synthesis, antioxidant

    Fat-Soluble Vitamins

    Major Functions

    A

    Vision, reproduction, immune system function

    D

    Bone and teeth health maintenance, immune system function

    E

    Antioxidant, cell membrane protection

    K

    Bone and teeth health maintenance, blood clotting

    Table 1.2. Vitamins and their major functions

    As you might suspect based on the major functions of vitamins listed above, vitamin deficiencies can cause severe health problems and even death. For example, a deficiency in niacin causes a disease called pellagra, which was common in the early twentieth century in some parts of the United States. The common signs and symptoms of pellagra are known as the “4D’s—diarrhea, dermatitis, dementia, and death.” Until scientists discovered that better diets relieved the signs and symptoms of pellagra, many people with the disease ended up hospitalized and in asylums awaiting death. The following video gives an overview of pellagra and how its cure was discovered through a change in diet.

    VIDEO: “Pellagra video” by Teresa Johnson, YouTube (June 20, 2012), 5:49 minutes.

    Energy-Yielding Nutrients

    The macronutrients—carbohydrate, protein, and fat—are the only nutrients that provide energy to the body. The energy from macronutrients comes from their chemical bonds. This chemical energy is converted into cellular energy that can be utilized to perform work, allowing cells to conduct their basic functions. Although vitamins also have energy in their chemical bonds, our bodies do not make the enzymes to break these bonds and release this energy. (This is fortunate, as we need vitamins for their specific functions, and breaking them down to use for energy would be a waste.)

    Food energy is measured in kilocalories (kcals). A kilocalorie is the amount of energy needed to raise 1 kilogram of water by 1 degree Celsius. The kilocalories stored in food can be determined by putting the food into a bomb calorimeter and measuring the energy output (energy = heat produced).

    A drawing of a bomb calorimeter showing a metal cylinder filled with water and a bomb cell. The bomb cell has two fuse wires attached to a sample and attached to an outside ignition box. There is a thermometer and a stirrer in the water attached to an outside motor. Lastly there is a lid for the top of the cylinder.
    Figure 1.6. A Bomb calorimeter

    VIDEO: “Bomb Calorimetry” by David Read, YouTube (September 16, 2008), 2:19 minutes.

    In the US, the kilocalorie (kcal) is the most commonly used unit of energy and is often just referred to as a calorie. Strictly speaking, a kcal is 1000 calories. In nutrition, the term calories almost always refers to kcals. Sometimes the kcal is indicated by capitalizing calories as “Calories.” For the sake of simplicity, we’ll use the terms “calories” and “kilocalories” interchangeably in this book.

    Below is a list of energy sources in the diet from lowest to highest calories per gram (a gram is about the weight of a paperclip). Notice the addition of alcohol. Although alcohol does provide energy, it isn’t a nutrient, because it isn’t required as a source of nourishment to the body.

    Energy Sources (kcal/g)

    • Carbohydrates 4
    • Protein 4
    • Alcohol 7
    • Lipids 9

    Carbohydrates and proteins provide 4 calories per gram, and fats provide 9 calories per gram. Fat is the most energy-dense nutrient, because it provides the most calories per gram (more than double carbohydrates and protein).

    Figure 1.7. Nutrition Facts

    When you look at the Nutrition Facts panel on a food label, you’ll see that it lists calories, as well as grams of total fat, total carbohydrates, and protein per serving. From these values, you can estimate the amount of calories coming from the different macronutrients.

    Looking at the values in the Nutrition Facts label, you can convert grams into calories by doing the following calculations:

    • 8 grams of fat x 9 kcal/g = 72 kcals
    • 37 grams of carbohydrate x 4 kcal/g = 148 kcals
    • 3 grams of protein x 4 kcal/g = 12 kcals

    You can double check your math by adding the calories per serving provided from fat, carbohydrate, and protein (232 calories for the example above). This number should come close to the total calories per serving listed on the Nutrition Facts. It will not always match up exactly (like in the example above) due to rounding.

    Organic and Inorganic Nutrients

    So far, we’ve categorized nutrients as macronutrients or micronutrients and based on whether or not they’re energy-yielding. There is one more way to categorize nutrients: organic or inorganic. When you think of the word “organic,” you might think of how foods are produced (with or without synthetic fertilizers and pesticides), but in this case we are referring to the chemical structure of a nutrient.

    Organic Nutrients

    The organic nutrients include the macronutrients (carbohydrate, protein, and fat) and vitamins. An organic nutrient contains both carbon and hydrogen. Organic nutrients can be made by living organisms and are complex, made up of many elements (carbon, hydrogen, oxygen, and sometimes nitrogen) bonded together. In a sense, they are “alive,” and therefore can be destroyed or broken down.

    Vitamin E (shown below) is an organic molecule, because it contains both carbon and hydrogen atoms. Vitamin E is synthesized by plants and can be destroyed by heat during cooking.

    A drawing of vitamin E that shows two carbon ring structures with 4 methyl groups and an OH group and then a long carbon chain with 4 methyl groups attached.
    Figure 1.8. Chemical structure of Vitamin E

    Inorganic Nutrients

    Inorganic nutrients include both water and minerals. Inorganic nutrients do not contain both carbon and hydrogen, and they are not created or destroyed. Minerals can’t be destroyed, so they are the ash left when a food is burned to completion. Minerals are also not digested or broken down, as they are already in their simplest form. They are absorbed as-is, then shuttled around the body for their different functions, and then excreted.

    Summary

    The different categories of nutrients are summarized in the following table.

    Classification

    Nutrient

    Macronutrient

    Carbohydrate, protein, lipids, water

    Micronutrient

    Vitamins, minerals

    Energy-Yielding

    Carbohydrate, protein, fat

    Organic

    Carbohydrate, protein, lipids, vitamins

    Inorganic

    Minerals, water

    Table 1.3. Summary of nutrient classifications

    Attributions:

    • University of Hawai‘i at Mānoa Food Science and Human Nutrition Program, “Introduction,” CC BY-NC 4.0

    Images:

    • Figure 1.5. “Macronutrients” from University of Hawai‘i at Mānoa Food Science and Human Nutrition Program, “Introduction,” CC BY-NC 4.0
    • Table 1.1. “Minerals and major functions” from University of Hawai‘i at Mānoa Food Science and Human Nutrition Program, “Introduction,” CC BY-NC 4.0
    • Table 1.2. “Vitamins and major functions” University of Hawai‘i at Mānoa Food Science and Human Nutrition Program, “Introduction,” CC BY-NC 4.0
    • Figure 1.6. “Bomb Calorimeter Diagram” by Lisdavid89 is licensed under CC BY-SA 3.0
    • Figure 1.7. “FDA Nutrition Facts Label” by USDA Food and Drug Administration is in the Public Domain
    • Figure 1.8. “Vitamin E” by Annabel is licensed under CC BY-SA 3.0
    • Table 1.3. “Summary of classification of nutrients” by Tamberly Powell is licensed under CC BY-NC-SA 4.0

    This page titled 1.4: Classification of Nutrients is shared under a CC BY-NC-SA license and was authored, remixed, and/or curated by Alice Callahan, Heather Leonard, & Tamberly Powell (OpenOregon) .