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Sugar is the generic name for sweet-tasting, soluble carbohydrates, many of which are used in food. Simple sugars, also called monosaccharides, include glucose, fructose, and galactose. Compound sugars, also called disaccharides or double sugars, are molecules made of two bonded monosaccharides; common examples are sucrose (glucose + fructose), lactose (glucose + galactose), and maltose (two molecules of glucose). White sugar is a refined form of sucrose. In the body, compound sugars are hydrolysed into simple sugars.

Longer chains of monosaccharides (>2) are not regarded as sugars and are called oligosaccharides or polysaccharides. Starch is a glucose polymer found in plants, the most abundant source of energy in human food. Some other chemical substances, such as ethylene glycol, glycerol and sugar alcohols, may have a sweet taste but are not classified as sugar.

Sugars are found in the tissues of most plants. Honey and fruits are abundant natural sources of simple sugars. Sucrose is especially concentrated in sugarcane and sugar beet, making them ideal for efficient commercial extraction to make refined sugar. In 2016, the combined world production of those two crops was about two billion tonnes. Maltose may be produced by malting grain. Lactose is the only sugar that cannot be extracted from plants. It can only be found in milk, including human breast milk, and in some dairy products. A cheap source of sugar is corn syrup, industrially produced by converting corn starch into sugars, such as maltose, fructose and glucose.

Sucrose is used in prepared foods (e.g., cookies and cakes), is sometimes added to commercially available ultra-processed food and beverages, and is sometimes used as a sweetener for foods (e.g., toast and cereal) and beverages (e.g., coffee and tea). The average person consumes about 24 kilograms (53 pounds) of sugar each year. North and South Americans consume up to 50 kg (110 lb), and Africans consume under 20 kg (44 lb).^[1]

As free sugar consumption grew in the latter part of the 20th century, researchers began to examine whether a diet high in free sugar, especially refined sugar, was damaging to human health. In 2015, the World Health Organization strongly recommended that adults and children reduce their intake of free sugars to less than 10% of their total energy intake and encouraged a reduction to below 5%.^[2] In general, high sugar consumption damages human health more than it provides nutritional benefit and is associated with a risk of cardiometabolic and other health detriments.^[3]

Etymology

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The etymology of sugar reflects the commodity’s spread. From Sanskrit śarkarā, meaning “ground or candied sugar”, came Persian shakar and Arabic sukkar. The Arabic word was borrowed in Medieval Latin as succarum, whence came the 12th century French sucre and the English sugar. Sugar was introduced into Europe by the Arabs in Sicily and Spain.^[4]

The English word jaggery, a coarse brown sugar made from date palm sap or sugarcane juice, has a similar etymological origin: Portuguese jágara from the Malayalam cakkarā, which is from the Sanskrit śarkarā.^[5]

History

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Main article: History of sugar

Ancient world to Renaissance

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Asia

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Sugar has been produced in the Indian subcontinent^[6] for thousands of years. Sugarcane cultivation spread from there into China via the Khyber Pass and caravan routes.^[7] It was not plentiful or cheap in early times, and in most parts of the world, honey was more often used for sweetening.^[8] Originally, people chewed raw sugarcane to extract its sweetness. Even after refined sugarcane became more widely available during the European colonial era,^[9] palm sugar was preferred in Java and other sugar producing parts of southeast Asia, and along with coconut sugar, is still used locally to make desserts today.^[10][11]

Sugarcane is native of tropical areas such as the Indian subcontinent (South Asia) and Southeast Asia.^[6][12] Different species seem to have originated from different locations; Saccharum barberi originated in India, and S. edule and S. officinarum came from New Guinea.^[12][13] One of the earliest historical references to sugarcane is in Chinese manuscripts dating to the 8th century BCE, which state that the use of sugarcane originated in India.^[14]

In the tradition of Indian medicine (āyurveda), sugarcane is known by the name Ikṣu, and sugarcane juice is known as Phāṇita. Its varieties, synonyms and characteristics are defined in nighaṇṭus such as the Bhāvaprakāśa (1.6.23, group of sugarcanes).^[15]

Sugar remained relatively unimportant until around 350 AD when the Indians discovered methods of turning sugarcane juice into granulated crystals that were easier to store and transport. It was then considered as ‘sweet spice’ and Indian traders started trading sugar outside India.^[16] The Greek physician Pedanius Dioscorides attested to the method in his 1st century CE medical treatise De Materia Medica:

There is a kind of coalesced honey called sakcharon [i.e. sugar] found in reeds in India and Eudaimon Arabia similar in consistency to salt and brittle enough to be broken between the teeth like salt,

— Pedanius Dioscorides, Materia Medica, Book II^[17][18]

In the local Indian language, these crystals were called khanda (Devanagari: खण्ड, Khaṇḍa), which is the source of the word candy.^[19] Indian sailors, who carried clarified butter and sugar as supplies, introduced knowledge of sugar along the various trade routes they travelled.^[20] Traveling Buddhist monks took sugar crystallization methods to China.^[21] During the reign of Harsha (r. 606–647) in North India, Indian envoys in Tang China taught methods of cultivating sugarcane after Emperor Taizong of Tang (r. 626–649) made known his interest in sugar. China established its first sugarcane plantations in the seventh century.^[22] Chinese documents confirm at least two missions to India, initiated in 647 CE, to obtain technology for sugar refining.^[23]

Europe

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Nearchus, admiral of Alexander the Great, knew of sugar during the year 325 BC because of his participation in the campaign of India led by Alexander (Arrian, Anabasis).^[24][25] In addition to the Greek physician Pedanius Dioscorides, the Roman Pliny the Elder also described sugar in his 1st century CE Natural History: “Sugar is made in Arabia as well, but Indian sugar is better. It is a kind of honey found in cane, white as gum, and it crunches between the teeth. It comes in lumps the size of a hazelnut. Sugar is used only for medical purposes.“^[26] Crusaders brought sugar back to Europe after their campaigns in the Holy Land, where they encountered caravans carrying “sweet salt”. Early in the 12th century, the Republic of Venice acquired some villages near Tyre and set up estates to produce sugar for export to Europe. It supplemented the use of honey, which had previously been the only available sweetener.^[27] Crusade chronicler William of Tyre, writing in the late 12th century, described sugar as “very necessary for the use and health of mankind”.^[28] In the 15th century, Venice was the chief sugar refining and distribution center in Europe.^[14]

There was a drastic change in the mid-15th century, when Madeira and the Canary Islands were settled from Europe and sugar introduced there.^[29][30] After this an “all-consuming passion for sugar … swept through society” as it became far more easily available, though initially still very expensive.^[31] By 1492, Madeira was producing over 1,400,000 kilograms (3,000,000 lb) of sugar annually.^[32] Genoa, one of the centers of distribution, became known for candied fruit, while Venice specialized in pastries, sweets (candies), and sugar sculptures. Sugar was considered to have “valuable medicinal properties” as a “warm” food under prevailing categories, being “helpful to the stomach, to cure cold diseases, and sooth lung complaints”.^[33]

A feast given in Tours in 1457 by Gaston de Foix, which is “probably the best and most complete account we have of a late medieval banquet” includes the first mention of sugar sculptures, as the final food brought in was “a heraldic menagerie sculpted in sugar: lions, stags, monkeys … each holding in paw or beak the arms of the Hungarian king“.^[34] Other recorded grand feasts in the decades following included similar pieces.^[35] Originally the sculptures seem to have been eaten in the meal, but later they become merely table decorations, the most elaborate called trionfi. Several significant sculptors are known to have produced them; in some cases their preliminary drawings survive. Early ones were in brown sugar, partly cast in molds, with the final touches carved. They continued to be used until at least the Coronation Banquet for Edward VII of the United Kingdom in 1903; among other sculptures every guest was given a sugar crown to take away.^[36]

Modern history

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See also: Triangular trade

Sugar cane; demand for sugar contributed to creating colonial systems in areas where cultivation of sugar cane was profitable.

Hacienda La Fortuna. A sugar mill complex in Puerto Rico, painted by Francisco Oller in 1885, Brooklyn Museum

In August 1492, Christopher Columbus collected sugar cane samples in La Gomera in the Canary Islands, and introduced it to the New World.^[37] The cuttings were planted and the first sugar-cane harvest in Hispaniola took place in 1501. Many sugar mills had been constructed in Cuba and Jamaica by the 1520s.^[38] The Portuguese took sugar cane to Brazil. By 1540, there were 800 cane-sugar mills in Santa Catarina Island and another 2,000 on the north coast of Brazil, Demarara, and Surinam. It took until 1600 for Brazilian sugar production to exceed that of São Tomé, which was the main center of sugar production in sixteenth century.^[30]

German chemists Andreas Sigismund Marggraf (left) and Franz Karl Achard (right) both laid the foundation of the modern sugar industry.

Sugar was a luxury in Europe until the early 19th century, when it became more widely available, due to the rise of beet sugar in Prussia, and later in France under Napoleon.^[39] Beet sugar was a German invention, since, in 1747, Andreas Sigismund Marggraf announced the discovery of sugar in beets and devised a method using alcohol to extract it.^[40] Marggraf’s student, Franz Karl Achard, devised an economical industrial method to extract the sugar in its pure form in the late 18th century.^[41][42] Achard first produced beet sugar in 1783 in Kaulsdorf, and in 1801, the world’s first beet sugar production facility was established in Cunern, Silesia (then part of Prussia, now Poland).^[43] The works of Marggraf and Achard were the starting point for the sugar industry in Europe,^[44] and for the modern sugar industry in general, since sugar was no longer a luxury product and a product almost only produced in warmer climates.^[45]

Sugar became highly popular and by the 19th century, was found in every household. This evolution of taste and demand for sugar as an essential food ingredient resulted in major economic and social changes.^[46] Demand drove, in part, the colonization of tropical islands and areas where labor-intensive sugarcane plantations and sugar manufacturing facilities could be successful.^[46] World consumption increased more than 100 times from 1850 to 2000, led by Britain, where it increased from about 2 pounds per head per year in 1650 to 90 pounds by the early 20th century. In the late 18th century Britain consumed about half the sugar which reached Europe.^[47]

After slavery was abolished, the demand for workers in European colonies in the Caribbean was filled by indentured laborers from the Indian subcontinent.^[48][49][50] Millions of enslaved or indentured laborers were brought to various European colonies in the Americas, Africa and Asia (as a result of demand in Europe for among other commodities, sugar), influencing the ethnic mixture of numerous nations around the globe.^[51][52][53]

Sugar also led to some industrialization of areas where sugar cane was grown. For example, in the 1790s Lieutenant J. Paterson, of the Bengal Presidency promoted to the British parliament the idea that sugar cane could grow in British India, where it had started, with many advantages and at less expense than in the West Indies. As a result, sugar factories were established in Bihar in eastern India.^[54][55] During the Napoleonic Wars, sugar-beet production increased in continental Europe because of the difficulty of importing sugar when shipping was subject to blockade. By 1880 the sugar beet was the main source of sugar in Europe. It was also cultivated in Lincolnshire and other parts of England, although the United Kingdom continued to import the main part of its sugar from its colonies.^[56]

Until the late nineteenth century, sugar was purchased in loaves, which had to be cut using implements called sugar nips.^[57] In later years, granulated sugar was more usually sold in bags. Sugar cubes were produced in the nineteenth century. The first inventor of a process to produce sugar in cube form was Jakob Christof Rad, director of a sugar refinery in Dačice. In 1841, he produced the first sugar cube in the world.^[58] He began sugar-cube production after being granted a five-year patent for the process on 23 January 1843. Henry Tate of Tate & Lyle was another early manufacturer of sugar cubes at his refineries in Liverpool and London. Tate purchased a patent for sugar-cube manufacture from German Eugen Langen, who in 1872 had invented a different method of processing of sugar cubes.^[59]

Sugar was rationed during World War I, though it was said that “No previous war in history has been fought so largely on sugar and so little on alcohol”,^[60] and more sharply during World War II.^{[61][62][63][64][65]} Rationing led to the development and use of various artificial sweeteners.^[61][66]

Chemistry

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Scientifically, sugar loosely refers to a number of carbohydrates, such as monosaccharides, disaccharides, or oligosaccharides. Monosaccharides are also called “simple sugars”, the most important being glucose. Most monosaccharides have a formula that conforms to C
_nH
_2nO
_n with n between 3 and 7 (deoxyribose being an exception). Glucose has the molecular formula C
₆H
₁₂O
₆. The names of typical sugars end with –ose, as in “glucose” and “fructose“. Sometimes such words may also refer to any types of carbohydrates soluble in water. The acyclic mono- and disaccharides contain either aldehyde groups or ketone groups. These carbon-oxygen double bonds (C=O) are the reactive centers. All saccharides with more than one ring in their structure result from two or more monosaccharides joined by glycosidic bonds with the resultant loss of a molecule of water (H
₂O) per bond.^[67]

Monosaccharides in a closed-chain form can form glycosidic bonds with other monosaccharides, creating disaccharides (such as sucrose) and polysaccharides (such as starch or cellulose). Enzymes must hydrolyze or otherwise break these glycosidic bonds before such compounds become metabolized. After digestion and absorption the principal monosaccharides present in the blood and internal tissues include glucose, fructose, and galactose. Many pentoses and hexoses can form ring structures. In these closed-chain forms, the aldehyde or ketone group remains non-free, so many of the reactions typical of these groups cannot occur. Glucose in solution exists mostly in the ring form at equilibrium, with less than 0.1% of the molecules in the open-chain form.^[67]

Natural polymers

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Biopolymers of sugars are common in nature. Through photosynthesis, plants produce glyceraldehyde-3-phosphate (G3P), a phosphated 3-carbon sugar that is used by the cell to make monosaccharides such as glucose (C
₆H
₁₂O
₆) or (as in cane and beet) sucrose (C
₁₂H
₂₂O
₁₁). Monosaccharides may be further converted into structural polysaccharides such as cellulose and pectin for cell wall construction or into energy reserves in the form of storage polysaccharides such as starch or inulin. Starch, consisting of two different polymers of glucose, is a readily degradable form of chemical energy stored by cells, and can be converted to other types of energy.^[67] Another polymer of glucose is cellulose, which is a linear chain composed of several hundred or thousand glucose units. It is used by plants as a structural component in their cell walls. Humans can digest cellulose only to a very limited extent, though ruminants can do so with the help of symbiotic bacteria in their gut.^[68] DNA and RNA are built up of the monosaccharides deoxyribose and ribose, respectively. Deoxyribose has the formula C
₅H
₁₀O
₄ and ribose the formula C
₅H
₁₀O
₅.^[69]

Flammability and heat response

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Because sugars burn easily when exposed to flame, the handling of sugars risks dust explosion. The risk of explosion is higher when the sugar has been milled to superfine texture, such as for use in chewing gum.^[70] The 2008 Georgia sugar refinery explosion, which killed 14 people and injured 36, and destroyed most of the refinery, was caused by the ignition of sugar dust.^[71]

In its culinary use, exposing sugar to heat causes caramelization. As the process occurs, volatile chemicals such as diacetyl are released, producing the characteristic caramel flavor.^[72]

Types

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Monosaccharides

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Fructose, galactose, and glucose are all simple sugars, monosaccharides, with the general formula C₆H₁₂O₆. They have five hydroxyl groups (−OH) and a carbonyl group (C=O) and are cyclic when dissolved in water. They each exist as several isomers with dextro- and laevo-rotatory forms that cause polarized light to diverge to the right or the left.^[73]

• Fructose, or fruit sugar, occurs naturally in fruits, some root vegetables, cane sugar and honey and is the sweetest of the sugars. It is one of the components of sucrose or table sugar. It is used as a high-fructose syrup, which is manufactured from hydrolyzed corn starch that has been processed to yield corn syrup, with enzymes then added to convert part of the glucose into fructose.^[74]
• Galactose generally does not occur in the free state but is a constituent with glucose of the disaccharide lactose or milk sugar. It is less sweet than glucose. It is a component of the antigens found on the surface of red blood cells that determine blood groups.^[75]
• Glucose occurs naturally in fruits and plant juices and is the primary product of photosynthesis. Starch is converted into glucose during digestion, and glucose is the form of sugar that is transported around the bodies of animals in the bloodstream. Although in principle there are two enantiomers of glucose (mirror images one of the other), naturally occurring glucose is D-glucose. This is also called dextrose, or grape sugar because drying grape juice produces crystals of dextrose that can be sieved from the other components.^[76] Glucose syrup is a liquid form of glucose that is widely used in the manufacture of foodstuffs. It can be manufactured from starch by enzymatic hydrolysis.^[77] For example, corn syrup, which is produced commercially by breaking down maize starch, is one common source of purified dextrose.^[78] However, dextrose is naturally present in many unprocessed, whole foods, including honey and fruits such as grapes.^[79]

Disaccharides

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Lactose, maltose, and sucrose are all compound sugars, disaccharides, with the general formula C₁₂H₂₂O₁₁. They are formed by the combination of two monosaccharide molecules with the exclusion of a molecule of water.^[73]

• Lactose is the naturally occurring sugar found in milk. A molecule of lactose is formed by the combination of a molecule of galactose with a molecule of glucose. It is broken down when consumed into its constituent parts by the enzyme lactase during digestion. Children have this enzyme but some adults no longer form it and they are unable to digest lactose.^[80]
• Maltose is formed during the germination of certain grains, the most notable being barley, which is converted into malt, the source of the sugar’s name. A molecule of maltose is formed by the combination of two molecules of glucose. It is less sweet than glucose, fructose or sucrose.^[73] It is formed in the body during the digestion of starch by the enzyme amylase and is itself broken down during digestion by the enzyme maltase.^[81]
• Sucrose is found in the stems of sugarcane and roots of sugar beet. It also occurs naturally alongside fructose and glucose in other plants, in particular fruits and some roots such as carrots. The different proportions of sugars found in these foods determines the range of sweetness experienced when eating them.^[73] A molecule of sucrose is formed by the combination of a molecule of glucose with a molecule of fructose. After being eaten, sucrose is split into its constituent parts during digestion by a number of enzymes known as sucrases.^[82]

Sources

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The sugar contents of common fruits and vegetables are presented in Table 1.

Food item	Total carbohydrateA including dietary fiber	Total sugars	Free fructose	Free glucose	Sucrose	Fructose/ (Fructose+Glucose) ratioB	Sucrose as a % of total sugars
Fruits
Apple	13.8	10.4	5.9	2.4	2.1	0.67	20
Apricot	11.1	9.2	0.9	2.4	5.9	0.42	64
Banana	22.8	12.2	4.9	5.0	2.4	0.5	20
Fig, dried	63.9	47.9	22.9	24.8	0.9	0.48	1.9
Grapes	18.1	15.5	8.1	7.2	0.2	0.53	1
Navel orange	12.5	8.5	2.25	2.0	4.3	0.51	51
Peach	9.5	8.4	1.5	2.0	4.8	0.47	57
Pear	15.5	9.8	6.2	2.8	0.8	0.67	8
Pineapple	13.1	9.9	2.1	1.7	6.0	0.52	61
Plum	11.4	9.9	3.1	5.1	1.6	0.40	16
Strawberry	7.68	4.89	2.441	1.99	0.47	0.55	10
Vegetables
Beet, red	9.6	6.8	0.1	0.1	6.5	0.50	96
Carrot	9.6	4.7	0.6	0.6	3.6	0.50	77
Corn, sweet	19.0	6.2	1.9	3.4	0.9	0.38	15
Red pepper, sweet	6.0	4.2	2.3	1.9	0.0	0.55	0
Onion, sweet	7.6	5.0	2.0	2.3	0.7	0.47	14
Sweet potato	20.1	4.2	0.7	1.0	2.5	0.47	60
Yam	27.9	0.5	tr	tr	tr	na	tr
Sugar cane		13–18	0.2–1.0	0.2–1.0	11–16	0.50	high
Sugar beet		17–18	0.1–0.5	0.1–0.5	16–17	0.50	high

^A The carbohydrate figure is calculated in the USDA database and does not always correspond to the sum of the sugars, the starch, and the dietary fiber.^[why?]^B The fructose to fructose plus glucose ratio is calculated by including the fructose and glucose coming from the sucrose.

Production

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See also: List of sugars

Due to rising demand, sugar production in general increased some 14% over the period 2009 to 2018.^[84] The largest importers were China, Indonesia, and the United States.^[84]

Sugar

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In 2022–2023 world production of sugar was 186 million tonnes, and in 2023–2024 an estimated 194 million tonnes — a surplus of 5 million tonnes, according to Ragus.^[85]

Sugarcane

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Sugarcane production – 2022
Country	Millions of tonnes
Brazil	724.4
India	439.4
China	103.4
Thailand	92.1
World	1,922.1
Source: FAO[86]

Sugar cane accounted for around 21% of the global crop production over the 2000–2021 period. The Americas was the leading region in the production of sugar cane (52% of the world total).^[87] Global production of sugarcane in 2022 was 1.9 billion tonnes, with Brazil producing 38% of the world total and India 23% (table).

Sugarcane is any of several species, or their hybrids, of giant grasses in the genus Saccharum in the family Poaceae. They have been cultivated in tropical climates in the Indian subcontinent and Southeast Asia over centuries for the sucrose found in their stems.^[6]

Sugar cane requires a frost-free climate with sufficient rainfall during the growing season to make full use of the plant’s substantial growth potential. The crop is harvested mechanically or by hand, chopped into lengths and conveyed rapidly to the processing plant (commonly known as a sugar mill) where it is either milled and the juice extracted with water or extracted by diffusion.^[89] The juice is clarified with lime and heated to destroy enzymes. The resulting thin syrup is concentrated in a series of evaporators, after which further water is removed. The resulting supersaturated solution is seeded with sugar crystals, facilitating crystal formation and drying.^[89] Molasses is a by-product of the process and the fiber from the stems, known as bagasse,^[89] is burned to provide energy for the sugar extraction process. The crystals of raw sugar have a sticky brown coating and either can be used as they are, can be bleached by sulfur dioxide, or can be treated in a carbonatation process to produce a whiter product.^[89] About 2,500 litres (660 US gal) of irrigation water is needed for every one kilogram (2.2 pounds) of sugar produced.^[90]

Sugar beet

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Sugar beet production – 2022
Country	Millions of tonnes
Russia	48.9
France	31.5
United States	29.6
Germany	28.2
World	260
Source: FAO[86]

In 2022, global production of sugar beets was 260 million tonnes, led by Russia with 18.8% of the world total (table).

Sugar beet became a major source of sugar in the 19th century when methods for extracting the sugar became available. It is a biennial plant,^[91] a cultivated variety of Beta vulgaris in the family Amaranthaceae, the tuberous root of which contains a high proportion of sucrose. It is cultivated as a root crop in temperate regions with adequate rainfall and requires a fertile soil. The crop is harvested mechanically in the autumn and the crown of leaves and excess soil removed. The roots do not deteriorate rapidly and may be left in the field for some weeks before being transported to the processing plant where the crop is washed and sliced, and the sugar extracted by diffusion.^[92] Milk of lime is added to the raw juice with calcium carbonate. After water is evaporated by boiling the syrup under a vacuum, the syrup is cooled and seeded with sugar crystals. The white sugar that crystallizes can be separated in a centrifuge and dried, requiring no further refining.^[92]

Refining

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See also: Sugar refinery, Non-centrifugal cane sugar, and White sugar

Refined sugar is made from raw sugar that has undergone a refining process to remove the molasses.^[93][94] Raw sugar is sucrose which is extracted from sugarcane or sugar beet. While raw sugar can be consumed, the refining process removes unwanted tastes and results in refined sugar or white sugar.^[95][96]

The sugar may be transported in bulk to the country where it will be used and the refining process often takes place there. The first stage is known as affination and involves immersing the sugar crystals in a concentrated syrup that softens and removes the sticky brown coating without dissolving them. The crystals are then separated from the liquor and dissolved in water. The resulting syrup is treated either by a carbonatation or by a phosphatation process. Both involve the precipitation of a fine solid in the syrup and when this is filtered out, many of the impurities are removed at the same time. Removal of color is achieved by using either a granular activated carbon or an ion-exchange resin. The sugar syrup is concentrated by boiling and then cooled and seeded with sugar crystals, causing the sugar to crystallize out. The liquor is spun off in a centrifuge and the white crystals are dried in hot air and ready to be packaged or used. The surplus liquor is made into refiners’ molasses.^[97]

The International Commission for Uniform Methods of Sugar Analysis sets standards for the measurement of the purity of refined sugar, known as ICUMSA numbers; lower numbers indicate a higher level of purity in the refined sugar.^[98]

Refined sugar is widely used for industrial needs for higher quality. Refined sugar is purer (ICUMSA below 300) than raw sugar (ICUMSA over 1,500).^[99] The level of purity associated with the colors of sugar, expressed by standard number ICUMSA, the smaller ICUMSA numbers indicate the higher purity of sugar.^[99]

Forms and uses

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Crystal size

[edit]

See also: Rock candy, Sucrose, and Powdered sugar

Misri crystals

Rock candy coloured with green dye

• Coarse-grain sugar, also known as sanding sugar, composed of reflective crystals with grain size of about 1 to 3 mm, similar to kitchen salt. Used atop baked products and candies, it will not dissolve when subjected to heat and moisture.^[100]
• Granulated sugar (about 0.6 mm crystals), also known as table sugar or regular sugar, is used at the table, to sprinkle on foods and to sweeten hot drinks (coffee and tea), and in home baking to add sweetness and texture to baked products (cookies and cakes) and desserts (pudding and ice cream). It is also used as a preservative to prevent micro-organisms from growing and perishable food from spoiling, as in candied fruits, jams, and marmalades.^[101]
• Milled sugars such as powdered sugar (icing sugar) are ground to a fine powder. They are used for dusting foods and in baking and confectionery.^[102][100]
• Screened sugars such as caster sugar are crystalline products separated according to the size of the grains. They are used for decorative table sugars, for blending in dry mixes and in baking and confectionery.^[102]

Shapes

[edit]

“Lump sugar” redirects here. For the South Korean film, see Lump Sugar.

• Cube sugar (sometimes called sugar lumps) are white or brown granulated sugars lightly steamed and pressed together in block shape. They are used to sweeten drinks.^[102]
• Sugarloaf was the usual cone-form in which refined sugar was produced and sold until the late 19th century.^[103]

Brown sugars

[edit]

Main article: Brown sugar

Brown sugars are granulated sugars, either containing residual molasses, or with the grains deliberately coated with molasses to produce a light- or dark-colored sugar such as muscovado and turbinado. They are used in baked goods, confectionery, and toffees.^[102] Their darkness is due to the amount of molasses they contain. They may be classified based on their darkness or country of origin.^[100]

Liquid sugars

[edit]

• Syrups are thick, viscous liquids consisting primarily of a solution of sugar in water. They are used in the food processing of a wide range of products including beverages, hard candy, ice cream, and jams.^[102]
  • Inverted sugar syrup, commonly known as invert syrup or invert sugar, is a mixture of two simple sugars—glucose and fructose—that is made by heating granulated sugar in water. It is used in breads, cakes, and beverages for adjusting sweetness, aiding moisture retention and avoiding crystallization of sugars.^[102]
• Molasses and treacle are obtained by removing sugar from sugarcane or sugar beet juice, as a byproduct of sugar production. They may be blended with the above-mentioned syrups to enhance sweetness and used in a range of baked goods and confectionery including toffees and licorice.^[102]
• In winemaking, fruit sugars are converted into alcohol by a fermentation process. If the must formed by pressing the fruit has a low sugar content, additional sugar may be added to raise the alcohol content of the wine in a process called chaptalization. In the production of sweet wines, fermentation may be halted before it has run its full course, leaving behind some residual sugar that gives the wine its sweet taste.^[104]

Other sweeteners

[edit]

See also: Saccharin

• Low-calorie sweeteners are often made of maltodextrin with added sweeteners. Maltodextrin is an easily digestible synthetic polysaccharide consisting of short chains of three or more glucose molecules and is made by the partial hydrolysis of starch.^[105] Strictly, maltodextrin is not classified as sugar as it contains more than two glucose molecules, although its structure is similar to maltose, a molecule composed of two joined glucose molecules.
• Polyols are sugar alcohols and are used in chewing gums where a sweet flavor is required that lasts for a prolonged time in the mouth.^[106]

Consumption

[edit]

Worldwide sugar provides 10% of the daily calories (based on a 2000 kcal diet).^[107] In 1750, the average Briton got 72 calories a day from sugar. In 1913, this had risen to 395. In 2015, sugar still provided around 14% of the calories in British diets.^[108] According to one source, per capita consumption of sugar in 2016 was highest in the United States, followed by Germany and the Netherlands.^[109]

Nutrition and flavor

[edit]

Nutritional value per 100 g (3.5 oz)
Energy	1,576 kJ (377 kcal)
Carbohydrates	97.33 g
Sugars	96.21 g
Dietary fiber	0 g
Fat	0 g
Protein	0 g
showVitamins and minerals
Other constituents	Quantity
Water	1.77 g
Full link to USDA database entry
†Percentages estimated using US recommendations for adults,[110] except for potassium, which is estimated based on expert recommendation from the National Academies.[111]

Nutritional value per 100 g (3.5 oz)
Energy	1,619 kJ (387 kcal)
Carbohydrates	99.98 g
Sugars	99.91 g
Dietary fiber	0 g
Fat	0 g
Protein	0 g
showVitamins and minerals
Other constituents	Quantity
Water	0.03 g
Full link to USDA database entry
†Percentages estimated using US recommendations for adults,[110] except for potassium, which is estimated based on expert recommendation from the National Academies.[111]

Brown and white granulated sugar are 97% to nearly 100% carbohydrates, respectively, with less than 2% water, and no dietary fiber, protein or fat (table). Brown sugar contains a moderate amount of iron (15% of the Reference Daily Intake in a 100 gram amount, see table), but a typical serving of 4 grams (one teaspoon), would provide 15 calories and a negligible amount of iron or any other nutrient.^[112] Because brown sugar contains 5–10% molasses reintroduced during processing, its value to some consumers is a richer flavor than white sugar.^[113]

Health effects

[edit]

General

[edit]

High sugar consumption damages human health more than it provides nutritional benefit, and in particular is associated with a risk of cardiometabolic health detriments.^[3]

Sugar industry funding and health information

[edit]

Main article: Sugar marketing § Influence on health information and guidelines

Sugar refiners and manufacturers of sugary foods and drinks have sought to influence medical research and public health recommendations,^[114][115] with substantial and largely clandestine spending documented from the 1960s to 2016.^{[116][117][118][119]} The results of research on the health effects of sugary food and drink differ significantly, depending on whether the researcher has financial ties to the food and drink industry.^{[120][121][122]} A 2013 medical review concluded that “unhealthy commodity industries should have no role in the formation of national or international NCD [non-communicable disease] policy”.^[123] Similar efforts to steer coverage of sugar-related health information have been made in popular media, including news media and social media.^{[124][125][126]}

Obesity and metabolic syndrome

[edit]

Main article: Diet and obesity § Sugar consumption

A 2003 technical report by the World Health Organization (WHO) provides evidence that high intake of sugary drinks (including fruit juice) increases the risk of obesity by adding to overall energy intake.^[127] By itself, sugar is doubtfully a factor causing obesity and metabolic syndrome.^[128] Meta-analysis showed that excessive consumption of sugar-sweetened beverages increased the risk of developing type 2 diabetes and metabolic syndrome – including weight gain^[129] and obesity – in adults and children.^[130][131]

Cancer

[edit]

Sugar consumption does not directly cause cancer.^{[132][133][134]} Cancer Council Australia have stated that “there is no evidence that consuming sugar makes cancer cells grow faster or cause cancer”.^[132] There is an indirect relationship between sugar consumption and obesity-related cancers through increased risk of excess body weight.^{[134][132][135]}

The American Institute for Cancer Research and World Cancer Research Fund recommend that people limit sugar consumption.^[136][137]

There is a popular misconception that cancer can be treated by reducing sugar and carbohydrate intake to supposedly “starve” tumours. In reality, the health of people with cancer is best served by maintaining a healthy diet.^[138]

Cognition

[edit]

Despite some studies suggesting that sugar consumption causes hyperactivity, the quality of evidence is low^[139] and it is generally accepted within the scientific community that the notion of children’s ‘sugar rush’ is a myth.^[140][141] A 2019 meta-analysis found that sugar consumption does not improve mood, but can lower alertness and increase fatigue within an hour of consumption.^[142] One review of low-quality studies of children consuming high amounts of energy drinks showed association with higher rates of unhealthy behaviors, including smoking and excessive alcohol use, and with hyperactivity and insomnia, although such effects could not be specifically attributed to sugar over other components of those drinks such as caffeine.^[143]

Tooth decay

[edit]

The WHO, Action on Sugar and the Scientific Advisory Committee on Nutrition (SACN) consider free sugars an essential dietary factor in the development of dental caries.^{[144][145][146]} WHO have stated that “dental caries can be prevented by avoiding dietary free sugars”.^[144]

A review of human studies showed that the incidence of caries is lower when sugar intake is less than 10% of total energy consumed.^[147] Sugar-sweetened beverage consumption is associated with an increased risk of tooth decay.^[148]

Nutritional displacement

[edit]

The “empty calories” argument states that a diet high in added (or ‘free’) sugars will reduce consumption of foods that contain essential nutrients.^[149] This nutrient displacement occurs if sugar makes up more than 25% of daily energy intake,^[150] a proportion associated with poor diet quality and risk of obesity.^[151] Displacement may occur at lower levels of consumption.^[150]

Recommended dietary intake

[edit]

The WHO recommends that both adults and children reduce the intake of free sugars to less than 10% of total energy intake, and suggests a reduction to below 5%. “Free sugars” include monosaccharides and disaccharides added to foods, and sugars found in fruit juice and concentrates, as well as in honey and syrups. According to the WHO, “[t]hese recommendations were based on the totality of available evidence reviewed regarding the relationship between free sugars intake and body weight (low and moderate quality evidence) and dental caries (very low and moderate quality evidence).”^[2]

On 20 May 2016, the U.S. Food and Drug Administration announced changes to the Nutrition Facts panel displayed on all foods, to be effective by July 2018. New to the panel is a requirement to list “added sugars” by weight and as a percent of Daily Value (DV). For vitamins and minerals, the intent of DVs is to indicate how much should be consumed. For added sugars, the guidance is that 100% DV should not be exceeded. 100% DV is defined as 50 grams. For a person consuming 2000 calories a day, 50 grams is equal to 200 calories and thus 10% of total calories—the same guidance as the WHO.^[152] To put this in context, most 12-US-fluid-ounce (355 ml) cans of soda contain 39 grams of sugar. In the United States, a government survey on food consumption in 2013–2014 reported that, for men and women aged 20 and older, the average total sugar intakes—naturally occurring in foods and added—were, respectively, 125 and 99 g/day.^[153]

Measurements

[edit]

Various culinary sugars have different densities due to differences in particle size and inclusion of moisture. The “Engineering Resources – Bulk Density Chart” published in Powder and Bulk gives values for bulk densities:^[154]

• Beet sugar 0.80 g/mL
• Dextrose sugar 0.62 g/mL ( = 620 kg/m^3)
• Granulated sugar 0.70 g/mL
• Powdered sugar 0.56 g/mL

Society and culture

[edit]

Manufacturers of sugary products, such as soft drinks and candy, and the Sugar Research Foundation have been accused of trying to influence consumers and medical associations in the 1960s and 1970s by creating doubt about the potential health hazards of sucrose overconsumption, while promoting saturated fat as the main dietary risk factor in cardiovascular diseases.^[116] In 2016, the criticism led to recommendations that diet policymakers emphasize the need for high-quality research that accounts for multiple biomarkers on development of cardiovascular diseases.^[116]

Originally, no sugar was white; anthropologist Sidney Mintz writes that white likely became understood as the ideal after groups who associated the color white with purity transferred their value to sugar.^[155] In India, sugar frequently appears in religious observances. For ritual purity, such sugar cannot be white.^[155]

Gallery

[edit]

• Brown sugar crystals
• Whole date sugar
• Whole cane sugar (grey), vacuum-dried
• Whole cane sugar (brown), vacuum-dried
• Raw crystals of unrefined, unbleached sugar

Coffee is a beverage brewed from roasted, ground coffee beans. Darkly colored, bitter, and slightly acidic, coffee has a stimulating effect on humans, primarily due to its caffeine content, but decaffeinated coffee is also commercially available. There are also various coffee substitutes. Typically served hot, coffee has the highest sales in the world market for hot drinks.^[4]

Coffee production begins when the seeds from coffee cherries (the Coffea plant’s fruits) are separated to produce unroasted green coffee beans. The “beans” are roasted and then ground into fine particles. Coffee is brewed from the ground roasted beans, which are typically steeped in hot water before being filtered out. It is usually served hot, although chilled or iced coffee is common. Coffee can be prepared and presented in a variety of ways (e.g., espresso, French press, caffè latte, or already-brewed canned coffee). Sugar, sugar substitutes, milk, and cream are often added to mask the bitter taste or enhance the flavor.

Though coffee is now a global commodity, it has a long history tied closely to food traditions around the Red Sea. Medieval sources indicate that coffee was first consumed in the ‘Land of Saʿd ad-Din” also known as the Adal Sultanate, which encompassed Somali territories and adjacent areas of the Horn of Africa.^[5] Credible evidence of coffee drinking as the modern beverage subsequently appears in modern-day Yemen in southern Arabia in the middle of the 15th century in Sufi shrines, where coffee seeds were first roasted and brewed in a manner similar to how it is now prepared for drinking.^[6] The coffee beans were procured by the Yemenis from the Ethiopian Highlands via coastal Somali intermediaries, and cultivated in Yemen. By the 16th century, the drink had reached the rest of the Middle East and North Africa, later spreading to Europe.

The two most commonly grown coffee bean types are C. arabica and C. robusta.^[7] Coffee plants are cultivated in over 70 countries, primarily in the equatorial regions of the Americas, Southeast Asia, the Indian subcontinent, and Africa. Green, unroasted coffee is traded as an agricultural commodity. The global coffee industry is worth $495.50 billion, as of 2023.^[8] In 2023, Brazil was the leading grower of coffee beans, producing 31% of the world’s total, followed by Vietnam. While coffee sales reach billions of dollars annually worldwide, coffee farmers disproportionately live in poverty. Critics of the coffee industry have also pointed to its negative impact on the environment and the clearing of land for coffee-growing and water use.

Etymology

The word coffee entered the English language in 1582 via the Dutch koffie, borrowed from the Ottoman Turkish kahve (قهوه), borrowed in turn from the Arabic qahwah (قَهْوَة).^[9] Medieval Arabic lexicons traditionally held that the etymology of qahwah meant ‘wine’, given its distinctly dark color, and was derived from the verb qahiya (قَهِيَ), ‘to have no appetite‘.^[10] The word qahwah most likely meant ‘the dark one’, referring to the brew or the bean; qahwah is not the name of the bean, which are known in Arabic as bunn and in Cushitic languages as būn. Semitic languages have the root qhh, ‘dark color’, which became a natural designation for the beverage. Its cognates include the Hebrew qehe(h) ‘dulling’ and the Aramaic qahey (‘give acrid taste to’).^[10] Although etymologists have connected it with a word meaning ‘wine’, it is also thought to be from the Kaffa region of Ethiopia.^[11]

The terms coffee pot and coffee break originated in 1705 and 1952, respectively.^[12]

History

Main article: History of coffee

Legendary accounts

Main article: Kaldi

There are multiple anecdotal origin stories which lack evidence. In a commonly repeated legend, Kaldi, a 9th-century Ethiopian goatherd, first observed the coffee plant after seeing his flock energized by chewing on the plant.^[6] This legend does not appear before 1671, first being related by Antoine Faustus Nairon, a Maronite professor of Oriental languages and author of one of the first printed treatises devoted to coffee, De Saluberrima potione Cahue seu Cafe nuncupata Discurscus (Rome, 1671), indicating the story is likely apocryphal.^[13][14][6] Another legend attributes the discovery of coffee to a Sheikh Omar. Starving after being exiled from Mokha (a port city in what is now Yemen), Omar found berries. After attempting to chew and roast them, Omar boiled them, which yielded a liquid that revitalized and sustained him.^[1]

Historical transmission

The earliest recorded reference to the coffee bean and its qualities appears in a treatise by Al-Razi, which describes the bean—referred to as “bunchum”—as “hot and dry and very good for the stomach”.^[1] Medieval sources indicate that coffee was first introduced in the land of Saʿd ad-Din—the heartland of the Adal Sultanate, which encompassed Somali territories and adjoining areas of the Horn of Africa.^[15]

Credible evidence of coffee drinking or knowledge of the coffee tree appears in the middle of the 15th century in the accounts of Ahmed al-Ghaffar in Yemen,^[6] where coffee seeds were first roasted and brewed in a similar way to how it is prepared now. Coffee was used by Sufi circles to stay awake for their religious rituals.^[16] Accounts differ on the origin of the coffee plant before its appearance in Yemen. From Ethiopia, coffee could have been introduced to Yemen via trade across the Red Sea.^[17] One account credits Muhammad Ibn Sa’d for bringing the beverage to Aden from the African coast,^[18] other early accounts say Ali ben Omar of the Shadhili Sufi order was the first to introduce coffee to Arabia.^[18][19]

16th-century Islamic scholar Ibn Hajar al-Haytami notes in his writings that a beverage called qahwa developed from a tree in the Zeila region located in the Horn of Africa.^[16] Coffee was first exported from Ethiopia to Yemen by Somali merchants from Berbera and Zeila in modern-day Somaliland, which was procured from Harar and the Abyssinian interior. According to Captain Haines, who was the colonial administrator of Aden (1839–1854), Mokha historically imported up to two-thirds of its coffee from Berbera-based merchants before the coffee trade of Mokha was captured by British-controlled Aden in the 19th century. After that, much of the Ethiopian coffee was exported to Aden via Berbera.^[20]

By the 16th century, coffee had reached the rest of the Middle East and North Africa.^[21] The first coffee seeds were smuggled out of the Middle East by Sufi Baba Budan from Yemen to India during the time. Before then, all exported coffee was boiled or otherwise sterilized. Portraits of Baba Budan depict him as having smuggled seven coffee seeds by strapping them to his chest. The first plants from these smuggled seeds were planted in Mysore.

Coffee had spread to Italy by 1600 and then to the rest of Europe, Indonesia, and the Americas.^[22]

In 1583, Leonhard Rauwolf, a German physician, gave this description of coffee after returning from a ten-year trip to the Near East:

A beverage as black as ink, useful against numerous illnesses, particularly those of the stomach. Its consumers take it in the morning, quite frankly, in a porcelain cup passed around and from which each one drinks a cupful. It is composed of water and the fruit from a bush called bunnu.

— Léonard Rauwolf, Reise in die Morgenländer (in German)

Thriving trade brought many goods, including coffee, from the Ottoman Empire to Venice. From there it was introduced to the rest of Europe. Coffee became more widely accepted after it was deemed a Christian beverage by Pope Clement VIII in 1600, despite appeals to ban the “Muslim drink”. The first European coffee house opened in Venice in 1647.^[23]

As a colonial import

A late 19th-century advertisement for coffee essence

A 1919 advertisement for G Washington’s Coffee. The first instant coffee was invented by inventor George Washington in 1909.

The Dutch East India Company was the first to import coffee on a large scale.^[1] The Dutch later grew the crop in Java and Ceylon.^[24] The first exports of Indonesian coffee from Java to the Netherlands occurred in 1711.^[25]

Through the efforts of the British East India Company, coffee also became popular in England. In a diary entry of May 1637, John Evelyn recorded tasting the drink at Oxford in England, where it had been brought by a student of Balliol College from Crete named Nathaniel Conopios of Crete.^[26][27] Oxford’s Queen’s Lane Coffee House, established in 1654, is still in existence today. Coffee was introduced in France in 1657 and in Austria and Poland after the 1683 Battle of Vienna, when coffee was captured from supplies of the defeated Turks.^[28]

When coffee reached North America during the Colonial period, it was initially not as successful as in Europe, as alcoholic beverages remained more popular. During the Revolutionary War, the demand for coffee increased so much that dealers had to hoard their scarce supplies and raise prices dramatically; this was also due to the reduced availability of tea from British merchants,^[29] and a general resolution among many Americans to avoid drinking tea following the 1773 Boston Tea Party.^[30]

During the 18th century, coffee consumption declined in Britain, giving way to tea drinking. Tea was simpler to make, and had become cheaper with the British conquest of India and the tea industry there.^[31] During the Age of Sail, seamen aboard ships of the British Royal Navy made substitute coffee by dissolving burnt bread in hot water.^[32]

The Frenchman Gabriel de Clieu took a coffee plant to the French territory of Martinique in the Caribbean in the 1720s,^[33] from which much of the world’s cultivated arabica coffee is descended. Coffee thrived in the climate and was conveyed across the Americas.^[34] Coffee was cultivated in Saint-Domingue (now Haiti) from 1734, and by 1788 it supplied half the world’s coffee.^[35] The conditions that the enslaved people worked in on coffee plantations were a factor in the soon to follow Haitian Revolution. The coffee industry never fully recovered there.^[36]

Mass production

Meanwhile, coffee had been introduced to Brazil in 1727, although its cultivation did not gather momentum until independence in 1822.^[37] After this time, massive tracts of rainforest were cleared for coffee plantations, first in the vicinity of Rio de Janeiro and later São Paulo.^[38] Brazil went from having essentially no coffee exports in 1800 to being a significant regional producer in 1830, to being the largest producer in the world by 1852. In 1910–1920, Brazil exported around 70% of the world’s coffee, Colombia, Guatemala, and Venezuela exported 15%, and Old World production accounted for less than 5% of world exports.^[39]

Many countries in Central America took up cultivation in the latter half of the 19th century, and almost all were involved in the large-scale displacement and exploitation of the indigenous people. Harsh conditions led to many uprisings, coups, and bloody suppression of peasants.^[40] The notable exception was Costa Rica, where lack of ready labor prevented the formation of large farms. Smaller farms and more egalitarian conditions ameliorated unrest over the 19th and 20th centuries.^[41]

Rapid growth in coffee production in South America during the second half of the 19th century was matched by an increase in consumption in developed countries, though nowhere has this growth been as pronounced as in the United States, where a high rate of population growth was compounded by doubling of per capita consumption between 1860 and 1920. Though the United States was not the heaviest coffee-drinking nation at the time (Belgium, the Netherlands and Nordic countries all had comparable or higher levels of per capita consumption), due to its sheer size, it was already the largest consumer of coffee in the world by 1860, and, by 1920, around half of all coffee produced worldwide was consumed in the US.^[39]

Coffee has become a vital cash crop for many developing countries. Over one hundred million people in developing countries have become dependent on coffee as their primary source of income. It has become the primary export and economic backbone for African countries like Uganda, Burundi, Rwanda, and Ethiopia,^[42] as well as many Central American countries.

Biology

Main articles: Coffea and List of coffee varieties

Several species of shrub of the genus Coffea produce the berries from which coffee is extracted. The two main species commercially cultivated are Coffea canephora (predominantly a form known as ‘robusta’) and C. arabica.^[43] C. arabica, the most highly regarded species, is native to the southwestern highlands of Ethiopia and the Boma Plateau in southeastern Sudan and Mount Marsabit in northern Kenya.^[44] C. canephora is native to western and central Subsaharan Africa, from Guinea to Uganda and southern Sudan.^[45] Less popular species are C. liberica, C. stenophylla, C. mauritiana, and C. racemosa.

All coffee plants are classified in the large family Rubiaceae. They are evergreen shrubs or trees that may grow 5 m (15 ft) tall when unpruned. The leaves are dark green and glossy, usually 10–15 cm (4–6 in) long and 6 cm (2.4 in) wide, simple, entire, and opposite. Petioles of opposite leaves fuse at the base to form interpetiolar stipules, characteristic of Rubiaceae. The flowers are axillary, and clusters of fragrant white flowers bloom simultaneously. Gynoecium consists of an inferior ovary, also characteristic of Rubiaceae. The flowers are followed by oval berries of about 1.5 cm (0.6 in).^[46] When immature, they are green, and they ripen to yellow, then crimson, before turning black on drying. Each berry usually contains two seeds, but 5–10% of the berries^[47] have only one; these are called peaberries.^[48] Arabica berries ripen in six to eight months, while robusta takes nine to eleven months.^[49]

Coffea arabica is predominantly self-pollinating, and as a result, the seedlings are generally uniform and vary little from their parents. In contrast, Coffea canephora, and C. liberica are self-incompatible and require outcrossing. This means that useful forms and hybrids must be propagated vegetatively.^[50] Cuttings, grafting, and budding are the usual methods of vegetative propagation.^[51] On the other hand, there is great scope for experimentation in search of potential new strains.^[50]

• Illustration of Coffea arabica plant and seeds
• Coffea robusta flowers
• A flowering Coffea arabica tree
• Coffea arabica berries on the bush

Cultivation and production

Further information: Coffee production, Coffee production in Colombia, Coffee production in Ethiopia, Coffee production in India, and Coffee production in Vietnam

The traditional method of planting coffee is to place 20 seeds in each hole at the beginning of the rainy season. This method loses about 50% of the seeds’ potential, as about half fail to sprout. A more effective process of growing coffee, used in Brazil, is to raise seedlings in nurseries that are then planted outside after six to twelve months. Coffee is often intercropped with food crops, such as corn, beans, or rice during the first few years of cultivation as farmers become familiar with its requirements.^[46] Coffee plants grow within a defined area between the tropics of Cancer and Capricorn, termed the bean belt or coffee belt.^[52]

In 2020, the world production of green coffee beans was 175,647,000 60 kg bags, led by Brazil with 39% of the total, followed by Vietnam, Colombia, and Indonesia.^[53] Brazil is the largest coffee exporting nation, accounting for 15% of all world exports in 2019.^[54] As of 2021, no synthetic coffee products are publicly available but multiple bioeconomy companies have reportedly produced first batches that are highly similar on the molecular level and are close to commercialization.^[55][56][57]

Species variations

Of the two main species grown, arabica coffee (from C. arabica) is generally more highly regarded than robusta coffee (from C. canephora). Robusta coffee tends to be bitter and has less flavor but a better body than arabica. For these reasons, about three-quarters of coffee cultivated worldwide is C. arabica.^[43] Robusta strains also contain about 40–50% more caffeine than arabica.^[58] Consequently, this species is used as an inexpensive substitute for arabica in many commercial coffee blends. Good quality robusta beans are used in traditional Italian espresso blends to provide a full-bodied taste and a better foam head (known as crema).

Additionally, robusta is less susceptible to disease than arabica and can be cultivated in lower altitudes and warmer climates where arabica does not thrive.^[60] The robusta strain was first collected in 1890 from the Lomani River, a tributary of the Congo River, and was conveyed from the Congo Free State (now the Democratic Republic of the Congo) to Brussels to Java around 1900. From Java, further breeding resulted in the establishment of robusta plantations in many countries.^[59] In particular, the spread of the devastating coffee leaf rust (caused by the fungal pathogen Hemileia vastatrix), to which arabica is vulnerable, hastened the uptake of the resistant robusta. The pathogen and results in light, rust-colored spots on the undersides of coffee plant leaves.^[61] It grows exclusively on the leaves of coffee plants.^[62] Coffee leaf rust is found in virtually all countries that produce coffee.^[63]

Beans from different countries or regions can usually be distinguished by differences in flavor, aroma, body, and acidity.^[64] These taste characteristics are dependent not only on the coffee’s growing region but also on genetic subspecies (varietals) and processing.^[65] Varietals are generally known by the region in which they are grown, such as Colombian, Java, and Kona. Arabica coffee beans are cultivated mainly in Latin America, eastern Africa or Asia, while robusta beans are grown in central Africa, southeast Asia, and Brazil.^[43]

Coffee can also be blended with medicinal or functional mushrooms, of which some of the most frequently used include lion’s mane, chaga, Cordyceps, and reishi.^[66] Mushroom coffee has about half the caffeine of standard coffee.^[67] However, drinking mushroom coffee can result in digestive issues and high amounts can result in liver toxicity.^[67] There is little clinical evidence for the benefits of mushroom coffee.^[68]

Pests and treatments

Fungi

Coffee wilt disease or tracheomycosis is a common vascular wilt found in Eastern and Central Africa that can kill coffee trees it infects. It is induced by the fungal pathogen Gibberella xylarioides. It can affect several Coffea species, and could potentially threaten production worldwide.^[69]

Mycena citricolor, American leaf spot, is a fungus that can affect the whole coffee plant. It grows on leaves, resulting in leaves with holes that often fall from the plant. It is a threat primarily in Latin America.^[70]

Animals

Over 900 species of insect have been recorded as pests of coffee crops worldwide. Of these, over a third are beetles, and over a quarter are bugs. Some 20 species of nematodes, 9 species of mites, and several snails and slugs also attack the crop. Birds and rodents sometimes eat coffee berries, but their impact is minor compared to invertebrates.^[72] In general, arabica is the more sensitive species to invertebrate predation overall. Each part of the coffee plant is assailed by different animals. Nematodes attack the roots, coffee borer beetles burrow into stems and woody material,^[73] and the foliage is attacked by over 100 species of larvae (caterpillars) of butterflies and moths.^[74]

Mass spraying of insecticides has often proven disastrous, as predators of the pests are more sensitive than the pests themselves.^[75] Instead, integrated pest management has developed, using techniques such as targeted treatment of pest outbreaks, and managing crop environment away from conditions favoring pests. Branches infested with scale are often cut and left on the ground, which causes scale parasites to not only attack the scale on the fallen branches but in the plant as well.^[76]

The 2-mm-long coffee borer beetle (Hypothenemus hampei) is the most damaging insect pest of the world’s coffee industry, destroying up to 50 percent or more of the coffee berries on plantations in most coffee-producing countries. The adult female beetle nibbles a single tiny hole in a coffee berry and lays 35 to 50 eggs. Inside, the offspring grow, mate, and then emerge from the commercially ruined berry to disperse, repeating the cycle. Pesticides are mostly ineffective because the beetle juveniles are protected inside the berry nurseries, but they are vulnerable to predation by birds when they emerge. When groves of trees are nearby, the American yellow warbler, rufous-capped warbler, and other insectivorous birds have been shown to reduce by 50 percent the number of coffee berry borers in Costa Rica coffee plantations.^[71]

Ecological effects

See also: Sustainable coffee

Originally, coffee was grown in the shade of trees that provided a habitat for many animals and insects.^[77] Remnant forest trees were used for this purpose, but many species have been planted as well. These include leguminous trees of the genera Acacia, Albizia, Cassia, Erythrina, Gliricidia, Inga, and Leucaena, as well as the nitrogen-fixing non-legume sheoaks of the genus Casuarina, and the silky oak Grevillea robusta.^[78]

This method is commonly called “shade-grown coffee“. Starting in the 1970s, many farmers switched their production method to sun cultivation, in which coffee is grown in rows under full sun with little or no forest canopy. This causes berries to ripen more rapidly and bushes to produce higher yields, but requires the clearing of trees and increased use of fertilizer and pesticides, which damage the environment and cause health problems.^[79]

Unshaded coffee plants grown with fertilizer yield the most coffee, although unfertilized shaded crops generally yield more than unfertilized unshaded crops: the response to fertilizer is much greater in full sun.^[80] While traditional coffee production causes berries to ripen more slowly and produce lower yields, the quality of the coffee is allegedly superior.^[81] In addition, the traditional shaded method provides living space for many wildlife species. Proponents of shade cultivation say environmental problems such as deforestation, pesticide pollution, habitat destruction, and soil and water degradation are the side effects of the practices employed in sun cultivation.^[77][82]

The American Birding Association, Smithsonian Migratory Bird Center,^[83] National Arbor Day Foundation,^[84] and the Rainforest Alliance have led a campaign for ‘shade-grown’ and organic coffees, which can be sustainably harvested.^[85] Shaded coffee cultivation systems show greater biodiversity than full-sun systems, and those more distant from continuous forest compare rather poorly to undisturbed native forest in terms of habitat value for some bird species.^[86][87]

Coffee production uses a large volume of water. On average it takes about 140 litres (37 US gal) of water to grow the coffee beans needed to produce one cup of coffee. Growing the plants needed to produce 1 kg (2.2 lb) of roasted coffee in Africa, South America or Asia requires 26,400 litres (7,000 US gal) of water.^[88] As with many other forms of agriculture, often much of this is rainwater, much of which would otherwise run off into rivers or coastlines, while much water actually absorbed by the plants is transpired straight back into the local environment through the plants’ leaves (especially for cooling effects); broad estimates aside, consequential margins vary considerably based on details of local geography and horticultural practice. Coffee is often grown in countries where there is a water shortage, such as Ethiopia.^[89]

Used coffee grounds may be used for composting or as a mulch. They are especially appreciated by worms and acid-loving plants such as blueberries.^[90] Climate change may significantly impact coffee yields during the 21st century, such as in Nicaragua and Ethiopia which could lose more than half of the farming land suitable for growing (Arabica) coffee.^[91][92][93] As of 2016, at least 34% of global coffee production was compliant with voluntary sustainability standards such as Fairtrade, UTZ, and 4C (The Common Code for the Coffee Community).^[94]

Preprocessing

Coffee berries are traditionally selectively picked by hand, which is labor-intensive as it involves the selection of only the berries at the peak of ripeness. More commonly, crops are strip picked, where all berries are harvested simultaneously regardless of ripeness by person or machine. After picking, green coffee is processed by one of two types of method—a dry process method which is often simpler and less labor-intensive, and a wet process method, which incorporates batch fermentation, uses larger amounts of water in the process, and often yields a milder coffee.^[95]

Then they are sorted by ripeness and color, and most often the flesh of the berry is removed, usually by machine, and the seeds are fermented to remove the slimy layer of mucilage still present on the seed. When the fermentation is finished, the seeds are washed with large quantities of fresh water to remove the fermentation residue, which generates massive amounts of coffee wastewater. Finally, the seeds are dried.^[96]

The best (but least used) method of drying coffee is using drying tables. In this method, the pulped and fermented coffee is spread thinly on raised beds, which allows the air to pass on all sides of the coffee, and then the coffee is mixed by hand. The drying that then takes place is more uniform, and fermentation is less likely. Most African coffee is dried in this manner and certain coffee farms around the world are starting to use this traditional method.^[96] Next, the coffee is sorted, and labeled as green coffee. Some companies use cylinders to pump in heated air to dry the coffee seeds, though this is generally in places where the humidity is very high.^[96]

An Asian coffee known as kopi luwak undergoes a peculiar process made from coffee berries eaten by the Asian palm civet, passing through its digestive tract, with the beans eventually harvested from feces. Coffee brewed from this process^[97] is among the most expensive in the world, with bean prices reaching $160 per pound or $30 per brewed cup.^[98] Kopi luwak coffee is said to have a uniquely rich, slightly smoky aroma and flavor with hints of chocolate, resulting from the action of digestive enzymes breaking down bean proteins to facilitate partial fermentation.^[97][98] In Thailand, black ivory coffee beans are fed to elephants whose digestive enzymes reduce the bitter taste of beans collected from dung.^[99] These beans sell for up to $1,100 a kilogram ($500 per lb), achieving the world’s most expensive coffee,^[99] three times costlier than palm civet coffee beans.^[98]

Processing

Roasting

Main article: Coffee roasting

The next step in the process is the roasting of green coffee. Coffee is usually sold in a roasted state, and with rare exceptions, such as infusions from green coffee beans,^[100] coffee is roasted before it is consumed. It can be sold roasted by the supplier, or it can be home roasted.^[101] The roasting process influences the taste of the beverage by changing the coffee bean both physically and chemically. The bean decreases in weight as moisture is lost and increases in volume, causing it to become less dense. The density of the bean also influences the strength of the coffee and the requirements for packaging.

The actual roasting begins when the temperature inside the bean reaches approximately 200 °C (392 °F), though different varieties of seeds differ in moisture and density and therefore roast at different rates.^[102] During roasting, caramelization occurs as intense heat breaks down starches, changing them to simple sugars that begin to brown, which darkens the color of the bean.^[103]

Sucrose is rapidly lost during the roasting process, and may disappear entirely in darker roasts. During roasting, aromatic oils and acids weaken, changing the flavor; at 205 °C (401 °F), other oils start to develop.^[102] One of these oils, caffeol, is created at about 200 °C (392 °F), and is largely responsible for coffee’s aroma and flavor.^[24] The difference of caffeine content between a light roast and a dark roast is only about 0.1%.^[104]

Grading roasted beans

See also: Food grading

Depending on the color of the roasted beans as perceived by the human eye, they will be labeled as light, medium light, medium, medium dark, dark, or very dark. A more accurate method of discerning the degree of roast involves measuring the reflected light from roasted seeds illuminated with a light source in the near-infrared spectrum. This elaborate light meter uses a process known as spectroscopy to return a number that consistently indicates the roasted coffee’s relative degree of roast or flavor development. Coffee has, in many countries, been graded by size longer than it has been graded by quality. Grading is generally done with sieves, numbered to indicate the size of the perforations.^[105]

Roast characteristics

The degree of roast affects coffee flavor and body. The color of coffee after brewing is also affected by the degree of roasting.^[106] Darker roasts are generally bolder because they have less fiber content and a more sugary flavor. Lighter roasts have a more complex and therefore perceived stronger flavor from aromatic oils and acids otherwise destroyed by longer roasting times.^[107] Roasting does not alter the amount of caffeine in the bean, but does give less caffeine when the beans are measured by volume because the beans expand during roasting.^[108] A small amount of chaff is produced during roasting from the skin left on the seed after processing.^[109] Chaff is usually removed from the seeds by air movement, though a small amount is added to dark roast coffees to soak up oils on the seeds.^[102]

Decaffeination

Decaffeination of coffee seeds is done while the seeds are still green. Many methods can remove caffeine from coffee, but all involve either soaking the green seeds in hot water (often called the “Swiss water process”)^[110] or steaming them, then using a solvent to dissolve caffeine-containing oils.^[24] Decaffeination is often done by processing companies, and the extracted caffeine is usually sold to the pharmaceutical industry.^[24]

Storage

Main article: Coffee bean storage

Coffee is best stored in an airtight container made of ceramic, glass or non-reactive metal.^[111] Higher quality prepackaged coffee usually has a one-way valve that prevents air from entering while allowing the coffee to release gases.^[112] Coffee freshness and flavor is preserved when it is stored away from moisture, heat, and light. The tendency of coffee to absorb strong smells from food means that it should be kept away from such smells. Storage of coffee in refrigerators is not recommended due to the presence of moisture which can cause deterioration. Exterior walls of buildings that face the sun may heat the interior of a home, and this heat may damage coffee stored near such a wall. Heat from nearby ovens also harms stored coffee.^[111]

In 1931, a method of packing coffee in a sealed vacuum in cans was introduced. The roasted coffee was packed and then 99% of the air was removed, allowing the coffee to be stored indefinitely until the can was opened. Today this method is in mass use for coffee in a large part of the world.^[113]

Brewing

Main article: Coffee brewing

Coffee beans must be ground and brewed to create a beverage. The criteria for choosing a method include flavor and economy. Almost all methods of preparing coffee require that the beans be ground and then mixed with hot water long enough to allow the flavor to emerge but not so long as to draw out bitter compounds. The liquid can be consumed after the spent grounds are removed. Brewing considerations include the fineness of the grind, how the water is used to extract the flavor, the ratio of coffee grounds to water (the brew ratio), additional flavorings such as sugar, milk, and spices, and the technique to be used to separate spent grounds. Optimal coffee extraction occurs between 91 and 96 °C (196 and 205 °F).^[116] Ideal holding temperatures range from 85 to 88 °C (185 to 190 °F) to as high as 93 °C (199 °F) and the ideal serving temperature is 68 to 79 °C (154 to 174 °F).^[117]

Coffee beans may be ground with a burr grinder, which uses revolving elements to shear the seed; a blade grinder cuts the seeds with blades moving at high speed; and a mortar and pestle crush the seeds. For most brewing methods a burr grinder is deemed superior because the grind is more even and the grind size can be adjusted.^[118] The type of grind is often named after the brewing method for which it is generally used, Turkish grind being the finest, while coffee percolator or French press are the coarsest. The most common grinds are between these extremes: a medium grind is used in most home coffee-brewing machines.^[119]

Coffee may be brewed by several methods. It may be boiled, steeped, or pressurized. Brewing coffee by boiling was the earliest method, and Turkish coffee is an example of this method. It is prepared by grinding or pounding the seeds to a fine powder, then adding it to water and bringing it to a boil for no more than an instant in a pot called a cezve or, in Greek, a μπρίκι: bríki (from Turkish ibrik). This produces a strong coffee with a layer of foam on the surface and sediment (which is not meant for drinking) settling at the bottom of the cup.^[1]

Drip brewers and automatic coffeemakers brew coffee using gravity. In an automatic coffeemaker, hot water drips onto coffee grounds that are held in a paper, plastic, or perforated metal coffee filter, allowing the water to seep through the ground coffee while extracting its oils and essences. The liquid drips through the coffee and the filter into a carafe or pot, and the spent coffee grounds are retained in the filter.^[120]

In a coffee percolator, water is pulled under a pipe by gravity, which is then forced into a chamber above a filter by steam pressure created by boiling. The water then seeps through the grounds, and the process is repeated until terminated by removing from the heat, by an internal timer,^[121] or by a thermostat that turns off the heater when the entire pot reaches a certain temperature.

The espresso method forces hot pressurized water through finely-ground coffee.^[119] As a result of brewing under high pressure (typically 9 bar),^[122] the espresso beverage is more concentrated (as much as 10 to 15 times the quantity of coffee to water as gravity-brewing methods can produce) and has a more complex physical and chemical constitution.^[123] A well-prepared espresso has a reddish-brown foam called crema that floats on the surface.^[119] Other pressurized water methods include the moka pot and vacuum coffee maker. The AeroPress also works similarly, moving a column of water through a bed of coffee.

Cold brew coffee is made by steeping coarsely ground beans in cold water for several hours, then filtering them.^[124] This results in a brew lower in acidity than most hot-brewing methods.

Serving

“Black coffee” redirects here. For other uses, see Black Coffee (disambiguation).

See also: List of coffee drinks

Once brewed, coffee may be served in a variety of ways. Drip-brewed, percolated, or French-pressed/cafetière coffee may be served as white coffee with a dairy product such as milk or cream, or dairy substitute, or as black coffee with no such addition. It may be sweetened with sugar or artificial sweetener. When served cold, it is called iced coffee.

Espresso-based coffee has a variety of possible presentations. In its most basic form, an espresso is served alone as a shot or short black, or with hot water added, when it is known as Caffè Americano. A long black is made by pouring a double espresso into an equal portion of water, retaining the crema, unlike Caffè Americano.^[125] Milk is added in various forms to an espresso: steamed milk makes a caffè latte,^[126] equal parts steamed milk and milk froth make a cappuccino,^[125] and a dollop of hot foamed milk on top creates a caffè macchiato.^[127] A flat white is prepared by adding steamed hot milk (microfoam) to two espresso shots.^[128] It has less milk than a latte, but both are varieties of coffee to which the milk can be added in such a way as to create a decorative surface pattern. Such effects are known as latte art.^[129]

Coffee is frequently served iced. Popular options include Frappés, Iced lattes, or stronger brewed coffee served with ice.^[130]

Coffee can also be incorporated with alcohol to produce a variety of beverages: it is combined with whiskey in Irish coffee, and it forms the base of alcoholic coffee liqueurs such as Kahlúa and Tia Maria. Some craft beers have coffee or coffee extracts added to the beer,^[131] although porter and stout beers may have a coffee-like taste solely due to roasted grains.^[132]

Instant coffee

Main article: Instant coffee

Many products are sold for the convenience of consumers who do not want to prepare their coffee or who do not have access to coffeemaking equipment. Instant coffee is dried into soluble powder or freeze-dried into granules that can be quickly dissolved in hot water.^[133] A New Zealand invention and staple, instant coffee was originally invented in Invercargill in 1890, by food chemist David Strang.^[134] It rapidly gained in popularity in many countries in the post-war period, with Nescafé being the most popular product.^[135] Many consumers determined that the convenience of preparing a cup of instant coffee more than made up for a perceived inferior taste,^[136] although, since the late 1970s, instant coffee has been produced differently in such a way that is similar to the taste of freshly brewed coffee.^[137] Paralleling (and complementing) the rapid rise of instant coffee was the coffee vending machine invented in 1947 and widely distributed since the 1950s.^[138]

Economics

Main article: Economics of coffee

Brazil	3.41
Vietnam	1.96
Indonesia	0.76
Colombia	0.68
Ethiopia	0.56
World	11.06
Source: FAOSTAT of the United Nations[139]

World production

In 2023, world production of green coffee beans was 11 million tonnes, led by Brazil with 31% of the total and Vietnam as a secondary producer (table).

Commodity market

Coffee retailing

Bag of coffee beans

Bag with ziplock and one-way valve to prevent mold

Coffee is bought and sold as green coffee beans by roasters, investors, and price speculators as a tradable commodity in commodity markets and exchange-traded funds. Coffee futures contracts for Grade 3 washed arabicas are traded on the New York Mercantile Exchange under ticker symbol KC, with contract deliveries occurring every year in March, May, July, September, and December.^{[140][141][142][143]} Higher and lower grade arabica coffees are sold through other channels. Futures contracts for robusta coffee are traded on the London International Financial Futures and Options Exchange and, since 2007, on the New York Intercontinental Exchange.^[144]

Dating to the 1970s, coffee has been incorrectly described by many, including historian Mark Pendergrast, as the world’s “second most legally traded commodity”.^[145][146] Instead, “coffee was the second most valuable commodity exported by developing countries,” from 1970 to circa 2000.^[147] This fact was derived from the United Nations Conference on Trade and Development Commodity Yearbooks which show “Third World” commodity exports by value in the period 1970–1998 with crude oil in first place, coffee in second, followed by sugar, cotton, and others. Coffee continues to be an important commodity export for developing countries, but more recent figures are not readily available due to the shifting and politicized nature of the category “developing country”.^[145] Coffee is one of seven commodities included in the EU Regulation on Deforestation-free products (EUDR), which aims to guarantee that the products European Union (EU) citizens consume do not contribute to deforestation or forest degradation worldwide.^[148]

International Coffee Day, which is claimed to have originated in Japan in 1983 with an event organized by the All Japan Coffee Association, takes place on 29 September in several countries.^[149] There are numerous trade associations and lobbying and other organizations representing the coffee industry.^[150][151]

Consumption

Nordic countries are the highest coffee-consuming nations when measured per capita per year, with consumption in Finland as the world’s highest.^[152]

1. Finland – 26.45 lb (12.00 kg)
2. Norway – 21.82 lb (9.90 kg)
3. Iceland – 19.84 lb (9.00 kg)
4. Denmark – 19.18 lb (8.70 kg)
5. Netherlands – 18.52 lb (8.40 kg)
6. Sweden – 18.00 lb (8.16 kg)
7. Switzerland – 17.42 lb (7.90 kg)
8. Belgium – 15.00 lb (6.80 kg)
9. Luxembourg – 14.33 lb (6.50 kg)
10. Canada – 14.33 lb (6.50 kg)

United States

An April 2024, National Coffee Association survey indicated that coffee consumption in the U.S. reached a 20-year high, with 67% of U.S. adults reporting drinking coffee in the past day. This is a significant increase compared to 2004 when fewer than half of U.S. adults reported coffee consumption in the past day. Drip coffee remains the most popular brewing method, but espresso-based beverages, particularly lattes, espresso shots, and cappuccinos, gained popularity.^[153]

Economic impacts

Further information: List of countries by coffee production

Market volatility, and thus increased returns, during 1830 encouraged Brazilian entrepreneurs to shift their attention from gold to coffee, a crop hitherto reserved for local consumption. Concurrent with this shift was the commissioning of vital infrastructures, including approximately 7,000 km (4,300 mi) of railroads between 1860 and 1885. The creation of these railways enabled the importation of workers, to meet the enormous need for labor. This development primarily affected the State of Rio de Janeiro, as well as the Southern States of Brazil, most notably São Paulo, due to its favorable climate, soils, and terrain.^[154]

Coffee production attracted immigrants in search of better economic opportunities in the early 1900s. Mainly, these were Portuguese, Italian, Spanish, German, and Japanese nationals. For instance, São Paulo received approximately 733,000 immigrants in the decade preceding 1900, whilst only receiving approximately 201,000 immigrants in the six years to 1890. The production yield of coffee increases. In 1880, São Paulo produced 1.2 million bags (25% of total production), in 1888 2.6 million (40%), and in 1902 8 million bags (60%).^[155] Coffee is then 63% of the country’s exports. The gains made by this trade allow sustained economic growth in the country.

The four years between planting a coffee and the first harvest extend seasonal variations in the price of coffee. The Brazilian Government is thus forced, to some extent, to keep strong price subsidies during production periods.

Fair trade

Main article: Fair trade coffee

See also: Fair trade debate

The concept of fair trade labeling, which guarantees coffee growers a negotiated preharvest price, began in the late 1980s with the Max Havelaar Foundation’s labeling program in the Netherlands. In 2004, 24,222 metric tons (of 7,050,000 produced worldwide) were fair trade; in 2005, 33,991 metric tons out of 6,685,000 were fair trade, an increase from 0.34% to 0.51%.^[156][157] A number of fair trade impact studies have shown that fair trade coffee produces a mixed impact on the communities that grow it. Many studies are skeptical about fair trade, reporting that it often worsens the bargaining power of those who are not part of it. The first fair-trade coffee was an effort to import Guatemalan coffee into Europe as “Indio Solidarity Coffee”.^[158]

Since the founding of organizations such as the European Fair Trade Association (1987), the production and consumption of fair trade coffee has grown as some local and national coffee chains started to offer fair trade alternatives.^[159] For example, in April 2000, after a year-long campaign by the human rights organization Global Exchange, Starbucks decided to carry fair-trade coffee in its stores.^[160] Since September 2009 all Starbucks Espresso beverages in UK and Ireland are made with Fairtrade and Shared Planet certified coffee.^[161]

A 2005 study done in Belgium concluded that consumers’ buying behavior is not consistent with their positive attitude toward ethical products. On average 46% of European consumers claimed to be willing to pay substantially more for ethical products, including fair-trade products such as coffee. The study found that the majority of respondents were unwilling to pay the actual price premium of 27% for fair trade coffee.^[160]

Specialty coffee and new trading relationships

Specialty coffee has driven a desire for more traceable coffee, and as such businesses are offering coffees that may come from a single origin, or a single lot from a single farm. This can give rise to the roaster developing a relationship with the producer, to discuss and collaborate on coffee. The roaster may also choose to cut out the importers and exporters to directly trade with the producer, or they may “fairly trade”, where any third-parties involved in the transaction are thought to have added value, and there is a high level of transparency around the price, although often there is no certification to back it up.^[162] This process tends to only be done for high-quality products since keeping the coffee separate from other coffees adds costs, and so only coffee that roasters believe can command a higher price will be kept separate.^[163]

Some coffee is sold through internet auction – much of it is sold through a competition, with coffees passing through local and international jurors, and then the best coffees being selected to be bid on. Some estates known for high-quality coffee also sell their coffee through an online auction. This can lead to increased price transparency since the final price paid is usually published.^[162]

Composition

Brewed coffee made from typical grounds and tap water is 99.4% water and contains 40 mg of caffeine per 100 ml with no essential nutrients in significant content.^[164] Restaurant-brewed espresso is 97.8% water and contains some dietary minerals, B vitamins, and 212 mg of caffeine per 100 ml.^[165]

Although coffee polyphenols, particularly chlorogenic acid, are present in coffee,^[166] there is no evidence that coffee polyphenols impart a health benefit or have antioxidant value following ingestion.^[167][168] Overall, coffee components do not pose risks to health, and do not provide health effects for adults consuming about 3-4 cups per day, which would supply 300-400 mg of caffeine per day.^[167]

Pharmacology

Main articles: List of chemical compounds in coffee and Health effects of coffee

A psychoactive chemical in coffee is caffeine, an adenosine receptor antagonist that is known for its stimulant effects.^[167][169] Coffee also contains the monoamine oxidase inhibitors β-carboline and harmane, which may contribute to its psychoactivity.^[170] In a healthy liver, caffeine is mostly metabolized by liver enzymes. The excreted metabolites are mostly paraxanthines—theobromine and theophylline—and a small amount of unchanged caffeine. Therefore, the metabolism of caffeine depends on the state of this enzymatic system of the liver.^[167][171]

Coffee has laxative effects, inducing defecation in some people within minutes of consumption.^{[172][173][174][175]} The specific mechanism of action and chemical constituents responsible are still unknown, but caffeine is likely not responsible.^[176]

A 2017 review of clinical trials found that drinking coffee is generally safe within usual levels of intake and is more likely to improve health outcomes than to cause harm at doses of 3-4 cups of coffee daily. Exceptions include possible increased risk in women having bone fractures, and a possible increased risk in pregnant women of fetal loss or decreased birth weight. Results were complicated by poor study quality, and differences in age, gender, health status, and serving size.^[177]

Caffeine content

See also: Low caffeine coffee

Depending on the type of coffee and method of preparation, the caffeine content of a single serving can vary greatly.^[178][179] The caffeine content of a cup of coffee varies depending mainly on the brewing method, and also on the coffee variety, such as 40 mg per 100 ml in regular coffee and 212 mg per 100 ml in espresso.^[164][165] According to a 1979 analysis, coffee has the following caffeine content, depending on how it is prepared:^[178]

	Serving size	Caffeine content
Brewed	200 mL (7 US fl oz)	80–135 mg
Drip	200 mL (7 US fl oz)	115–175 mg
Espresso	45–60 mL (1+1⁄2–2 US fl oz)	100 mg

Caffeine remains stable up to 200 °C (392 °F) and completely decomposes around 285 °C (545 °F).^[180] Given that roasting temperatures do not exceed 200 °C (392 °F) for long and rarely if ever reach 285 °C (545 °F), the caffeine content of a coffee is not likely changed much by the roasting process.^[181]

Society and culture

Main article: Coffee culture

See also: Coffee culture in Australia and Coffee culture in former Yugoslavia

Coffee is often consumed alongside (or instead of) breakfast by many at home or when eating out at diners or cafeterias. It is often served at the end of a formal meal, normally with a dessert, and at times with an after-dinner mint, especially when consumed at a restaurant or dinner party.^[182]

Coffeehouses

Main article: Coffeehouse

Widely known as coffeehouses or cafés, establishments serving prepared coffee or other hot beverages have existed for over five hundred years. The first coffeehouse in Constantinople was opened in 1475 by traders arriving from Damascus and Aleppo.^[184]

A contemporary term for a person who makes coffee beverages, often a coffeehouse employee, is a barista. The Specialty Coffee Association of Europe and the Specialty Coffee Association of America have been influential in setting standards and providing training.^[185]

Break

The coffee break in the United States and elsewhere is a short mid-morning rest period granted to employees. It originated in the late 19th century in Stoughton, Wisconsin, with the wives of Norwegian immigrants. The city celebrates this every year with the Stoughton Coffee Break Festival.^[186] In 1951, Time noted that “[s]ince the war, the coffee break has been written into union contracts”.^[187] The term subsequently became common through a Pan-American Coffee Bureau ad campaign of 1952 which urged consumers, “Give yourself a Coffee-Break – and Get What Coffee Gives to You.”^[188] John B. Watson, a behavioral psychologist who worked with Maxwell House later in his career, helped to popularize coffee breaks within the American culture.^[189]

Prohibition and condemnation

Historically, several religious groups have prohibited or condemned the consumption of coffee. The permissibility of coffee was debated in the Islamic world during the early 16th century, variously being permitted or prohibited until it was ultimately accepted by the 1550s.^[190] Contention existed among Ashkenazi Jews as to whether coffee was acceptable for Passover until it was certified kosher in 1923.^[191] Some Christian groups, such as Mormons and Seventh-day Adventists, discourage the consumption of coffee.^[192][193] Some Rastafarians also generally avoid coffee.^[194]

Furthermore, coffee has been prohibited for political and economic reasons. King Charles II of England briefly outlawed coffeehouses to quell perceived rebellion.^[31] King Frederick the Great banned it in Prussia, concerned about the price of importing of coffee without production colonies.^[195][196] Sweden prohibited coffee in the 18th century for the same reasons.^[197] Coffee has seldom been prohibited based on its intoxicating effect.^[198]

Folklore and culture

“Cup of joe” redirects here. For other uses, see Cup of Joe (disambiguation).

There are many stories about coffee and its impact on people and society. The Oromo people would customarily plant a coffee tree on the graves of powerful sorcerers. They believed that the first coffee bush sprang up from the tears that the god of heaven shed over the corpse of a dead sorcerer.^[199] Johann Sebastian Bach was inspired to compose the humorous Coffee Cantata, about dependence on the beverage, which was controversial in the early 18th century.^[200]

In the United States, coffee is sometimes called a “cup of Joe”. The origin of this phrase is in dispute; a common story is that in World War I the US Secretary of the Navy Josephus “Joe” Daniels banned alcohol on navy ships which meant that the strongest drink available aboard the ship was black coffee. Sailors began referring to coffee as a “cup of Joe” in reference to Daniels. However, this story may be apocryphal since the first written account of it was in 1930, some 15 years later. Another explanation is that a formerly popular nickname for coffee, jamoke, from mocha java, was shortened to Joe. A third origin story is that since coffee is such a commonly consumed beverage, it is the drink of the average Joe.