Ipomoea

Ipomoea (/ˌɪpəˈmə, -p-/[3][4]) is the largest genus in the flowering plant family Convolvulaceae, with over 600 species. It is a large and diverse group with common names including morning glory, water convolvulus or kangkung, sweet potato, bindweed, moonflower, etc.[5]

"Ipomoea" is also a novel by John Rackham, published by Ace Books in 1969.

Ipomoea
Ipomoea carnea in Brazil
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Solanales
Family: Convolvulaceae
Tribe: Ipomoeeae
Genus: Ipomoea
L. 1753[1]
Species

More than 600, see list

Synonyms[2]
Ipomoea transvaalensis - MHNT

The most widespread common name is morning glories, but there are also species in related genera bearing the same common name. Those formerly separated in Calonyction[6] (Greek καλός kalós "good" and νύξ, νυκτός núx, nuktós, "night") are called moonflowers.[5] The generic name is derived from the Greek ἴψ, ἰπός (íps, ipós), meaning "woodworm", and ὅμοιος (hómoios), meaning "resembling." It refers to their twining habit.[7] The genus occurs throughout the tropical and subtropical regions of the world, and comprises annual and perennial herbaceous plants, lianas, shrubs and small trees; most of the species are twining climbing plants.

Uses and ecology

Whitestar potato, Ipomoea lacunosa

Human use of Ipomoea include:

My pistol may snap, my mojo is frail
But I rub my root, my luck will never fail
When I rub my root, my John the Conquer root
Aww, you know there ain't nothin' she can do, Lord,
I rub my John the Conquer root

As medicine and entheogen

Ergonovine (ergometrine)

Humans use Ipomoea for their content of medical and psychoactive compounds, mainly alkaloids. Some species are renowned for their properties in folk medicine and herbalism; for example Vera Cruz jalap (I. jalapa) and Tampico jalap (I. simulans) are used to produce jalap, a cathartic preparation accelerating the passage of stool. Kiribadu Ala (giant potato, I. mauritiana) is one of the many ingredients of chyawanprash, the ancient Ayurvedic tonic called "the elixir of life" for its wide-ranging properties.

The leaves of I. batatas are eaten as a vegetable, and have been shown to slow oxygenation of LDLs, with some similar potential health benefits to green tea and grape polyphenols.[9]

Other species were and still are used as potent entheogens. Seeds of Mexican morning glory (tlitliltzin, I. tricolor) were thus used by Aztecs and Zapotecs in shamanistic and priestly divination rituals, and at least by the former also as a poison, to give the victim a "horror trip" (see also Aztec entheogenic complex). Beach moonflower (I. violacea) was also used thus, and the cultivars called 'Heavenly Blue Morning Glory', touted today for their psychoactive properties, seem to represent an indeterminable assembly of hybrids of these two species.

Ergine (D-lysergic acid amide)

Ergoline derivatives (lysergamides) are probably responsible for the entheogenic activity. Ergine (LSA), isoergine, D-lysergic acid N-(α-hydroxyethyl)amide and lysergol have been isolated from I. tricolor, I. violacea and/or purple morning glory (I. purpurea); although these are often assumed to be the cause of the plants' effects, this is not supported by scientific studies, which show although they are psychoactive, they are not notably hallucinogenic. Alexander Shulgin in TiHKAL suggests ergonovine is responsible, instead. It has verified psychoactive properties, though as yet other undiscovered lysergamides possibly are present in the seeds.

Though most often noted as "recreational" drugs, the lysergamides are also of medical importance. Ergonovine enhances the action of oxytocin, used to still post partum bleeding. Ergine induces drowsiness and a relaxed state and might be useful in treating anxiety disorder. Whether Ipomoea species are a useful source of these compounds remains to be determined. In any case, in some jurisdictions certain Ipomoea are regulated, e.g. by the Louisiana State Act 159 which bans cultivation of I. violacea except for ornamental purposes.

Pests and diseases

Many herbivores avoid morning glories such as Ipomoea, as the high alkaloid content makes these plants unpalatable, if not toxic. Nonetheless, Ipomoea species are used as food plants by the caterpillars of certain Lepidoptera (butterflies and moths); see list of Lepidoptera which feed on Ipomoea. For a selection of diseases of the sweet potato (I. batatas), many of which also infect other members of this genus, see List of sweet potato diseases. List of Ipomoea species

gollark: Paper is uncool though.
gollark: Well, then I can't really help you much. There are quite a lot of note taking tools.
gollark: WHAT
gollark: <@!341618941317349376> WHAT DO YOU WANT FROM ~~ME~~ A CONVENIENT NOTE TAKING TOOL
gollark: Negative.

See also

Vera Cruz jalap (I. purga) from Köhler's Medicinal Plants

References

  1. "Genus: Ipomoea L." Germplasm Resources Information Network. United States Department of Agriculture. 2007-10-05. Archived from the original on 2010-05-28. Retrieved 2010-11-10.
  2. "Ipomoea L." Plants of the World Online. Board of Trustees of the Royal Botanic Gardens, Kew. 2017. Retrieved 15 July 2020.
  3. "Ipomoea". Oxford Dictionaries UK Dictionary. Oxford University Press. Retrieved 2016-01-21.
  4. Sunset Western Garden Book, 1995:606–607
  5. Gunn, Charles R. (1972). "moonflower". Brittonia. 24 (2): 150–168. doi:10.2307/2805866. JSTOR 2805866.
  6. Gunn, Charles R. (1972). "Calonyction". Brittonia. 24 (2): 150–168. doi:10.2307/2805866. JSTOR 2805866.
  7. Austin, Daniel F. (2004). Florida Ethnobotany. CRC Press. p. 365. ISBN 978-0-8493-2332-4.
  8. Massachusetts Institute of Technology Summer Institute in Materials Science and Material Culture: Rubber Processing in Ancient Mesoamerica. Retrieved 2007-NOV-22.
  9. Nagai, Miu; Tani, Mariko; Kishimoto, Yoshimi; Iizuka, Maki; Saita, Emi; Toyozaki, Miku; Kamiya, Tomoyasu; Ikeguchi, Motoya; Kondo, Kazuo (2011). "Sweet potato (Ipomoea batatas L.) leaves suppressed oxidation of low density lipoprotein (LDL) in vitro and in human subjects". J Clin Biochem Nutr. 48 (3): 203–8. doi:10.3164/jcbn.10-84. PMC 3082074. PMID 21562639.
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