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Calotropis gigantea

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Calotropis gigantea
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Gentianales
Family: Apocynaceae
Genus: Calotropis
Species:
C. gigantea
Binomial name
Calotropis gigantea
(L.) Dryand.
Synonyms[1]
  • Asclepias gigantea L.
  • Calotropis gigantea (L.) R. Br. ex Schult.
  • Madorius giganteus (L.) Kuntze
  • Periploca cochinchinensis Lour.
  • Streptocaulon cochinchinense (Lour.) G. Don
Follicle
Seeds set to disperse
Calotropis gigantea plant in southern part of India near Bangalore
Calotropis gigantea flower in Belur Math, Howrah, West Bengal
Calotropis gigantea flower in Belur Math, Howrah, West Bengal

Calotropis gigantea, the crown flower, is a species of Calotropis native to Cambodia, Vietnam, Bangladesh, Indonesia, Malaysia, Thailand, Sri Lanka, India, China, Pakistan, and Nepal.[2]

It is a large shrub growing to 4 m (13 ft) tall. It has clusters of waxy flowers that are either white or lavender in colour. Each flower consists of five pointed petals and a small "crown" rising from the center which holds the stamens. The aestivation found in calotropis is valvate i.e. sepals or petals in a whorl just touch one another at the margin, without overlapping. The plant has oval, light green leaves and milky stem. The latex of Calotropis gigantea contains cardiac glycosides, fatty acids, and calcium oxalate. The roots also contain Calotropone.[3]

Pollination

This plant plays host to a variety of insects and butterflies. It is the host plant for Hawaii's non-migratory monarch butterflies.[4] Calotropis is an example of entomophily pollination (pollination by insects) and pollination is achieved with the help of bees. In Calotropis, gynostegium is present (formed by the fusion of stigma and androecium). The pollen are in a structure named pollinia which is attached to a glandular, adhesive disc at the stigmatic angle (translator mechanism). These sticky discs get attached to the legs of visiting bees that pull out pollinia when a bee moves away. When such a bee visits another flower, this flower might be pollinated by the pollinium.[citation needed]

Calotropis gigantea (Ankhade) plant with full bloom at Haridwar

Description

  • Stem : Erect, branched, cylindrical, solid, contains milky latex.
  • Leaves : 100–200 mm (4–8 in) long, decussate, obovate or elliptic-oblong, shortly acute, subsessile, cordate or often amplexical at the base.
  • Inflorescence : Umbellate cymes.
  • Flowers :

Large, white, not scented, peduncles arising between the petioles. Flower-buds ovoid, angled, Calyx lobes 5, divided to the base, white, ovate; corolla broadly rotate, valvate, lobes 5, deltoid ovate, reflexed, coronate-appendages broad, obtusely 2-auricled below the rounded apex which is lower than the staminal-column. Stamens 5, anthers short with membranous appendages, inflexed over the depressed apex of the pentagonal stigma. Pollinium one in each cell, pendulous caudicles slender. Carpels 2 distinct, styles 2, united to the single pentagular stigma, ovary 2-celled, ovules many.

  • Fruit : A pair of follicles with many, hairy seeds.
  • Flowering and Fruiting Time : November-April

Significance

  • Common as a weed in waste lands.
  • The root, bark and milk used in traditional medicine for the treatment of dysentery cutaneous affections.
  • The leaves are applied on paralysed parts, painful joints.
  • The milk is used for leprosy and ringworm.

Uses

The flowers are long lasting, and in Thailand they are used in floral arrangements. The extract of flowers and leaves has shown hypoglycemic effect in preclinical studies.[5] They were favored by the Hawaiian Queen Liliuokalani, who considered them a symbol of royalty and wore them strung into leis. In Cambodia, they are used in funerals to decorate the urn or sarcophagus and the interior of the house holding the funeral. The fruit is a follicle and when dry, seed dispersal is by wind. In Indonesia its flowers are called widuri. According to the Shiva Purana, the madar flower/crown flower is very much liked by Lord Shiva; therefore the crown flower and its garland are offered to Lord Shiva for peace, prosperity and stability in society.[6] The Crown flower is also one of the major parts of the nine astrological trees (Navagrah tree).

Calotropis yields a durable fiber (commercially known as bowstring of India) useful for ropes, carpets, fishing nets, and sewing thread. Floss, obtained from seeds, is used as stuffing. Crown flower cotton can also be used to make a pillow. A fermented mixture of Calotropis and salt is used to remove the hair from goat skins for production of nari leather and from sheep skins to make leather which is much used for inexpensive book binding.[7] Fungicidal which is far effective than oinmentand insecticidal properties of Calotropis have been reported.[8]

In India, the plant is common in the compounds of temples and is known as madar in Template:Lang-hi. Its leaf (Template:Lang-mr) is one of the five leaves used in the Panch Pallava, a ritual assortment of five different leaves used as a totem by the Maratha culture in India.[9]

Allelopathic effects

Allelopathic effects of Calotropis on different agricultural crops have been well studied.[10] Extracts of plant parts such as root, stem, and leaf affect germination and seedling vigor of many agricultural crops.[11][12][13] However, extracts of Calotropis failed to produce any detrimental effects on weeds such as Chenopodium album, Melilotus alba, Melilotus indica, Sphaeranthus indicus, and Phalaris minor.[11]

Use as an arrow poison

Many plant and animal extracts have been used as arrow poisons all over the world. In many cases, the poison was applied to the arrow or spear to aid the hunting of prey. Alkaloids are among the most powerful plant poisons, and extracts of Strychnos species are commonly used. Other arrow poisons are commonly cardiac glycosides, which can be found in digitalis, but most of these arrow poisons are derived from plants in the family Apocynaceae.[14] This family includes Calotropis gigantea and the more potent Calotropis procera. The latex of these plants has been used in Africa as an arrow poison. Apocynaceae species often contain a mixture of cardiac glycosides, including calactin, uscharin, calotoxin, and calotropin.[15] These poisons work by inhibiting the sodium-potassium pump, and this effect is especially potent in the cardiac tissues.[16] The cardiac effects can be applied for heart medication, and digitalis has been used as such. However, excessive doses can cause arrhythmia, which can lead to death.[17]

Medical uses

Given the potent bioactivity of calotropin, calotropis gigantea has been used as a folk medicine in India for many years, and has been reported to have a variety of uses. In Ayurveda, Indian practitioners have used the root and leaf of C. procera in asthma and also used in bacterial infection, swelling with redness, boils also and shortness of breath and the bark in liver and spleen diseases. The plant is reported as effective in treating skin, digestive, respiratory, circulatory and neurological disorders and was used to treat fevers, elephantiasis, nausea, vomiting, and diarrhea. The milky juice of Calotropis procera was used against arthritis, cancer, and as an antidote for snake bite.[18] However, these reports are of folk uses and more research is needed to confirm the clinical usefulness of the leaves, latex, and bark. Recent studies have displayed use of calotropin as a contraceptive[19] and as a potential cancer medication.[20] In one study of the cancer-fighting properties of Calotropis gigantea, DCM extracts were demonstrated to be strongly cytotoxic against non-small cell lung carcinoma (A549), colon carcinoma (HCT 116), and hepatocellular carcinoma in hamsters (Hep G2). These extracts show potential as cancer medications and warrant further clinical research.[21]

Poisoning

Calotropis is a poisonous plant. The active principles are uscharin, calotoxin, calactin, and calotropin.[citation needed] The leaves and stem when incised yield thick milky juice. It is used as an arrow poison, cattle poison (see also Sutari), rarely for suicide and homicide and mostly an accidental poison.

The milky latex sap of Calotropis gigantea is a known cause of toxic keratoconjunctivitis and reversible vision loss. Crownflower keratitis is a rare condition and is usually the result of accidental ocular exposure to the sap. During the process of making a Hawaiian lei flower necklace, touching the sap and then touching the ocular surface may result in crownflower keratitis. Damage (poisoning) of the cornea endothelium results in corneal stromal edema and decreased visual acuity. Although there is some permanent damage to the corneal endothelium with decreased endothelial cell count and irregular shape, the remaining corneal endothelial cells usually recover with complete resolution of the corneal edema and a return to normal visual acuity. The condition is usually self-limited and resolves faster with topical steroids. The clinical course of this condition suggests that Calotropis is paradoxically relatively nontoxic to corneal epithelium and highly toxic to corneal endothelium. The painless clinical course may be related to anesthetic properties of Calotropis latex and relatively minor epithelial injury.[22][23][24]

Signs and symptoms

Applied to the skin, it causes redness and vesication. When taken orally, the juice produces an acrid, bitter taste and burning pain in throat and stomach, salivation, stomatitis, vomiting, diarrhea, dilated pupils, tetanic convulsions, collapse and death. The fatal period is 6 to 12 hours.[citation needed] Treatment includes stomach wash, demulcents, and symptomatic treatment.[medical citation needed]

Mosquito controlling properties

C. gigantea is reported to exhibit mosquito controlling properties against Culex gelidus and Culex tritaeniorhynchus mosquitoes which serve as vectors for Japanese encephalitis. The aqueous extract of the C. gigantea leaves demonstrated significant larvicidal, repellent and ovicidal activity.[25]

Literary references

In the Paushya chapter of the Adi Parva portion of the Indian epic Mahabharata, a disciple of the rishi Ayoda-Daumya named Upamanya goes blind by eating the leaves of the plant which in Sanskrit is called arka.

However, in India, among the general public, it is the belief that akada (arka) is a poisonous plant and can make people intoxicated. Lord Shiva is offered akada along with dhatura (botanically: Datura metel) (extremely toxic) flowers on auspicious days.[citation needed]

"श्वेतार्क का पेड" is the name of the tree and flowers are called as "अकौआ" ओर "श्वेतार्क के फूल" in Hindi. In Marathi the local name is Ruhi (pronounced ruheé).

In Hindu mythology, it is considered the favourite flower of Lord Shiva and hence its flowers are commonly offered to the deity. It is a belief that the flower makes the deity happy, subsequent to which he showers his blessings upon the worshippers.[citation needed]

References

  1. ^ "The Plant List: A Working List of All Plant Species". Retrieved 11 July 2014.
  2. ^ "Calotropis gigantea (L.) W.T.Aiton | Plants of the World Online | Kew Science". Plants of the World Online. Retrieved 2022-05-27.
  3. ^ Wang, Zhu-Nian; Wang, Mao-Yuan; Mei, Wen-Li; Han, Zhuang; Dai, Hao-Fu (4 December 2008). "A New Cytotoxic Pregnanone from Calotropis gigantea". Molecules. 13 (12): 3033–3039. doi:10.3390/molecules13123033. PMC 6244834. PMID 19052526.
  4. ^ "Butterfly Society of Hawaii". Archived from the original on 2016-10-23. Retrieved 2016-03-11.
  5. ^ Rathod, Nanu R.; Chitme, Havagiray R.; Irchhaiya, Raghuveer; Chandra, Ramesh (25 March 2011). "Hypoglycemic Effect of Calotropis Gigantea Linn. Leaves and Flowers in Streptozotocin-Induced Diabetic Rats". Oman Medical Journal. 26 (2): 104–108. doi:10.5001/omj.2011.26. PMC 3191672. PMID 22043394.
  6. ^ "Mahashivaratri: Favorite Plants of Lord Shiva".
  7. ^ Singh, Umrao; Wadhwani, A. M; Johri, B. M (1996). Dictionary of economic plants in India. Indian Council of Agricultural Research. OCLC 742623224.[page needed]
  8. ^ Ganapathy, T.; Narayanasamy, P. (1993). "Screening plant products effective against tikka and rust disease of groundnut". In Sivaprakasam, K.; Seetharaman, K. (eds.). Crop Disease, Innovative Techniques and Management. New Delhi: Kalyani. pp. 347–355.
  9. ^ Indian Trees
  10. ^ Oudhia, P. (August 2002). Allelopathic potential of useful weed Calotropis gigantea R.Br: A review. Third World Congress on Allelopathy: Challenges for the New Millennium, National Institute for Agro-Environmental Sciences (NIAES). Tsukuba, Japan. p. 179.
  11. ^ a b Oudhia, P.; Tripathi, R.S. (October 1997). Allelopathic effects of Parthenium hysterophorus L. on kodo, Mustard and problematic weeds. Proceedings of the First International Conference on Parthenium Management. Dharwad. pp. 136–139.
  12. ^ Oudhia and Tripathi 1999[full citation needed]
  13. ^ Oudhia et al. 1997, 1998a, b[full citation needed]
  14. ^ Philippe, Geneviève; Angenot, Luc (August 2005). "Recent developments in the field of arrow and dart poisons". Journal of Ethnopharmacology. 100 (1–2): 85–91. doi:10.1016/j.jep.2005.05.022. hdl:2268/16897. PMID 15993556.
  15. ^ Daniel, Mammen (2006). Medicinal plants: chemistry and properties. Enfield, NH: Science Publishers. ISBN 1578083958. OCLC 61456768.
  16. ^ Agrawal, Anurag A.; Petschenka, Georg; Bingham, Robin A.; Weber, Marjorie G.; Rasmann, Sergio (April 2012). "Toxic cardenolides: chemical ecology and coevolution of specialized plant–herbivore interactions". New Phytologist. 194 (1): 28–45. doi:10.1111/j.1469-8137.2011.04049.x. PMID 22292897.
  17. ^ Hoyer, Kirsten; Song, Yejia; Wang, Desuo; Phan, Dillon; Balschi, James; Ingwall, Joanne S.; Belardinelli, Luiz; Shryock, John C. (May 2011). "Reducing the Late Sodium Current Improves Cardiac Function during Sodium Pump Inhibition by Ouabain". Journal of Pharmacology and Experimental Therapeutics. 337 (2): 513–523. doi:10.1124/jpet.110.176776. PMID 21325441. S2CID 16793407.
  18. ^ Upadhyay, RaviKant (2014). "Ethnomedicinal, pharmaceutical and pesticidal uses of Calotropis procera (Aiton) (Family: Asclepiadaceae)". International Journal of Green Pharmacy. 8 (3): 135–146. doi:10.4103/0973-8258.140165. Gale A381468570 ProQuest 1560657761.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  19. ^ Sarma, Kishore; Roychoudhury, Shubhadeep; Bora, Sudipta; Dehury, Budheswar; Parida, Pratap; Das, Saurav; Das, Robin; Dohutia, Chandrajit; Nath, Sangeeta; Deb, Bibhas; Modi, Mahendra (23 March 2017). "Molecular Modeling and Dynamics Simulation Analysis of KATNAL1 for Identification of Novel Inhibitor of Sperm Maturation". Combinatorial Chemistry & High Throughput Screening. 20 (1): 82–92. doi:10.2174/1386207320666170116120104. PMID 28093975.
  20. ^ Wang, Shih-Chung; Lu, Mei-Chin; Chen, Hsiu-Lin; Tseng, Hsing-I; Ke, Yu-Yuan; Wu, Yang-Chang; Yang, Pei-Yu (December 2009). "Cytotoxicity of calotropin is through caspase activation and downregulation of anti-apoptotic proteins in K562 cells". Cell Biology International. 33 (12): 1230–1236. doi:10.1016/j.cellbi.2009.08.013. PMID 19732845. S2CID 29139887.
  21. ^ Jacinto, Sonia D.; Chun, Eunice Alexis C.; Montuno, Anthony Sebastian; Shen, Chien-Chang; Espineli, Dinah L.; Ragasa, Consolacion Y. (June 2011). "Cytotoxic Cardenolide and Sterols from Calotropis Gigantea". Natural Product Communications. 6 (6): 803–806. doi:10.1177/1934578X1100600614. PMID 21815415. S2CID 40801911.
  22. ^ Wong, WW (May 1949). "Keratoconjunctivitis due to crown-flower". Hawaii Medical Journal. 8 (5): 339–341. PMID 18145074.
  23. ^ Crawford, HE (January 1958). "Crown flower keratoconjunctivitis". Hawaii Medical Journal. 17 (3): 244–245. PMID 13501713.
  24. ^ Al-Mezaine, Hani S.; Al-Rajhi, Ali A.; Al-Assiri, Abdullah; Wagoner, Michael D. (January 2005). "Calotropis procera (ushaar) keratitis". American Journal of Ophthalmology. 139 (1): 199–202. doi:10.1016/j.ajo.2004.07.062. PMID 15652855.
  25. ^ Kumar, G; Karthik, L; Rao, KVB; Karti, AV; Rahuman, AA (2012). "Larvicidal, Repellent and Ovicidal activity of Calotropis gigentia against Culex tritaeniorhynchus and Culex gelidus" (PDF). Journal of Agricultural Technology. 8 (3): 869–880.