Arachis hypogaea, the peanut or groundnut, is an annual herbaceous plant in the Fabaceae (legume or bean family) that originated and was domesticated in South and Central America 3,500 years ago, and is now grown in tropical and warm-temperate regions worldwide for its seeds and their oil. Although appearing as and referred to as a nut, it is actually the underground pod of a legume, rather than a true nut.
The peanut plant has procumbent (trailing) stems and grows to around 0.5 m (20 in) tall or long. The leaves are alternate and compound, with 4 ovate to oblong leaflets, up to 6 cm long (2.25 in). The tubular, 5-parted flowers are yellow and self-fertile. After pollination, the flower stalks elongate, growing to 6 cm long, and push the developing pods into the ground, so that the fruit must be dug up from the soil to be harvested. The fruit is an indehiscent legume (a pod that does not have sutures or split open freely), typically containing 1 to 3 soft seeds (sometimes as many as 6), each covered with a reddish brown, papery membrane. The seeds contain up to 50% oil. Numerous cultivars have been developed, which have different growth forms, size, shape, flavor, and disease and insect resistance; the varieties are generally classified into four major groups, two upright (Valencia and Spanish), and two with prostrated plants (Virginia and Peruvian).
Peanuts, which are high in protein and vitamin B and E, as well as magnesium, manganese, and phosphorus, are eaten raw or boiled and roasted (and often salted) as a snack, and they are cooked in a wide variety of southeast Asian, African, and South American dishes (ranging from soups, stews, and curries to the peanut sauces typical of Indonesian satay and various Asian noodle dishes), as well as used in confections. They are frequently ground into peanut butter, or pressed for the oil, which is used in cooking, salad dressings, margarine, and mayonnaise, as well as in the manufacture of soaps and cosmetics. The seeds, pods, and whole plants are also a source of animal fodder, fiber for paper production, and a green fertilizer.
Total commercial production of peanuts worldwide was 37.6 million metric tons, harvested from 24.1 million hectares, in 2010. China was the leading producer, harvesting more than 3 times as much as any other nation. Other major producers include India, Nigeria, the U.S., Senegal, and Myanmar. In the U.S., peanuts are an important crop in several southeastern states, partly due to the work of the African-American botanist George Washington Carver, who in the 1920s and 1930s promoted them as an alternative crop to cotton, which was declining in productivity due to soil depletion and insect devastation (by the boll weevil, Anthonomus grandis); he famously described 145 different products made from peanuts, many of which he himself developed.
(Bailey et al. 1976, Flora of China 2010, van Wyk 2005, Wikipedia 2012.)
- Bailey, L.H., E.Z. Bailey, and the L.H. Bailey Hortatorium. 1976. Hortus Third: A concise dictionary of plants cultivated in the United States and Canada. New York: Macmillan. p. 96.
- Flora of China. 2010. ARACHIS Linnaeus, Sp. Pl. 2: 741. 1753. Flora of China 10: 132. Retrieved online 29 Mar 2012 from http://flora.huh.harvard.edu/china/PDF/PDF10/Arachis.pdf.
- van Wyk, B.-E. 2005. “Arachis hypogaea.” Food Plants of the World: An Illustrated Guide. Portland, OR: Timber Press. p. 66.
- Wikipedia. 2012. George Washington Carver [Internet]. Wikipedia, The Free Encyclopedia. 2012 Jun 28, 12:02 UTC [cited 2012 Jun 29]. Available from: http://en.wikipedia.org/w/index.php?title=George_Washington_Carver&oldid=499742660.
The peanut, or groundnut (Arachis hypogaea), is a species in the legume or "bean" family (Fabaceae). Despite its name and appearance, the peanut is not a nut according to the botanical definition (Encyclopædia Britannica 2012).
The peanut was probably first cultivated in the valleys of Peru (University of Georgia 2004).It is an annual herbaceous plant growing 30 to 50 cm (1.0 to 1.6 ft) tall. The leaves are opposite, pinnate with four leaflets (two opposite pairs; no terminal leaflet), each leaflet 1 to 7 cm long and 1 to 3 cm broad. The flowers are a typical peaflower in shape, 2 to 4 cm across, yellow with reddish veining (Young 2006).
Hypogaea means "under the earth", because after pollination, the flower stalk bends downward, and the mature fruit develops underground -- the peanut – a classical example of "geocarpy." Pods are 3 to 7 cm (1.2 to 2.8 in) long, containing 1 to 4 seeds (Young 2006).
- Encyclopædia Britannica. 2012. "nut." .Encyclopædia Britannica Online Academic Edition. Encyclopædia Britannica Inc., 2012. Web. 07 May. 2012.
- University of Georgia. 2004. "World Geography of the Peanut". Retrieved 2009-08-18.
- Young, Michael C. 2006. The Peanut Allergy Answer Book. Fair Winds publishing, ISBN 1-59233-233-1
Derivation of specific name
Localities documented in Tropicos sources
Argentina (South America)
Bolivia (South America)
Brazil (South America)
Canada (North America)
Colombia (South America)
Peru (South America)
French Guiana (South America)
Costa Rica (Mesoamerica)
United States (North America)
Madagascar (Africa & Madagascar)
El Salvador (Mesoamerica)
Ecuador (South America)
Paraguay (South America)
Uruguay (South America)
Note: This information is based on publications available through Tropicos and may not represent the entire distribution. Tropicos does not categorize distributions as native or non-native.
- Forzza, R. C. & et al. 2010. 2010 Lista de espécies Flora do Brasil. http://floradobrasil.jbrj.gov.br/2010/. http://www.tropicos.org/Reference/100002289
- SPECIMEN BASED RECORD. Published protolog data. http://www.tropicos.org/Reference/9990002
- Cowan, C. P. 1983. Flora de Tabasco. Listados Floríst. México 1: 1–123. http://www.tropicos.org/Reference/511
- Anonymous. 1986. List-Based Rec., Soil Conserv. Serv., U.S.D.A. Database of the U.S.D.A., Beltsville. http://www.tropicos.org/Reference/1103
- Lawesson, J. E., H. Adsersen & P. Bentley. 1987. An updated and annotated check list of the vascular plants of the Galapagos Islands. Rep. Bot. Inst. Univ. Aarhus 16: 1–74. http://www.tropicos.org/Reference/43197
- Renner, S. S., H. Balslev & L. B. Holm-Nielsen. 1990. Flowering plants of Amazonian Ecuador---A checklist. AAU Rep. 24: 1–241. http://www.tropicos.org/Reference/43828
- Molina Rosito, A. 1975. Enumeración de las plantas de Honduras. Ceiba 19(1): 1–118. http://www.tropicos.org/Reference/866
- Foster, R. C. 1958. A catalogue of the ferns and flowering plants of Bolivia. Contr. Gray Herb. 184: 1–223. http://www.tropicos.org/Reference/1313
- Macbride, J. F. 1943. Leguminosae, Flora of Peru. Publ. Field Mus. Nat. Hist., Bot. Ser. 13(3/1): 1–506. http://www.tropicos.org/Reference/21
- Standley, P. C. & J. A. Steyermark. 1946. Leguminosae. Flora of Guatemala. Fieldiana, Bot. 24(5): 1–368. http://www.tropicos.org/Reference/26
- Lewis, G. P. 1987. Legumes of Bahia. 369 pp. http://www.tropicos.org/Reference/1411
- Baillon, H. E. 1882-1894. Liste de plantes de Madagascar. Bull. Mens. Soc. Linn. Paris 1: 330–1199 (sporadic pagination). http://www.tropicos.org/Reference/1540
- Liogier, H. A. 1988. Spermatophyta: Leguminosae to Anacardiaceae. Descr. Fl. Puerto Rico & Adj. Isl. 2: 1–481. http://www.tropicos.org/Reference/1871
- Vatke, W. 1880. Leguminosae Hildebrandtianae madagascarienses enumeratae autore codem, Coll. I-II. Linnaea 43: 100–112. http://www.tropicos.org/Reference/17406
- Dwyer, J. D. & D. L. Spellman. 1981. A list of the Dicotyledoneae of Belize. Rhodora 83(834): 161–236. http://www.tropicos.org/Reference/1811
- Garcia-Barriga, H. & E. Forero. 1968. Las Leguminosas: Mimosaceae, Caesalpiniaceae, Papilionaceae. 3: 1–136. In Cat. Il. Pl. Cundinamarca. http://www.tropicos.org/Reference/80
- Standley, P. C. 1937. Flora of Costa Rica. Publ. Field Mus. Nat. Hist., Bot. Ser. 18(2): 487–559. http://www.tropicos.org/Reference/314
- Lemee, A. 1952. Legumineuses. vol. 2. In A. M. V. Lemée Fl. Guyane Franç. P. Lechevalier, Paris. http://www.tropicos.org/Reference/167
- Leon, H. & H. Alain. 1951. Dicotiledoneas: Casuarinaceas a Meliaceas. Fl. Cuba 2: 1–456. http://www.tropicos.org/Reference/65
- Howard, R. A. & G. R. Proctor. 1957. Vegetation on bauxitic soils in Jamaica, II. J. Arnold Arbor. 38(2): 151–169. http://www.tropicos.org/Reference/288
- Fournet, J. 1978. Fabaceae Flore illustree des phanerogames de Guadeloupe et de Martinique. http://www.tropicos.org/Reference/459
- Gleason, H. A. 1968. The Choripetalous Dicotyledoneae. vol. 2. 655 pp. In H. A. Gleason Ill. Fl. N. U.S. (ed. 3). New York Botanical Garden, New York. http://www.tropicos.org/Reference/1704
- Berendsohn, W. G. & A. E. A. González. 1989. Listado básico de la Flora Salvadorensis: Familia 118: Leguminosae. Cuscatlania 1(2): 1–16. http://www.tropicos.org/Reference/9808
- Reed, C. R. 1964. A Flora of the chrome and manganese ore piles at Canton, in the Port of Baltimore, Maryland and at Newport News, Virginia, with descriptions. Phytologia 10(5): 321–406. http://www.tropicos.org/Reference/409
- Jørgensen, P. M. & S. León-Yánez. (eds.) 1999. Catalogue of the vascular plants of Ecuador. Monogr. Syst. Bot. Missouri Bot. Gard. 75: i–viii, 1–1181. http://www.tropicos.org/Reference/42250
- Breedlove, D. E. 1986. Flora de Chiapas. Listados Floríst. México 4: i–v, 1–246. http://www.tropicos.org/Reference/513
- Radford, A. E., H. E. Ahles & C. R. Bell. 1968. Man. Vasc. Fl. Carolinas i–lxi, 1–1183. University of North Carolina Press, Chapel Hill. http://www.tropicos.org/Reference/636
- Small, J. K. 1933. Man. S.E. Fl. i–xxii, 1–1554. Published by the Author, New York. http://www.tropicos.org/Reference/1515
- Fernald, M. 1950. Manual (ed. 8) i–lxiv, 1–1632. American Book Co., New York. http://www.tropicos.org/Reference/1327
- Dodson, C. H., A. H. Gentry & F. M. Valverde Badillo. 1985. Fl. Jauneche 1–512. Banco Central del Ecuador, Quito. http://www.tropicos.org/Reference/44748
- Drake del Castillo, E. 1903. Note sur les plantes recueillies par M. Guillaume Grandidier, dans le Sud de Madagascar, en 1898 et 1901. Bull. Mus. Hist. Nat. (Paris) 9: 35–46, 96–99. http://www.tropicos.org/Reference/1759
- Flora of China Editorial Committee. 1988-2013. Fl. China Unpaginated. Science Press & Missouri Botanical Garden Press, Beijing & St. Louis. http://www.tropicos.org/Reference/42480
- Howard, R. A. 1988. Leguminosae. Fl. Lesser Antilles (Dicotyledoneae–Part 1) 4: 334–538. http://www.tropicos.org/Reference/1877
- Flora of China Editorial Committee. 2010. Fl. China 10: 1–642. Science Press & Missouri Botanical Garden Press, Beijing & St. Louis. http://www.tropicos.org/Reference/100000625
- Pérez, A., M. Sousa Sánchez, A. M. Hanan-Alipi, F. Chiang Cabrera & P. Tenorio L. 2005. Vegetación terrestre. 65–110. In Biodivers. Tabasco. CONABIO-UNAM, México. http://www.tropicos.org/Reference/1030034
- Balick, M. J., M. Nee & D. E. Atha. 2000. Checklist of the vascular plants of Belize. Mem. New York Bot. Gard. 85: i–ix, 1–246. http://www.tropicos.org/Reference/1014725
- Zamora Villalobos, N. 2010. Fabaceae. En: Manual de Plantas de Costa Rica. Vol. 5. B.E. Hammel, M.H. Grayum, C. Herrera & N. Zamora (eds.). Monogr. Syst. Bot. Missouri Bot. Gard. 119: 395–775. http://www.tropicos.org/Reference/100003899
- Idárraga-Piedrahita, A., R. D. C. Ortiz, R. Callejas Posada & M. Merello. 2011. Flora de Antioquia. Catálogo de las Plantas Vasculares, vol. 2. Listado de las Plantas Vasculares del Departamento de Antioquia. Pp. 1-939. http://www.tropicos.org/Reference/100008595
- García-Mendoza, A. J. & J. Meave del Castillo. 2011. Divers. Florist. Oaxaca 1–351. Universidad Nacional Autónoma de México, Ciudad Universitaria. http://www.tropicos.org/Reference/100009052
Regularity: Regularly occurring
Life History and Behavior
Molecular Biology and Genetics
Barcode data: Arachis hypogaea
Statistics of barcoding coverage: Arachis hypogaea
Public Records: 10
Specimens with Barcodes: 10
Species With Barcodes: 1
NatureServe Conservation Status
Rounded Global Status Rank: GNR - Not Yet Ranked
Relevance to Humans and Ecosystems
Comments: The peanut. Widely grown and eaten in South America.
|The examples and perspective in this article deal primarily with the United States and do not represent a worldwide view of the subject. (January 2010)|
The peanut, or groundnut (Arachis hypogaea), is a species in the legume or "bean" family (Fabaceae). The peanut was probably first domesticated and cultivated in the valleys of Paraguay. It is an annual herbaceous plant growing 30 to 50 cm (1.0 to 1.6 ft) tall. The leaves are opposite, pinnate with four leaflets (two opposite pairs; no terminal leaflet); each leaflet is 1 to 7 cm (⅜ to 2¾ in) long and 1 to 3 cm (⅜ to 1 inch) across.
The flowers are a typical peaflower in shape, 2 to 4 cm (0.8 to 1.6 in) (¾ to 1½ in) across, yellow with reddish veining. The specific name, hypogaea means "under the earth"; after pollination, the flower stalk elongates, causing it to bend until the ovary touches the ground. Continued stalk growth then pushes the ovary underground where the mature fruit develops into a legume pod, the peanut – a classical example of geocarpy. Pods are 3 to 7 cm (1.2 to 2.8 in) long, containing 1 to 4 seeds.
Peanuts are known by many other local names such as earthnuts, ground nuts, goober peas, monkey nuts, pygmy nuts and pig nuts. Despite its name and appearance, the peanut is not a nut, but rather a legume.
- 1 History
- 2 Cultivation
- 3 Cultivars in the United States
- 4 Uses
- 5 Nutritional value
- 6 Health concerns
- 7 U.S. Department of Agriculture (USDA) program
- 8 Trade
- 9 See also
- 10 Footnotes
- 11 External links
The domesticated peanut is an amphidiploid or allotetraploid, meaning that it has two sets of chromosomes from two different species, thought to be A. duranensis and A. ipaensis. These likely combined in the wild to form the tetraploid species A. monticola, which gave rise to the domesticated peanut. This domestication might have taken place in Paraguay or Bolivia, where the wildest strains grow today. Many pre-Columbian cultures, such as the Moche, depicted peanuts in their art.
Archeologists have dated the oldest specimens to about 7,600 years, found in Peru. Cultivation spread as far as Mesoamerica, where the Spanish conquistadors found the tlalcacahuatl (the plant's Nahuatl name, whence Mexican Spanish cacahuate and French cacahuète) being offered for sale in the marketplace of Tenochtitlan (Mexico City). The plant was later spread worldwide by European traders.
Although the peanut was mainly a garden crop for much of the colonial period of North America, it was mostly used as animal feed stock until the 1930s. In the United States, a US Department of Agriculture program (see below) to encourage agricultural production and human consumption of peanuts was instituted in the late 19th and early 20th centuries. George Washington Carver is well known for his participation in that program in which he developed hundreds of recipes for peanuts.
The orange-veined, yellow-petaled, pea-like flower of the Arachis hypogaea is borne in axillary clusters above ground. Following self-pollination, the flowers fade and wither. The stalk at the base of the ovary, called the pedicel, elongates rapidly, and turns downward to bury the fruits several inches in the ground, where they complete their development. The entire plant, including most of the roots, is removed from the soil during harvesting. The fruits have wrinkled shells that are constricted between pairs of the one to four (usually two) seeds per pod.
The pods ripen 120 to 150 days after the seeds are planted. If the crop is harvested too early, the pods will be unripe. If they are harvested late, the pods will snap off at the stalk, and will remain in the soil. They need an acidic soil to grow preferably with 5.9-7 pH.
Peanuts are particularly susceptible to contamination during growth and storage. Poor storage of peanuts can lead to an infection by the mold fungus Aspergillus flavus, releasing the toxic and highly carcinogenic substance aflatoxin. The aflatoxin-producing molds exist throughout the peanut growing areas and may produce aflatoxin in peanuts when conditions are favorable to fungal growth.
Harvesting occurs in two stages: In mechanized systems, a machine is used to cut off the main root of the peanut plant by cutting through the soil just below the level of the peanut pods. The machine lifts the "bush" from the ground and shakes it, then inverts the bush, leaving the plant upside down on the ground to keep the peanuts out of the soil. This allows the peanuts to dry slowly to a bit less than a third of their original moisture level over a period of three to four days. Traditionally, peanuts were pulled and inverted by hand.
Cultivation in China
They became popular and are featured in many Chinese dishes, often being boiled. During the 1980s, peanut production began to increase so greatly that as of 2006, China was the world's largest peanut producer. A major factor in this increase was the household-responsibility system, which moved financial control from the government to the farmers.
China leads in production of peanuts, having a share of about 41.5% of overall world production, followed by India (18.2%) and the United States of America (6.8%). In Europe, the leading producer is Greece, at roughly 2000 tons per year.
(Million Metric Tons)
|People's Republic of China||14.30|
Cultivars in the United States
|This section does not cite any references or sources. (October 2011)|
Thousands of peanut cultivars are grown, with four major cultivar groups being the most popular: Spanish, Runner, Virginia, and Valencia. There are also Tennessee red and white groups. Certain cultivar groups are preferred for particular uses because of differences in flavor, oil content, size, shape, and disease resistance. For many uses, the different cultivars are interchangeable. Most peanuts marketed in the shell are of the Virginia type, along with some Valencias selected for large size and the attractive appearance of the shell. Spanish peanuts are used mostly for peanut candy, salted nuts, and peanut butter. Most Runners are used to make peanut butter.
The various types are distinguished by branching habit and branch length. There are numerous varieties of each type of peanut. There are two main growth forms, bunch and runner. Bunch types grow upright, while runner types grow near the ground.
Each year, new cultivars of peanuts are bred and introduced. Introducing a new cultivar may mean changes in the planting rate, adjusting the planter, harvester, dryer, cleaner, sheller, and the method of marketing.
The small Spanish types are grown in South Africa, and in the southwestern and southeastern US. Prior to 1940, 90% of the peanuts grown in Georgia, USA, were Spanish types, but the trend since then has been larger-seeded, higher-yielding, more disease-resistant cultivars. Spanish peanuts have a higher oil content than other types of peanuts, and in the US are now primarily grown in New Mexico, Oklahoma, and Texas.
Cultivars of the Spanish group include ‘Dixie Spanish’, ‘Improved Spanish 2B’, ‘GFA Spanish’, ‘Argentine’, ‘Spantex’, ‘Spanette’, ‘Shaffers Spanish’, ‘Natal Common (Spanish)’, "White Kernel Varieties’, ‘Starr’, ‘Comet’, ‘Florispan’, ‘Spanhoma’, ‘Spancross’, ‘OLin’, ‘Tamspan 90’, ‘AT 9899–14’, ‘Spanco’, ‘Wilco I’, ‘GG 2’, ‘GG 4’, ‘TMV 2’, and ‘Tamnut 06’.
Since 1940, the southeastern US region has seen a shift to production of Runner group peanuts. This shift is due to good flavor, better roasting characteristics and higher yields when compared to Spanish types, leading to food manufacturers' preference for the use in peanut butter and salted nuts. Georgia's production is now almost 100% Runner type.
Cultivars of Runners include ‘Southeastern Runner 56-15’, ‘Dixie Runner’, ‘Early Runner’, ‘Virginia Bunch 67’, ‘Bradford Runner’, ‘Egyptian Giant’ (also known as ‘Virginia Bunch’ and ‘Giant’), ‘Rhodesian Spanish Bunch’ (Valencia and Virginia Bunch), ‘North Carolina Runner 56-15’, ‘Florunner’, ‘Virugard’, ‘Georgia Green’, ‘Tamrun 96’, ‘Flavor Runner 458’, ‘Tamrun OL01’, ‘Tamrun OL02’ ‘AT-120’, ‘Andru-93’, ‘Southern Runner’, ‘AT1-1’, ‘Georgia Brown’, ‘GK-7’,and ‘AT-108’.
The large seeded Virginia group peanuts are grown in the US states of Virginia, North Carolina, Tennessee, Texas, New Mexico, Oklahoma, and parts of Georgia. They are increasing in popularity due to demand for large peanuts for processing, particularly for salting, confections, and roasting in the shells.
Virginia group peanuts are either bunch or running in growth habit. The bunch type is upright to spreading. It attains a height of 45 to 55 cm (18 to 22 in), and a spread of 70 to 80 cm (28 to 31 in), with 80 to 90 cm (31 to 35 in) rows that seldom cover the ground. The pods are borne within 5 to 10 cm of the base of the plant.
Cultivars of Virginia type peanuts include ‘NC 7’, ‘NC 9’, ‘NC 10C’, ‘NC-V 11’, ‘VA 93B’, ‘NC 12C’, ‘VA-C 92R’, ‘Gregory’, ‘VA 98R’, ‘Perry’, ‘Wilson, ‘Hull’, ’AT VC-2’ and’ Shulamit’
Valencia group peanuts are coarse, and they have heavy reddish stems and large foliage. In the United States, large commercial production is primarily in the South Plains of West Texas and eastern New Mexico near and south of Portales, New Mexico, but they are grown on a small scale elsewhere in the South as the best-flavored and preferred type for boiled peanuts[by whom?]. They are comparatively tall, having a height of 125 cm (49 in) and a spread of 75 cm (30 in). Peanut pods are borne on pegs arising from the main stem and the side branches. Most of the pods are clustered around the base of the plant, and only a few are found several inches away. Valencia types are three- to five-seeded and smooth, with no constriction of the shell between the seeds. Seeds are oval and tightly crowded into the pods. Typical seed weight is 0.4 to 0.5 g. This type is used heavily for sale roasted and salted in-shell peanuts and peanut butter. Varieties include 'Valencia A' and 'Valencia C'.
Tennessee Red and Tennessee White groups
These are alike, except for the color of the seed. Sometimes known also as Texas Red or White, the plants are similar to Valencia types, except the stems are green to greenish brown, and the pods are rough, irregular, and have a smaller proportion of kernels.
|This section does not cite any references or sources. (October 2011)|
Peanuts have many uses. They can be eaten raw, used in recipes, made into solvents and oils, medicines, textile materials, and peanut butter, as well as many other uses. Popular confections made from peanuts include salted peanuts, peanut butter (sandwiches, peanut candy bars, peanut butter cookies, and cups), peanut brittle, and shelled nuts (plain/roasted). Salted peanuts are usually roasted in oil and packed in retail-size plastic bags or hermetically sealed cans. Dry roasted salted peanuts are also marketed in significant quantities. Peanuts are often a major ingredient in mixed nuts because of their relative cost compared to Brazil nuts, cashews, walnuts, and so on. Although peanut butter has been a tradition on camping trips and the like because of its high protein content and because it resists spoiling for long periods of time, the primary use of peanut butter is in the home. Large quantities are also used in the commercial manufacture of sandwiches, candy, and bakery products. Boiled peanuts are a preparation of raw, unshelled green peanuts boiled in brine and often eaten as a snack. More recently, fried peanut recipes have emerged – allowing both shell and nut to be eaten. Peanuts are also used in a wide variety of other areas, such as cosmetics, nitroglycerin, plastics, dyes and paints.
Peanut oil is often used in cooking, because it has a mild flavor and a relatively high smoke point. Due to its high monounsaturated content, it is considered more healthy than saturated oils, and is resistant to rancidity. There are several types of peanut oil including: aromatic roasted peanut oil, refined peanut oil, extra virgin or cold pressed peanut oil and peanut extract. In the United States, refined peanut oil is exempt from allergen labeling laws.
Peanut flour is lower in fat than peanut butter, and is popular with chefs because its high protein content makes it suitable as a flavor enhancer. Peanut flour is used as a gluten-free solution.
Boiled peanuts are a popular snack in the southern United States, as well as in India, China and West Africa.
Dry roasted peanuts
Dry peanuts can be roasted in the shell or shelled in a home oven if spread out one layer deep in a pan and baked at a temperature of 350 °F or 177 °C for 15 to 20 min (shelled) and 20 to 25 min (in shell).
|This section does not cite any references or sources. (July 2011)|
Peanuts are used in many sauces for South American meat dishes, especially rabbit. Peanuts are common in Peruvian cuisine, which marries native and European ingredients. For instance, roasted peanuts and hot peppers, both native to South America, appear with roasted onions, garlic, and oil—all of European origin—in a smooth sauce poured over boiled potatoes, a dish well known in the city Arequipa and called papas con ocopa. Another example is a fricassee combining a similar mixture with sautéed seafood or boiled and shredded chicken. These dishes are generally known as ajíes, meaning "hot peppers", such as ají de pollo and ají de mariscos. (Seafood ajíes may omit peanuts.)
Likewise, during Colonial times, the Spanish in Peru used peanuts to replace nuts unavailable in Peru but used extensively in Spanish cuisine, such as almonds, pine nuts, and other nuts, typically ground or as paste and mixed with rice, meats, and vegetables for dishes such as rice pilaf.
Crunchy coated peanuts, called kabukim in Hebrew, are a popular snack in Israel. Kabukim are commonly sold by weight at corner stores where fresh nuts and seeds are sold, though they are also available packaged. The coating typically consists of flour, salt, starch, lecithin, and sometimes sesame seeds. The origin of the name is obscure.(It may be derived from kabuk which means nutshell or husk in Turkish.) An additional variety of crunchy coated peanuts popular in Israel is "American peanuts". The coating of this variety is thinner, but harder to crack.
Peanuts are also widely used in Southeast Asian cuisine, such as Vietnamese cuisine and particularly Indonesia, where they are typically made into a spicy sauce. Peanuts originally came to Indonesia from the Philippines, where the legume came from Mexico in times of Spanish colonization.
In the Indian subcontinent, peanuts are known as a light snack by themselves, usually roasted and salted (sometimes with the addition of chilli powder), and often sold roasted in pod, or boiled with salt. They are also made into little dessert or sweet snack pieces by processing with refined sugar and jaggery. Indian cuisine uses roasted, crushed peanuts to give a crunchy body to salads; they are added whole (without pods) to leafy vegetable stews for the same reason. Another use of peanut oil as cooking oil. Most Indians use mustard, sunflower, and peanut oil for cooking. Peanuts are not native to India. They are thought to have come to India from Philippines.
Peanuts grow well in southern Mali and adjacent regions of the Ivory Coast, Burkina Faso, Ghana, Nigeria and Senegal; peanuts are similar in both agricultural and culinary qualities to the Bambara groundnut native to the region, and West Africans have adopted the crop as a staple. Peanut sauce, prepared with onions, garlic, peanut butter/paste, and vegetables such as carrots, cabbage, and cauliflower, can be vegetarian (the peanuts supplying ample protein) or prepared with meat, usually chicken.
Peanuts are used in the Mali meat stew maafe. In Ghana, peanut butter is used for peanut butter soup nkate nkwan. Crushed peanuts may also be used for peanut candies nkate cake and kuli-kuli, as well as other local foods such as oto. Peanut butter is also an ingredient in Nigeria's "African salad".
Peanuts are a common ingredient of several types of relishes (dishes which accompany nshima) eaten by the tribes in Malawi and in the eastern part of Zambia, and these dishes are now common throughout both countries. Thick peanut butter sauces are also made in Uganda to go with rice and other starchy foods. Across East Africa, roasted peanuts (often in cones of newspaper) are a popular snack sold in the street.
In the US, peanuts are used in candies, cakes, cookies, and other sweets. They are also enjoyed roasted and salted. Peanut butter is one of the most popular peanut-based foods in the US, and for four hundred years, recipes for peanut soup have been present in the South, Virginia in particular. In some southern portions of the US, peanuts are boiled for several hours until soft and moist. Peanuts are also deep-fried, shell and all.
Peanuts are used to help fight malnutrition. Plumpy Nut, MANA Nutrition, and Medika Mamba are high-protein, high-energy and high-nutrient peanut-based pastes developed to be used as a therapeutic food to aid in famine relief. The World Health Organization, UNICEF, Project Peanut Butter and Doctors Without Borders have used these products to help save malnourished children in developing countries.
Low-grade or culled peanuts not suitable for the edible market are used in the production of peanut oil for manufacturing. The protein cake (oilcake meal) residue from oil processing is used as an animal feed and as a soil fertilizer. Low-grade peanuts are also widely sold as a garden bird feed.
Peanuts have a variety of industrial end uses. Paint, varnish, lubricating oil, leather dressings, furniture polish, insecticides, and nitroglycerin are made from peanut oil. Soap is made from saponified oil, and many cosmetics contain peanut oil and its derivatives. The protein portion is used in the manufacture of some textile fibers. Peanut shells are used in the manufacture of plastic, wallboard, abrasives, fuel, cellulose (used in rayon and paper) and mucilage (glue). Rudolf Diesel ran some of the first engines that bear his name on peanut oil and it is still seen as a potentially useful fuel.
|Nutritional value per 100 g (3.5 oz)|
|Energy||2,385 kJ (570 kcal)|
|- Sugars||0.0 g|
|- Dietary fiber||9 g|
|- saturated||7 g|
|- monounsaturated||24 g|
|- polyunsaturated||16 g|
|- Tryptophan||0.2445 g|
|- Threonine||0.859 g|
|- Isoleucine||0.882 g|
|- Leucine||1.627 g|
|- Lysine||0.901 g|
|- Methionine||0.308 g|
|- Cystine||0.322 g|
|- Phenylalanine||1.300 g|
|- Tyrosine||1.020 g|
|- Valine||1.052 g|
|- Arginine||3.001 g|
|- Histidine||0.634 g|
|- Alanine||0.997 g|
|- Aspartic acid||3.060 g|
|- Glutamic acid||5.243 g|
|- Glycine||1.512 g|
|- Proline||1.107 g|
|- Serine||1.236 g|
|Thiamine (vit. B1)||0.6 mg (52%)|
|Niacin (vit. B3)||12.9 mg (86%)|
|Pantothenic acid (B5)||1.8 mg (36%)|
|Vitamin B6||0.3 mg (23%)|
|Folate (vit. B9)||246 μg (62%)|
|Vitamin C||0.0 mg (0%)|
|Calcium||62 mg (6%)|
|Iron||2 mg (15%)|
|Magnesium||184 mg (52%)|
|Phosphorus||336 mg (48%)|
|Potassium||332 mg (7%)|
|Zinc||3.3 mg (35%)|
|Percentages are roughly approximated|
using US recommendations for adults.
Source: USDA Nutrient Database
Peanuts are rich in nutrients, providing over 30 essential nutrients and phytonutrients. Peanuts are a good source of niacin, folate, fiber, vitamin E, magnesium and phosphorus. They also are naturally free of trans-fats and sodium, and contain about 25% protein (a higher proportion than in any true nut).
Recent research on peanuts has found antioxidants and other chemicals that may provide health benefits. New research shows peanuts rival the antioxidant content of many fruits. Roasted peanuts rival the antioxidant content of blackberries and strawberries, and are far richer in antioxidants than carrots or beets. Research published in the journal Food Chemistry shows that peanuts contain high concentrations of antioxidant polyphenols, primarily a compound called p-coumaric acid, and that roasting can increase peanuts' p-coumaric acid levels, boosting their overall antioxidant content by as much as 22%.
The average amount of resveratrol in one ounce of commonly eaten peanuts (15 whole peanut kernels) is 73 μg.
Some people (0.6% of the United States population) report that they mild to severe allergic reactions to peanut exposure; symptoms can range from watery eyes to anaphylactic shock, which can be fatal if untreated. For these individuals, eating a small amount of peanuts can cause a reaction. Because of their widespread use in prepared and packaged foods, the avoidance of peanuts is difficult. Some foods processed in facilities which also handle peanuts may carry warnings on their labels indicating such.
A hypothesis of the development of peanut allergy has to do with the way peanuts are processed in North America versus other countries, such as Pakistan and China, where peanuts are widely eaten. According to a 2003 study, roasting peanuts, as more commonly done in North America, causes the major peanut allergen Ara h2 to become a stronger inhibitor of the digestive enzyme trypsin, making it more resistant to digestion. Additionally, this allergen has also been shown to protect Ara h1, another major peanut allergen, from digestion — a characteristic further enhanced by roasting.
Recent (2008) studies comparing age of peanut introduction in Great Britain with introduction in Israel appear to show that delaying exposure to peanuts can dramatically increase the risk of developing peanut allergies.
Results from some animal studies (and limited evidence from human subjects) suggest that the dose of peanuts is an important mediator of peanut sensitisation and tolerance; low doses tend to lead to sensitisation and higher doses tend to lead to tolerance.
Peanut allergy has been associated with the use of skin preparations containing peanut oil among children, but the evidence is not regarded as conclusive. Peanut allergies have also been associated with family history and intake of soy products.
Though the allergy can last a lifetime, another 2003 study indicates that 23.3% of children will outgrow a peanut allergy.
Some school districts in the United States have banned peanuts. There are experimental techniques which appear to have desensitized some allergic individuals. The most popular technique, oral immunotherapy, works to create desensitization in those allergic by feeding them small amounts of peanuts until their body becomes desensitized. Some progress is possibly being made in the UK, where researchers at Cambridge are studying the effectiveness of the desensitization technique.
Research indicates that refined peanut oil will not cause allergic reactions in most people with peanut allergies. However, crude (unrefined) peanut oils are strongly flavoured, and have been shown to contain protein, which may cause allergic reactions. In a randomized, double-blind crossover study, 60 people with proven peanut allergy were challenged with both crude peanut oil and refined peanut oil. The authors conclude, "Crude peanut oil caused allergic reactions in 10% of allergic subjects studied and should continue to be avoided." They also state, "Refined peanut oil does not seem to pose a risk to most people with peanut allergy." However, they point out that refined peanut oil can still pose a risk to peanut-allergic individuals if oil that has previously been used to cook foods containing peanuts is reused.
Contamination with aflatoxin
Peanuts may be contaminated with the mold Aspergillus flavus which produces a carcinogenic substance called aflatoxin. Lower quality specimens, particularly where mold is evident, are more likely to be contaminated. The United States Department of Agriculture (USDA) tests every truckload of raw peanuts for aflatoxin; any containing aflatoxin levels of more than 15 parts per billion are destroyed. The peanut industry has manufacturing steps in place to ensure all peanuts are inspected for aflatoxin. Peanuts are also processed at a high temperature to ensure any microorganisms are killed.
A 1974 study suggested that consuming large amounts of peanut oil can cause clogging of the arteries. Robert Wissler of the University of Chicago reported that diets high in peanut oil, when combined with high dietary cholesterol intake, clogged the arteries of Rhesus monkeys more than butterfat. However, subsequent work has cast serious doubt on those findings. In the Rhesus study, monkeys were being fed 20 times higher than normal dietary quantities of cholesterol in addition to peanut oil. When a similar study was performed without abnormal doses of cholesterol, no such effect was seen. Peanut oil has been found to lower LDL cholesterol without reducing HDL cholesterol.
U.S. Department of Agriculture (USDA) program
George Washington Carver is often credited with inventing 300 different uses for peanuts (which, contrary to popular belief, did not include peanut butter but did include salted peanuts). Carver was one of many USDA researchers who encouraged cotton farmers in the South to grow peanuts instead of, or in addition to, cotton, because cotton had depleted so much nitrogen from the soil, and one of the peanut's properties as a legume is to put nitrogen back into the soil (a process known as nitrogen fixation). Rising demand for peanuts in the early 20th century was due to a shortage of plant oils during World War I and the growing popularity of peanut butter, roasted peanuts and peanut candies. Peanut products originating around the early 20th century include many brands still sold today such as Cracker Jack (1893), Planters peanuts (1906), Oh Henry! candy bar (1920), Baby Ruth candy bar (1920), Butterfinger candy bar (1923), Mr. Goodbar candy bar (1925), Reese's Peanut Butter Cup (1925), and Peter Pan (peanut butter) (1928).
Peanuts were designated by the U.S. Congress to be one of America's basic crops. To protect domestic industry by keeping prices artificially high, the United States Department of Agriculture (USDA) aids peanut farmers through commodity programs. In the 2008 Farm Bill, the marketing quota for peanuts was eliminated and the Price Support Program was switched to a Direct and Counter-Cyclical Payment Program. Direct and counter-cyclical payments provide benefits to producers with eligible historical production of peanuts whenever the effective price is less than the targeted price.
Although India and China are the world's largest producers of peanuts, they account for a small part of international trade because most of their production is consumed domestically as peanut oil. Exports of peanuts from India and China are equivalent to less than 4% of world trade. The major producers/exporters of peanuts are the United States, Argentina, Sudan, Senegal, and Brazil. These five countries account for 71% of total world exports. In recent years,[vague] the United States has been the leading exporter of peanuts.
The major peanut importers are the European Union (EU), Canada, and Japan. These three areas account for 78% of the world's imports. Most of Canada's peanut butter is processed from Chinese peanuts. Two thirds of U.S. imports are roasted, unshelled peanuts. The major suppliers are Taiwan, Malaysia, Hong Kong, Mainland China, and Canada. The principal suppliers of shelled peanut imports are Argentina and Canada. Imports of peanut butter from Argentina are in the form of a paste and must be further processed. Other minor suppliers of peanut butter include Malawi, China, India, and Singapore.
Consumption of peanuts in the EU is primarily as food, mostly as roasted-in-shell peanuts and as shelled peanuts used in confectionery and bakery products.
The average annual U.S. imports of peanuts are less than 0.5% of U.S. consumption.
Georgia is the leading peanut producing state in the U.S., followed by Texas and Alabama, respectively. About half of all peanuts produced in the United States are grown within a 100 mi (160 km) radius of Dothan, Alabama. Dothan is home to the National Peanut Festival established in 1938 and held each fall to honor peanut growers and celebrate the harvest.
Ninety percent of India's production is processed into peanut oil. Only a nominal amount of hand-picked select-grade peanuts are exported. India prohibits the importation of all oil seeds, including peanuts.
- African Groundnut Council
- Tanganyika groundnut scheme, a spectacular failure started in 1951
- BBCH-scale (peanut)
- Beer Nuts
- List of edible seeds
- Universal Nut Sheller
- "World Geography of the Peanut". University of Georgia. 2004-01-02. Retrieved 2009-08-18.
- The peanut Alergy Answer Book ,Michael C. Young, Fair Winds publishing, 2006, ISBN 1-59233-233-1
- "Dictionary.die.net". Retrieved 2010-12-12.
- Seijo, Guillermo; Graciela I. Lavia, Aveliano Fernandez, Antonio Krapovickas, Daniel A. Ducasse, David J. Bertioli, Eduardo A. Moscone (2007-12-01). "Genomic relationships between the cultivated peanut (Arachis hypogaea, Leguminosae) and its close relatives revealed by double GISH". Am. J. Bot. 94 (12): 1963–1971. doi:10.3732/ajb.94.12.1963. PMID 21636391. Retrieved 2010-07-05.
- Berrin, Katherine & Larco Museum. The Spirit of Ancient Peru: Treasures from the Museo Arqueológico Rafael Larco Herrera. New York: Thames and Hudson, 1997.
- Dillehay, Tom D. "Earliest-known evidence of peanut, cotton and squash farming found". Retrieved 2007-06-29.
- Putnam, D.H., et al. (1991) Peanut. University of Wisconsin-Extension Cooperative Extension: Alternative Field Crops Manual.
- "How peanuts are Grown – Harvesting – PCA". Peanut Company of Australia. Archived from the original on July 19, 2008. Retrieved 2011-05-30.
- Jauron, Richard (1997-02-05). "Growing Peanuts in the Home Garden | Horticulture and Home Pest News". Ipm.iastate.edu. Retrieved 2011-05-30.
- Yao, G (2004). Peanut Production and Utilization in the People's Republic of China (PDF). University of Georgia.
- Butterworth, J; Wu, X. (2004-01-03). China, Peoples Republic of Oilseeds and Products China's Peanut Sector (PDF). USDA Foreign Agricultural Service GAIN Report.
- "Food Allergen Labeling and Consumer Protection Act of 2004 (Public Law 108-282, Title II)". Fda.gov. Retrieved 2011-05-30.
- "Delicious Peanut Recipes". Virginia Favorites Ltd. Retrieved September 21, 2013.
- Ghanaian cuisine
- Raymond, Bret. "Rwaza Health Centre: Efficacy Study Results". MANA Nutrition. Retrieved 15 July 2011.
- "Meds & Food For Kids :: — Medika Mamba". mfkhaiti.org. Retrieved 23 April 2010.
- "Rudolf Diesel". Hempcar.org. Retrieved 2011-05-30.
- "Peanut Biodiesel Promising But Costly Alternative Fuel | Renewable Energy News Article". Renewableenergyworld.com. Retrieved 2011-05-30.
- "Nuts – Heathly, Tasty & High in Protein". Weightlossforall.com. Retrieved 2011-05-30.
- "Peanuts at the World's Healthiest Food". Retrieved 2007-11-18.
- "Health benefits of consuming peanuts". BBC News. 2005-01-21. Retrieved 2009-08-18.
- "Peanuts: World's Healthiest Foods". Whfoods.com. Retrieved 2009-08-18.
- Sanders, TH; McMichael Jr, RW; Hendrix, KW (2000). "Occurrence of resveratrol in edible peanuts". Journal of Agricultural and Food Chemistry 48 (4): 1243–6. doi:10.1021/jf990737b. PMID 10775379.
- Sanders, Timothy H.; Robert, W. McMichael Jr.; Hendrix, Keith W. (2000). "Occurrence of resveratrol in edible peanuts". J Agric Food Chem 48 (4): 1243–1246. doi:10.1021/jf990737b. PMID 10775379.
- "Coenzyme Q10". American Cancer Society. 2007-07-20. Retrieved 2007-11-18.
- "Food Allergy Quick Facts". National Institute of Allergy and Infectious Diseases. 2012-02-24. Retrieved 2014-01-30.
- Maleki, SJ; Viquez, O; Jacks, T; Dodo, H; Champagne, ET; Chung, SY; Landry, SJ (2003). "The major peanut allergen, Ara h 2, functions as a trypsin inhibitor, and roasting enhances this function". The Journal of allergy and clinical immunology 112 (1): 190–5. doi:10.1067/mai.2003.1551. PMID 12847498.
- "WebMD — Peanut Allergy on the Rise: Why?". 2010-05-14. Retrieved 2010-05-18.
- Food allergy advice may be peanuts, Science News, December 6, 2008
- Høst, A; Halken, S; Muraro, A; Dreborg, S; Niggemann, B; Aalberse, R; Arshad, SH; Von Berg, A et al. (2008). "Dietary prevention of allergic diseases in infants and small children". Pediatric allergy and immunology : official publication of the European Society of Pediatric Allergy and Immunology 19 (1): 1–4. doi:10.1111/j.1399-3038.2007.00680.x. PMID 18199086.
- Thompson, Rachel L.; Miles, Lisa M.; Lunn, Joanne; Devereux, Graham; Dearman, Rebecca J.; Strid, Jessica; Buttriss, Judith L. (2010). "Peanut sensitisation and allergy: influence of early life exposure to peanuts". British Journal of Nutrition 103 (9): 1278–1286. doi:10.1017/S000711450999376X. PMID 20100372.
- Lack G, Fox D, Northstone K, Golding J (2003). "Factors Associated with the Development of Peanut Allergy in Childhood". New England Journal of Medicine 348 (11): 977–85. doi:10.1056/NEJMoa013536. PMID 12637607.
- Fleischer, DM; Conover-Walker, MK; Christie, L; Burks, AW; Wood, RA (2003). "The natural progression of peanut allergy: Resolution and the possibility of recurrence". The Journal of allergy and clinical immunology 112 (1): 183–9. doi:10.1067/mai.2003.1517. PMID 12847497.
- Hartocollis, Anemona (1998-09-23). "Nothing's Safe: Some Schools Ban Peanut Butter as Allergy Threat". The New York Times. Retrieved 2009-08-18.
- Nevius, C.W. (2003-09-09). "One 5-year-old's allergy leads to class peanut ban". San Francisco Chronicle. Retrieved 2009-08-18.
- "School peanut ban in need of review". Nashua Telegraph. 2008-09-14. Retrieved 2009-08-18.
- "Progress Against Peanut Allergies". Webmd.com. Retrieved 2009-08-18.
- "BBC News – Peanut allergies tackled in largest ever trial". news.bbc.co.uk. 2010-02-22. Retrieved 23 April 2010.
- "The anaphylaxis campaign: peanut oil". Anaphylaxis.org.uk. Archived from the original on April 18, 2008. Retrieved 2009-08-18.
- Hoffman DR, Collins-Williams C (1994). "Cold-pressed peanut oils may contain peanut allergen". The Journal of allergy and clinical immunology 93 (4): 801–2. doi:10.1016/0091-6749(94)90262-3. PMID 8163791.
- Hourihane JO, Bedwani SJ, Dean TP, Warner JO (1997). "Randomised, double blind, crossover challenge study of allergenicity of peanut oils in subjects allergic to peanuts". BMJ 314 (7087): 1084–8. doi:10.1136/bmj.314.7087.1084. PMC 2126478. PMID 9133891.
- Hirano, S; Shima, T; Shimada, T (August 2001). "[Proportion of aflatoxin B1 contaminated kernels and its concentration in imported peanut samples]". Shokuhin Eiseigaku Zasshi 42 (4): 237–42. doi:10.3358/shokueishi.42.237. PMID 11817138.
- 7 CFR 2011 – Part 996a[full citation needed]
- Atherosclerosis 20: 303, 1974
- Bonnie Liebman (Jan–Feb 1988). "The peanut controversy — peanut oil and risk of atherosclerosis". Nutrition Action Healthletter.
- B. Ramesh, et al. (2006). "Effect of Dietary Substitution of Groundnut Oil on Blood Glucose, Lipid Profile, and Redox Status in Streptozotocin-diabetic Rats". The Yale journal of biology and medicine (Yale Journal of Biology and Medicine) 79 (1): 9–17. PMC 1942175. PMID 17876371.
- List of By-Products From Peanuts By George Washington Carver (as compiled by the Carver Museum). nps.gov
- Handy, R.B. 1895. Peanuts: Culture and Uses. USDA Farmers' Bulletin 25.
- Newman, C.L. 1904. Peanuts. Fayetteville, Arkansas: Arkansas Agricultural Experiment Station.
- Beattie, W.R. 1909. Peanuts. USDA Farmers' Bulletin 356.
- Ferris, E.B. 1909. Peanuts. Agricultural College, Mississippi: Mississippi Agricultural Experiment Station.
- Beattie, W.R. 1911. The Peanut. USDA Farmers' Bulletin 431.
- Rich, J.P. (1915). Uses of the Peanut on the Home Table. Farmer's Bulletin 13. University of Texas, Austin.
- Carver, G.W. (1925). How to Grow the Peanut and 105 Ways of Preparing it for Human Consumption. Tuskegee Institute Experimental Station Bulletin 31.
- Smith, C. Wayne (1995) "Crop Production: Evolution, History, and Technology", John Wiley & Sons, pp. 412–413 ISBN 0-471-07972-3
- "Peanut Production in Alabama". The Encyclopedia of Alabama. 2011-06-14. Retrieved 2011-11-15.
- "ALFA Farmers Federation – Alabama Peanut Producers". Alfafarmers.org. 2010-05-27. Retrieved 2011-05-30.
- "Peanut Facts". Alabama Peanut Producers Association. Archived from the original on November 1, 2004. Retrieved 2011-05-30.
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