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Nutrition

April 20, 2023

For other uses, see Nutrition (disambiguation).

Nutrition is the biochemical and physiological process by which an organism uses food to support its life. It provides organisms with nutrients, which can be metabolized to create energy and chemical structures. Failure to obtain sufficient nutrients causes malnutrition. Nutritional science is the study of nutrition, though it typically emphasizes human nutrition.

An Amblypodia anita (purple leaf blue butterfly) gathering nutrients from guano

The type of organism determines what nutrients it needs and how it obtains them. Organisms obtain nutrients by consuming organic matter, consuming inorganic matter, absorbing light, or some combination of these. Some can produce nutrients internally by consuming basic elements, while some must consume other organisms to obtain pre-existing nutrients. All forms of life require carbon, energy, and water as well as various other molecules. Animals require complex nutrients such as carbohydrates, lipids, and proteins, obtaining them by consuming other organisms. Humans have developed agriculture and cooking to replace foraging and advance human nutrition. Plants acquire nutrients through soil and the atmosphere. Fungi absorb nutrients around them by breaking them down and absorbing them through the mycelium.

Study

Main article: Nutritional science

Scientific analysis of food and nutrients began during the chemical revolution in the late-18th century. Chemists in the 18th and 19th centuries experimented with different elements and food sources to develop theories of nutrition.[1] Modern nutrition science began in the 1910s as individual micronutrients began to be identified. The first vitamin to be chemically identified was thiamine in 1926, and the role of vitamins in nutrition was studied in the following decades. The first recommended dietary allowances for humans were developed during the Great Depression and World War II.[2] Due to its importance in human health, the study of nutrition has heavily emphasized human nutrition and agriculture, while ecology is a secondary concern.[3]

Nutrients

Main article: Nutrient
 
 
 
 
Composting within agricultural systems capitalizes upon the natural services of nutrient recycling in ecosystems. Bacteria, fungi, insects, earthworms, bugs, and other creatures dig and digest the compost into fertile soil. The minerals and nutrients in the soil is recycled back into the production of crops.

Nutrients are substances that provide energy and physical components to the organism, allowing it to survive, grow, and reproduce. Nutrients can be basic elements or complex macromolecules. Approximately 30 elements are found in organic matter, with nitrogen, carbon, and phosphorus being the most important.[4] Macronutrients are the primary substances required by an organism, and micronutrients are substances required by an organism in trace amounts. Organic micronutrients are classified as vitamins, and inorganic micronutrients are classified as minerals.[5]

Nutrients are absorbed by the cells and used in metabolic biochemical reactions. These include fueling reactions that create precursor metabolites and energy, biosynthetic reactions that convert precursor metabolites into building block molecules, polymerizations that combine these molecules into macromolecule polymers, and assembly reactions that use these polymers to construct cellular structures.[4]

Nutritional groups

Main article: Primary nutritional groups

Organisms can be classified by how they obtain carbon and energy. Heterotrophs are organisms that obtain nutrients by consuming the carbon of other organisms, while autotrophs are organisms that produce their own nutrients from the carbon of inorganic substances like carbon dioxide. Mixotrophs are organisms that can be heterotrophs and autotrophs, including some plankton and carnivorous plants. Phototrophs obtain energy from light, while chemotrophs obtain energy by consuming chemical energy from matter. Organotrophs consume other organisms to obtain electrons, while lithotrophs obtain electrons from inorganic substances, such as water, hydrogen sulfide, dihydrogen, iron(II), sulfur, or ammonium.[6] Prototrophs can create essential nutrients from other compounds, while auxotrophs must consume preexisting nutrients.[7]

Diet

Main article: Diet (nutrition)

In nutrition, the diet of an organism is the sum of foods it eats.[8]

Nutrient cycle

Main article: Nutrient cycle

A nutrient cycle is a biogeochemical cycle involving the movement of inorganic matter through a combination of soil, organisms, air or water, where they are exchanged in organic matter.[9] Energy flow is a unidirectional and noncyclic pathway, whereas the movement of mineral nutrients is cyclic. Mineral cycles include the carbon cycle, sulfur cycle, nitrogen cycle, water cycle, phosphorus cycle, oxygen cycle, among others that continually recycle along with other mineral nutrients into productive ecological nutrition.[9]

Biogeochemical cycles that are performed by living organisms and natural processes are water, carbon, nitrogen, phosphorus, and sulfur cycles.[10]

Foraging

Main article: Foraging
 
A bonobo fishing for termites with a prepared stick

Foraging is the process of seeking out nutrients in the environment. It may also be defined to include the subsequent use of the resources. Some organisms, such as animals and bacteria, can navigate to find nutrients, while others, such as plants and fungi, extend outward to find nutrients. Foraging may be random, in which the organism seeks nutrients without method, or it may be systematic, in which the organism can go directly to a food source.[11] Organisms are able to detect nutrients through taste or other forms of nutrient sensing, allowing them to regulate nutrient intake.[12] Optimal foraging theory is a model that explains foraging behavior as a cost–benefit analysis in which an animal must maximize the gain of nutrients while minimizing the amount of time and energy spent foraging. It was created to analyze the foraging habits of animals, but it can also be extended to other organisms.[13] Some organisms are specialists that are adapted to forage for a single food source, while others are generalists that can consume a variety of food sources.[14]

Nutrient deficiency

See also: Malnutrition

Nutrient deficiencies, known as malnutrition, occur when an organism does not have the nutrients that it needs. This may be caused by absorbing insufficient nutrients or by suddenly losing nutrients. When this occurs, an organism will adapt by reducing energy consumption and expenditure to prolong the use of stored nutrients. It will use stored energy reserves until they are depleted, and it will then break down its own body mass for additional energy.[15]

In organisms

Animal

Main article: Animal nutrition
 
A kingfisher eating a tadpole near the Ariège river, France

Animals are heterotrophs that consume other organisms to obtain nutrients. Herbivores are animals that eat plants, carnivores are animals that eat other animals, and omnivores are animals that eat both plants and other animals.[16] Many herbivores rely on bacterial fermentation to create digestible nutrients from indigestible plant cellulose, while obligate carnivores must eat animal meats to obtain certain vitamins or nutrients their bodies cannot otherwise synthesize. Animals generally have a higher requirement of energy in comparison to plants.[17] The macronutrients essential to animal life are carbohydrates, amino acids, and fatty acids.[5][18]

All macronutrients except water are required by the body for energy, however, this is not their sole physiological function. The energy provided by macronutrients in food is measured in kilocalories, usually called Calories, where 1 Calorie is the amount of energy required to raise 1 kilogram of water by 1 degree Celsius.[19]

Carbohydrates are molecules that store significant amounts of energy. Animals digest and metabolize carbohydrates to obtain this energy. Carbohydrates are typically synthesized by plants during metabolism, and animals have to obtain most carbohydrates from nature, as they have only a limited ability to generate them. They include sugars, oligosaccharides, and polysaccharides. Glucose is the simplest form of carbohydrate.[20] Carbohydrates are broken down to produce glucose and short-chain fatty acids, and they are the most abundant nutrients for herbivorous land animals.[21]

Lipids provide animals with fats and oils. They are not soluble in water, and they can store energy for an extended period of time. They can be obtained from many different plant and animal sources. Most dietary lipids are triglycerides, composed of glycerol and fatty acids. Phospholipids and sterols are found in smaller amounts.[22] An animal's body will reduce the amount of fatty acids it produces as dietary fat intake increases, while it increases the amount of fatty acids it produces as carbohydrate intake increases.[23]

Protein consumed by animals is broken down to amino acids, which would be later used to synthesize new proteins. Protein is used to form cellular structures, fluids,[24] and enzymes (biological catalysts). Enzymes are essential to most metabolic processes, as well as DNA replication, repair, and transcription.[25]

Much of animal behavior is governed by nutrition. Migration patterns and seasonal breeding take place in conjunction with food availability, and courtship displays are used to display an animal's health.[26] Animals develop positive and negative associations with foods that affect their health, and they can instinctively avoid foods that have caused toxic injury or nutritional imbalances through a conditioned food aversion. Some animals, such as rats, do not seek out new types of foods unless they have a nutrient deficiency.[27]

Human

Main articles: Human nutrition and Cooking
 
Bread, ham, fruit preserve, and cheese prepared for human consumption

Early human nutrition consisted of foraging for nutrients similar to that of other animals, but it diverged at the beginning of the Holocene with the Neolithic Revolution, in which humans developed agriculture to produce food. The Chemical Revolution in the 18th century allowed humans to study the nutrients in foods and develop more advanced methods of food preparation. Major advances in economics and technology during the 20th century allowed mass production and food fortification to better meet the nutritional needs of humans.[28] Human behavior is closely related to human nutrition, making it a subject of social science in addition to biology. Nutrition in humans is balanced with eating for pleasure, and optimal diet may vary depending on the demographics and health concerns of each person.[29]

Humans are omnivores that eat a variety of foods. Cultivation of cereals and production of bread has made up a key component of human nutrition since the beginning of agriculture. Early humans hunted animals for meat, and modern humans domesticate animals to consume their meat and eggs. The development of animal husbandry has also allowed humans in some cultures to consume the milk of other animals and produce it into foods such as cheese. Other foods eaten by humans include nuts, seeds, fruits, and vegetables. Access to domesticated animals as well as vegetable oils has caused a significant increase in human intake of fats and oils. Humans have developed advanced methods of food processing that prevents contamination of pathogenic microorganisms and simplify the production of food. These include drying, freezing, heating, milling, pressing, packaging, refrigeration, and irradiation. Most cultures add herbs and spices to foods before eating to add flavor, though most do not significantly affect nutrition. Other additives are also used to improve the safety, quality, flavor, and nutritional content of food.[30]

Humans obtain most carbohydrates as starch from cereals, though sugar has grown in importance.[20] Lipids can be found in animal fat, butterfat, vegetable oil, and leaf vegetables, and they are also used to increase flavor in foods.[22] Protein can be found in virtually all foods, as it makes up cellular material, though certain methods of food processing may reduce the amount of protein in a food.[31] Humans can also obtain energy from ethanol, which is both a food and a drug, but it provides relatively few essential nutrients and is associated with nutritional deficiencies and other health risks.[32]

In humans, poor nutrition can cause deficiency-related diseases such as blindness, anemia, scurvy, preterm birth, stillbirth and cretinism,[33] or nutrient excess health-threatening conditions such as obesity[34][35] and metabolic syndrome;[36] and such common chronic systemic diseases as cardiovascular disease,[37] diabetes,[38][39] and osteoporosis.[40] Undernutrition can lead to wasting in acute cases, and stunting of marasmus in chronic cases of malnutrition.[33]

Domesticated animal

In domesticated animals, such as pets, livestock, and working animals, as well as other animals in captivity, nutrition is managed by humans through animal feed. Fodder and forage are provided to livestock. Specialized pet food has been manufactured since 1860, and subsequent research and development have addressed the nutritional needs of pets. Dog food and cat food in particular are heavily studied and typically include all essential nutrients for these animals. Cats are sensitive to some common nutrients, such as taurine, and require additional nutrients derived from meat. Large-breed puppies are susceptible to overnutrition, as small-breed dog food is more energy dense than they can absorb.[41]

Plant

Main article: Plant nutrition
 
Schematic of photosynthesis in plants. The carbohydrates produced are stored in or used by the plant.

Most plants obtain nutrients through inorganic substances absorbed from the soil or the atmosphere. Carbon, hydrogen, oxygen, nitrogen, and sulfur are essential nutrients that make up organic material in a plant and allow enzymic processes. These are absorbed ions in the soil, such as bicarbonate, nitrate, ammonium, and sulfate, or they are absorbed as gases, such as carbon dioxide, water, oxygen gas, and sulfur dioxide. Phosphorus, boron, and silicon are used for esterification. They are obtained through the soil as phosphates, boric acid, and silicic acid, respectively. Other nutrients used by plants are potassium, sodium, calcium, magnesium, manganese, chlorine, iron, copper, zinc, and molybdenum.[42]

Plants uptake essential elements from the soil through their roots and from the air (consisting of mainly nitrogen and oxygen) through their leaves. Nutrient uptake in the soil is achieved by cation exchange, wherein root hairs pump hydrogen ions (H+) into the soil through proton pumps. These hydrogen ions displace cations attached to negatively charged soil particles so that the cations are available for uptake by the root. In the leaves, stomata open to take in carbon dioxide and expel oxygen.[43] Although nitrogen is plentiful in the Earth's atmosphere, very few plants can use this directly. Most plants, therefore, require nitrogen compounds to be present in the soil in which they grow. This is made possible by the fact that largely inert atmospheric nitrogen is changed in a nitrogen fixation process to biologically usable forms in the soil by bacteria.[44]

As these nutrients do not provide the plant with energy, they must obtain energy by other means. Green plants absorb energy from sunlight with chloroplasts and convert it to usable energy through photosynthesis.[45]

Fungus

See also: Fungiculture

Fungi are chemoheterotrophs that consume external matter for energy. Most fungi absorb matter through the root-like mycelium, which grows through the organism's source of nutrients and can extend indefinitely. The fungus excretes extracellular enzymes to break down surrounding matter and then absorbs the nutrients through the cell wall. Fungi can be parasitic, saprophytic, or symbiotic. Parasitic fungi attach and feed on living hosts, such as animals, plants, or other fungi. Saprophytic fungi feed on dead and decomposing organisms. Symbiotic fungi grow around other organisms and exchange nutrients with them.[46]

Protist

Protists include all eukaryotes that are not animals, plants, or fungi, resulting in great diversity between them. Algae are photosynthetic protists that can produce energy from light. Several types of protists use mycelium similar to those of fungi. Protozoa are heterotrophic protists, and different protozoa seek nutrients in different ways. Flagellate protozoa use a flagellum to assist in hunting for food, and some protozoa travel via infectious spores to act as parasites.[47] Many protists are mixotrophic, having both phototrophic and heterotrophic characteristics. Mixotrophic protists will typically depend on one source of nutrients while using the other as a supplemental source or a temporary alternative when its primary source is unavailable.[48]

Prokaryote

Further information: Microbial metabolism
 
Simplified view of cellular metabolism

Prokaryotes, including bacteria and archaea, vary greatly in how they obtain nutrients across nutritional groups. Prokaryotes can only transport soluble compounds across their cell envelopes, but they can break down chemical components around them. Some lithotrophic prokaryotes are extremophiles that can survive in nutrient-deprived environments by breaking down inorganic matter.[49] Phototrophic prokaryotes, such as cyanobacteria and Chloroflexia, can engage in photosynthesis to obtain energy from sunlight. This is common among bacteria that form in mats atop geothermal springs. Phototrophic prokaryotes typically obtain carbon from assimilating carbon dioxide through the Calvin cycle.[50]

Some prokaryotes, such as Bdellovibrio and Ensifer, are predatory and feed on other single-celled organisms. Predatory prokaryotes seek out other organisms through chemotaxis or random collision, merge with the organism, degrade it, and absorb the released nutrients. Predatory strategies of prokaryotes include attaching to the outer surface of the organism and degrading it externally, entering the cytoplasm of the organism, or by entering the periplasmic space of the organism. Groups of predatory prokaryotes may forgo attachment by collectively producing hydrolytic enzymes.[51]

See also

  • Liebig's law of the minimum – Growth is limited by the scarcest resource
  • Nutrient density – the proportion of any array of a single nutrient or nutritional factor, or of numerous nutrients in foods, often ordered by different scalar indices
  • Nutrition analysis
  • Resource (biology) – substance or object in the environment required by an organism for normal growth, maintenance, and reproduction
  • Substrate (biology) – Surface on which a plant or animal lives

References

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Bibliography

External links

 
Look up nutrition in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Nutrition.

April 20, 2023
nutrition, other, uses, disambiguation, biochemical, physiological, process, which, organism, uses, food, support, life, provides, organisms, with, nutrients, which, metabolized, create, energy, chemical, structures, failure, obtain, sufficient, nutrients, cau. For other uses see Nutrition disambiguation Nutrition is the biochemical and physiological process by which an organism uses food to support its life It provides organisms with nutrients which can be metabolized to create energy and chemical structures Failure to obtain sufficient nutrients causes malnutrition Nutritional science is the study of nutrition though it typically emphasizes human nutrition An Amblypodia anita purple leaf blue butterfly gathering nutrients from guano The type of organism determines what nutrients it needs and how it obtains them Organisms obtain nutrients by consuming organic matter consuming inorganic matter absorbing light or some combination of these Some can produce nutrients internally by consuming basic elements while some must consume other organisms to obtain pre existing nutrients All forms of life require carbon energy and water as well as various other molecules Animals require complex nutrients such as carbohydrates lipids and proteins obtaining them by consuming other organisms Humans have developed agriculture and cooking to replace foraging and advance human nutrition Plants acquire nutrients through soil and the atmosphere Fungi absorb nutrients around them by breaking them down and absorbing them through the mycelium Contents 1 Study 2 Nutrients 2 1 Nutritional groups 2 2 Diet 2 3 Nutrient cycle 2 4 Foraging 3 Nutrient deficiency 4 In organisms 4 1 Animal 4 1 1 Human 4 1 2 Domesticated animal 4 2 Plant 4 3 Fungus 4 4 Protist 4 5 Prokaryote 5 See also 6 References 7 Bibliography 8 External linksStudy EditMain article Nutritional science Scientific analysis of food and nutrients began during the chemical revolution in the late 18th century Chemists in the 18th and 19th centuries experimented with different elements and food sources to develop theories of nutrition 1 Modern nutrition science began in the 1910s as individual micronutrients began to be identified The first vitamin to be chemically identified was thiamine in 1926 and the role of vitamins in nutrition was studied in the following decades The first recommended dietary allowances for humans were developed during the Great Depression and World War II 2 Due to its importance in human health the study of nutrition has heavily emphasized human nutrition and agriculture while ecology is a secondary concern 3 Nutrients EditMain article Nutrient Composting within agricultural systems capitalizes upon the natural services of nutrient recycling in ecosystems Bacteria fungi insects earthworms bugs and other creatures dig and digest the compost into fertile soil The minerals and nutrients in the soil is recycled back into the production of crops Nutrients are substances that provide energy and physical components to the organism allowing it to survive grow and reproduce Nutrients can be basic elements or complex macromolecules Approximately 30 elements are found in organic matter with nitrogen carbon and phosphorus being the most important 4 Macronutrients are the primary substances required by an organism and micronutrients are substances required by an organism in trace amounts Organic micronutrients are classified as vitamins and inorganic micronutrients are classified as minerals 5 Nutrients are absorbed by the cells and used in metabolic biochemical reactions These include fueling reactions that create precursor metabolites and energy biosynthetic reactions that convert precursor metabolites into building block molecules polymerizations that combine these molecules into macromolecule polymers and assembly reactions that use these polymers to construct cellular structures 4 Nutritional groups Edit Main article Primary nutritional groups Organisms can be classified by how they obtain carbon and energy Heterotrophs are organisms that obtain nutrients by consuming the carbon of other organisms while autotrophs are organisms that produce their own nutrients from the carbon of inorganic substances like carbon dioxide Mixotrophs are organisms that can be heterotrophs and autotrophs including some plankton and carnivorous plants Phototrophs obtain energy from light while chemotrophs obtain energy by consuming chemical energy from matter Organotrophs consume other organisms to obtain electrons while lithotrophs obtain electrons from inorganic substances such as water hydrogen sulfide dihydrogen iron II sulfur or ammonium 6 Prototrophs can create essential nutrients from other compounds while auxotrophs must consume preexisting nutrients 7 Diet Edit Main article Diet nutrition This section needs expansion You can help by adding to it August 2022 In nutrition the diet of an organism is the sum of foods it eats 8 Nutrient cycle Edit Main article Nutrient cycleA nutrient cycle is a biogeochemical cycle involving the movement of inorganic matter through a combination of soil organisms air or water where they are exchanged in organic matter 9 Energy flow is a unidirectional and noncyclic pathway whereas the movement of mineral nutrients is cyclic Mineral cycles include the carbon cycle sulfur cycle nitrogen cycle water cycle phosphorus cycle oxygen cycle among others that continually recycle along with other mineral nutrients into productive ecological nutrition 9 Biogeochemical cycles that are performed by living organisms and natural processes are water carbon nitrogen phosphorus and sulfur cycles 10 Foraging Edit Main article Foraging A bonobo fishing for termites with a prepared stick Foraging is the process of seeking out nutrients in the environment It may also be defined to include the subsequent use of the resources Some organisms such as animals and bacteria can navigate to find nutrients while others such as plants and fungi extend outward to find nutrients Foraging may be random in which the organism seeks nutrients without method or it may be systematic in which the organism can go directly to a food source 11 Organisms are able to detect nutrients through taste or other forms of nutrient sensing allowing them to regulate nutrient intake 12 Optimal foraging theory is a model that explains foraging behavior as a cost benefit analysis in which an animal must maximize the gain of nutrients while minimizing the amount of time and energy spent foraging It was created to analyze the foraging habits of animals but it can also be extended to other organisms 13 Some organisms are specialists that are adapted to forage for a single food source while others are generalists that can consume a variety of food sources 14 Nutrient deficiency EditSee also Malnutrition Nutrient deficiencies known as malnutrition occur when an organism does not have the nutrients that it needs This may be caused by absorbing insufficient nutrients or by suddenly losing nutrients When this occurs an organism will adapt by reducing energy consumption and expenditure to prolong the use of stored nutrients It will use stored energy reserves until they are depleted and it will then break down its own body mass for additional energy 15 In organisms EditAnimal Edit Main article Animal nutrition A kingfisher eating a tadpole near the Ariege river France Animals are heterotrophs that consume other organisms to obtain nutrients Herbivores are animals that eat plants carnivores are animals that eat other animals and omnivores are animals that eat both plants and other animals 16 Many herbivores rely on bacterial fermentation to create digestible nutrients from indigestible plant cellulose while obligate carnivores must eat animal meats to obtain certain vitamins or nutrients their bodies cannot otherwise synthesize Animals generally have a higher requirement of energy in comparison to plants 17 The macronutrients essential to animal life are carbohydrates amino acids and fatty acids 5 18 All macronutrients except water are required by the body for energy however this is not their sole physiological function The energy provided by macronutrients in food is measured in kilocalories usually called Calories where 1 Calorie is the amount of energy required to raise 1 kilogram of water by 1 degree Celsius 19 Carbohydrates are molecules that store significant amounts of energy Animals digest and metabolize carbohydrates to obtain this energy Carbohydrates are typically synthesized by plants during metabolism and animals have to obtain most carbohydrates from nature as they have only a limited ability to generate them They include sugars oligosaccharides and polysaccharides Glucose is the simplest form of carbohydrate 20 Carbohydrates are broken down to produce glucose and short chain fatty acids and they are the most abundant nutrients for herbivorous land animals 21 Lipids provide animals with fats and oils They are not soluble in water and they can store energy for an extended period of time They can be obtained from many different plant and animal sources Most dietary lipids are triglycerides composed of glycerol and fatty acids Phospholipids and sterols are found in smaller amounts 22 An animal s body will reduce the amount of fatty acids it produces as dietary fat intake increases while it increases the amount of fatty acids it produces as carbohydrate intake increases 23 Protein consumed by animals is broken down to amino acids which would be later used to synthesize new proteins Protein is used to form cellular structures fluids 24 and enzymes biological catalysts Enzymes are essential to most metabolic processes as well as DNA replication repair and transcription 25 Much of animal behavior is governed by nutrition Migration patterns and seasonal breeding take place in conjunction with food availability and courtship displays are used to display an animal s health 26 Animals develop positive and negative associations with foods that affect their health and they can instinctively avoid foods that have caused toxic injury or nutritional imbalances through a conditioned food aversion Some animals such as rats do not seek out new types of foods unless they have a nutrient deficiency 27 Human Edit Main articles Human nutrition and Cooking Bread ham fruit preserve and cheese prepared for human consumption Early human nutrition consisted of foraging for nutrients similar to that of other animals but it diverged at the beginning of the Holocene with the Neolithic Revolution in which humans developed agriculture to produce food The Chemical Revolution in the 18th century allowed humans to study the nutrients in foods and develop more advanced methods of food preparation Major advances in economics and technology during the 20th century allowed mass production and food fortification to better meet the nutritional needs of humans 28 Human behavior is closely related to human nutrition making it a subject of social science in addition to biology Nutrition in humans is balanced with eating for pleasure and optimal diet may vary depending on the demographics and health concerns of each person 29 Humans are omnivores that eat a variety of foods Cultivation of cereals and production of bread has made up a key component of human nutrition since the beginning of agriculture Early humans hunted animals for meat and modern humans domesticate animals to consume their meat and eggs The development of animal husbandry has also allowed humans in some cultures to consume the milk of other animals and produce it into foods such as cheese Other foods eaten by humans include nuts seeds fruits and vegetables Access to domesticated animals as well as vegetable oils has caused a significant increase in human intake of fats and oils Humans have developed advanced methods of food processing that prevents contamination of pathogenic microorganisms and simplify the production of food These include drying freezing heating milling pressing packaging refrigeration and irradiation Most cultures add herbs and spices to foods before eating to add flavor though most do not significantly affect nutrition Other additives are also used to improve the safety quality flavor and nutritional content of food 30 Humans obtain most carbohydrates as starch from cereals though sugar has grown in importance 20 Lipids can be found in animal fat butterfat vegetable oil and leaf vegetables and they are also used to increase flavor in foods 22 Protein can be found in virtually all foods as it makes up cellular material though certain methods of food processing may reduce the amount of protein in a food 31 Humans can also obtain energy from ethanol which is both a food and a drug but it provides relatively few essential nutrients and is associated with nutritional deficiencies and other health risks 32 In humans poor nutrition can cause deficiency related diseases such as blindness anemia scurvy preterm birth stillbirth and cretinism 33 or nutrient excess health threatening conditions such as obesity 34 35 and metabolic syndrome 36 and such common chronic systemic diseases as cardiovascular disease 37 diabetes 38 39 and osteoporosis 40 Undernutrition can lead to wasting in acute cases and stunting of marasmus in chronic cases of malnutrition 33 Domesticated animal Edit In domesticated animals such as pets livestock and working animals as well as other animals in captivity nutrition is managed by humans through animal feed Fodder and forage are provided to livestock Specialized pet food has been manufactured since 1860 and subsequent research and development have addressed the nutritional needs of pets Dog food and cat food in particular are heavily studied and typically include all essential nutrients for these animals Cats are sensitive to some common nutrients such as taurine and require additional nutrients derived from meat Large breed puppies are susceptible to overnutrition as small breed dog food is more energy dense than they can absorb 41 Plant Edit Main article Plant nutrition Schematic of photosynthesis in plants The carbohydrates produced are stored in or used by the plant Most plants obtain nutrients through inorganic substances absorbed from the soil or the atmosphere Carbon hydrogen oxygen nitrogen and sulfur are essential nutrients that make up organic material in a plant and allow enzymic processes These are absorbed ions in the soil such as bicarbonate nitrate ammonium and sulfate or they are absorbed as gases such as carbon dioxide water oxygen gas and sulfur dioxide Phosphorus boron and silicon are used for esterification They are obtained through the soil as phosphates boric acid and silicic acid respectively Other nutrients used by plants are potassium sodium calcium magnesium manganese chlorine iron copper zinc and molybdenum 42 Plants uptake essential elements from the soil through their roots and from the air consisting of mainly nitrogen and oxygen through their leaves Nutrient uptake in the soil is achieved by cation exchange wherein root hairs pump hydrogen ions H into the soil through proton pumps These hydrogen ions displace cations attached to negatively charged soil particles so that the cations are available for uptake by the root In the leaves stomata open to take in carbon dioxide and expel oxygen 43 Although nitrogen is plentiful in the Earth s atmosphere very few plants can use this directly Most plants therefore require nitrogen compounds to be present in the soil in which they grow This is made possible by the fact that largely inert atmospheric nitrogen is changed in a nitrogen fixation process to biologically usable forms in the soil by bacteria 44 As these nutrients do not provide the plant with energy they must obtain energy by other means Green plants absorb energy from sunlight with chloroplasts and convert it to usable energy through photosynthesis 45 Fungus Edit See also Fungiculture Fungi are chemoheterotrophs that consume external matter for energy Most fungi absorb matter through the root like mycelium which grows through the organism s source of nutrients and can extend indefinitely The fungus excretes extracellular enzymes to break down surrounding matter and then absorbs the nutrients through the cell wall Fungi can be parasitic saprophytic or symbiotic Parasitic fungi attach and feed on living hosts such as animals plants or other fungi Saprophytic fungi feed on dead and decomposing organisms Symbiotic fungi grow around other organisms and exchange nutrients with them 46 Protist Edit Protists include all eukaryotes that are not animals plants or fungi resulting in great diversity between them Algae are photosynthetic protists that can produce energy from light Several types of protists use mycelium similar to those of fungi Protozoa are heterotrophic protists and different protozoa seek nutrients in different ways Flagellate protozoa use a flagellum to assist in hunting for food and some protozoa travel via infectious spores to act as parasites 47 Many protists are mixotrophic having both phototrophic and heterotrophic characteristics Mixotrophic protists will typically depend on one source of nutrients while using the other as a supplemental source or a temporary alternative when its primary source is unavailable 48 Prokaryote Edit Further information Microbial metabolism Simplified view of cellular metabolism Prokaryotes including bacteria and archaea vary greatly in how they obtain nutrients across nutritional groups Prokaryotes can only transport soluble compounds across their cell envelopes but they can break down chemical components around them Some lithotrophic prokaryotes are extremophiles that can survive in nutrient deprived environments by breaking down inorganic matter 49 Phototrophic prokaryotes such as cyanobacteria and Chloroflexia can engage in photosynthesis to obtain energy from sunlight This is common among bacteria that form in mats atop geothermal springs Phototrophic prokaryotes typically obtain carbon from assimilating carbon dioxide through the Calvin cycle 50 Some prokaryotes such as Bdellovibrio and Ensifer are predatory and feed on other single celled organisms Predatory prokaryotes seek out other organisms through chemotaxis or random collision merge with the organism degrade it and absorb the released nutrients Predatory strategies of prokaryotes include attaching to the outer surface of the organism and degrading it externally entering the cytoplasm of the organism or by entering the periplasmic space of the organism Groups of predatory prokaryotes may forgo attachment by collectively producing hydrolytic enzymes 51 See also EditLiebig s law of the minimum Growth is limited by the scarcest resource Nutrient density the proportion of any array of a single nutrient or nutritional factor or of numerous nutrients in foods often ordered by different scalar indicesPages displaying wikidata descriptions as a fallback Nutrition analysis Resource biology substance or object in the environment required by an organism for normal growth maintenance and reproductionPages displaying wikidata descriptions as a fallback Substrate biology 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February 2022 Retrieved 8 August 2022 Southam G Westall F 2007 Geology Life and Habitability In Schubert Gerald ed Treatise on Geophysics PDF Vol 10 Planets and Moons Elsevier pp 421 437 doi 10 1016 B978 044452748 6 00164 4 ISBN 9780444527486 Overmann Jorg Garcia Pichel Ferran 2006 The Phototrophic Way of Life In Dworkin Martin ed The Prokaryotes Vol 2 Ecophysiology and Biochemistry 3rd ed Springer pp 203 257 doi 10 1007 0 387 30742 7 3 ISBN 978 0 387 25492 0 Martin Mark O 2002 Predatory prokaryotes an emerging research opportunity Journal of Molecular Microbiology and Biotechnology 4 5 467 477 ISSN 1464 1801 PMID 12432957 Archived from the original on 3 August 2022 Retrieved 6 August 2022 Bibliography EditAndrews John H 2017 Comparative Ecology of Microorganisms and Macroorganisms 2nd ed New York Springer ISBN 978 1 4939 6897 8 Mann Jim Truswell A Stewart eds 2012 Essentials of Human Nutrition 4th ed Oxford Oxford University Press ISBN 978 0 19 956634 1 Mengel Konrad Kirkby Ernest A Kosegarten Harald Appel Thomas eds 2001 Principles of Plant Nutrition 5th ed New York Springer doi 10 1007 978 94 010 1009 2 ISBN 978 94 010 1009 2 S2CID 9332099 Simpson Stephen J Raubenheimer David 2012 The Nature of Nutrition A Unifying Framework from Animal Adaptation to Human Obesity Princeton Princeton University Press ISBN 978 1 4008 4280 3 Wu Guoyao 2017 Principles of Animal Nutrition Boca Raton CRC Press ISBN 978 1 351 64637 6 External links Edit Look up nutrition in Wiktionary the free dictionary Wikimedia Commons has media related to Nutrition Portals Food Minerals Retrieved from https en wikipedia org w index php title Nutrition amp oldid 1148595009, wikipedia, wiki, book, books, library,

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