Teff

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Template:Short description Template:Speciesbox

Teff (Template:Langx), Eragrostis tef, also known as Williams lovegrass[1] and annual bunch grass,[2] is an annual species of lovegrass native to Ethiopia, where it originated in the Ethiopian Highlands. It has been cultivated for its edible seeds, also called teff, since at least 1000 BCE and possibly as long ago as 4000 BCE. It is one of Ethiopia's most important staple crops. As a modern crop, it is low-yielding and susceptible to lodging; the tef shoot fly is a major pest.

Description

Eragrostis tef is a self pollinated tetraploid[3] annual cereal grass.[4] Teff is a [[C4 carbon fixation |Template:C4 plant]],[3] which allows it to more efficiently fix carbon in drought and high temperatures, and is an intermediate between a tropical and temperate grass.[5] The name teff is thought to originate from the Amharic word Script error: No such module "Lang". teffa, which means "lost".[4][6] This probably refers to its tiny seeds, which have a diameter smaller than Template:Cvt.[6] Teff is a fine-stemmed, tufted grass with large crowns and many tillers. Its roots are shallow, but develop a massive fibrous rooting system.[6] The plant height varies depending on the cultivation variety and the environmental conditions.[5]

Distribution and habitat

Teff originated in the Ethiopian Highlands.[7][8][9] It is mainly cultivated in Ethiopia and Eritrea.[7] It is one of the most important staple crops in these two countries, where it is used to make injera. In 2016, Ethiopia grew more than 90 percent of the world's teff.[10] It is marginally cultivated in India, Australia, Germany, the Netherlands, Spain, and the US, particularly in Idaho, California, Texas, and Nevada.[11][10][12] Because of its very small seeds, a handful is enough to sow a large area. This makes teff particularly suited to a seminomadic lifestyle.[7]

Ecology

Teff is adaptable and can grow in various environments, at altitudes ranging from sea level to Template:Convert.[13] However, it does not tolerate frost. Highest yields are obtained when teff is grown between Template:Convert, with an annual rainfall of Template:Convert, and daily temperatures range from Template:Convert. Yields decrease when annual rainfall falls below 250 mm and when the average temperature during pollination exceeds 22 °C.[14] Despite its superficial root system, teff is quite drought-resistant thanks to its ability to regenerate rapidly after a moderate water stress and to produce fruits in a short time span. It is daylight-sensitive and flowers best with 12 hours of daylight. Teff is usually cultivated on pH-neutral soils, but can tolerate acid soil pH below 5. Teff has a C4 photosynthesis mechanism.[15]

Cultivation

As with many ancient crops, teff is quite adaptable;[5] in particular, it can be cultivated both in dry environments and in wet conditions on marginal soils.[6]

Teff is one of the most important cereals in Ethiopia and Eritrea.[7] It is grown for its edible seeds and also for its straw to feed cattle.[6] The seeds are very small, about a millimeter in length, and a thousand grains weigh approximately Template:Cvt.[16] They can have a color from a white to a deep reddish brown.[5] Teff is similar to millet and quinoa in cooking, but the seed is much smaller and cooks faster, using less fuel.[12]

History

Teff is believed to have originated in Ethiopia between 4000 BCE and 1000 BCE. Genetic evidence points to E. pilosa as the most likely wild ancestor.[17] A 19th-century identification of teff seeds from an ancient Egyptian site is now considered doubtful; the seeds in question (no longer available for study) are more likely of E. aegyptiaca, a common wild grass in Egypt.[18]

File:An Eritrean woman harvesting Teff in Geshinashim..jpg
An Eritrean woman harvesting teff in Geshinashim, Eritrea

Teff is the most important commodity produced and consumed in Ethiopia where the flat pancake-like injera provides a livelihood for around 6.5 million small farmers in the country.[19] In 2006, the Ethiopian government outlawed the export of raw teff, fearing export-driven domestic shortages like those suffered by South American countries after the explosion of quinoa consumption in Europe and the US.[19][20] Processed teff, namely injera, could still be exported and was mainly bought by the Ethiopian and Eritrean diaspora living in northern Europe, the Middle East and North America.[19] After a few years, fears of a domestic shortage of teff in the scenario of an international market opening decreased.[20] Teff yields had been increasing by 40 to 50% over the five previous years while prices had remained stable in Ethiopia.[19][20] This led the government to partially lift the export ban in 2015. To ensure that the domestic production would not be minimized, the export licenses have only been granted to 48 commercial farmers which had not cultivated the plant before.[20] Lack of mechanization is a barrier to potential increases in teff exports.[20] Yet the increasing demand, rising by 7–10% per year, and the subsequent increase in exports is encouraging the country to speed up the modernization of agriculture and is also boosting research.[20] Because of its potential as an economic success, a few other countries, including the US and some European countries, are already cultivating teff and selling it on domestic markets.[20]

Modern cultivation

File:The Teff Harvest, Northern Ethiopia (3131617016).jpg
Traditional teff harvesting in Ethiopia, October 2007

The cultivation of teff is labor-intensive and the small size of its seeds makes it difficult to handle and transport without loss.[6] In Ethiopia, teff is mostly produced during the main rain season, between July and November. It is known as an "emergency crop" because it is planted late in the season, when the temperatures are warmer, and most other crops have already been planted.[15] Teff germination generally occurs 3–12 days after sowing. Optimal germination temperatures range from 15 to 35 °C; below 10 °C, germination almost does not occur.[15] Teff is traditionally sown or broadcast by hand, on firm, humid soil.[21] Usual sowing density ranges from 15 to 20 kg/ha, though farmers can sow up to 50 kg/ha, because the seeds are hard to spread equally and a higher sowing density helps to reduce weed competition at the early stage.[15] Seeds are either left at the soil surface or slightly covered by a thin layer of soil, but must not be planted at a depth greater than 1 cm. The field can be subsequently rolled.[22]

File:Tef in Ethiopia 01.jpg
Field of teff

Recommended fertilization doses are 25–60 kg/ha for N, and 10–18 kg/ha for P. Teff responds more to nitrogen than to phosphorus; thus, high nitrogen inputs increase the biomass production and size of the plants, thereby increasing lodging.[23] To avoid this, farmers can decrease nitrogen input, cultivate teff after a legume crop or adjust sowing time so that the rains have stopped when the crop reaches heading stage. In Ethiopia, teff is commonly used in crop rotations with other cereals and legumes.[22]

File:Ethiopie-Battage du teff (4).jpg
Teff threshed by using animals walking on the harvest

Teff is harvested 2–6 months after sowing, when the vegetative parts start to turn yellow. If teff is harvested past its maturation, seeds will fall off, especially in windy or rainy weather conditions.[15] In Ethiopia, harvest lasts from November to January; harvest is usually done manually, with sickles. Farmers cut the plants at the soil surface, pile them up in the field and transport them to the threshing area.[24] Teff is traditionally threshed by using animals walking on the harvest. Alternatively, some farmers rent threshing machines used for other cereals.[21] The seeds are easy to store, as they are resistant to most pests during storage. Teff seeds can stay viable several years if direct contact with humidity and sun is avoided.[5] Average yields in Ethiopia reach around two tonnes per ha. One single inflorescence can produce up to 1000 seeds, and one plant up to 10,000.[25] Moreover, teff offers some promising opportunities for breeding programs: the first draft of the Eragrostis tef genome was published in 2014 and research institutes have started selecting for more resistant varieties.[26] In 1996, the US National Research Council characterized teff as having the "potential to improve nutrition, boost food security, foster rural development and support sustainable landcare."[7]

Challenges and prospects

The major challenges in teff production are its low yield and high susceptibility to lodging. Efforts to conventionally breed teff towards higher yields started in the 1950s and led to an average annual increase in yield of 0.8%.[27]

High-yielding varieties, such as Quencho, were widely adopted by farmers in Ethiopia.[27] Sequencing of the teff genome improved breeding,[28] and an ethyl methanesulphonate (EMS)-mutagenized population was then used to breed the first semi-dwarf lodging-tolerant teff line, called kegne.[29] In 2015, researchers tested 28 new teff varieties and identified three promising lines that generated yields of up to 4.7 tonnes per ha.[30]

The "Teff Improvement Project" marked a milestone by releasing the first teff variety Tesfa to the Ethiopian markets in March 2017.[31] Areas of further development include: "(i) improving productivity of teff; (ii) overcoming the lodging malady; (iii) developing climate-smart and appropriate crop and soil management options; (iv) developing tolerance to abiotic stresses such as drought and soil acidity; (v) developing suitable pre- and post-harvest mechanization technologies suitable for smallholder farmers as well as commercial farms; (vi) food processing and nutrition aspects with special attention to the development of different food recipes and value-added products; (vii) developing crop protection measures against diseases, insect pests and weeds; and (viii) improving or strengthening socio-economics and agricultural extension services."[32]

Pests

The tef shoot fly (Atherigona hyalinipennis) is a major pest of the crop.[33][34][35]

Other insect pests include:[36]

Uses

File:Eritrean Injera with stews.jpg
Injera served in a typical Ethiopian dish
File:Mashella ena Teff.JPG
Teff (small grains) and sorghum (large grains), ingredients for tella

Teff is a multipurpose crop which has a high importance for the Ethiopian diet and culture.[5][7] In Ethiopia, teff provides two-thirds of the daily protein intake.[37] It is not only important for human nutrition, but also as fodder for livestock, or as building material.[5][37] Teff is the main ingredient to prepare injera, a sourdough-risen flatbread.[38] During meals, it is often eaten with meat or ground pulses.[5] Sometimes it is also eaten as porridge.[5] Moreover, teff can be used to prepare alcoholic drinks, called arak'e or katikalla[5] or beer, called t'ella or fersso.[37] Finally, due to its high mineral content, teff is also mixed with soybeans, chickpeas or other grains to manufacture baby foods.[5]

Farmers in Ethiopia believe that consumers prefer white teff over darker varieties.[39] As a nutritious fodder, teff is used to feed ruminants in Ethiopia and horses in the US.[40] It is a source of animal feed, especially during the dry season, and it is often preferred over straw from other cereals.[5][37] Teff grass can be used as a construction material when mixed with mud to plaster the walls of local grain storage facilities.[5][37]

Nutrition

Template:Nutritionalvalue

Uncooked teff is 9% water, 73% carbohydrates, 13% protein, and 2% fat. Cooked teff is 75% water, 20% carbohydrates, 4% protein, and less than 1% fat. A Template:Convert reference serving of cooked teff provides Template:Convert of food energy, is a rich source of protein, dietary fiber, and manganese, and contains moderate amounts of thiamin, phosphorus, iron, magnesium, and zinc. The fiber content in teff is also higher than in most other cereals.[41]

Teff is gluten free, and a method has been developed to process teff into a flour with a wider range of baking applications, such as for bread and pasta.[42] Template:Nutritionalvalue

Amino-acid Concentration in raw teff, in g/16gN[42]
Lysine 3.68
Isoleucine 4.07
Leucine 8.53
Valine 5.46
Phenylalaline 5.69
Tyrosine 3.84
Tryptophan 1.30
Threonine 4.32
Histidine 3.21
Arginine 5.15
Methionine 4.06
Cystine 2.50
Asparagine + Aspartic Acid 6.4
Proline 8.2
Serine 4.1
Glutamine + Glutamic Acid 21.8
Glycine 3.1
Alanine 10.1

Patent and bio-piracy

In 2003, a Dutch company, Health and Performance Food International (HPFI), paired with the Ethiopian Institute of Biodiversity Conservation to introduce teff to European markets. The agreement was for Ethiopia to provide HPFI with a dozen strains of teff to market globally, and the two entities would split the proceeds.[43] HPFI's CEO, Jans Roosjen, took out two patents on teff in 2003 and 2007, claiming that his way of milling and storing the flour was unique. HPFI went bankrupt in 2009, allowing Roosjen to utilize those patents and the marketing rights for the grain while being freed from the original agreement with Ethiopia.[43] Ethiopia only received 4,000 euros over five years of collaboration.[44] Roosjen sued a Dutch bakery company, Bakels, for patent infringement through selling teff baked goods. The Dutch patent office declared the patent void, stating that the methods used to bake and mix flours were "general professional knowledge".[44] Teff is inherent to Ethiopia's national culture and identity.[45] The government of Ethiopia has expressed intent to hold Roosjen accountable under patent law, and to regain ownership over international markets of its most important food.[46]

See also

References

Template:Reflist

External links

Template:Sister project

Template:AfricanPlants

Template:Cereals Template:Taxonbar

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  14. Cheng, A., Mayes, S., Dalle, G., Demissew, S. & Massawe, F. (2017). Diversifying crops for food and nutrition security - a case of teff. Biol. Rev., 92, 188–198.
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  23. Van Delden, S.H., Vos, J., Ennos, A.R. & Stomph, T.J. (2010). Analysing lodging of the panicle bearing cereal teff (Eragrostis tef). New Phytol., 186, 696–707.
  24. Tefera, H.; Belay, G., 2006. Eragrostis tef (Zuccagni) Trotter. In: Brink, M.; Belay, G. (eds), PROTA (Plant Resources of Tropical Africa/Ressources végétales de l'Afrique tropicale), Wageningen, Netherlands
  25. Gebre, E., Gugsa, L., Schlüter, U. & Kunert, K. (2013). Transformation of tef (Eragrostis tef) by Agrobacterium through immature embryo regeneration system for inducing semi-dwarfism. South African Journal of Botany, 87, 9–17.
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  34. Mideksa, A., M. Negeri, and T. Shiberu. 2014. Management of tef shoot fly, Atherigona hyalinipennis (Reg.) (Diptera: Muscidae) on tef at Ambo, West Showa of Ethiopia. J. Entomol. Nematol. 6: 134–139.
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