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Saturday, 25 June 2016

Millet

For other uses, see Millet (disambiguation).
Pearl millet in the field
Finger millet in the field
Ripe head of proso millet
Millets are a group of highly variable small-seeded grasses, widely grown around the world as cereal cropsor grains for fodder and human food. Millets are important crops in the semiarid tropics of Asia and Africa (especially in IndiaMaliNigeria, and Niger), with 97% of millet production in developing countries.[1] The crop is favored due to its productivity and short growing season under dry, high-temperature conditions.
The most widely grown millet is pearl millet, which is an important crop in India and parts of Africa.[2] Finger milletproso millet, and foxtail millet are also important crop species. In the developed world, millets are less important. For example, in the United States, only proso millet is significant, and it is mostly grown for bird seed.[1]
While millets are indigenous to many parts of the world, it is believed that they had an evolutionary origin in tropical western Africa, as that is where the greatest number of both wild and cultivated forms exist.[3] Millets have been important food staples in human history, particularly in Asia and Africa. They have been in cultivation in East Asiafor the last 10,000 years.[4]

Description

Consumption of the minor millets has been practiced since the beginning of the ancient civilizations of the world. Generally, the millets are small-grained, annual, warm-weather cereals belonging to grass family. They are highly tolerant to extreme weather conditions such as drought and are nutritious compared to the major cereals such as rice and wheat. They contain low phytic acid and are rich in dietary fiber, iron, calcium, and B vitamins. Moreover, these millets release sugar slowly in the blood and also diminish the glucose absorption. These properties of the minor millets made the present consumers attracted to the consumption of millet.

Millet varieties


 Major millets (the most widely cultivated species)[2]

Varieties of millet grown in India

Pearl millet

Thinai (foxtail) millet

Varagu (kodo) millet
Eragrostideae tribe :
  • Eleusine coracana : finger millet (also known as ragi, nachani,mandwa or Kezhvaragu in India), fourth-most cultivated millet
Paniceae tribe :
  • Panicum miliaceumproso millet (syn. : common millet, broom corn millet, hog millet or white millet, "chena" in Hindi, "Pani-varagu" in Tamil, "Baragu" in Kannada), third-most cultivated millet
  • Pennisetum glaucumpearl millet (also known as Sajjalu in Andhra Pradesh and kambu as referred by other South Indian states and bajra in Hindi), the most cultivated millet
  • Setaria italicafoxtail millet, the second-most cultivated millet (also known as korralu in Andhra Pradesh and thinai in Tamil Nadu and kang or rala in Maharashtra, kakum in Hindi)
Andropogoneae tribe :
  • Maize and sorghum are occasionally counted as major millets and known as jonna in Andhra Pradesh and cholam in Tamil Nadu
Minor millets
Andropogoneae tribe :
Eragrostideae tribe :
  • Eragrostis tefteff
Paniceae tribe :

History

Foxtail Millet is known to have been the first domesticated millet. Chinese legends attribute the domestication of millet to Shennong, the legendary Emperor of China.[5] Similarly, millets have been mentioned in some of the oldest extant Yajurveda texts, identifying foxtail millet(priyangava), Barnyard millet (aanava) and black finger millet (shyaamaka), indicating that millet consumption was very common, pre-dating to 4500 BC, during the Indian Bronze Age.[6] Specialized archaeologists called palaeoethnobotanists, relying on data such as the relative abundance of charred grains found in archaeological sites, hypothesize that the cultivation of millets was of greater prevalence in prehistory than rice,[7] especially in northern China and Korea. Millets also formed important parts of the prehistoric diet in Indian, Chinese Neolithic and Korean Mumun societies. Broomcorn (Panicum miliaceum) and foxtail millet were important crops beginning in the Early Neolithic of China. For example, some of the earliest evidence of millet cultivation in China was found at Cishan(north). Cishan dates for common millet husk phytoliths and biomolecular components have been identified around 8300–6700 BC in storage pits along with remains of pit-houses, pottery, and stone tools related to millet cultivation.[4] Evidence at Cishan for foxtail millet dates back to around 6500 BC.[4] A 4,000-year-old well-preserved bowl containing well-preserved noodles made from foxtail millet and broomcorn millet was found at the Lajiaarchaeological site in China.[8]
Palaeoethnobotanists have found evidence of the cultivation of millet in the Korean Peninsula dating to the Middle Jeulmun pottery period (around 3500–2000 BC).[9] Millet continued to be an important element in the intensive, multicropping agriculture of the Mumun pottery period (about 1500–300 BC) in Korea.[10] Millets and their wild ancestors, such as barnyard grass and panic grass, were also cultivated in Japan during the Jōmon period some time after 4000 BC.[11]
Millet made its way from China to the Black Sea region of Europe by 5000 BC.[12] The cultivation of common millet as the earliest dry crop in East Asia has been attributed to its resistance to drought,[4] and this has been suggested to have aided its spread.[12]
Pearl Millet was domesticated in the Sahel region of West Africa, where its wild ancestors are found. Evidence for the cultivation of Pearl Millet in Mali dates back to 2500 BC,[13] and Pearl Millet is found in South Asia by 2300 BC[14]
Finger Millet is originally native to the highlands of East Africa, and was domesticated before the third millennium BC. It's cultivation had spread to South India by 1800 BC.[15]
Research on millets is carried out by the International Crops Research Institute for the Semi-Arid Tropics in Telangana, India, and by the USDA-ARS at Tifton, Georgia, United States.

Production

Pearl millet is one of the two major crops in the semiarid, impoverished, less fertile agriculture regions of Africa and southeast Asia.[16] Millets are not only adapted to poor, droughty, and infertile soils, but they are also more reliable under these conditions than most other grain crops. This has, in part, made millet production popular, particularly in countries surrounding the Sahara Desert in western Africa.

Worldwide millet production, 2000

Worldwide millet production, 2005
Millets, however, do respond to high fertility and moisture. On a per hectare basis, millet grain produced per hectare can be two to four times higher with use of irrigation and soil supplements. Improved breeds of millet improve their disease resistance and can significantly enhance farm yield productivity. There has been cooperation between poor countries to improve millet yields. For example, 'Okashana 1', a variety developed in India from a natural-growing millet variety in Burkina Faso, doubled yields. This breed was selected for trials in Zimbabwe. From there it was taken to Namibia, where it was released in 1990 and enthusiastically adopted by farmers. Okashana 1 became the most popular variety in Namibia, the only non-Sahelian country where pearl millet – locally known as mahangu – is the dominant food staple for consumers. 'Okashana 1' was then introduced to Chad. The breed has significantly enhanced yields in Mauritania and Benin.[17]
India is the world's largest producer of millet. In the 1970s, all of the millet crops harvested in India were used as a food staple. By the 2000s, the annual millet production had increased in India, yet per capita consumption of millet had dropped by between 50% to 75% in different regions of the country. As of 2005, most millet produced in India is being used for alternative applications such as livestock fodder and alcohol production.[18] Indian organizations are discussing ways to increase millet use as food to encourage more production; however, they have found that some consumers now prefer the taste of other grains.[19]
In 2010, the average yield of millet crops worldwide was 0.83 tonnes per hectare. The most productive millet farms in the world were in France, with a nationwide average yield of 3.3 tonnes per hectare in 2010.[20]
Top 10 millet producers — 2013
CountryProduction (Tonnes)Footnote
 India10,910,000
 Nigeria5,000,000F
 Niger2,955,000*
 China1,620,000F
 Mali1,152,331
 Burkina Faso1,109,000*
 Sudan1,090,000
 Ethiopia807,056
 Chad582,000*
 Senegal572,155
 World29,870,058A
No symbol = official figure, * = Unofficial figure, F = FAO estimate, A = May include official, semiofficial or estimated data

Alcoholic beverages

Millets are traditionally important grains used in brewing millet beer in some cultures, for instance by the Tao people of Orchid Island[citation needed] and in Taiwan. Various peoples in East Africabrew a drink from millet or sorghum known as ajono, a traditional brew of the Teso. The fermented millet is prepared in a large pot with hot water and people share the drink by sipping it through long straws.
Millet is also the base ingredient for the distilled liquor rakshi in Nepal and the indigenous alcoholic drink of the Sherpa, Tamang, Rai and Limbu people, tongba, in eastern Nepal. In Balkancountries, especially Romania and Bulgaria, millet is used to prepare the fermented drink boza.
Edit


Tongba, a millet-based alcoholic brew found in the far eastern mountainous region of Nepal and Sikkim, India

As a food source

Millets are major food sources in arid and semiarid regions of the world, and feature in the traditional cuisine of many others. In western India, sorghum (called jowarjolajonnalujwaarie, or jondhahlaa in GujaratiKannadaTeluguHindi and Marathilanguages, respectively; mutthaarikora, or pangapullu in Malayalam; or cholam in Tamil) has been commonly used with millet flour (called jowari in western India) for hundreds of years to make the local staple, hand-rolled (that is, made without a rolling pin) flat bread (rotla in Gujarati, bhakri in Marathi, or roti in other languages). Another cereal grain popularly used in rural areas and by poor people to consume as a staple in the form of roti. Other millets such as ragi (finger millet) in Karnataka, naachanie in Maharashtra, or kezhvaragu in Tamil, "ragulu" in Telugu, with the popular ragi rottiand Ragi mudde is a popular meal in Karnataka. Ragi, as it is popularly known, is dark in color like rye, but rougher in texture.
Awaokoshi, candied millet puffs, are a specialty of Osaka, Japan. This millet confection tradition began when it was presented to Sugawara no Michizanewhen he stopped in Naniwa during the early Heian period, about 1000 years ago.
Millet porridge is a traditional food in RussianGerman, and Chinese сuisines. In Russia, it is eaten sweet (with milk and sugar added at the end of the cooking process) or savoury with meat or vegetable stews. In China, it is eaten without milk or sugar, frequently with beans, sweet potato, and/or various types of squash. In Germany, it is also eaten sweet, boiled in water with apples added during the boiling process and honey added during the cooling process.
Per capita consumption of millets as food varies in different parts of the world with consumption being the highest in Western Africa. In the Sahel region, millet is estimated to account for about 35 percent of total cereal food consumption in Burkina FasoChad and the Gambia. In Mali and Senegal, millets constitute roughly 40 percent of total cereal food consumption per capita, while in Niger and arid Namibia it is over 65 percent (see mahangu). Other countries in Africa where millets are a significant food source include EthiopiaNigeriaand Uganda. Millet is also an important food item for the population living in the drier parts of many other countries, especially in eastern and central Africa, and in the northern coastal countries of western Africa. In developing countries outside Africa, millet has local significance as a food in parts of some countries, such as ChinaIndiaBurma and North Korea.[3]
The use of millets as food fell between the 1970s and the 2000s, both in urban and rural areas, as developing countries such as India have experienced rapid economic growth and witnessed a significant increase in per capita consumption of other cereals.[18]
People affected by gluten-related disorders, such as coeliac diseasenon-celiac gluten sensitivity and wheat allergy sufferers,[21][22][23] who need a gluten-free diet, can replace gluten-containing cereals in their diets with millet.[24]
It is a common ingredient in seeded bread.
Millets are also used as bird and animal feed.

Grazing milletEdit

In addition to being used for seed, millet is also used as a grazing forage crop. Instead of letting the plant reach maturity it can be grazed by stock and is commonly used for sheep and cattle.
Millet is a C4 plant which means it has good water efficiency and utilizes high temperature and is therefore a summer crop. A C4 plant uses a different enzyme in photosynthesis from C3 plants and this is why it improves water efficiency.
In southern Australia millet is used as a summer quality pasture, utilizing warm temperatures and summer storms. Millet is frost sensitive and is sown after the frost period, once soil temperature has stabilised at 14 °C or more. It is sown at a shallow depth.
Millet grows rapidly and can be grazed 5–7 weeks after sowing, when it is 20–30 cm high. The highest feed value is from the young green leaf and shoots. The plant can quickly come to head, so it must be managed accordingly because as the plant matures the value and palatability of feed reduces.
The Japanese millets (Echinochloa esculenta) are considered the best for grazing and in particular Shirohie, a new variety of Japanese millet, is the best suited variety for grazing. This is due to a number of factors: it gives better regrowth and is later to mature compared to other Japanese millets; it is cheap – cost of seed is $2–$3 per kg and sowing rates are around 10 kg per hectare for dryland production; it is quick to establish; it can be grazed early; and it is suitable for both sheep and cattle.
Compared to forage sorghum, which is grown as an alternative grazing forage, animals gain weight faster on millet and it has better hay or silage potential, although it produces less dry matter. Lambs do better on millet compared to sorghum.[25] Millet does not contain prussic acid which can be in sorghum. Prussic acid poisons animals by inhibiting oxygen utilisation by the cells and is transported in the blood around the body — ultimately the animal will die from asphyxia.[26] There is no need for additional feed supplements such as sulphur or salt blocks with millet.
The rapid growth of millet as a grazing crop allows flexibility in its use. Farmers can wait until sufficient late spring / summer moisture is present and then make use of it. It is ideally suited to irrigation where livestock finishing is required.[25][26][27]

Nutrition

In a 100 gram serving, raw millet provides 378 calories and is a rich source (20% or more of the Daily Value, DV) of proteindietary fiber, several B vitamins and numerous dietary minerals, especially manganese at 76% DV (USDA nutrient table). Raw millet is 73% carbohydrates, 4% fat and 11% protein (table).
Millet, raw
Nutritional value per 100 g (3.5 oz)
Energy1,582 kJ (378 kcal)
72.8 g
Dietary fiber8.5 g
4.2 g
Saturated0.7 g
Monounsaturated0.8 g
Polyunsaturated
2.1 g
0.1 g
2.0 g
11.0 g
Vitamins
Thiamine (B1)
(37%)
0.42 mg
Riboflavin (B2)
(24%)
0.29 mg
Niacin (B3)
(31%)
4.72 mg
Pantothenic acid (B5)
(17%)
0.85 mg
Vitamin B6
(29%)
0.38 mg
Folate (B9)
(21%)
85 μg
Vitamin C
(0%)
0 mg
Vitamin K
(1%)
0.9 μg
Minerals
Calcium
(1%)
8 mg
Iron
(23%)
3.0 mg
Magnesium
(32%)
114 mg
Manganese
(76%)
1.6 mg
Phosphorus
(41%)
285 mg
Potassium
(4%)
195 mg
Sodium
(0%)
5 mg
Zinc
(18%)
1.7 mg
Other constituents
Copper0.8 mg
Selenium2.7 µg

Percentages are roughly approximated using US recommendations for adults.
Millet contains no gluten, so is not suitable for raising bread.[citation needed]

Comparison with other major staple foodsEdit

The following table shows the nutrient content of millet compared to major staple foods in a raw form. Raw forms, however, are not edible and cannot be fully digested. These must be prepared and cooked as appropriate for human consumption. In processed and cooked form, the relative nutritional and antinutritional contents of each of these grains is remarkably different from that of raw forms reported in this table. The nutritional value in the cooked form depends on the cooking method.
Nutrient profile comparison of millet with other food staples
Synopsis[28] ~ composition:Cassava[29]Wheat[30]Rice[31]Sweetcorn[32]Sorghum
Millet[33]
Proso
Millet[34]
Component
(per 100g portion, raw grain)
AmountAmountAmountAmountAmountAmount
water (g)6013.112769.28.7
energy (kJ)6671368152736014181582
protein (g)1.412.67311.311
fat (g)0.31.5113.34.2
carbohydrates (g)3871.279197573
fiber (g)1.81.2136.38.5
sugars (g)1.70.4>0.131.9
iron (mg)0.273.20.80.54.43
manganese (mg)0.43.91.10.2<0.11.6
calcium (mg)1629282288
magnesium (mg)211262537<120114
phosphorus (mg)2728811589287285
potassium (mg)271363115270350195
zinc (mg)0.32.61.10.5<11.7
pantothenic acid (mg)0.10.91.00.7<0.90.8
vitB6 (mg)0.10.30.20.1<0.30.4
folate (µg)2738842<2585
thiamin (mg)0.10.380.10.20.20.4
riboflavin (mg)<0.10.1>0.10.10.10.3
niacin (mg)0.95.51.61.82.94.7
Nutrient Content of Various Millets with comparison to Rice and Wheat (Source: Millet Network of India, http://www.milletindia.org )
Crop / NutrientProtein(g)Fiber(g)Minerals(g)Iron(mg)Calcium(mg)
Pearl millet10.61.32.316.938
Finger millet7.33.62.73.9344
Foxtail millet12.383.32.831
Proso millet12.52.21.90.814
Kodo millet8.392.60.527
Little millet7.77.61.59.317
Barnyard millet11.210.14.415.211
Rice6.80.20.60.710
Wheat11.81.21.55.341

See Also


Notes

  1. a b McDonough, Cassandrea M.; Rooney, Lloyd W.; Serna-Saldivar, Sergio O. (2000). "The Millets". Food Science and Technology: Handbook of Cereal Science and Technology(CRC Press). 99 2nd ed: 177–210.
  2. a b "Annex II: Relative importance of millet species, 1992–94". The World Sorghum and Millet Economies: Facts, Trends and Outlook. Food and Agriculture Organization of the United Nations. 1996. ISBN 92-5-103861-9.
  3. a b "Sorghum and millet in human nutrition". Food and Agriculture Organization of the United Nations. 1995.
  4. a b c d Lu, H; Zhang, J; Liu, KB; Wu, N; Li, Y; Zhou, K; Ye, M; Zhang, T; et al. (2009). "Earliest domestication of common millet (Panicum miliaceum) in East Asia extended to 10,000 years ago"Proceedings of the National Academy of Sciences of the United States of America 106 (18): 7367–72. doi:10.1073/pnas.0900158106PMC 2678631PMID 19383791.
  5. ^ Yang, Lihui; et al. (2005). Handbook of Chinese Mythology. New York: Oxford University Press. p. 198. ISBN 978-0-19-533263-6.
  6. ^ "Yajurveda 4th Anuvaka, Rudra Chamakam" (PDF). p. 6.
  7. ^ Manjul, Tarannum (January 21, 2006). "Millets older than wheat, rice: Archaeologists". Lucknow Newsline. Retrieved 2008-04-14.
  8. ^ "Oldest noodles unearthed in China". BBC News. 12 October 2005.
  9. ^ (Crawford 1992; Crawford and Lee 2003).
  10. ^ (Crawford and Lee 2003).
  11. ^ (Crawford 1983, 1992).
  12. a b Lawler, A (2009). "Bridging East and West: Millet on the move". Science 325: 942–943. doi:10.1126/science.325_940.
  13. ^ "4500-Year old domesticated pearl millet (Pennisetum glaucum) from the Tilemsi Valley, Mali: new insights into an alternative cereal domestication pathway". Journal of Archaeological Science.
  14. ^ "pearl Millet - Domestication and History".
  15. ^ "Plant Genetic Resources of Ethiopia".
  16. ^ Baltensperger, David D. (2002). "Progress with Proso, Pearl and Other Millets" (PDF).
  17. ^ ICRISAT. "A New Generation of Pearl Millet on the Horizon". The World Bank.
  18. a b Basavaraj (December 2010). "Availability and utilization of pearl millet in India"(PDF)SAT eJournal 8.
  19. ^ Jayaraman, Gayatri (January 4, 2012). "What's your Millet Mojo". Live Mint.
  20. ^ "FAOSTAT: Production, Crops, Millet, 2010 data". Food and Agriculture Organization. 2011.
  21. ^ Ludvigsson JF, Leffler DA, Bai JC, Biagi F, Fasano A, Green PH, Hadjivassiliou M, Kaukinen K, Kelly CP, Leonard JN, Lundin KE, Murray JA, Sanders DS, Walker MM, Zingone F, Ciacci C (January 2013). "The Oslo definitions for coeliac disease and related terms"Gut 62 (1): 43–52. doi:10.1136/gutjnl-2011-301346PMC 3440559PMID 22345659.
  22. ^ Mulder CJ, van Wanrooij RL, Bakker SF, Wierdsma N, Bouma G (2013). "Gluten-free diet in gluten-related disorders". Dig Dis. (Review) 31 (1): 57–62. doi:10.1159/000347180PMID 23797124.
  23. ^ Volta U, Caio G, De Giorgio R, Henriksen C, Skodje G, Lundin KE (Jun 2015). "Non-celiac gluten sensitivity: a work-in-progress entity in the spectrum of wheat-related disorders". Best Pract Res Clin Gastroenterol 29 (3): 477–91. doi:10.1016/j.bpg.2015.04.006PMID 26060112.
  24. ^ Rai S, Kaur A, Singh B (Apr 2014). "Quality characteristics of gluten free cookies prepared from different flour combinations"J Food Sci Technol 51 (4): 785–9. doi:10.1007/s13197-011-0547-1PMC 3982011PMID 24741176.
  25. a b Collett, Ian J. "Forage Sorghum and Millet" (PDF)District Agronomist, Tamworth. NSW Department of Primary Industries. Retrieved 7 November 2013.
  26. a b Robson, Sarah. "Dr" (PDF)primefact 417, Prussic Acid Poisoning in Livestock. NSW Department of Primary Industries. Retrieved 7 November 2013.
  27. ^ Lonewood Trust. SHIROHIE MILLET GROWING GUIDE (PDF)http://aussiesapphire.com/documents/SHIROHIE_MILLET_GROWING_GUIDE.pdf. Retrieved 7 November 2013. Missing or empty |title= (help)
  28. ^ "Raw millet per 100 g, Full Report". USDA National Nutrient Database, Release 28. 2015. Retrieved 3 December 2015.
  29. ^ raw, uncooked
  30. ^ hard red winter
  31. ^ white, long-grain, regular, raw, unenriched
  32. ^ sweet, yellow, raw
  33. ^ Sorghum, edible portion white variety
  34. ^ Millet, proso variety, raw

References

  • Crawford, Gary W. (1983). Paleoethnobotany of the Kameda Peninsula. Ann Arbor: Museum of Anthropology, University of Michigan. ISBN 0-932206-95-6.
  • Crawford, Gary W. (1992). "Prehistoric Plant Domestication in East Asia". In Cowan C.W.; Watson P.J. The Origins of Agriculture: An International Perspective. Washington: Smithsonian Institution Press. pp. 117–132. ISBN 0-87474-990-5.
  • Crawford, Gary W. & Lee, Gyoung-Ah (2003). "Agricultural Origins in the Korean Peninsula". Antiquity 77 (295): 87–95. doi:10.1017/s0003598x00061378.

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