Biology:Tamarind

From HandWiki
Short description: Leguminous tree bearing edible fruit

Tamarind
Tamarindus indica pods.JPG
Scientific classification edit
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Detarioideae
Tribe: Amherstieae
Genus: Tamarindus
L.
Species:
T. indica
Binomial name
Tamarindus indica
L. 1753
Synonyms
  • Cavaraea Speg. 1916
  • Cavaraea elegans Speg. 1916[2]
  • Tamarindus erythraeus Mattei 1908
  • Tamarindus occidentalis Gaertn. 1791
  • Tamarindus officinalis Hook. 1851
  • Tamarindus somalensis Matteqi 1908
  • Tamarindus umbrosa Salisb. 1796

Tamarind (Tamarindus indica) is a leguminous tree bearing edible fruit that is indigenous to tropical Africa and naturalized in Asia.[3] The genus Tamarindus is monotypic, meaning that it contains only this species. It belongs to the family Fabaceae.

The tamarind tree produces brown, pod-like fruits that contain a sweet, tangy pulp, which is used in cuisines around the world. The pulp is also used in traditional medicine and as a metal polish. The tree's wood can be used for woodworking and tamarind seed oil can be extracted from the seeds. Tamarind's tender young leaves are used in South Indian and Filipino cuisine.[4][5] Because tamarind has multiple uses, it is cultivated around the world in tropical and subtropical zones.

Description

The tamarind is a long-lived, medium-growth tree, which attains a maximum crown height of 25 metres (80 feet). The crown has an irregular, vase-shaped outline of dense foliage. The tree grows well in full sun. It prefers clay, loam, sandy, and acidic soil types, with a high resistance to drought and aerosol salt (wind-borne salt as found in coastal areas).[6][failed verification]

The evergreen leaves are alternately arranged and pinnately lobed. The leaflets are bright green, elliptic-ovular, pinnately veined, and less than 5 centimetres (2 inches) in length. The branches droop from a single, central trunk as the tree matures, and are often pruned in agriculture to optimize tree density and ease of fruit harvest. At night, the leaflets close up.[6][failed verification]

As a tropical species, it is frost-sensitive. The pinnate leaves with opposite leaflets give a billowing effect in the wind. Tamarind timber consists of hard, dark red heartwood and softer, yellowish sapwood.[7]

Tamarind pollen grains

The tamarind flowers bloom (although inconspicuously), with red and yellow elongated flowers. Flowers are 2.5 cm (1 in) wide, five-petalled, borne in small racemes, and yellow with orange or red streaks. Buds are pink as the four sepals are pink and are lost when the flower blooms.[8]

Fruit

The fruit is an indehiscent legume, sometimes called a pod, 12 to 15 cm (4 12 to 6 in) in length, with a hard, brown shell.[9][10][11]

The fruit has a fleshy, juicy, acidic pulp. It is mature when the flesh is coloured brown or reddish brown. The tamarinds of Asia have longer pods (containing six to 12 seeds), whereas African and West Indian varieties have shorter pods (containing one to six seeds). The seeds are somewhat flattened, and a glossy brown. The fruit is sweet and sour in taste.

History

Etymology

The name derives from Arabic: تمر هندي, romanized tamar hindi, "Indian date".[12] Several early medieval herbalists and physicians wrote tamar indi, medieval Latin use was tamarindus, and Marco Polo wrote of tamarandi.

In Colombia, Nicaragua, Costa Rica, Ecuador, Cuba, the Dominican Republic, Guatemala, El Salvador, Honduras, Mexico, Peru, Puerto Rico, Venezuela, Italy, Spain, and throughout the Lusosphere, it is called tamarindo. In those countries it is often used to make the beverage of the same name (or agua de tamarindo). In the Caribbean, tamarind is sometimes called tamón.[citation needed]

Countries in Southeast Asia like Indonesia call it asam jawa (Javanese sour fruit) or simply asam,[13] and sukaer in Timor.[14] While in the Philippines , it is called sampalok or sampaloc in Filipino, and sambag in Cebuano.[15] Tamarind (Tamarindus indica) is sometimes confused with "Manila tamarind" (Pithecellobium dulce). While in the same taxonomic family Fabaceae, Manila tamarind is a different plant native to Mexico and known locally as guamúchili.

Taxonomy

Tamarindus indica is probably indigenous to tropical Africa,[16] but has been cultivated for so long on the Indian subcontinent that it is sometimes reported to be indigenous there.[17] It grows wild in Africa in locales as diverse as Sudan,[17] [citation needed] Cameroon, Nigeria, Kenya, Zambia, Somalia, Tanzania and Malawi. In Arabia, it is found growing wild in Oman, especially Dhofar, where it grows on the sea-facing slopes of mountains. It reached South Asia likely through human transportation and cultivation several thousand years ago.[17][18] It is widely distributed throughout the tropics,[17] from Africa to South Asia.

In the 16th century, it was introduced to Mexico and Central America, and to a lesser degree to South America, by Spanish and Portuguese colonists, to the degree that it became a staple ingredient in the region's cuisine.[19]

(As of 2006) India is the largest producer of tamarind.[20] The consumption of tamarind is widespread due to its central role in the cuisines of the Indian subcontinent, Southeast Asia, and the Americas, especially Mexico.[citation needed]

Composition

Nutrition

Tamarinds, raw
Tamarind fruits (Tamarindus indica 'Si Thong').jpg
Nutritional value per 100 g (3.5 oz)
Energy1,000 kJ (240 kcal)
62.5 g
Sugars57.4
Dietary fiber5.1 g
0.6 g
Saturated0.272 g
Monounsaturated0.181 g
Polyunsaturated0.059 g
2.8 g
Tryptophan0.018 g
Lysine0.139 g
Methionine0.014 g
VitaminsQuantity %DV
Vitamin A equiv.
0%
2 μg
Vitamin A30 IU
Thiamine (B1)
37%
0.428 mg
Riboflavin (B2)
13%
0.152 mg
Niacin (B3)
13%
1.938 mg
Pantothenic acid (B5)
3%
0.143 mg
Vitamin B6
5%
0.066 mg
Folate (B9)
4%
14 μg
Choline
2%
8.6 mg
Vitamin C
4%
3.5 mg
Vitamin E
1%
0.1 mg
Vitamin K
3%
2.8 μg
MineralsQuantity %DV
Calcium
7%
74 mg
Copper
43%
0.86 mg
Iron
22%
2.8 mg
Magnesium
26%
92 mg
Phosphorus
16%
113 mg
Potassium
13%
628 mg
Selenium
2%
1.3 μg
Sodium
2%
28 mg
Zinc
1%
0.1 mg
Other constituentsQuantity
Water31.40 g

Percentages are roughly approximated using US recommendations for adults.
Source: USDA Nutrient Database

Uses

Culinary

The fruit is harvested by pulling the pod from its stalk. A mature tree may be capable of producing up to 175 kilograms (386 pounds) of fruit per year. Veneer grafting, shield (T or inverted T) budding, and air layering may be used to propagate desirable cultivars. Such trees will usually fruit within three to four years if provided optimum growing conditions.[6]

The fruit pulp is edible. The hard green pulp of a young fruit is considered by many to be too sour, but is often used as a component of savory dishes, as a pickling agent or as a means of making certain poisonous yams in Ghana safe for human consumption.[21] As the fruit matures it becomes sweeter and less sour (acidic) and the ripened fruit is considered more palatable. The sourness varies between cultivars and some sweet tamarind ones have almost no acidity when ripe. In Western cuisine, tamarind pulp is found in Worcestershire sauce[22] and HP Sauce.

Tamarind paste has many culinary uses including as a flavoring for chutneys, curries, and the traditional sharbat syrup drink.[23] Tamarind sweet chutney is popular in India and Pakistan[24] as a dressing for many snacks and often served with samosa. Tamarind pulp is a key ingredient in flavoring curries and rice in south Indian cuisine, in the Chigali lollipop, in rasam, Koddel and in certain varieties of masala chai.

Across the Middle East, from the Levant to Iran, tamarind is used in savory dishes, notably meat-based stews, and often combined with dried fruits to achieve a sweet-sour tang.[25][26]

In the Philippines, the whole fruit is used as one of the souring agents of the sour soup sinigang (which can also use other sour fruits), as well as another type of soup called sinampalukan (which also uses tamarind leaves).[27][5] The fruit pulp are also cooked in sugar and/or salt to make champóy na sampalok (or simply "sampalok candy"), a traditional tamarind candy.[28] Indonesia also has a similarly sour, tamarind-based soup dish called sayur asem. Tamarind pulp mixed with liquid is also used in beverage as tamarind juice. In Java, Indonesia, tamarind juice is known as es asem or gula asem, tamarind juice served with palm sugar and ice as a fresh sour and sweet beverage.

In Mexico and the Caribbean, the pulp is diluted with water and sugared to make an agua fresca drink. It is widely used throughout all of Mexico for candy making, including tamarind mixed with chilli powder candy.

In Sokoto, Nigeria, tamarind pulp is used to fix the color in dyed leather products by neutralizing the alkali substances used in tanning.[29]

The leaves and bark are also edible, and the seeds can be cooked to make safe for consumption.[30] Blanched, tender tamarind leaves are used in a Burmese salad called magyi ywet thoke (မန်ကျည်းရွက်သုပ်; lit. tamarind leaf salad), a salad from Upper Myanmar that features tender blanched tamarind leaves, garlic, onions, roasted peanuts, and pounded dried shrimp.[31][32]

Seed oil and kernel powder

Tamarind seed oil is made from the kernel of tamarind seeds.[33] The kernel is difficult to isolate from its thin but tough shell (or testa). It has a similar consistency to linseed oil, and can be used to make paint or varnish.[34]

Tamarind kernel powder is used as sizing material for textile and jute processing, and in the manufacture of industrial gums and adhesives. It is de-oiled to stabilize its colour and odor on storage.[citation needed]

Folk medicine

Throughout Southeast Asia, the fruit of the tamarind is used as a poultice applied to the foreheads of people with fevers.[9] The fruit exhibits laxative effects due to its high quantities of malic acid, tartaric acid, and potassium bitartrate. Its use for the relief of constipation has been documented throughout the world.[35][36] Extract of steamed and sun-dried old tamarind pulp in Java (asem kawa) are used to treat skin problems like rashes and irritation; it can also be ingested after dilution as an abortifacient.[13]

Woodworking

Tamarind wood is used to make furniture, boats (as per Rumphius) carvings, turned objects such as mortars and pestles, chopping blocks, and other small specialty wood items like krises.[13] Tamarind heartwood is reddish brown, sometimes with a purplish hue. The heartwood in tamarind tends to be narrow and is usually only present in older and larger trees. The pale yellow sapwood is sharply demarcated from the heartwood. Heartwood is said to be durable to very durable in decay resistance, and is also resistant to insects. Its sapwood is not durable and is prone to attack by insects and fungi as well as spalting. Due to its density and interlocked grain, tamarind is considered difficult to work. Heartwood has a pronounced blunting effect on cutting edges. Tamarind turns, glues, and finishes well. The heartwood is able to take a high natural polish.[37]

Metal polish

In homes and temples, especially in Buddhist Asian countries including Myanmar, the fruit pulp is used to polish brass shrine statues and lamps, and copper, brass, and bronze utensils.[38] Tamarind contains tartaric acid, a weak acid that can remove tarnish. Lime, another acidic fruit, is used similarly.[17]

Composition of tamarind seed kernel
Composition Original De-oiled
Oil 7.6% 0.6%
Protein 7.6% 19.0%
Polysaccharide 51.0% 55.0%
Crude fiber 1.2% 1.1%
Total ash 3.9% 3.4%
Acid insoluble ash 0.4% 0.3%
Moisture 7.1%
The fatty acid composition of the oil is linoleic 46.5%, oleic 27.2%,
and saturated fatty acids 26.4%. The oil is usually bleached after refining.
Fatty acid composition of tamarind kernel oil
Fatty acid (%) Range reported
Lauric acid (C12:0) tr-0.3
Myristic acid (C14:0) tr-0.4
Palmitic acid (C16:0) 8.7–14.8
Stearic acid (C18:0) 4.4–6.6
Arachidic acid (C20:0) 3.7–12.2
Lignoceric acid (C24:0) 4.0–22.3
Oleic acid (C18:1) 19.6–27.0
Linoleic acid (18:2) 7.5–55.4
Linolenic acid (C18:3) 2.8–5.6

Research

In hens, tamarind has been found to lower cholesterol in their serum, and in the yolks of the eggs they laid.[39][40]

In dogs, the tartaric acid of tamarind causes acute kidney injury, which can often be fatal.[41]

Lupanone, lupeol, catechins, epicatechin, quercetin, and isorhamnetin are present in the leaf extract.[42] Ultra-high performance liquid chromatography analyses revealed that tamarind seeds contained catechin, procyanidin B2, caffeic acid, ferulic acid, chloramphenicol, myricetin, morin, quercetin, apigenin and kaempferol.[43]

Cultivation

Seeds can be scarified or briefly boiled to enhance germination. They retain their germination capability for several months if kept dry.[citation needed]

The tamarind has long been naturalized in Indonesia, Malaysia, Sri Lanka, the Philippines, the Caribbean, and Pacific Islands. Thailand has the largest plantations of the ASEAN nations, followed by Indonesia, Myanmar, and the Philippines. In parts of Southeast Asia, tamarind is called asam.[44] It is cultivated all over India, especially in Maharashtra, Chhattisgarh, Karnataka, Telangana, Andhra Pradesh, and Tamil Nadu. Extensive tamarind orchards in India produce 250,000 tonnes (280,000 short tons) annually.[6]

In the United States, it is a large-scale crop introduced for commercial use (second in net production quantity only to India), mainly in southern states, notably south Florida, and as a shade tree, along roadsides, in dooryards and in parks.[45]

A traditional food plant in Africa, tamarind has the potential to improve nutrition, boost food security, foster rural development and support sustainable landcare.[46] In Madagascar, its fruit and leaves are a well-known favorite of the ring-tailed lemur, providing as much as 50 percent of their food resources during the year if available.[47]

Horticulture

Throughout South Asia and the tropical world, tamarind trees are used as ornamental, garden, and cash crop plantings. Commonly used as a bonsai species in many Asian countries, it is also grown as an indoor bonsai in temperate parts of the world.[48]

References

  1. Rivers, M.C.; Mark, J. (2017). "Tamarindus indica". IUCN Red List of Threatened Species 2017: e.T62020997A62020999. doi:10.2305/IUCN.UK.2017-3.RLTS.T62020997A62020999.en. https://www.iucnredlist.org/species/62020997/62020999. Retrieved 19 November 2021. 
  2. Speg. Anales Soc. Ci. Argent. 82: 223 1916
  3. El-Siddig, K. (2006) (in en). Tamarind: Tamarindus Indica L.. Crops for the Future. ISBN 978-0-85432-859-8. https://books.google.com/books?id=QhtZLMVPLIIC&dq=tamarind+dispersal+africa+to+asia&pg=PR10. 
  4. Borah, Prabalika M. (2018-04-27). "Here's what you can cook with tender tamarind leaves". The Hindu. https://www.thehindu.com/life-and-style/food/heres-what-you-can-cook-with-tender-tamarind-leaves/article23695502.ece. 
  5. 5.0 5.1 Manalo, Lalaine (August 14, 2013). "Sinampalukang Manok". https://www.kawalingpinoy.com/sinampalukang-manok/. 
  6. 6.0 6.1 6.2 6.3 "Tamarind – Tamarindus indica – van Veen Organics". van Veen Organics. http://vanveenorganics.com/product/tamarind-tamarindus-indica/. 
  7. "Tamarind: a multipurpose tree". DAWN.COM. 2007-07-09. https://www.dawn.com/news/255407. 
  8. "Tamarind". Plant Lexica. http://plantlexica.com/category/stomach-intestinal-2-2-3/8. 
  9. 9.0 9.1 Doughari, J. H. (December 2006). "Antimicrobial Activity of Tamarindus indica". Tropical Journal of Pharmaceutical Research 5 (2): 597–603. doi:10.4314/tjpr.v5i2.14637. 
  10. "Fact Sheet: Tamarindus indica". University of Florida. http://hort.ufl.edu/database/documents/pdf/tree_fact_sheets/taminda.pdf. 
  11. Christman, S.. "Tamarindus indica". FloriData. http://www.floridata.com/ref/t/tama_ind.cfm. 
  12. "The Concise Oxford Dictionary of English Etymology". The Concise Oxford Dictionary of English Etymology. Oxford University Press. 2003. doi:10.1093/acref/9780192830982.001.0001. ISBN 9780191727153. 
  13. 13.0 13.1 13.2 Heyne, Karel (1913) (in nl). De nuttige planten van Nederlandsch-Indië, tevens synthetische catalogus der verzamelingen van het Museum voor Technischeen Handelsbotanie te Buitenzorg. Butienzorg: Museum vor Economische Botanie & Ruygrok. pp. 232–5. https://archive.org/details/denuttigeplanten02heyn/page/232/mode/2up?view=theater. 
  14. "Asam Tree". National Parks of Singapore. https://www.nparks.gov.sg/gardens-parks-and-nature/heritage-trees/ht-2001-28. 
  15. Polistico, Edgie (2017). Philippine Food, Cooking, & Dining Dictionary. Anvil Publishing, Inc.. ISBN 9786214200870. https://books.google.com/books?id=STSWDwAAQBAJ. 
  16. Diallo, BO; Joly, HI; McKey, D; Hosaert-McKey, M; Chevallier, MH (2007). "Genetic diversity of Tamarindus indica populations: Any clues on the origin from its current distribution?". African Journal of Biotechnology 6 (7). https://www.researchgate.net/publication/27797718. 
  17. 17.0 17.1 17.2 17.3 17.4 Morton, Julia F. (1987). Fruits of Warm Climates. Wipf and Stock Publishers. pp. 115–121. ISBN 978-0-9653360-7-9. https://www.hort.purdue.edu/newcrop/morton/tamarind.html. 
  18. Popenoe, W. (1974). Manual of Tropical and Subtropical Fruits. Hafner Press. pp. 432–436. https://archive.org/details/manualoftropical00poperich. 
  19. Tamale, E.; Jones, N.; Pswarayi-Riddihough, I. (August 1995). Technologies Related to Participatory Forestry in Tropical and Subtropical Countries. World Bank Publications. ISBN 978-0-8213-3399-0. 
  20. Tamarind, Tamarindus indica. Southampton Centre for Underutilised Crops. 2006. ISBN 0854328599. http://www.cropsforthefuture.org/publication/Monographs/Tamarind%20monograph.pdf. 
  21. El-Siddig, K. (2006). Tamarind: Tamarindus indica L.. Crops for the Future. ISBN 9780854328598. https://books.google.com/books?id=QhtZLMVPLIIC&pg=PA27. 
  22. "BBC Food:Ingredients—Tamarind recipes". BBC. https://www.bbc.co.uk/food/tamarind. 
  23. Azad, Salim (2018). "Tamarindo—Tamarindus indica". Exotic Fruits. Academic Press. pp. 403–412. doi:10.1016/B978-0-12-803138-4.00055-1. ISBN 978-0-12-803138-4. 
  24. The Complete Asian Cookbook. Tuttle Publishing. 2006. p. 88. ISBN 9780804837576. https://books.google.com/books?id=Mdfacqx2UaQC&q=%22tamarind%22+pakistan. 
  25. "Tamarind is the 'sour secret of Syrian cooking'". PRI. July 2014
  26. "Georgian Chicken in Pomegranate and Tamarind Sauce Recipe" (in en-US). https://cooking.nytimes.com/recipes/11849-georgian-chicken-in-pomegranate-and-tamarind-sauce. 
  27. Fernandez, Doreen G. (2019). Tikim: Essays on Philippine Food and Culture. BRILL. p. 33. ISBN 9789004414792. 
  28. "Tsampoy". https://www.tagaloglang.com/tsampoy/. 
  29. Dalziel, J.M. (1926). "African Leather Dyes" (in en). Bulletin of Miscellaneous Information (Royal Botanic Gardens, Kew) 6 (6): 231. doi:10.2307/4118651. 
  30. United States Department of the Army (2009) (in en-US). The Complete Guide to Edible Wild Plants. New York: Skyhorse Publishing. pp. 101. ISBN 978-1-60239-692-0. OCLC 277203364. 
  31. Richmond, Simon; Eimer, David; Karlin, Adam; Louis, Regis St; Ray, Nick (2017) (in en). Myanmar (Burma). Lonely Planet. ISBN 978-1-78657-546-3. https://books.google.com/books?id=za9kvgAACAAJ. 
  32. "ရာသီစာ အညာမန်ကျည်းရွက်သုပ်" (in my). https://www.myanmardigitalnewspaper.com/my/raasiicaa-annyaamnknnyrksup. 
  33. Tamarind Seeds. agriculturalproductsindia.com
  34. PROSEA
  35. Havinga, Reinout M.; Hartl, Anna; Putscher, Johanna; Prehsler, Sarah; Buchmann, Christine; Vogl, Christian R. (February 2010). "Tamarindus Indica L. (Fabaceae): Patterns of Use in Traditional African Medicine". Journal of Ethnopharmacology 127 (3): 573–588. doi:10.1016/j.jep.2009.11.028. PMID 19963055. 
  36. Panthong, A; Khonsung, P; Kunanusorn, P; Wongcome, T; Pongsamart, S (July 2008). "The laxative effect of fresh pulp aqueous extracts of Thai Tamarind cultivars". Planta Medica 74 (9). doi:10.1055/s-0028-1084885. 
  37. "Tamarind". http://www.wood-database.com/tamarind/. 
  38. McGee, Joah (2015) (in en). The Golden Path. Pariyatti Publishing. ISBN 9781681720135. 
  39. Salma, U.; Miah, A. G.; Tareq, K. M. A.; Maki, T.; Tsujii, H. (1 April 2007). "Effect of Dietary Rhodobacter capsulatus on Egg-Yolk Cholesterol and Laying Hen Performance". Poultry Science 86 (4): 714–719. doi:10.1093/ps/86.4.714. PMID 17369543. "as well as in egg-yolk (13 and 16%)". 
  40. Chowdhury, SR; Sarker, DK; Chowdhury, SD; Smith, TK; Roy, PK; Wahid, MA (2005). "Effects of dietary tamarind on cholesterol metabolism in laying hens". Poultry Science 84 (1): 56–60. doi:10.1093/ps/84.1.56. PMID 15685942. 
  41. Wegenast, CA (2022). "Acute kidney injury in dogs following ingestion of cream of tartar and tamarinds and the connection to tartaric acid as the proposed toxic principle in grapes and raisins". J Vet Emerg Crit Care 32 (6): 812–816. doi:10.1111/vec.13234. PMID 35869755. 
  42. Imam, S.; Azhar, I.; Hasan, M. M.; Ali, M. S.; Ahmed, S. W. (2007). "Two triterpenes lupanone and lupeol isolated and identified from Tamarindus indica linn.". Pakistan Journal of Pharmaceutical Sciences 20 (2): 125–7. PMID 17416567. 
  43. Razali, N.; Mat Junit, S.; Ariffin, A.; Ramli, N. S.; Abdul Aziz, A. (2015). "Polyphenols from the extract and fraction of T. indica seeds protected HepG2 cells against oxidative stress". BMC Complementary and Alternative Medicine 15: 438. doi:10.1186/s12906-015-0963-2. PMID 26683054. 
  44. "Asam or Tamarind tree (Tamarindus indica) on the Shores of Singapore". http://www.wildsingapore.com/wildfacts/plants/coastal/tamarindus/indica.htm. 
  45. "Food and Agriculture Organization of the United Nations". http://www.fao.org/teca. 
  46. National Research Council (January 25, 2008). "Tamarind". Lost Crops of Africa: Volume III: Fruits. 3. National Academies Press. doi:10.17226/11879. ISBN 978-0-309-10596-5. http://books.nap.edu/openbook.php?record_id=11879&page=149. Retrieved July 17, 2008. 
  47. "Ring-Tailed Lemur". Wisconsin Primate Research Center. http://pin.primate.wisc.edu/factsheets/entry/ring-tailed_lemur. 
  48. D'Cruz, Mark. "Ma-Ke Bonsai Care Guide for Tamarindus indica". Ma-Ke Bonsai. http://makebonsai.com/guide/bonsailink.asp?quicklink=5064&name=Tamarindus_indica. 

External links

Wikidata ☰ {{{from}}} entry