Senna obtusifolia explained

Senna obtusifolia, known by common names including Chinese senna, American sicklepod and sicklepod, is a plant in the genus Senna, sometimes separated in the monotypic genus Diallobus. It grows wild in North, Central, and South America, Asia, Africa, and Oceania, and is considered a particularly problematic weed in many places. It has a long-standing history of confusion with Senna tora and that taxon in many sources actually refers to the present species.

In the traditional medicine of Eastern Asia, the seeds are called in Chinese (simplified: Chinese: 决明子; traditional: Chinese: 決明子), gyeolmyeongja in Korean, and ketsumeishi in Japanese.

The green leaves of the plant are fermented to produce a high-protein food product called kawal which is eaten by many people in Sudan as a meat substitute. Its leaves, seeds, and root are also used in folk medicine, primarily in Asia. It is believed to possess a laxative effect, as well as to be beneficial for the eyes. As a folk remedy, the seeds are often roasted, then boiled in water to produce sicklepod tea. The plant's seeds are a commercial source of cassia gum, a food additive usually used as a thickener and named for the Chinese Senna's former placement in the genus Cassia. Roasted and ground, the seeds have also been used as a substitute for coffee. In vitro cultures of S. obtusifolia such as hairy roots may be a source of valuable secondary metabolites with medical applications.[1]

Taxonomy and naming

This species was first formally described in 1753 by Carl Linnaeus who gave it the name Cassia obtusifolia in Species Plantarum.[2] [3] In 1979, Howard Samuel Irwin and Rupert Charles Barneby transferred the species to the genus Senna as S. obtusifolia in the Memoirs of the New York Botanical Garden.[4] [5] The specific epithet (obtusifolia) means "blunt-leaved".[6]

S. obtusifolia is known by a number of common names. Apart from "sicklepod", sickle-pod senna, rarely "Chinese senna" or even "American sicklepod", it is also called arsenic weed, foetid cassia, or wild senna.

It is also known locally by common names such as "coffee weed" (coffeeweed) or "java bean" (in Australia) or "coffee pod" (in the American South or West), although the terms "coffee weed" or "coffee pod" are ambiguous as they also apply to S. tora. It may be called by the Hindi name "chakunda" in India, but this is also one of the names for S. tora.

Names in its native range are also:

Distribution and habitat

Senna obtusifolia naturally occurs in tropical and subtropical regions of the Americas, but has been introduced to Africa, parts of Europe, the Middle East, the Indian subcontinent, parts of Southeast Asia, New Guinea and parts of Australia. Its nativity in the North America disputed, but it is usually considered to be native to the Southeastern United States,[7] [8] while others also consider it to be native to the eastern and central U.S. north to New York.[9] [10] [11] However, the earliest records in North America date to the early to mid 1800s.[12] In its natural environment, it grows on the shores of lakes and rivers, but is also a weed of pastures and roadsides at altitudes up to .

Ecology

Senna obtusifolia is non-nodulating and does not have a symbiotic association with soil bacteria, unlike other members of the family Fabaceae. Senna obtusifolia is usually self pollinated as many flowers being fertilized before opening, though the flowers are heavily visited by bees.[13] Senna obtusifolia has one (in Caribbean and North American forms) to two (in South American forms) extrafloral nectaries on the upper surface of the rachis that usually attract ants, but occasionally attracts wasps, flies and small bees. It serves as a host plant for several Lepidoptera and other insects including Eurema lisa, Eurema nicippe, Phoebis sennae cubule and Calycomyza malvae.[14] Northern bobwhite and greater prairie chickens are known to feed on the seeds. Mammalian herbivory is rare due to the foliage's foul taste and toxicity, which is known to poison livestock.[15]

Traditional Eastern medicine

The materia medica name for the seeds in Chinese is (simplified: Chinese: 决明子; traditional: Chinese: 決明子). The medicinal seeds are also known by the equivalent Korean name gyeolmyeongja in traditional Korean medicine, and by the Japanese name in kampō medicine.

The jue ming zi is used widely in Asia, including Southeast Asian countries such as Thailand, and its herbal sicklepod tea is drunk instead of regular tea as a preventative for hypertension. It is also purported to have the ability to clear the eye. In Korea also, medicinal gyeolmyeongja is usually prepared as tea (gyeolmyeongja-cha, "sickle pod tea").

Senna tora (Cassia tora) is used similarly, and though distinguished in the Chinese market as the "little/lesser" variety or shao jue ming Chinese: 小決明) the Japanese government's [pharmacopoeia] (Nihon yakkyokuhō) officially acknowledges both S. obtusifolia and S. tora to be commerced as ketsumeishi.

The Japanese beverage, as the name suggests, was originally brewed from the seeds of the habusō or S. occidentalis, but currently marketed habu-cha uses S. obtusifolia as substitute, since it is a higher-yielding crop.

Western medicine

The antimicrobial activity of leaf extracts of Senna obtusifolia have been studied.[16]

Meat substitute

Kawal, a protein-rich meat substitute eaten in Sudan, is produced by crushing the leaves of the plant into a paste which is then traditionally fermented in an earthenware jar, buried in a cool place. The jar is dug up every three days and the contents mixed. After two weeks, the paste is removed and rolled into balls which are left to dry in the sun. They are usually cooked in stews with onions and okra.[17] [18]

See also

Bibliography

External links

Notes and References

  1. Kowalczyk . Tomasz . Sitarek . Przemysław . Toma . Monika . Picot . Laurent . Wielanek . Marzena . Skała . Ewa . Śliwiński . Tomasz . 2020-03-27 . An Extract of Transgenic Senna obtusifolia L. hairy roots with Overexpression of PgSS1 Gene in Combination with Chemotherapeutic Agent Induces Apoptosis in the Leukemia Cell Line . Biomolecules . 10 . 4 . 510 . 10.3390/biom10040510 . 2218-273X . 7226363 . 32230928. free .
  2. Web site: Senna obtusifolia . Australian Plant Name Index . 12 August 2023.
  3. Book: Linnaeus . Carl . Species Plantarum . 1 . 1753 . Junk . Berlin . 377 . 12 August 2023.
  4. Web site: Senna obtusifolia . Australian Plant Name Index . 12 August 2023.
  5. Irwin . Howard S. . Barneby . Rupert C. . The American Cassiinae : a synoptical revision of Leguminosae tribe Cassieae subtribe Casiinae in the New World . Memoirs of the New York Botanical Garden . 1982 . 35 . 1 . 252–255 . 12 August 2023.
  6. Book: Sharr . Francis Aubi . George . Alex . Western Australian Plant Names and Their Meanings . 2019 . Four Gables Press . Kardinya, WA . 9780958034180 . 263 . 3rd.
  7. Web site: Senna obtusifolia — sickle-pod wild senna . Go Botany Native Plant Trust . Native Plant Trust . 15 August 2024.
  8. Sosnoskie . Lynn M. . Steckel . Sandy . Steckel . Lawrence E. . 6 September 2021 . Sicklepod [''Senna obtusifolia'' (L.) H. S. Irwin & Barneby] “Getting sleepy?” . Weed Technology . 35 . 6 . 1052-1058 . 10.1017/wet.2021.70 . free .
  9. Web site: Senna obtusifolia (L.) Irwin & Barneby . U.S. Department of Agriculture . USDA PLANTS Database . 15 August 2024.
  10. Web site: Senna obtusifolia . Missouri Botanical Garden . Missouri Botanical Garden . 15 August 2024.
  11. Web site: Senna obtusifolia (L.) H.S.Irwin & Barneby . Floristic Inventory of the Florida Keys . The Institute for Regional Conservation . 15 August 2024.
  12. Web site: Senna obtusifolia . Institute for Systematic Botany . Florida Plant Atlas . 15 August 2024.
  13. Retzinger Jr. . E. James . September 1984 . Growth and Development of Sicklepod (Cassia obtusifolia) Selections . Weed Technology . 32 . 5 . 608-611 . 10.1017/S0043174500059658.
  14. Web site: Calycomyza malvae Burgess 1880 . National Museum of Natural History . EOL . 15 August 2024.
  15. Web site: Sicklepod Senna obtusifolia . John . Hilty . Illinois Wildflowers . 15 August 2024.
  16. Doughari . J.H. . El-Mahmood . A.M. . Tyoyina . S.P. . Antmicrobial activity of leaf extracts of Senna obtusifolia. . African Journal of Pharmaceuticals and Pharmacology . 2008 . 2 . 7–13.
  17. Dirar . Hamid . . Kawal, meat substitute from fermented Cassia obtusifolia leaves . Economic Botany . 38 . 3 . 1 July 1984 . 342–349 . 3793107 . 10.1007/bf02859013 . 32446384.
  18. Plants that provide a protein-rich diet . . 107 . 1468 . 8 August 1985 . 30 . 0028-6664.