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A nutrient is either a chemical element or compound used in an organism's metabolism or physiology. It is a source of sustenance, particularly a wholesome component in a food. Non-autotrophic organisms typically acquire nutrients by the ingestion of foods. Organic nutrients include carbohydrates, fats, proteins or amino acids, and vitamins. Inorganic nutrients include natural resources. Liquid is occasionally incorporated in an inventory of nutrients. Nutrients are those natural and lifeless multifaceted that an existing creature should attain as of the surroundings to sustain necessary existence course, as well as basal metabolism, movement, growth and preservation of body tissues reproduction, and maintenance of general health. Six nutrient groups exist and are broadly classified into those providing energy, and those used as components in the body or cellular structures.[How to reference and link to summary or text] A nutrient is essential to an organism if it cannot be synthesized in the organism and must be obtained from a food source.

Substances that provide energy Edit

Fat has an energy content of 9 kcal/g (~37.7 kJ/g); proteins and carbohydrates 4 kcal/g (~16.7 kJ/g). Ethanol (grain alcohol) has an energy content of 7 kcal/g (~29.3 kJ/g).[How to reference and link to summary or text]

Substances that support metabolism Edit

  • Minerals are generally trace elements, salts, or ions such as copper and iron. These minerals are essential to human metabolism.
  • Vitamins are organic compounds essential to the body. They usually act as coenzymes or cofactors for various proteins in the body.
  • Water is an essential nutrient and is the solvent in which all the chemical reactions of life take place.

Nutrition as a science Edit

Main article: nutrition

Any classification of "nutrients" is likely to be arbitrary given the status of nutrition as a developing science. Researchers are becoming more aware of a wider range of nutrients essential for health.

Organisms can metabolise organic compounds to use for their energy content, for structural purposes (growth or replacement of living structures), or for participation in chemical reactions necessary for life.

The discovery of the group of nutrients called phytonutrients reinforces the provisional nature of our knowledge. We know little about phytonutrients - organic compounds from plants - which play an essential role in the normal functioning of a body and have complex hormonal effects on health or play an active role in the amelioration of disease.[How to reference and link to summary or text]

Nutrient Sorted Alphabetically Sorted by Nutrient Content Moisture Protein Fat Energy (Calories) Carbohydrate (by difference) Total dietary fiber Calcium Iron Magnesium Phosphorus Potassium Sodium Zinc Copper Manganese Selenium Vitamin A Vitamin E Vitamin C Thiamin Riboflavin Niacin Pantothenic acid Vitamin B-6 Vitamin B-12 Dietary Folate Equivalents Cholesterol Total saturated fatty acids Total monounsaturated fatty acids Total polyunsaturated fatty acids

Nutrients and the environment Edit

Intertidal greenalgae

The band of a green alga (Enteromorpha) along this shore indicates that there is a nearby source of nutrients (probably nitrates or ammonia from a small estuary).

While in essence true to the definition above, the term weed has a more limited meaning within the specialised fields of quality and water pollution, referring specifically to plant fertilizers. In this context, certain mineral compounds can have an adverse impact on water quality because of their ability to promote excessive plant and algae growth. This process is called eutrophication. An excessive growth of aquatic plants can clog waterways (see giant salvinia for example), and over-stimulation of algae and microbes can lead to an algal bloom and oxygen depletion.

Only a small number of elements are involved in this process: nitrogen and phosphorus in most aquatic systems. Mineral compounds involved are ammonia, nitrites, nitrates, and orthophosphates. Organic compounds also may contribute, since they also contain nitrogen and phosphorus. This is a result of plants being made up mostly of compounds of carbon (C), hydrogen (H), oxygen (O), nitrogen (N), and phosphorus (P), and lesser amounts of sulfur (S), potassium (K), magnesium (Mg), and calcium (Ca). These elements constitute the macronutrients.[How to reference and link to summary or text] Many other elements, though necessary for growth, classify as micronutrients due to the very small quantities required.

Plants obtain carbon, hydrogen, and oxygen (elements most needed for growth) from the air and water, where all three elements occur in great abundance as water and as carbon dioxide. Nutrients having greatest potential to influence plant growth in aquatic environments is those elements needed for plant growth in proportionately large amounts (that is, macronutrients) but likely to become limiting—that is, present in amounts that could be depleted by continued growth. Once used up, further growth will not be possible. Of the nine macronutrients, nitrogen and phosphorus are most likely to become limiting. The others always remain present in great abundance (C, H, O) or usually in amounts that exceed the requirements of aquatic plants or algae.

Farmers apply fertilizer nutrients in the form of nitrogen, phosphorus, and potassium (N, P, and K with perhaps micronutrients) to prevent these elements from becoming limiting in the soil. These elements become concentrated in wastewaters from animal pens and septic or sewage systems. And these elements (especially N and P) in runoff or wastewater discharges reaching streams, lakes, or seas will promote aquatic plant growth. Abundant plant growth itself gives cause for concern in assessing water quality. The most abundant "plants" in most aquatic environments are algae, When essential nutrients are plentiful, algae multiply. If these algae are microscopic phytoplankton, their growth increases the turbidity of the water. The water then becomes cloudy, colored a shade of green, yellow, or brown (sometimes red; see algal bloom). A super abundance of algae, or of higher plants, in an aquatic system can signal excessive inputs of nutrients.

Essential and Nonessential NutrientsEdit

Nutrients are frequently categorized as essential or nonessential. Essential nutrients are those with the intention of not being able to manufacture in the body by any means or in adequate quantities to encounter requirements and, therefore, ought to be gained preformed in the diet. These contain the vitamins, vital amino acids, the essential fatty acids, and the minerals. Additional nutrients are considered provisionally crucial, meaning that they are not usually obligatory by means of a vigorous grown person but might be vital in particular disease states or at certain periods of existence since of enlarged demand or damaged blend. Two amino acids are organized as semi-essential for the reason that, even though they are capable in being created in satisfactory quantities in the body; their amalgamation depends upon a supply of an indispensable amino acid.

Nonessential nutrients include those that are tarnished as petroleums and those that present amino assemblies and carbon skeletons for endogenous combination of components of the body. They are "nonessential" merely in the sagacity that lipid, carbohydrate, or protein, as well as ethanol, can be used as fuels; since moreover protein, carbohydrate, or yet the glycerol spine of triacylglycerols (fat) might be a source of glucose; in that several fuel possibly may be utilized pro fusion of the majority lipids; and because amino assemblies as of nearly all amino acids can be used for synthesis of requisite amino acids. Furthermore, various food components that contain physical condition advantages and are considered significant divisions of healthy diets.

ReferencesEdit

  • Donatelle, Rebecca J. Health: The Basic"

See alsoEdit

External linksEdit


{{enWP|Nutrient]]

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