Proso millet explained

Panicum miliaceum is a grain crop with many common names, including proso millet, broomcorn millet, common millet, hog millet, Kashfi millet, red millet, and white millet. Archaeobotanical evidence suggests millet was first domesticated about 10,000 BP in Northern China.[1] Major cultivated areas include Northern China, Himachal Pradesh of India,[2] Nepal, Russia, Ukraine, Belarus, the Middle East, Turkey, Romania, and the Great Plains states of the United States. About 500000acres are grown each year.[3] The crop is notable both for its extremely short lifecycle, with some varieties producing grain only 60 days after planting,[4] and its low water requirements, producing grain more efficiently per unit of moisture than any other grain species tested.[4] [5] The name "proso millet" comes from the pan-Slavic general and generic name for millet (separator=/|proso|просо, Czech: proso, Polish: proso, Russian: просо).

Proso millet is a relative of foxtail millet, pearl millet, maize, and sorghum within the grass subfamily Panicoideae. While all of these crops use C4 photosynthesis, the others all employ the NADP-ME as their primary carbon shuttle pathway, while the primary C4 carbon shuttle in proso millet is the NAD-ME pathway.

Evolutionary history

Panicum miliaceum is a tetraploid species with a base chromosome number of 18, twice the base chromosome number of diploid species within its genus Panicum.[6] The species appears to be an allotetraploid resulting from a wide hybrid between two different diploid ancestors.[7] One of the two subgenomes within proso millet appears to have come from either P. capillare or a close relative of that species. The second subgenome does not show close homology to any known diploid Panicum species, but some unknown diploid ancestor apparently also contributed a copy of its genome to a separate allotetraploid species P. repens (torpedo grass).[7] The two subgenomes within proso millet are estimated to have diverged 5.6 million years ago.[8] However, the species has experienced only limited amounts of fractionation and copies of most genes are still retained on both subgenomes. A sequenced version of the proso millet genome, estimated to be around 920 megabase pairs in size, was published in 2019.

Domestication and history of cultivation

Weedy forms of proso millet are found throughout central Asia, covering a widespread area from the Caspian Sea east to Xinjiang and Mongolia. These may represent the wild progenitor of proso millet or feral escapes from domesticated production.[9] Indeed, in the United States, weedy proso millet, representing feral escapes from cultivation, are now common, suggesting current proso millet cultivars retain the potential to revert, similar to the pattern seen for weedy rice. Currently, the earliest archeological evidence for domesticated proso millet comes from the Cishan site in semiarid north east China around 8,000 BCE. Because early varieties of proso millet had such a short lifecycle, as little as 45 days from planting to harvest, they are thought to have made it possible for seminomadic tribes to first adopt agriculture, forming a bridge between hunter-gatherer-focused lifestyles and early agricultural civilizations.[10] Archaeological charred grains of common millet were found in several Neolithic sites in Europe and Transcaucasia but radiocarbon dates obtained thanks to AMS method directly from the grains, indicated that it appeared in that area in the 2nd millennium BC. [11] [12] [13]

Cultivation

Proso millet is a relatively low-demanding crop, and diseases are not known; consequently, it is often used in organic farming systems in Europe. In the United States, it is often used as an intercrop. Thus, proso millet can help to avoid a summer fallow, and continuous crop rotation can be achieved. Its superficial root system and its resistance to atrazine residue make proso millet a good intercrop between two water- and pesticide-demanding crops. The stubbles of the last crop, by allowing more heat into the soil, result in a faster and earlier millet growth. While millet occupies the ground, because of its superficial root system, the soil can replenish its water content for the next crop. Later crops, for example, a winter wheat, can in turn benefit from the millet stubble, which act as snow accumulators.[14] P. miliaceum is commonly classified into five races, miliaceum, patentissimum, contractum, compactum, and ovatum.[15]

Climate and soil requirements

Due to its C4 photosynthetic system, proso millet is thermophilic like maize, so shady locations of the field should be avoided. It is sensitive to temperatures lower than . Proso millet is highly drought-resistant, which makes it of interest to regions with low water availability and longer periods without rain.[16] [17] The soil should be light or medium-heavy. Due to its flat root systems, soil compaction must be avoided. Furthermore, proso millet does not tolerate soil wetness caused by dammed-up water.

A 2019 study found different cultivars have significantly different effects on rhizosphere assemblage, and also that Proteobacteria, Bacteroidetes, Chloroflexi, Gemmatimonadetes, Firmicutes, Verrucomicrobia, and Planctomycetes are the most common members, in declining order.[18] [19]

Seedbed and sowing

The seedbed should be finely crumbled as for sugar beet and rapeseed. In Europe, proso millet is sowed between mid-April and the end of May. About of seeds are required, which is roughly 500/m2. In organic farming, this amount should be increased if a harrow weeder is used. For sowing, the usual sowing machines can be used similarly to how they are used for other crops such as wheat. A distance between the rows of is recommended if the farmer uses an interrow cultivator. The sowing depth should be in optimal soil or in dry soil. Rolling of the ground after sowing is helpful for further cultivation. Cultivation in no-till farming systems is also possible and often practiced in the United States. Sowing then can be done two weeks later.[14]

Field management

Only a few diseases and pests are known to attack proso millet, but they are not economically important. Weeds are a bigger problem. The critical phase is in juvenile development. The formation of the grains happens in the 3- to 5-leaf stage. After that, all nutrients should be available for the millet, so preventing the growth of weeds is necessary. In conventional farming, herbicides may be used. In organic farming, harrow weeder or interrow cultivator use is possible, but special sowing parameters are needed.For good crop development, fertilization with nitrogen per hectare is recommended. Planting proso millet in a crop rotation after maize should be avoided due to its same weed spectrum. Because proso millet is an undemanding crop, it may be used at the end of the rotation.

Harvesting and postharvest treatments

Harvest time is at the end of August until mid-September. Determining the best harvest date is not easy because all the grains do not ripen simultaneously. The grains on the top of the panicle ripen first, while the grains in the lower parts need more time, making compromise and harvest necessary to optimize yield. Harvesting can be done with a conventional combine harvester with the moisture content of the grains around 15-20%. Usually, proso millet is mowed into windrows first, since the plants are not dry like wheat. There, they can wither, which makes the threshing easier. Then the harvest is done with a pickup attached to a combine.Possible yields are between under optimal conditions. Studies in Germany showed that even higher yields can be attained.

Geographical distribution

In the United States, as of 2015, the total cultivated area of proso millet was, mostly in the Great Plains states. The top three producers in 2015 were Colorado, Nebraska, and South Dakota, with,, and .[20] Historically grown as animal and bird seed, as of 2020, it has found a market as an organic gluten-free grain.[21]

Proso millet is one of the few types of millet not cultivated in Africa.[22]

As food and drink

Humans

In Inner Mongolia and northwestern Shanxi, China, fermented proso millet porridge known as "suan zhou" (酸粥) is popular. Millet is soaked to allow fermentation, then water is emptied to obtain porridge. The emptied water is served as a millet drink called "suan mi tang" (酸米湯). The porridge is eaten alongside pickles, e.g. turnips, carrots, radish and celery. The porridge may be stirred-fried and is called "chao suan zhou" (炒酸粥). The porridge may also be steamed into solids known as "suan lao fan" (酸撈飯). While the traditional grain is proso millet, it is mixed with rice when available. Many folk idioms of sourness derive from this dish.[23] [24]

In the United States, proso millet is used to brew gluten-free beer, being mixed with other grains to produce a texture.[25] [26]

Livestock and poultry

Proso millet is primarily grown as livestock and poultry fodder. As food it is very deficient in lysine and needs complementation. Proso millet is also a poor fodder due to its low leaf-to-stem ratio and a possible irritant effect due to its hairy stem. Foxtail millet, having a higher leaf-to-stem ratio and less hairy stems, is preferred as fodder, particularly the variety called moha, which is a high-quality fodder.

Nutrition

Millet flour
Kj:1597
Protein:10.8 g
Fat:4.2 g
Carbs:75.1 g
Fiber:3.5 g
Calcium Mg:14
Iron Mg:3.9
Magnesium Mg:119
Phosphorus Mg:285
Potassium Mg:224
Sodium Mg:4
Zinc Mg:2.6
Manganese Mg:1
Thiamin Mg:0.4
Riboflavin Mg:0.07
Niacin Mg:6
Pantothenic Mg:1.3
Vitb6 Mg:0.37
Folate Ug:42
Vite Mg:0.11
Vitk Ug:0.8
Opt1n:Water
Opt1v:8.7 g
Note:Full Report of USDA Database entry

Millet flour is 9% water, 75% carbohydrates, 11% protein, and 4% fat (table). In a reference amount of, millet flour supplies 382 calories, and is a rich source (20% or more of the Daily Value, DV) of several B vitamins and dietary minerals (table).

The demand for more diverse and healthier cereal-based foods is increasing, particularly in affluent countries.[27] Protein content in proso millet grains is comparable with that of wheat, but the share of some essential amino acids (leucine, isoleucine, and methionine) is substantially higher in proso millet.[27] Among the most commonly consumed products are ready-to-eat breakfast cereals made purely from millet flour,[16] [27] and a variety of noodles and bakery products that are, however, often produced from mixtures with wheat flour to improve their sensory quality.[27]

Fermentation products

Starch derived from millets has been shown to be a good substrate for fermentation and malting with grains having similar starch contents as wheat grains.[28] One study suggested that starch derived from proso millet can be converted to ethanol with an only moderately lower efficiency than starch derived from corn.[29] As proso millet is compatible with low-input agriculture, cultivation on marginal soils for biofuel production may present a new market for farmers.[29]

Pests

Insect pests include:[30]

Seedling pests
Stem borers
Leaf feeders
Earhead feeders
Other pests

As a weed

Weedy and feral types are classified as Panicum ruderale(Kitag.) Chang comb. Nov. or Panicum miliaceum subsp. ruderale. A 2018 report developed a morphometric analysis method which distinguishes seeds of P. miliaceum and P. ruderale on the basis of micromorphology.[33] [34]

Local names

Native names for proso millet in its cultivated area include:

糜米

тары

External links

Notes and References

  1. 3. free . Lu . H. . Zhang . J. . Liu . K.-b. . Wu . N. . Li . Y. . Zhou . K. . Ye . M. . Zhang . T. . Zhang . H. . Yang . X. . Shen . L. . Xu . D. . Li . Q. . Proceedings of the National Academy of Sciences. Earliest domestication of common millet (Panicum miliaceum) in East Asia extended to 10,000 years ago . 21 April 2009 . 106 . 18 . 7367–7372 . 10.1073/pnas.0900158106 . 19383791 . 2678631 . 2009PNAS..106.7367L .
  2. Book: Millets in the Himalaya. B Venkatesh . Bhat. A . Arunachalam. Dinesh. Kumar. Vilas A. Tonapi. Trilochan . Mohapatra. 2019. 28, 76. Indian Council of Agriculgultural Research. https://web.archive.org/web/20220225060408/https://millets.res.in/pub/2019/Millets_Indian_Himalaya.pdf. 2022-02-25.
  3. Web site: USDA - National Agricultural Statistics Service Homepage.
  4. Graybosch . R. A. . Baltensperger . D. D. . Evaluation of the waxy endosperm trait in proso millet. Plant Breeding. February 2009 . 128 . 1 . 70–73 . 10.1111/j.1439-0523.2008.01511.x.
  5. Book: Lyman James Briggs. Homer LeRoy Shantz. The water requirement of plants. 1913. Govt. Print. Off.. 29–.
  6. Aliscioni . Sandra S. . Giussani . Liliana M. . Zuloaga . Fernando O. . Kellogg . Elizabeth A. . A molecular phylogeny of Panicum (Poaceae: Paniceae): tests of monophyly and phylogenetic placement within the Panicoideae . . May 2003 . 90 . 5 . 796–821 . 10.3732/ajb.90.5.796 . 21659176.
  7. Hunt . H. V. . Badakshi . F. . Romanova . O. . Howe . C. J. . Jones . M. K. . Heslop-Harrison . J. S. P. . 3. Reticulate evolution in Panicum (Poaceae): the origin of tetraploid broomcorn millet, P. miliaceum . . 10 April 2014 . 65 . 12 . 3165–3175 . 10.1093/jxb/eru161. 24723408 . 4071833 .
  8. Zou . Changsong . Li . Leiting . Miki . Daisuke . Li . Delin . Tang . Qiming . Xiao . Lihong . Rajput . Santosh . Deng . Ping . Peng . Li . Jia . Wei . Huang . Ru . Zhang . Meiling . Sun . Yidan . Hu . Jiamin . Fu . Xing . Schnable . Patrick S. . Chang . Yuxiao . Li . Feng . Zhang . Hui . Feng . Baili . Zhu . Xinguang . Liu . Renyi . Schnable . James C. . Zhu . Jian-Kang . Zhang . Heng . 3. The genome of broomcorn millet . . 25 January 2019 . 10 . 1 . 436 . 10.1038/s41467-019-08409-5. 30683860 . 6347628 . 2019NatCo..10..436Z .
  9. Book: Domestication of Plants in the Old World . Daniel . Zohary . Maria . Hopf . 3rd . . 2000. 978-0198503569.
  10. This Ancient Grain May Have Helped Humans Become Farmers. Maris . Fessenden . January 7, 2016. Smithsonian Magazine.
  11. Motuzaite-Matuzeviciute . Giedre . Staff . Richard A. . Hunt . Harriet V. . Liu . Xinyi . Jones . Martin K. . December 2013 . The early chronology of broomcorn millet (Panicum miliaceum) in Europe . Antiquity . en . 87 . 338 . 1073–1085 . 10.1017/S0003598X00049875 . 163096064 . 0003-598X.
  12. Filipović . Dragana . Meadows . John . Corso . Marta Dal . Kirleis . Wiebke . Alsleben . Almuth . Akeret . Örni . Bittmann . Felix . Bosi . Giovanna . Ciută . Beatrice . Dreslerová . Dagmar . Effenberger . Henrike . Gyulai . Ferenc . Heiss . Andreas G. . Hellmund . Monika . Jahns . Susanne . 2020-08-13 . New AMS 14C dates track the arrival and spread of broomcorn millet cultivation and agricultural change in prehistoric Europe . Scientific Reports . en . 10 . 1 . 13698 . 10.1038/s41598-020-70495-z . 32792561 . 7426858 . 2045-2322.
  13. Martin . Lucie . Messager . Erwan . Bedianashvili . Giorgi . Rusishvili . Nana . Lebedeva . Elena . Longford . Catherine . Hovsepyan . Roman . Bitadze . Liana . Chkadua . Marine . Vanishvili . Nikoloz . Le Mort . Françoise . Kakhiani . Kakha . Abramishvili . Mikheil . Gogochuri . Giorgi . Murvanidze . Bidzina . 2021-06-23 . The place of millet in food globalization during Late Prehistory as evidenced by new bioarchaeological data from the Caucasus . Scientific Reports . en . 11 . 1 . 13124 . 10.1038/s41598-021-92392-9 . 34162920 . 2021NatSR..1113124M . 2045-2322. free . 8222238 .
  14. http://ianrpubs.unl.edu/epublic/live/ec137/build/ec137.pdf Producing and marketing proso millet in the great plains
  15. 6 . 2015 . Manish . Travis . Raizada . Goron . Frontiers in Plant Science . Genetic diversity and genomic resources available for the small millet crops to accelerate a New Green Revolution . 157 . 10.3389/fpls.2015.00157 . 25852710 . 4371761 . free .
  16. Merkblatt für den Anbau von Rispenhirse im biologischen Landbau, www.biofarm.ch, http://www.biofarm.ch/assets/files/Landwirtschaft/Merkblatt_Biohirse_Version%2012_2010.pdf(23.11.14)
  17. Book: Hanna WW, Baltensperger DD, Seetharam A . 2004 . Pearl Millet and Other Millets . Warm-Season (C4) Grasses . Agronomy Monographs. 45 . 537–560 . Moser LE, Burson BL, Sollenberger LE . 10.2134/agronmonogr45.c15. 9780891182375 .
  18. 2020. 11 . Ni. Joe. Hesham. R.. Iqbal. Anirban. Sadaf. Suriani. Dailin. El-Enshasy. Sayyed. Ahmad. Basu. Kalam. Frontiers in Microbiology. Recent Understanding of Soil Acidobacteria and Their Ecological Significance: A Critical Review. 226064207. 33193209. 7661733. 10.3389/fmicb.2020.580024 . free .
  19. 2019. 3. Na. Xiaofan. Cao. Xiaoning. Ma. Caixia. Ma. Shaolan. Xu. Pengxin. Liu. Sichen. Wang. Junjie. Wang. Haigang. Chen. Ling. Qiao. Zhijun. Frontiers in Microbiology. 128359092. 31068914. 6491785. 10.3389/fmicb.2019.00828. Plant Stage, Not Drought Stress, Determines the Effect of Cultivars on Bacterial Community Diversity in the Rhizosphere of Broomcorn Millet (Panicum miliaceum L.). 10. 828. free.
  20. 7. 2017 . Habiyaremye. Cedric. Matanguihan. Janet B.. D'Alpoim Guedes. Jade. Ganjyal. Girish M.. Whiteman. Michael R.. Kidwell. Kimberlee K.. Murphy. Kevin M.. Frontiers in Plant Science. 10022987. 5220228. 28119699. 10.3389/fpls.2016.01961. Proso Millet (Panicum miliaceum L.) and Its Potential for Cultivation in the Pacific Northwest, U.S.: A Review . 1961 . free .
  21. News: Daliah Singer . Colorado's hottest grain is gluten-free, nutrient-dense, great in beer and about to be your new fav pantry staple Colorado produces the most millet in the country. But what exactly is it? . July 30, 2020 . The Denver Post. July 30, 2020.
  22. Book: National Research Council . Lost Crops of Africa: Volume I: Grains . 2008-07-18 . 1 . 1996-02-14 . . 978-0-309-04990-0 . 10.17226/2305. 260 . Ebony . http://books.nap.edu/openbook.php?record_id=2305&page=252 .
  23. News: 东拉西扯唠酸粥(二). 2023-06-05. 赵喜荣. 府谷故事. 府谷县委史志研究室. https://archive.today/20230827155049/https://mp.weixin.qq.com/s/CPt_a6nVmkcAHRL2V7fA9Q . 2023-08-27.
  24. Book: 吴堡方言调查研究. 2014. 邢向东. 王兆富. 中华书局. 43, 44, 48, 51, 61, 150.
  25. News: Santra. D.K.. Rose. D.J.. Alternative Uses of Proso Millet. University of Nebraska-Lincoln Extension. 2013. 2.
  26. News: Pale Millet Malt - 5 LB. c. 2015. Gluten Free Home Brewing. https://web.archive.org/web/20220812210206/https://glutenfreehomebrewing.com/STOREProduct/944/Pale-Millet-Malt--5-LB.html. 2022-08-12.
  27. Saleh AS, Zhang Q, Chen J, Shen Q . 2012 . Millet Grains: Nutritional Quality, Processing, and Potential Health Benefits . . 12 . 3 . 281–295 . 10.1111/1541-4337.12012. 86749886 .
  28. Rose DJ, Santra DK . 2013 . Proso millet (Panicum miliaceum L.) fermentation for fuel ethanol production . Industrial Crops and Products . 43 . 1 . 602–605 . 10.1016/j.indcrop.2012.08.010. 1627015 .
  29. Taylor . J.R.N. . Schober . T.J. . Bean . S.R. . 2006 . Novel food and non-food uses for sorghum and millets . Journal of Cereal Science . 44 . 3. 252–271 . 10.1016/j.jcs.2006.06.009.
  30. Book: Kalaisekar, A. Insect pests of millets: systematics, bionomics, and management. . . 2017. 978-0-12-804243-4. 967265246.
  31. 1. 2019. Gahukar. Ruparao T. Reddy. Gadi V P. Royer. Tom. Management of Economically Important Insect Pests of Millet. Journal of Integrated Pest Management . 10. 10.1093/jipm/pmz026. free.
  32. 5. 5. 2017. 2000–2004. Ravulapenta. Sathish. M. Manjunatha. K. Rajashekarappa. Incidence of shoot fly, Atherigona pulla (Wiedemann) on proso millet at different dates of sowing. Journal of Entomology and Zoology Studies.
  33. 2. 2019. 25. 246–256. 3. Portillo. Marta. Ball. Terry B.. Wallace. Michael. Murphy. Charlene. Pérez-Díaz. Sebastián. Ruiz-Alonso. Mónica. Aceituno. Francisco Javier. López-Sáez. José Antonio. Environmental Archaeology. 10.1080/14614103.2019.1569351. Advances in Morphometrics in Archaeobotany. 135206336 .
  34. 1. 8. 2018. Zhang. Scientific Reports. Jianping. Lu. Houyuan. Liu. Minxuan. Diao. Xianmin. Shao. Konglan. Wu. Naiqin. 10.1038/s41598-018-31467-6. Phytolith analysis for differentiating between broomcorn millet (Panicum miliaceum) and its weed/feral type (Panicum ruderale). 13022. 30158541. 6115419. 2018NatSR...813022Z. free.