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Friday, May 21, 2021

Barley

From Wikipedia, the free encyclopedia
 
Barley
Illustration Hordeum vulgare0B.jpg
Drawing of barley
Scientific classification edit
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Monocots
Clade: Commelinids
Order: Poales
Family: Poaceae
Subfamily: Pooideae
Genus: Hordeum
Species:
H. vulgare
Binomial name
Hordeum vulgare
Synonyms

List

Barley (Hordeum vulgare), a member of the grass family, is a major cereal grain grown in temperate climates globally. It was one of the first cultivated grains, particularly in Eurasia as early as 10,000 years ago. Barley has been used as animal fodder, as a source of fermentable material for beer and certain distilled beverages, and as a component of various health foods. It is used in soups and stews, and in barley bread of various cultures. Barley grains are commonly made into malt in a traditional and ancient method of preparation.

In 2017, barley was ranked fourth among grains in quantity produced (149 million tonnes) behind maize, rice and wheat.

Etymology

Barley seeds with and without the outer husk
 
Seed under a microscope.

The Old English word for barley was bere, which traces back to Proto-Indo-European and is cognate to the Latin word farina "flour".

The direct ancestor of modern English barley in Old English was the derived adjective bærlic, meaning "of barley". The first citation of the form bærlic in the Oxford English Dictionary dates to around 966 CE, in the compound word bærlic-croft. The underived word bære survives in the north of Scotland as bere, and refers to a specific strain of six-row barley grown there.

The word barn, which originally meant "barley-house", is also rooted in these words.

The Latin word hordeum, used as barley's scientific genus name, is derived from an Indo-European root meaning "bristly" after the long prickly awns of the ear of grain.

Biology

Barley
 
The cross-section of a barley root

Barley is a member of the grass family. It is a self-pollinating, diploid species with 14 chromosomes. The wild ancestor of domesticated barley, Hordeum vulgare subsp. spontaneum, is abundant in grasslands and woodlands throughout the Fertile Crescent area of Western Asia and northeast Africa, and is abundant in disturbed habitats, roadsides, and orchards. Outside this region, the wild barley is less common and is usually found in disturbed habitats. However, in a study of genome-wide diversity markers, Tibet was found to be an additional center of domestication of cultivated barley.

Domestication

Wild barley (H. spontaneum) is the ancestor of domestic barley (H. vulgare). Over the course of domestication, barley grain morphology changed substantially, moving from an elongated shape to a more rounded spherical one. Additionally, wild barley has distinctive genes, alleles, and regulators with potential for resistance to abiotic or biotic stresses to cultivated barley and adaptation to climatic changes. Wild barley has a brittle spike; upon maturity, the spikelets separate, facilitating seed dispersal. Domesticated barley has nonshattering spikes, making it much easier to harvest the mature ears. The nonshattering condition is caused by a mutation in one of two tightly linked genes known as Bt1 and Bt2; many cultivars possess both mutations. The nonshattering condition is recessive, so varieties of barley that exhibit this condition are homozygous for the mutant allele.

Domestication in barley is followed by the change of key phenotypic traits at the genetic level. Little is known about the genetic variation among domesticated and wild genes in the chromosomal regions.

Two-row and six-row barley

Two-row and six-row barley

Spikelets are arranged in triplets which alternate along the rachis. In wild barley (and other Old World species of Hordeum), only the central spikelet is fertile, while the other two are reduced. This condition is retained in certain cultivars known as two-row barleys. A pair of mutations (one dominant, the other recessive) result in fertile lateral spikelets to produce six-row barleys. Recent genetic studies have revealed that a mutation in one gene, vrs1, is responsible for the transition from two-row to six-row barley.

Two-row barley has a lower protein content than six-row barley, thus a more fermentable sugar content. High-protein barley is best suited for animal feed. Malting barley is usually lower protein ("low grain nitrogen", usually produced without a late fertilizer application) which shows more uniform germination, needs shorter steeping, and has less protein in the extract that can make beer cloudy. Two-row barley is traditionally used in English ale-style beers, with two-row malted summer barley being preferred for traditional German beers.

Amylase-rich six-row barley is common in some American lager-style beers, especially when adjuncts such as corn and rice are used.

Hulless barley

Hulless or "naked" barley (Hordeum vulgare L. var. nudum Hook. f.) is a form of domesticated barley with an easier-to-remove hull. Naked barley is an ancient food crop, but a new industry has developed around uses of selected hulless barley to increase the digestible energy of the grain, especially for swine and poultry. Hulless barley has been investigated for several potential new applications as whole grain, and for its value-added products. These include bran and flour for multiple food applications.

Classification

Barley

In traditional classifications of barley, these morphological differences have led to different forms of barley being classified as different species. Under these classifications, two-row barley with shattering spikes (wild barley) is classified as Hordeum spontaneum K. Koch. Two-row barley with nonshattering spikes is classified as H. distichum L., six-row barley with nonshattering spikes as H. vulgare L. (or H. hexastichum L.), and six-row with shattering spikes as H. agriocrithon Åberg.

Because these differences were driven by single-gene mutations, coupled with cytological and molecular evidence, most recent classifications treat these forms as a single species, H. vulgare L.

Cultivars

Vocabulary
  • DON: Acronym for deoxynivalenol, a toxic byproduct of Fusarium head blight, also known as vomitoxin
  • Heading date: A parameter in barley cultivation
  • Lodging: The bending over of the stems near ground level
  • Nutans: A designation for a variety with a lax ear, as opposed to 'erectum' (with an erect ear)
  • QCC: A pathotype of stem rust (Puccinia graminis f. sp. tritici)
  • Rachilla: The part of a spikelet that bears the florets, the length of the rachilla hairs is a characteristic of barley varieties
Cultivars
  • 'Azure', a six-row, blue-aleurone malting barley released in 1982, it was high-yielding with strong straw, but was susceptible to loose smut.
  • 'Beacon', a six-row malting barley with rough awns, short rachilla hairs and colorless aleurone, it was released in 1973, and was the first North Dakota State University (NDSU) barley that had resistance to loose smut.
  • Bere, a six-row barley, is currently cultivated mainly on 5-15 hectares of land in Orkney, Scotland. Two additional parcels on the island of Islay, Scotland, were planted in 2006 for Bruichladdich Distillery.
  • 'Betzes', an old German two-row barley, was introduced into North America from Kraków, Poland, by the United States Department of Agriculture (USDA). The Montana and Idaho agricultural experiment stations released Betzes in 1957. It is a midshort, medium strength-strawed, midseason-maturing barley. It has a midsize-to-large kernels with yellow aleurones. Betzes is susceptible to loose and covered smuts, rusts, and scald.
  • 'Bowman', a two-rowed, smooth-awned variety, was jointly released by NDSU and USDA in 1984 as a feed barley, spring variety developed in North Dakota. It has good test weight and straw strength. It is resistant to wheat stem rust, but is susceptible to loose smut and barley yellow dwarf virus.
  • 'Celebration', a variety developed by the barley breeding program at Busch Agricultural Resources, was released in 2008. Through a collaborative agreement between the NDSU Foundation Seedstocks (NDFSS) project and Busch Agricultural Resources, all foundation seed of 'Celebration' barley will be produced and distributed by the NDFSS. 'Celebration' has excellent agronomic performance and malt quality. It is a Midwestern variety, well-adapted for Minnesota, North Dakota, Idaho, and Montana, with medium-early maturity, medium-early heading, medium-short height, mid-lax head type, rough awns, short rachilla hairs, and colorless aleurone, moderately resistant to Septoria and net blotch. It has improved reaction to Fusarium head blight and consistently lower DON content.
  • 'Centennial', a Canadian variety, was developed from the cross of 'Lenta' x 'Sanalta' by the University of Alberta. It is a two-row, relatively short, stiff-strawed, late-maturing variety. The kernel is midlong with yellow aleurone. It was released as a feed barley.
  • Seven mid-20th-century malt barley varieties studied at Canterbury Agricultural College
    'Compana', an American variety, was developed from a composite cross by the Idaho and Montana Agricultural Experiment Stations in cooperation with the USDA's Plant Science Research Division. It was released by Montana in 1941. 'Compana' is a two-row variety with moderately weak straw, midshort with midseason maturity. The kernels are long and wide with yellow aleurone. This variety is resistant to loose smut and moderately resistant to covered smut.
  • 'Conlon', a two-row barley, was released by NDSU in 1996. Test weight and yield are better than 'Bowman'. Yield is equal to 'Stark'. 'Conlon' heads earlier than 'Bowman' and shows good heat tolerance by kernel plumpness. It is resistant to powdery mildew and net blotch, but is moderately susceptible to spot blotch. It is prone to lodging under high-yield growing conditions. It appears best adapted to western North Dakota and adjacent western states.
  • 'Diamant', a Czech high-yield, is a short-height, mutant variety created with X-rays.
  • 'Dickson', a six-row, rough-awned variety, was released by NDSU in 1965. It had good straw strength and was resistant to stem rust, but susceptible to loose smut. 'Dickson' had more resistance to prevalent leaf spot diseases than 'Trophy', 'Larker', and 'Traill'. It was similar to 'Trophy' in heading date, plant height, and straw strength. It had less plumpness than 'Trophy' and 'Larker', but more than 'Traill' and 'Kindred'.
  • 'Drummond', a six-row malting variety, was released by NDSU in 2000. It has white aleurone, long rachilla hairs and semismooth awns. 'Drummond' has better straw strength than current six-row varieties. Heading date is similar to Robust and plant height is similar to Stander. It is resistant to spot blotch and moderately susceptible to net blotch. However, its net blotch resistance is better than any current variety. Fusarium head blight reaction is similar to that of 'Robust'. It is resistant to prevalent races of wheat stem rust, but is susceptible to pathotype Pgt-QCC. 'Drummond' is on the American Malting Barley Association's list of recommended varieties. In two years of plant-scale evaluation, 'Drummond' was found satisfactory by Anheuser-Busch, Inc. and Miller Brewing.
  • 'Excel', a six-row, white-aleurone malting barley, was released by Minnesota in 1990. Shorter in height than other six-row barleys grown at that time, it is high-yielding with medium-early maturity, moderately strong straw, smooth awns, and long rachilla hairs. It has high resistance to stem rust and moderate resistance to spot blotch, but is susceptible to loose smut. Malting traits are equal or greater than 'Morex' with plum kernel percentage lower than 'Robust'.
  • 'Foster', a six-row, white-aleurone malting barley, was released by NDSU in 1995. About one day earlier and slightly shorter than 'Robust', it is higher-yielding than 'Morex', 'Robust', and 'Hazen'. Straw strength is similar to 'Excel' and 'Stander', but better than 'Robust'. It is moderately susceptible to net blotch, but resistant to spot blotch. Protein is 1.5% lower than 'Robust' and 'Morex'.
  • 'Glenn', a six-row, white-aleurone variety, was released by NDSU in 1978. 'Glenn' was resistant to prevalent races of loose and covered smut with better resistance to leaf spot diseases than 'Larker'. It matured about two days earlier than 'Larker' and yielded about 10% more than 'Larker' and 'Beacon'.
  • 'Golden Promise', an English semidwarf, is a salt-tolerant, mutant variety (created with gamma rays) used to make beer and whisky.
  • 'Hazen', a six-row, smooth-awn, white-aleurone feed barley, was released by NDSU in 1984. 'Hazen' heads two days later than 'Glenn'. It is susceptible to loose smut.
  • Highland barley is a crop cultivated on the Tibetan Plateau.
  • 'Kindred' was released in 1941 and developed from a selection made by S.T. Lykken, a Kindred, North Dakota farmer. It was a six-row, rough-awned, medium-early Manchurian-type malting variety that gave good yields. 'Kindred' had stem rust resistance, but was moderately susceptible to spot blotch and Septoria. It was less susceptible to blight and root rot than 'Wisconsin 38'. It was medium-height with weak straw.
  • 'Kindred L' is a reselection made to eliminate blue Manchurian types.
  • 'Larker', a six-rowed, semi-smooth-awn malting barley, was first released in 1961. It was medium-maturity with moderate straw strength and medium height. 'Larker' was rust-resistant, but susceptible to leaf diseases and loose smut. It was superior to all other malt varieties for kernel plumpness at the time of release.
  • 'Logan', released by NDSU in 1995, is classed as a nonmalting barley. It is a white-aleurone, two-row barley similar to 'Bowman' in heading date and plant height and similar to 'Morex' for foliar diseases. It has better yield, test weight, and lodging score, and lower protein, than 'Bowman' and 'Morex'.
  • 'Lux' is a Danish variety.
  • 'Manchurian', a blue-aleurone malting variety, was released by NDSU in 1922. It had weak to moderate-stiff straw and was susceptible to stem rust. It was developed from false stripe virus-free stock.
  • 'Manscheuri', also designated 'Accession No. 871', is a six-row barley that may have been first released by NDSU before 1904. It outyielded most of the common types being grown in North Dakota at the time. It had stiffer straw than varieties at the time and a longer head filled with large, plump kernels.
  • 'Mansury', also designated 'Accession No. 172', is a two-row barley first released by NDSU about 1905.
  • 'Maris Otter' is an English two-row winter variety commonly used in the production of malt for traditional British beers or as a 'maltier' two-row substitute in any style. It remains popular for craft beer and among homebrewers.
  • 'Morex', a six-row, white-aleurone, smooth-awn malting variety, was released by Minnesota in 1978. 'Morex', which stands for "more extract", is highly resistant to stem rust, moderate to spot blotch, and susceptible to loose smut.
  • 'Nordal', a spring nutans variety from Carlsberg Sweden, was released in 1971.
  • 'Nordic', a six-row, colorless-aleurone feed barley, was released in 1971. It had rough awns and short rachilla hairs. Yield was similar to 'Dickson', but greater than 'Larker'. Kernel plumpness and test weight was superior to 'Dickson', but less than 'Larker'. Lodging, spot, and net blotch resistance was similar to 'Dickson', but it had higher resistance to Septoria leaf blotch. It showed less leaf rust symptoms compared to other varieties at the time.
  • 'Optic'
  • 'Pallas'
  • 'Park', a six-row, white-aleurone, malting barley, was released in 1978. 'Park' had better resistance to leaf spot diseases, spot blotch, net blotch, and Septoria leaf blotch than 'Larker'.
  • 'Plumage Archer' is an English malt variety.
  • 'Pearl'
  • 'Pinnacle', a variety released by the North Dakota Agricultural Experiment Station in 2006, has high yield, low protein, long rachilla hairs, smooth awns, white aleurone, medium-late maturity, medium height, and strong straw strength.
  • 'Proctor' is a parent cultivar of 'Maris Otter'.
  • 'Pioneer' is a parent cultivar of 'Maris Otter'.
  • 'Rawson', a variety developed by the NDSU Barley Breeding Program, was released by the North Dakota Agricultural Experiment Station in 2005. 'Rawson's' general characteristics were very large kernels, loose hull, long rachilla hairs, rough awns, white aleurone, medium maturity, medium height, and medium straw strength.
  • 'Robust', a six-row, white-aleurone malting variety, was released by Minnesota in 1983. Maturity is two days later than 'Morex'.
  • 'Sioux', a selection from Tregal released by NDSU, was a six-row, medium-early variety with white aleurone, rough awns, and long rachilla hairs. It was high-yielding with plump kernels. Its disease reaction was similar to 'Tregal'.
  • 'Stark', a two-row nonmalting barley released by NDSU in 1991, has stiff straw and large kernels, and appears best adapted to western North Dakota and adjacent western states. 'Stark' is about one day later and two inches shorter than 'Bowman', with equal or better test weight. 'Stark' yields about 10% better than 'Bowman'. It is moderately resistant to net and spot blotch, but is susceptible to loose smut, leaf rust and the QCC race of wheat stem rust.
  • 'Steptoe', a white-kerneled, rough-awned feed variety, was released by Washington State University in 1973. 'Steptoe' is widely adapted and has been one of the highest yielding and most popular six-rowed feed varieties in the inland Pacific northwest for many years.
  • 'Tradition', a variety with excellent agronomic performance and malt quality, is well-adapted to Minnesota, North Dakota, Idaho, and Montana. 'Tradition' has medium relative maturity, medium-short height, and very strong straw. It has a nodding head type, semismooth awns, long rachilla hairs. and white aleurone.
  • 'Traill', a medium-early, rough-awn, white-aleurone malting variety, was released by NDSU in 1956. It was resistant to stem rust and had the same reaction to spot blotch and Septoria as 'Kindred'. 'Traill' had greater yield and straw strength than 'Kindred', but had smaller kernel size.
  • 'Tregal', a high-yield, smooth-awn, six-row feed barley, was released by NDSU in 1943. It was medium-early with short, stiff straw, erect head, and high resistance to loose smut. 'Tregal' was similar to 'Kindred' for reaction to spot blotch with similar tolerance to Septoria.
  • 'Trophy', a six-row, rough-awn malting variety with colorless aleurone, was released by NDSU in 1964. Similar to 'Traill' and 'Kindred' in plant height, heading date, and test weight, it had a higher percentage of plump kernels. Its yield in North Dakota was greater than 'Kindred' and similar to 'Traill'. Similar to 'Kindred' and 'Traill', it was resistant to stem rust, but susceptible to loose smut and Septoria leaf blotch. It had some field resistance to net blotch. It had greater straw strength than 'Kindred'. 'Trophy' had greater enzymatic activity and quality than 'Traill'.
  • 'Windich' is a Western Australian grain cultivar named after Tommy Windich (circa 1840–1876).
  • 'Yagan' is a Western Australian grain cultivar named after Yagan (circa 1795-1833).

Chemistry

H. vulgare contains the phenolics caffeic acid and p-coumaric acid, the ferulic acid 8,5'-diferulic acid, the flavonoids catechin-7-O-glucoside, saponarin, catechin, procyanidin B3, procyanidin C2, and prodelphinidin B3, and the alkaloid hordenine.

History

Origin

Genetic analysis on the spread of barley from 9,000 to 2,000 BCE

Barley was one of the first domesticated grains in the Fertile Crescent, an area of relatively abundant water in Western Asia, and near the Nile river of northeast Africa. The grain appeared in the same time as einkorn and emmer wheat. Wild barley (H. vulgare ssp. spontaneum) ranges from North Africa and Crete in the west, to Tibet in the east. According to some scholars, the earliest evidence of wild barley in an archaeological context comes from the Epipaleolithic at Ohalo II at the southern end of the Sea of Galilee. The remains were dated to about 8500 BCE. Other scholars have written that the earliest evidence comes from Mesopotamia, specifically the Jarmo region of modern day Iraq.

Spread of cultivated barley: genetic analysis

One of the world's most important crops, barley, was domesticated in the Near East around 11,000 years ago (circa 9,000 BCE). Barley is a highly resilient crop, able to be grown in varied and marginal environments, such as in regions of high altitude and latitude. Archaeobotanical evidence shows that barley had spread throughout Eurasia by 2,000 BCE. To further elucidate the routes by which barley cultivation was spread through Eurasia, genetic analysis was used to determine genetic diversity and population structure in extant barley taxa. Genetic analysis shows that cultivated barley spread through Eurasia via several different routes, which were most likely separated in both time and space.

Dispersal

An account of barley rations issued monthly to adults (30 or 40 pints) and children (20 pints) written in cuneiform on clay tablet, written in year 4 of King Urukagina (circa 2350 BCE), from Girsu, Iraq, British Museum, London

Some scholars believe domesticated barley (hordeum vulgare) originally spread from Central Asia to India, Persia, Mesopotamia, Syria and Egypt. Some of the earliest domesticated barley occurs at aceramic ("pre-pottery") Neolithic sites, in the Near East such as the Pre-Pottery Neolithic B layers of Tell Abu Hureyra, in Syria. By 4200 BCE domesticated barley occurs as far as in Eastern Finland and had reached Greece and Italy around the 4th c. BCE. Barley has been grown in the Korean Peninsula since the Early Mumun Pottery Period (circa 1500–850 BCE) along with other crops such as millet, wheat, and legumes.

Barley (known as Yava in both Vedic and Classical Sanskrit) is mentioned many times in Rigveda and other Indian scriptures as one of the principal grains in ancient India. Traces of Barley cultivation have also been found in post-Neolithic Bronze Age Harappan civilization 5700–3300 years before present.

In the Pulitzer Prize-winning book Guns, Germs, and Steel, Jared Diamond proposed that the availability of barley, along with other domesticable crops and animals, in southwestern Eurasia significantly contributed to the broad historical patterns that human history has followed over approximately the last 13,000 years; i.e., why Eurasian civilizations, as a whole, have survived and conquered others. Jared Diamond's proposition was criticized, however, for underemphasizing individual and cultural choice and autonomy. The anthropologist Jason Antrosio wrote, that "Diamond's account makes all the factors of European domination a product of a distant and accidental history" and "has almost no role for human agency–the ability people have to make decisions and influence outcomes. Europeans become inadvertent, accidental conquerors. Natives succumb passively to their fate." He added, "Jared Diamond has done a huge disservice to the telling of human history. He has tremendously distorted the role of domestication and agriculture in that history. Unfortunately his story-telling abilities are so compelling that he has seduced a generation of college-educated readers."

Barley beer was probably one of the first alcoholic drinks developed by Neolithic humans. Barley later on was used as currency. The ancient Sumerian word for barley was akiti. In ancient Mesopotamia, a stalk of barley was the primary symbol of the goddess Shala. Alongside emmer wheat, barley was a staple cereal of ancient Egypt, where it was used to make bread and beer. The general name for barley is jt (hypothetically pronounced "eat"); šma (hypothetically pronounced "SHE-ma") refers to Upper Egyptian barley and is a symbol of Upper Egypt. According to Deuteronomy 8:8, barley is one of the "Seven Species" of crops that characterize the fertility of the Promised Land of Canaan, and it has a prominent role in the Israelite sacrifices described in the Pentateuch (see e.g. Numbers 5:15). A religious importance extended into the Middle Ages in Europe, and saw barley's use in justice, via alphitomancy and the corsned.

Barley in Egyptian hieroglyphs
jt barley determinative/ideogram
M34
jt (common) spelling
itU9
M33
šma determinative/ideogram
U9

Rations of barley for workers appear in Linear B tablets in Mycenaean contexts at Knossos and at Mycenaean Pylos. In mainland Greece, the ritual significance of barley possibly dates back to the earliest stages of the Eleusinian Mysteries. The preparatory kykeon or mixed drink of the initiates, prepared from barley and herbs, referred in the Homeric hymn to Demeter, whose name some scholars believe meant "Barley-mother". The practice was to dry the barley groats and roast them before preparing the porridge, according to Pliny the Elder's Natural History (xviii.72). This produces malt that soon ferments and becomes slightly alcoholic.

Pliny also noted barley was a special food of gladiators known as hordearii, "barley-eaters". However, by Roman times, he added that wheat had replaced barley as a staple.

Tibetan barley has been a staple food in Tibetan cuisine since the fifth century CE. This grain, along with a cool climate that permitted storage, produced a civilization that was able to raise great armies. It is made into a flour product called tsampa that is still a staple in Tibet. The flour is roasted and mixed with butter and butter tea to form a stiff dough that is eaten in small balls.

In medieval Europe, bread made from barley and rye was peasant food, while wheat products were consumed by the upper classes. Potatoes largely replaced barley in Eastern Europe in the 19th century.

Genetics

The genome of barley was sequenced in 2012, due to the efforts of the International Barley Genome Sequencing Consortium and the UK Barley Sequencing Consortium.

The genome is composed of seven pairs of nuclear chromosomes (recommended designations: 1H, 2H, 3H, 4H, 5H, 6H and 7H), and one mitochondrial and one chloroplast chromosome, with a total of 5000 Mbp.

Abundant biological information is already freely available in several barley databases.

The wild barley (H. vulgare ssp. spontaneum) found currently in the Fertile Crescent might not be the progenitor of the barley cultivated in Eritrea and Ethiopia, indicating that separate domestication may have occurred in eastern Africa.

Hybridization

Barley has been crossed with wheat with mixed results that have yet to prove commercially viable. The resulting hybrids have further been crossed with rye, but with even more limited results.

Production

Barley production, 2018
Country (millions of tonnes)
 Russia
16.99
 France
11.19
 Germany
9.58
 Australia
9.25
 Spain
9.12
 Canada
8.37
 Ukraine
7.34
 Turkey
7.00
 United Kingdom
6.51
 Argentina
5.06
 Kazakhstan
3.97
 Denmark
3.48
 United States
3.33
World
141.42
Source: FAOSTAT of the United Nations Food and Agriculture Organization, Statistics Division, 2018

In 2017, world production of barley was 149 million tonnes, led by Russia producing 14% of the world total. Australia, Germany, France, and Ukraine were major producers.

Cultivation

Barley harvesting in Gaziantep, Turkey

Barley is a widely adaptable crop. It is currently popular in temperate areas where it is grown as a summer crop and tropical areas where it is sown as a winter crop. Its germination time is one to three days. Barley grows under cool conditions, but is not particularly winter hardy.

Barley is more tolerant of soil salinity than wheat, which might explain the increase of barley cultivation in Mesopotamia from the second millennium BCE onwards. Barley is not as cold tolerant as the winter wheats (Triticum aestivum), fall rye (Secale cereale) or winter triticaleTriticosecale Wittm. ex A. Camus.), but may be sown as a winter crop in warmer areas of Australia and Great Britain.

Barley has a short growing season and is also relatively drought tolerant.

Plant diseases

Barley is known or likely to be susceptible to barley mild mosaic bymovirus, as well as bacterial blight. Barley yellow dwarf virus, vectored by the rice root aphid, can also cause serious crop injury. It can be susceptible to many diseases, but plant breeders have been working hard to incorporate resistance. The devastation caused by any one disease will depend upon the susceptibility of the variety being grown and the environmental conditions during disease development. Serious diseases of barley include powdery mildew caused by Blumeria graminis f.sp. hordei, leaf scald caused by Rhynchosporium secalis, barley rust caused by Puccinia hordei, crown rust caused by Puccinia coronata, and various diseases caused by Cochliobolus sativus. Barley is also susceptible to head blight.

Food

Cooked barley
Barley grains 3.jpg
Nutritional value per 100 g (3.5 oz)
Energy515 kJ (123 kcal)

28.2 g
Sugars0.3 g
Dietary fiber3.8 g

0.4 g

2.3 g

VitaminsQuantity %DV
Vitamin A equiv.
0%
0 μg
0%
5 μg
56 μg
Thiamine (B1)
7%
0.083 mg
Riboflavin (B2)
5%
0.062 mg
Niacin (B3)
14%
2.063 mg
Pantothenic acid (B5)
3%
0.135 mg
Vitamin B6
9%
0.115 mg
Folate (B9)
4%
16 μg
Vitamin B12
0%
0 μg
Choline
3%
13.4 mg
Vitamin C
0%
0 mg
Vitamin D
0%
0 IU
Vitamin E
0%
0.01 mg
Vitamin K
1%
0.8 μg

MineralsQuantity %DV
Calcium
1%
11 mg
Copper
5%
0.105 mg
Iron
10%
1.3 mg
Magnesium
6%
22 mg
Manganese
12%
0.259 mg
Phosphorus
8%
54 mg
Potassium
2%
93 mg
Sodium
0%
3 mg
Zinc
9%
0.82 mg

Other constituentsQuantity
Water68.8 g
Cholesterol0 mg

Percentages are roughly approximated using US recommendations for adults.

Nutrition

Barley, oats, and some products made from them

In a 100 gram serving, cooked barley provides 123 kilocalories and is a good source (10% or more of the Daily Value, DV) of essential nutrients, including, dietary fiber, the B vitamin, niacin (14% DV), and dietary minerals including iron (10% DV) and manganese (12% DV) (table).

Preparation

Hulled barley (or covered barley) is eaten after removing the inedible, fibrous, outer hull. Once removed, it is called dehulled barley (or pot barley or scotch barley). Considered a whole grain, dehulled barley still has its bran and germ, making it a commonly consumed food. Pearl barley (or pearled barley) is dehulled barley which has been steam-processed further to remove the bran. It may be polished, a process known as "pearling". Dehulled or pearl barley may be processed into various barley products, including flour, flakes similar to oatmeal, and grits.

Barley meal, a wholemeal barley flour lighter than wheat meal but darker in colour, is used in gruel, in contrast to porridge which is made from oats. Barley meal gruel is known as sawiq in the Arab world. With a long history of cultivation in the Middle East, barley is used in a wide range of traditional Arabic, Assyrian, Israelite, Kurdish, and Persian foodstuffs including kashkak, kashk and murri. Barley soup is traditionally eaten during Ramadan in Saudi Arabia. Cholent or hamin (in Hebrew) is a traditional Jewish stew often eaten on Sabbath, in numerous recipes by both Mizrachi and Ashkenazi Jews. In Eastern and Central Europe, barley is also used in soups and stews such as ričet. In Africa, where it is a traditional food plant, it has the potential to improve nutrition, boost food security, foster rural development, and support sustainable landcare.

The six-row variety bere is cultivated in Orkney, Shetland, Caithness and the Western Isles in the Scottish Highlands and islands. When milled into beremeal, it is used locally in bread, biscuits, and the traditional beremeal bannock.

Health implications

According to Health Canada and the US Food and Drug Administration, consuming at least 3 grams per day of barley beta-glucan or 0.75 grams per serving of soluble fiber can lower levels of blood cholesterol, a risk factor for cardiovascular diseases.

Eating whole-grain barley, as well as other high-fiber grains, improves regulation of blood sugar (i.e., reduces blood glucose response to a meal). Consuming breakfast cereals containing barley over weeks to months also improved cholesterol levels and glucose regulation.

Like wheat, rye, and their hybrids and derivatives, barley contains gluten, which makes it an unsuitable grain for consumption by people with gluten-related disorders, such as celiac disease, non-celiac gluten sensitivity and wheat allergy sufferers, among others. Nevertheless, some wheat allergy patients can tolerate barley or rye.

Beverages

Alcoholic beverages

Traditional floor malting of barley in Scotland

Barley is a key ingredient in beer and whisky production. Two-row barley is traditionally used in German and English beers. Six-row barley was traditionally used in US beers, but both varieties are in common usage now. Distilled from green beer, whisky has been made primarily from barley in Ireland and Scotland, while other countries have used more diverse sources of alcohol, such as the more common corn, rye and wheat in the USA. In the US, a grain type may be identified on a whisky label if that type of grain constitutes 51% or more of the ingredients and certain other conditions are satisfied. About 25% of the United States' production of barley is used for malting, for which barley is the best-suited grain.

Barley wine is a style of strong beer from the English brewing tradition. Another alcoholic drink known by the same name, enjoyed in the 18th century, was prepared by boiling barley in water, then mixing the barley water with white wine and other ingredients, such as borage, lemon and sugar. In the 19th century, a different barley wine was made prepared from recipes of ancient Greek origin.

Nonalcoholic beverages

Nonalcoholic drinks such as barley water and roasted barley tea have been made by boiling barley in water. In Italy, barley is also sometimes used as coffee substitute, caffè d'orzo (coffee of barley).

Other uses

Animal feed

Half of the United States' barley production is used as livestock feed. Barley is an important feed grain in many areas of the world not typically suited for maize production, especially in northern climates—for example, northern and eastern Europe. Barley is the principal feed grain in Canada, Europe, and in the northern United States. A finishing diet of barley is one of the defining characteristics of western Canadian beef used in marketing campaigns.

As of 2014, an enzymatic process can be used to make a high-protein fish feed from barley, which is suitable for carnivorous fish such as trout and salmon.

Algistatic

Barley straw used in a pond in Oud-Heverlee, Belgium

Barley straw, in England, is placed in mesh bags and floated in fish ponds or water gardens to help prevent algal growth without harming pond plants and animals. Barley straw has not been approved by the EPA for use as a pesticide and its effectiveness as an algae regulator in ponds has produced mixed results, with either more efficacy against phytoplankton algae versus mat-forming algae, or no significant change, during university testing in the US and the UK.

Measurement

Barley grains were used for measurement in England, there being three or four barleycorns to the inch and four or five poppy seeds to the barleycorn. The statute definition of an inch was three barleycorns, although by the 19th century, this had been superseded by standard inch measures. This unit still persists in the shoe sizes used in Britain and the USA.

As modern studies show, the actual length of a kernel of barley varies from as short as 4–7 mm (532932 in) to as long as 12–15 mm (15321932 in) depending on the cultivar. Older sources claimed the average length of a grain of barley being 8.8 mm (0.345 in).

The barleycorn was known as arpa in Turkish, and the feudal system in Ottoman Empire employed the term arpalik, or "barley-money", to refer to a second allowance made to officials to offset the costs of fodder for their horses.

Ornamental

A new stabilized variegated variety of H. vulgare, billed as H. vulgare variegate, has been introduced for cultivation as an ornamental and pot plant for pet cats to nibble.

Cultural

In English folklore, the figure of John Barleycorn in the folksong of the same name is a personification of barley, and of the alcoholic beverages made from it: beer and whisky. In the song, John Barleycorn is represented as suffering attacks, death, and indignities that correspond to the various stages of barley cultivation, such as reaping and malting.

 

Malt

From Wikipedia, the free encyclopedia

A handful of malted barley, the white sprouts visible
 
Beer malt varieties from Bamberg, Germany

Malt is germinated cereal grain that has been dried in a process known as "malting". The grain is made to germinate by soaking in water and is then halted from germinating further by drying with hot air.

Malting grain develops the enzymes (α-amylase, β-amylase) required for modifying the grains' starches into various types of sugar, including monosaccharide glucose, disaccharide maltose, trisaccharide maltotriose, and higher sugars called maltodextrines.

It also develops other enzymes, such as proteases, that break down the proteins in the grain into forms that can be used by yeast. The point at which the malting process is stopped affects the starch-to-enzyme ratio, and partly converted starch becomes fermentable sugars.

Malt also contains small amounts of other sugars, such as sucrose and fructose, which are not products of starch modification, but which are already in the grain. Further conversion to fermentable sugars is achieved during the mashing process.

Malted grain is used to make beer, whisky, malted milk, malt vinegar, confections such as Maltesers and Whoppers, flavored drinks such as Horlicks, Ovaltine, and Milo, and some baked goods, such as malt loaf, bagels, and Rich Tea biscuits. Malted grain that has been ground into a coarse meal is known as "sweet meal".

Various cereals are malted, though barley is the most common. A high-protein form of malted barley is often a label-listed ingredient in blended flours typically used in the manufacture of yeast breads and other baked goods.

Malted grain for beer production

The term "malt" refers to several products of the process: the grains to which this process has been applied, for example malted barley; the sugar, heavy in maltose, derived from such grains, such as the baker's malt used in various cereals; or a product based on malted milk, similar to a malted milkshake (i.e., "malts").

History and traditional usage

Samanu decorated with pistachio

Malted grains have probably been used as an ingredient of beer since ancient times, for example in Egypt (Ancient Egyptian cuisine), Sumer, and China.

In Persian countries, a sweet paste made entirely from germinated wheat is called samanū (Persian: سمنو‎) in Iran, samanak (Persian: سمنک‎) in Afghanistan, (Tajik: суманак); (Uzbek: sumalak) or sümölök (Kyrgyz: сүмөлөк), which is prepared for Nowruz (Persian new year celebration) in a large pot (like a kazan). A plate or bowl of samanu is a traditional component of the Haft sin table symbolising affluence. Traditionally, women have a special party to prepare it during the night, and cook it from late in the evening until the daylight, singing related songs. In Tajikistan and Afghanistan, they sing: Samanak dar Jūsh u mā Kafcha zanēm – Dīgarān dar Khwāb u mā Dafcha zanēm. (Meaning: "Samanak is boiling and we are stirring it, others are asleep and we are playing daf"). In modern times, making samanu can be a family gathering. It originally comes from the Great Persian Empire.

Mämmi, or Easter porridge, is a traditional Finnish Lenten food. Cooked from rye malt and flour, mämmi has a great resemblance (in recipe, color, and taste) to samanū. Today, this product is available in shops from February until Easter. A (nonrepresentative) survey in 2013 showed that almost no one cooks mämmi at home in modern-day Finland.

Malting

Barley is spread out on the floor of a malthouse during a traditional malting process.

Malting is the process of converting barley or other cereal grains into malt for use in brewing, distilling, or foods, and takes place in a maltings, sometimes called a malthouse, or a malting floor. The cereal is spread out on the malting floor in a layer of 8 to 12 cm (3 to 4.5 in) depth.

Drying
The malting process starts with drying the grains to a moisture content below 14% and then storing for around six weeks to overcome seed dormancy.
Steeping
When ready, the grain is immersed or steeped in water two or three times for two or three days to allow the grain to absorb moisture and to start to sprout.
Germination
When the grain has a moisture content around 46%, it is transferred to the malting or germination floor, where it is constantly turned over for about four to six days while it is air-dried.
Pre-toasting
The grain at this point, called "green malt", is then dried and toasted in an oven (or kiln) to the desired color and specification. Malts range in color from very pale through crystal and amber to chocolate or black malts.
Smoking
The sprouted grain is then further dried and smoked by spreading it on a perforated wooden floor. Smoke coming from an oasting fireplace (via smoke channels) is then used to heat the wooden floor and the sprouted grains. The temperature is usually around 55 °C (131 °F).

A "maltings" is typically a long, single-story building with a floor that slopes slightly from one end of the building to the other. Floor maltings began to be phased out in the 1940s in favor of "pneumatic plants", where large industrial fans are used to blow air through the germinating grain beds and to pass hot air through the malt being kilned. Like floor maltings, these pneumatic plants use batch processes, but of considerably greater size, typically 100-ton batches compared with 20-ton batches floor maltings.

As of 2014, the largest malting operation in the world was Malteurop, which operates in 14 countries.

Production

Barley is the most commonly malted grain, in part because of its high content of enzymes, though wheat, rye, oats, rice, and corn are also used. Also very important is the retention of the grain's husk, even after threshing, unlike the bare seeds of threshed wheat or rye. This protects the growing acrospire (developing plant embryo) from damage during malting, which can easily lead to mold growth; it also allows the mash of converted grain to create a filter bed during lautering (brewing).

Malts

Diastatic and nondiastatic

As all grains sprout, natural enzymes within the grain break down the starch of which the grain is composed into simpler sugars, which taste sweet and are easier for yeast to use as food. Malt with active enzymes is called "diastatic malt". Malt with inactive enzymes is called "nondiastatic malt". The enzymes are deactivated by heating the malt.

Base and specialty

Malt is often divided into two categories by brewers - base malts and specialty malts.

Base malts have enough diastatic power to convert their own starch and usually that of some amount of starch from unmalted grain, called adjuncts.

Specialty malts have little diastatic power, but provide flavor, color, or "body" (viscosity) to the finished beer. Specialty caramel or crystal malts have been subjected to heat treatment to convert their starches to sugars nonenzymatically. Within these categories is a variety of types distinguished largely by the kilning temperature.

Two-row and six-row

In addition, malts are distinguished by the two major cultivar types of barley used for malting, two-row and six-row.

Malt extract

Homebrewing malt extracts - liquid in a can and spray-dried
 
Barley malt syrup being slowly added to flour in a bagel recipe

Malt extract, also known as extract of malt, is a sweet, treacle-like substance used as a dietary supplement. It was popular in the first half of the 20th century as a nutritional enhancer for the children of the British urban working class, whose diet was often deficient in vitamins and minerals. Children were given cod liver oil for the same reason, but it proved so unpalatable that it was combined with extract of malt to produce "Malt and Cod-Liver Oil."

The 1907 British Pharmaceutical Codex's instructions for making nutritional extract of malt do not include a mashout at the end of extraction, and include the use of lower mash temperatures than is typical with modern beer-brewing practices. The Codex indicates that diastatic activity is to be preserved by the use of temperatures not exceeding 55 °C (131 °F).

Malt extract production

Malt extract is frequently used in the brewing of beer. Its production begins by germinating barley grain in a process known as malting, immersing barley in water to encourage the grain to sprout, then drying it to halt the progress when the sprouting begins. The drying step stops the sprouting, but the enzymes remain active due to the low temperatures used in base malt production. In one before-and-after comparison, malting decreased barley's extractable starch content by about 7% on a dry matter basis and turned that portion into various other carbohydrates.

1897 Pabst Malt Extract ad

In the next step, brewers use a process called mashing to extract the sugars. Brewers warm cracked malt in temperature-modulated water, activating the enzymes, which cleave more of the malt's remaining starch into various sugars, the largest percentage of which is maltose. Modern beer-mashing practices typically include high enough temperatures at mash-out to deactivate remaining enzymes, thus it is no longer diastatic. The liquid produced from this, wort, is then concentrated by using heat or a vacuum procedure to evaporate water from the mixture. The concentrated wort is called malt extract.

Liquid malt extract (LME) is a thick syrup used for a variety of purposes, such as baking and brewing. It is also sold in jars as a consumer product. The LME may be further dried to produce dry malt extract (DME), which is crystalline in form similar to common sugar.

Brewers have the option of using a liquid (LME) or dry (DME) form of it. Each has its pros and cons, so the choice is dependent solely on the individual brewer's preferences. Some brewers choose to work only with LME because they feel it works best for the result they wish to achieve. Also, it requires one fewer processing step, so it is appealing to those favoring the purest form of product available. However, it is very sticky, so messier to work with and has a shorter shelf life. Some feel the results are just as good with DME.

A new encapsulating technology permits the production of malt granules, which are the dried liquid extract from malt used in the brewing or distilling process.

Research

Scientists aim to discover what happens inside barley grains as they become malted to help plant breeders produce better malting barley for food and beverage products. The United States Agricultural Research Service scientists are interested in specialized enzymes called serine-class proteases that digest beta-amylases, which convert carbohydrates into "simple sugars" during the sprouting process. The enzyme also breaks down stored proteins into their amino-acid derivatives. The balance of proteins and carbohydrates broken down by the enzyme affect the malt's flavor.

History of alcoholic drinks

From Wikipedia, the free encyclopedia
 
 
Total recorded alcohol per capita consumption (15+), in litres of pure alcohol (2009)

Purposeful production of alcoholic drinks is common and often reflects cultural and religious peculiarities as much as geographical and sociological conditions.

Discovery of late Stone Age jugs suggest that intentionally fermented beverages existed at least as early as the Neolithic period (c. 10000 BC).

Archaeological record

The ability to metabolize alcohol likely predates humanity with primates eating fermenting fruit.

The oldest verifiable brewery has been found in a prehistoric burial site in a cave near Haifa in modern-day Israel. Researchers have found residue of 13,000-year-old beer that they think might have been used for ritual feasts to honor the dead. The traces of a wheat-and-barley-based alcohol were found in stone mortars carved into the cave floor.

As early as 7000 BC, chemical analysis of jars from the Neolithic village Jiahu in the Henan province of northern China revealed traces of a mixed fermented beverage. According to a study published in the Proceedings of the National Academy of Sciences in December 2004, chemical analysis of the residue confirmed that a fermented drink made of grapes, hawthorn berries, honey, and rice was being produced in 7000–6650 BC. This is approximately the time when barley beer and grape wine were beginning to be made in the Middle East.

Evidence of alcoholic beverages has also been found dating from 5400-5000 BC in Hajji Firuz Tepe in Iran, 3150 BC in ancient Egypt, 3000 BC in Babylon, 2000 BC in pre-Hispanic Mexico and 1500 BC in Sudan. According to Guinness, the earliest firm evidence of wine production dates back to 6000 BC in Georgia.

The medicinal use of alcohol was mentioned in Sumerian and Egyptian texts dating from about 2100 BC. The Hebrew Bible recommends giving alcoholic drinks to those who are dying or depressed, so that they can forget their misery (Proverbs 31:6-7).

Wine was consumed in Classical Greece at breakfast or at symposia, and in the 1st century BC it was part of the diet of most Roman citizens. Both the Greeks and the Romans generally drank diluted wine (the strength varying from 1 part wine and 1 part water, to 1 part wine and 4 parts water).

In Europe during the Middle Ages, beer, often of very low strength, was an everyday drink for all classes and ages of people. A document from that time mentions nuns having an allowance of six pints of ale each day. Cider and pomace wine were also widely available; grape wine was the prerogative of the higher classes.

By the time the Europeans reached the Americas in the 15th century, several native civilizations had developed alcoholic beverages. According to a post-conquest Aztec document, consumption of the local "wine" (pulque) was generally restricted to religious ceremonies but was freely allowed to those who were older than 70 years. The natives of South America produced a beer-like beverage from cassava or maize, which had to be chewed before fermentation in order to turn the starch into sugar. (Beverages of this kind are known today as cauim or chicha.) This chewing technique was also used in ancient Japan to make sake from rice and other starchy crops.

Ancient period

Ancient China

The earliest evidence of wine was found in what is now China, where jars from Jiahu which date to about 7000 BC were discovered. This early rice wine was produced by fermenting rice, honey, and fruit. What later developed into Chinese civilization grew up along the more northerly Yellow River and fermented a kind of huangjiu from millet. The Zhou attached great importance to alcohol and ascribed the loss of the mandate of Heaven by the earlier Xia and Shang as largely due to their dissolute and alcoholic emperors. An edict ascribed to c. 1116 BC makes it clear that the use of alcohol in moderation was believed to be prescribed by heaven.

Unlike the traditions in Europe and the Middle East, China abandoned the production of grape wine before the advent of writing and, under the Han, abandoned beer in favor of huangjiu and other forms of rice wine. These naturally fermented to a strength of about 20% ABV; they were usually consumed warmed and frequently flavored with additives as part of traditional Chinese medicine. They considered it spiritual food and extensive documentary evidence attests to the important role it played in religious life. "In ancient times people always drank when holding a memorial ceremony, offering sacrifices to gods or their ancestors, pledging resolution before going into battle, celebrating victory, before feuding and official executions, for taking an oath of allegiance, while attending the ceremonies of birth, marriage, reunions, departures, death, and festival banquets." Marco Polo's 14th century record indicates grain and rice wine were drunk daily and were one of the treasury's biggest sources of income.

Alcoholic beverages were widely used in all segments of Chinese society, were used as a source of inspiration, were important for hospitality, were considered an antidote for fatigue, and were sometimes misused. Laws against making wine were enacted and repealed forty-one times between 1100 BC and AD 1400. However, a commentator writing around 650 BC asserted that people "will not do without beer. To prohibit it and secure total abstinence from it is beyond the power even of sages. Hence, therefore, we have warnings on the abuse of it."

The Chinese may have independently developed the process of distillation in the early centuries of the Common Era, during the Eastern Han dynasty.

Ancient Persia (or Ancient Iran)

A major step forward in our understanding of Neolithic winemaking came from the analysis of a yellowish residue excavated by Mary M. Voigt at the site of Hajji Firuz Tepe in the northern Zagros Mountains of Iran. The jar that once contained wine, with a volume of about 9 liters (2.5 gallons) was found together with five similar jars embedded in the earthen floor along one wall of a "kitchen" of a Neolithic mudbrick building, dated to c. 5400-5000 BC. In such communities, winemaking was the best technology they had for storing highly perishable grapes, although whether the resulting beverage was intended for intoxication as well as nourishment is not known.

Ancient Egypt

Brewing dates from the beginning of civilization in ancient Egypt, and alcoholic beverages were very important at that time. Egyptian brewing began in the city of Hierakonpolis around 3400 BC; its ruins contain the remains of the world's oldest brewery, which was capable of producing up to three hundred gallons (1,136 liters) per day of beer. Symbolic of this is the fact that while many gods were local or familial, Osiris was worshiped throughout the entire country. Osiris was believed to be the god of the dead, of life, of vegetable regeneration, and of wine.

Both beer and wine were deified and offered to gods. Cellars and wine presses even had a god whose hieroglyph was a winepress. The ancient Egyptians made at least 17 types of beer and at least 24 varieties of wine. The most common type of beer was known as hqt. Beer was the drink of common laborers; financial accounts report that the Giza pyramid builders were allotted a daily beer ration of one and one-third gallons. Alcoholic beverages were used for pleasure, nutrition, medicine, ritual, remuneration, and funerary purposes. The latter involved storing the beverages in tombs of the deceased for their use in the after-life.

Numerous accounts of the period stressed the importance of moderation, and these norms were both secular and religious. While Egyptians did not generally appear to define drunkenness as a problem, they warned against taverns (which were often houses of prostitution) and excessive drinking. After reviewing extensive evidence regarding the widespread but generally moderate use of alcoholic beverages, the nutritional biochemist and historian William J. Darby makes a most important observation: all these accounts are warped by the fact that moderate users "were overshadowed by their more boisterous counterparts who added 'color' to history." Thus, the intemperate use of alcohol throughout history receives a disproportionate amount of attention. Those who abuse alcohol cause problems, draw attention to themselves, are highly visible and cause legislation to be enacted. The vast majority of drinkers, who neither experience nor cause difficulties, are not noteworthy. Consequently, observers and writers largely ignore moderation.

Evidence of distillation comes from alchemists working in Alexandria, Roman Egypt, in the 1st century AD.  Distilled water has been known since at least c. 200 AD, when Alexander of Aphrodisias described the process.

Ancient Babylon

Beer was the major beverage among the Babylonians, and as early as 2700 BC they worshiped a wine goddess and other wine deities. Babylonians regularly used both beer and wine as offerings to their gods. Around 1750 BC, the famous Code of Hammurabi devoted attention to alcohol. However, there were no penalties for drunkenness; in fact, it was not even mentioned. The concern was fair commerce in alcohol. Although it was not a crime, the Babylonians were critical of drunkenness.

Ancient India

Alcohol distillation likely originated in India. Alcoholic beverages in the Indus Valley Civilization appeared in the Chalcolithic Era. These beverages were in use between 3000 BC and 2000 BC. Sura, a beverage brewed from rice meal, wheat, sugar cane, grapes, and other fruits, was popular among the Kshatriya warriors and the peasant population. Sura is considered to be a favorite drink of Indra.

The Hindu Ayurvedic texts describe both the beneficent uses of alcoholic beverages and the consequences of intoxication and alcoholic diseases. Ayurvedic texts concluded that alcohol was a medicine if consumed in moderation, but a poison if consumed in excess. Most of the people in India and China, have continued, throughout, to ferment a portion of their crops and nourish themselves with the alcoholic product.

In ancient India, alcohol was also used by the orthodox population. Early Vedic literature suggests the use of alcohol by priestly classes.

The two great Hindu epics, Ramayana and Mahabharata, mention the use of alcohol. In Ramayana, alcohol consumption is depicted in a good/bad dichotomy. The bad faction members consumed meat and alcohol while the good faction members were abstinent vegetarians. However, in Mahabharata, the characters are not portrayed in such a black-white contrast.

Alcohol abstinence was promoted as a moral value in India by Mahavira, the founder of Jainism, and Adi Shankaracharya.

Distillation was known in the ancient Indian subcontinent, evident from baked clay retorts and receivers found at Taxila and Charsadda in modern Pakistan, dating back to the early centuries of the Common Era. These "Gandhara stills" were only capable of producing very weak liquor, as there was no efficient means of collecting the vapors at low heat.

Ancient Greece

While the art of wine making reached the Hellenic peninsula by about 2000 BC, the first alcoholic beverage to obtain widespread popularity in what is now Greece was mead, a fermented beverage made from honey and water. However, by 1700 BC, wine making was commonplace. During the next thousand years wine drinking assumed the same function so commonly found around the world: It was incorporated into religious rituals. It became important in hospitality, used for medicinal purposes, and became an integral part of daily meals. As a beverage, it was drunk in many ways: warm and chilled, pure and mixed with water, plain and spiced. Alcohol, specifically wine, was considered so important to the Greeks that consumption was considered a defining characteristic of the Hellenic culture between their society and the rest of the world; those who did not drink were considered barbarians.

While habitual drunkenness was rare, intoxication at banquets and festivals was not unusual. In fact, the symposium, a gathering of men for an evening of conversation, entertainment and drinking typically ended in intoxication. However, while there are no references in ancient Greek literature to mass drunkenness among the Greeks, there are references to it among foreign peoples. By 425 BC, warnings against intemperance, especially at symposia, appear to become more frequent.

Xenophon (431-351 BC) and Plato (429-347 BC) both praised the moderate use of wine as beneficial to health and happiness, but both were critical of drunkenness, which appears to have become a problem. Plato also believed that no one under the age of eighteen should be allowed to touch wine. Hippocrates (cir. 460-370 BC) identified numerous medicinal properties of wine, which had long been used for its therapeutic value. Later, both Aristotle (384-322 BC) and Zeno (cir. 336-264 BC) were very critical of drunkenness.

Among Greeks, the Macedonians viewed intemperance as a sign of masculinity and were well known for their drunkenness. Their king, Alexander the Great (356-323 BC), whose mother adhered to the Dionysian cult, developed a reputation for inebriety.

Pre-Columbian America

Several Native American civilizations developed alcoholic beverages. Many versions of these beverages are still produced today.

The making of pulque, as illustrated in the Florentine Codex (Book 1 Appendix, fo.40)

Pulque, or octli is an alcoholic beverage made from the fermented juice of the maguey, and is a traditional native beverage of Mesoamerica. Though commonly believed to be a beer, the main carbohydrate is a complex form of fructose rather than starch. Pulque is depicted in Native American stone carvings from as early as AD 200. The origin of pulque is unknown, but because it has a major position in religion, many folk tales explain its origins.

Balché is the name of a honey wine brewed by the Maya, associated with the Mayan deity Acan. The drink shares its name with the balché tree (Lonchocarpus violaceus), the bark of which is fermented in water together with honey from the indigenous stingless bee.

Tepache is a mildly alcoholic beverage indigenous to Mexico that is created by fermenting pineapple, including the rind, for a short period of three days.

Tejuino, traditional to the Mexican state of Jalisco, is a maize-based beverage that involves fermenting masa dough.

Chicha is a Spanish word for any of variety of traditional fermented beverages from the Andes region of South America. It can be made of maize, manioc root (also called yuca or cassava) or fruits among other things. During the Inca Empire women were taught the techniques of brewing chicha in Acllahuasis (feminine schools). Chicha de jora is prepared by germinating maize, extracting the malt sugars, boiling the wort, and fermenting it in large vessels, traditionally huge earthenware vats, for several days. In some cultures, in lieu of germinating the maize to release the starches, the maize is ground, moistened in the chicha maker's mouth and formed into small balls which are then flattened and laid out to dry. Naturally occurring diastase enzymes in the maker's saliva catalyze the breakdown of starch in the maize into maltose. Chicha de jora has been prepared and consumed in communities throughout in the Andes for millennia. The Inca used chicha for ritual purposes and consumed it in vast quantities during religious festivals. In recent years, however, the traditionally prepared chicha is becoming increasingly rare. Only in a small number of towns and villages in southern Peru and Bolivia is it still prepared. Other traditional drinks made from fermented maize or maize flour include pozol and pox.

Manioc root being prepared by Indian women to produce an alcoholic drink for ritual consumption, by Theodor de Bry, Frankfurt, 1593. Women in the lower left can be seen spitting into the manioc mash. Salivary enzymes break down complex starches, and saliva introduces bacteria and yeast that hasten the fermentation process.

Cauim is a traditional alcoholic beverage of the Native American populations of Brazil since pre-Columbian times. It is still made today in remote areas throughout Panama and South America. Cauim is very similar to chicha and it is also made by fermenting manioc or maize, sometimes flavored with fruit juices. The Kuna Indians of Panama use plantains. A characteristic feature of the beverage is that the starting material is cooked, chewed, and re-cooked prior to fermentation. As in the making of chicha, enzymes from the saliva of the cauim maker break down the starches into fermentable sugars.

Tiswin, or niwai is a mild, fermented, ceremonial beverage produced by various cultures living in the region encompassing the southwestern United States and northern Mexico. Among the Apache, tiswin was made from maize, while the Tohono O'odham brewed tiswin using saguaro sap. The Tarahumara variety, called tesgüino, can be made from a variety of different ingredients. Recent archaeological evidence has also revealed the production of a similar maize-based intoxicant among the ancestors of the Pueblo peoples.

Okolehao is produced by Native Hawaiians from juice extracted from the roots of the ti plant.

Cacao wine was produced during the formative stage of the Olmec Culture (1100-900 BC). Evidence from Puerto Escondido indicates that a weak alcoholic beverage (up to 5% alcohol by volume) was made from fermented cacao pulp and stored in pottery containers.

In addition:

Ancient Rome

Bacchus, the god of wine - for the Greeks, Dionysus - is the patron deity of agriculture and the theater. He was also known as the Liberator (Eleutherios), freeing one from one's normal self, by madness, ecstasy, or wine. The divine mission of Dionysus was to mingle the music of the aulos and to bring an end to care and worry. The Romans would hold dinner parties where wine was served to the guest all day along with a three course feast. Scholars have discussed Dionysus' relationship to the "cult of the souls" and his ability to preside over communication between the living and the dead.

The Roman belief that wine was a daily necessity made the drink "democratic" and ubiquitous: wine was available to slaves, peasants, women and aristocrats alike. To ensure the steady supply of wine to Roman soldiers and colonists, viticulture and wine production spread to every part of the empire. The Romans diluted their wine before drinking. Wine was also used for religious purposes, in the pouring of libations to deities.

Though beer was drunk in Ancient Rome, it was replaced in popularity by wine. Tacitus wrote disparagingly of the beer brewed by the Germanic peoples of his day. Thracians were also known to consume beer made from rye, even since the 5th century BC, as the ancient Greek logographer Hellanicus of Lesbos says. Their name for beer was brutos, or brytos. The Romans called their brew cerevisia, from the Celtic word for it. Beer was apparently enjoyed by some Roman legionaries. For instance, among the Vindolanda tablets (from Vindolanda in Roman Britain, dated c. 97-103 AD), the cavalry decurion Masculus wrote a letter to prefect Flavius Cerialis inquiring about the exact instructions for his men for the following day. This included a polite request for beer to be sent to the garrison (which had entirely consumed its previous stock of beer).

Ancient Sub-Saharan Africa

Palm wine played an important social role in many African societies.

Thin, gruel-like, alcoholic beverages have existed in traditional societies all across the African continent, created through the fermentation of sorghum, millet, bananas, or in modern times, maize or cassava.

Medieval period

Medieval Middle East

Medieval Muslim chemists such as Jābir ibn Ḥayyān (Latin: Geber, ninth century) and Abū Bakr al-Rāzī (Latin: Rhazes, 854–925) experimented extensively with the distillation of various substances. The distillation of wine is attested in Arabic works attributed to al-Kindī (c. 801–873 CE) and to al-Fārābī (c. 872–950), and in the 28th book of al-Zahrāwī's (Latin: Abulcasis, 936–1013) Kitāb al-Taṣrīf (later translated into Latin as Liber servatoris).

Medieval China and Medieval India

Distillation in China could have begun during the Eastern Han Dynasty (during the 1st & 2nd centuries), but the earliest archaeological evidence found so far indicates that the true distillation of alcohol began sometime during the Jin or Southern Song dynasties. A still has been found at an archaeological site in Qinglong, Hebei, dating to the 12th century.

In India, the true distillation of alcohol was introduced from the Middle East. It was in wide use in the Delhi Sultanate by the 14th century.

Medieval Europe

Schematic of a still

The process of distillation spread from the Middle East to Italy, where evidence of the distillation of alcohol appears from the School of Salerno in the 12th century. Fractional distillation was developed by Tadeo Alderotti in the 13th century.

In 1500, German alchemist Hieronymus Braunschweig published Liber de arte destillandi (The Book of the Art of Distillation), the first book solely dedicated to the subject of distillation, followed in 1512 by a much expanded version. In 1651, John French published The Art of Distillation the first major English compendium of practice, though it has been claimed that much of it derives from Braunschweig's work. This includes diagrams showing an industrial rather than bench scale of the operation.

Names like "life water" have continued to be the inspiration for the names of several types of beverages, like Gaelic whisky, French eaux-de-vie and possibly vodka. Also, the Scandinavian akvavit spirit gets its name from the Latin phrase aqua vitae.

At times and places of poor public sanitation (such as Medieval Europe), the consumption of alcoholic drinks was a way of avoiding water-borne diseases such as cholera. Small beer and faux wine in particular, were used for this purpose. Although alcohol kills bacteria, its low concentration in these beverages would have had only a limited effect. More important was that the boiling of water (required for the brewing of beer) and the growth of yeast (required for fermentation of beer and wine) would kill dangerous microorganisms. The alcohol content of these beverages allowed them to be stored for months or years in simple wood or clay containers without spoiling. For this reason, they were commonly kept aboard sailing vessels as an important (or even the sole) source of hydration for the crew, especially during the long voyages of the early modern period.

Modern period

Early modern period

During the early modern period (1500–1800), Protestant leaders such as Martin Luther, John Calvin, the leaders of the Anglican Church, and even the Puritans did not differ substantially from the teachings of the Catholic Church: alcohol was a gift of God and created to be used in moderation for pleasure, enjoyment and health; drunkenness was viewed as a sin.

From this period through at least the beginning of the 18th century, attitudes toward drinking were characterized by a continued recognition of the positive nature of moderate consumption and an increased concern over the negative effects of drunkenness. The latter, which was generally viewed as arising out of the increased self-indulgence of the time, was seen as a threat to spiritual salvation and societal well being. Intoxication was also inconsistent with the emerging emphasis on rational mastery of self and world and on work and efficiency.

In spite of the ideal of moderation, consumption of alcohol was often high. In the 16th century, alcohol beverage consumption reached 100 liters per person per year in Valladolid, Spain, and Polish peasants consumed up to three liters of beer per day. In Coventry, England, the average amount of beer and ale consumed was about 17 pints per person per week, compared to about three pints today; nationwide, consumption was about one pint per day per capita. Swedish beer consumption may have been 40 times higher than in modern Sweden. English sailors received a ration of a gallon of beer per day, while soldiers received two-thirds of a gallon. In Denmark, the usual consumption of beer appears to have been a gallon per day for adult laborers and sailors. It is important to note that modern beer is much stronger than the beers of the past. While current beers are 3-5% alcohol, the beer drunk in the historical past was generally 1% or so. This was known as 'small beer'.

However, the production and distribution of spirits spread slowly. Spirit drinking was still largely for medicinal purposes throughout most of the 16th century. It has been said of distilled alcohol that "the sixteenth century created it; the seventeenth century consolidated it; the eighteenth popularized it."

A beverage that clearly made its debut during the 17th century was sparkling champagne. The credit for that development goes primarily and erroneously to Dom Perignon, the wine-master in a French abbey. Although the oldest recorded sparkling wine is Blanquette de Limoux, in 1531, the English scientist and physician Christopher Merret documented the addition of sugar to a finished wine to create a second fermentation six years before Dom Perignon joined the Abbey of Hautvillers and almost 40 years before it was claimed that he invented Champagne. Around 1668, Perignon used strong bottles, invented a more efficient cork (and one that could contain the effervescence in those strong bottles), and began developing the technique of blending the contents. However, another century would pass before problems, especially bursting bottles, would be solved and champagne would become popular.

The original grain spirit, whisky (or whiskey in Hiberno-English) and its specific origins are unknown but the distillation of whisky has been performed in Ireland and Scotland for centuries. The first confirmed written record of whisky comes from 1405 in Ireland, the production of whisky from malted barley is first mentioned in Scotland in an entry from 1494, although both countries could have distilled grain alcohol before this date.

Distilled spirit was generally flavored with juniper berries. The resulting beverage was known as jenever, the Dutch word for "juniper." The French changed the name to genievre, which the English changed to "geneva" and then modified to "gin." Originally used for medicinal purposes, the use of gin as a social drink did not grow rapidly at first. However, in 1690, England passed "An Act for the Encouraging of the Distillation of Brandy and Spirits from Corn" and within four years the annual production of distilled spirits, most of which was gin, reached nearly one million gallons. "Corn" in the British English of the time meant "grain" in general, while in American English "corn" refers principally to maize.

The dawn of the 18th century saw the British Parliament pass legislation designed to encourage the use of grain for distilling spirits. In 1685, consumption of gin had been slightly over one-half million gallons but by 1714 it stood at two million gallons. In 1727, official (declared and taxed) production reached five million gallons; six years later the London area alone produced eleven million gallons of gin. The English government actively promoted gin production to utilize surplus grain and to raise revenue. Encouraged by public policy, very cheap spirits flooded the market at a time when there was little stigma attached to drunkenness and when the growing urban poor in London sought relief from the newfound insecurities and harsh realities of urban life. Thus developed the so-called Gin Epidemic.

While the negative effects of that phenomenon may have been exaggerated, Parliament passed legislation in 1736 to discourage consumption by prohibiting the sale of gin in quantities of less than two gallons and raising the tax on it dramatically. However, the peak in consumption was reached seven years later, when the nation of six and one-half million people drank over 18 million gallons of gin. And most was consumed by the small minority of the population then living in London and other cities; people in the countryside largely consumed beer, ale and cider.

After its peak, gin consumption rapidly declined. From eighteen million gallons in 1743, it dropped to just over seven million gallons in 1751 and to less than two million by 1758, and generally declined to the end of the century. A number of factors appear to have converged to discourage consumption of gin. These include the production of higher quality beer of lower price, rising corn prices and taxes which eroded the price advantage of gin, a temporary ban on distilling, an increasing criticism of drunkenness, a newer standard of behavior that criticized coarseness and excess, increased tea and coffee consumption, an increase in piety and increasing industrialization with a consequent emphasis on sobriety and labor efficiency.

While drunkenness was still an accepted part of life in the 18th century, the 19th century would bring a change in attitudes as a result of increasing industrialization and the need for a reliable and punctual work force. Self-discipline was needed in place of self-expression, and task orientation had to replace relaxed conviviality. Drunkenness would come to be defined as a threat to industrial efficiency and growth.

Ethanol can produce a state of general anesthesia and historically has been used for this purpose (Dundee et al., 1969).

Problems commonly associated with industrialization and rapid urbanization were also attributed to alcohol. Thus, problems such as urban crime, poverty and high infant mortality rates were blamed on alcohol, although "it is likely that gross overcrowding and unemployment had much to do with these problems." Over time, more and more personal, social and religious/moral problems would be blamed on alcohol. And not only would it be enough to prevent drunkenness; any consumption of alcohol would come to be seen as unacceptable. Groups that began by promoting the moderate use of alcohol instead of its abuse- would ultimately form temperance movements and press for the complete and total prohibition of the production and distribution of beverage alcohol. Unfortunately, this would not eliminate social problems but would compound the situation by creating additional problems wherever it was implemented.

The Thirteen Colonies

Interior view of the Toll Gate Saloon in Black Hawk, Colorado (1897)

Alcoholic beverages played an important role in the Thirteen Colonies from their early days. For example, the Mayflower shipped more beer than water when it departed for the New World in 1620. While this may seem strange viewed from the modern context, note that drinking wine and beer at that time was safer than drinking water - which was usually taken from sources also used to dispose of sewage and garbage. Experience showed that it was safer to drink alcohol than the typically polluted water in Europe. Alcohol was also an effective analgesic, provided energy necessary for hard work, and generally enhanced the quality of life.

For hundreds of years the English ancestors of the colonists had consumed beer and ale. Both in England and in the New World, people of both sexes and all ages typically drank beer with their meals. Because importing a continuing supply of beer was expensive, the early settlers brewed their own. However, it was difficult to make the beer they were accustomed to because wild yeasts caused problems in fermentation and resulted in a bitter, unappetizing brew. Although wild hops grew in New England, hop seeds were ordered from England in order to cultivate an adequate supply for traditional beer. In the meantime, the colonists improvised a beer made from red and black spruce twigs boiled in water, as well as a ginger beer.

Beer was designated X, XX, or XXX according to its alcohol content. The colonists also learned to make a wide variety of wine from fruits. They additionally made wine from such products as flowers, herbs, and even oak leaves. Early on, French vine-growers were brought to the New World to teach settlers how to cultivate grapes.

J.W. Swarts Saloon in Charleston, Arizona in 1885

Colonists adhered to the traditional belief that distilled spirits were aqua vitae, or water of life. However, rum was not commonly available until after 1650, when it was imported from the Caribbean. The cost of rum dropped after the colonists began importing molasses and cane sugar directly and distilled their own rum. By 1657, a rum distillery was operating in Boston. It was highly successful and within a generation the production of rum became colonial New England's largest and most prosperous industry.

Almost every important town from Massachusetts to the Carolinas had a rum distillery to meet the local demand, which had increased dramatically. Rum was often enjoyed in mixed drinks, including flip. This was a popular winter beverage made of rum and beer sweetened with sugar and warmed by plunging a red-hot fireplace poker into the serving mug. Alcohol was viewed positively while its abuse was condemned. Increase Mather (d. 1723) expressed the common view in a sermon against drunkenness: "Drink is in itself a good creature of God, and to be received with thankfulness, but the abuse of drink is from Satan; the wine is from God, but the drunkard is from the Devil."

The United States of America

In the early 19th century, Americans had inherited a hearty drinking tradition. Many types of alcohol were consumed. One reason for this heavy drinking was attributed to an overabundance of corn on the western frontier, which encouraged the widespread production of cheap whiskey. It was at this time that alcohol became an important part of the American diet. In the 1820s, Americans drank seven gallons of alcohol per person annually.

In colonial America, water contamination was common. Two means to ensure that waterborne illness, for example typhoid and cholera, was not conveyed by water was to boil it in the process of making tea or coffee, or to use it to make alcohol. As a result, alcohol consumption was much higher in the nineteenth century than it is today -- 7.1 US gallons (27 l) of pure alcohol per person per year. Before the construction of the Erie Canal, transportation of grain from the west was cost prohibitive; farmers instead converted their grain to alcohol for shipping eastward. This dependence on alcohol as a revenue source led to the Whiskey Rebellion of 1794. Later in the nineteenth century opposition to alcohol grew in the form of the temperance movement, culminating in Prohibition in the United States from 1920 to 1933.

Lie point symmetry

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