Biology:Mandragora (genus)

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Short description: Genus of plants

Mandragora
Mandragora officinarum 002.JPG
Mandragora officinarum
Scientific classification e
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Solanales
Family: Solanaceae
Subfamily: Solanoideae
Tribe: Mandragoreae
Genus: Mandragora
L.
Species

See text

Mandragora is a plant genus belonging to the nightshade family (Solanaceae). Members of the genus are known as mandrakes. Between three and five species are placed in the genus. The one or two species found around the Mediterranean constitute the mandrake of ancient writers such as Dioscorides. Two or three further species are found eastwards into China. All are perennial herbaceous plants, with large tap roots and leaves in the form of a rosette. Individual flowers are bell-shaped, whitish through to violet, and followed by yellow or orange berries.

Like many members of the Solanaceae, species of Mandragora contain highly biologically active alkaloids that make the plants poisonous.[1] Their roots in particular have a long use in traditional medicine.[2] Mandrakes are involved in many myths and superstitions.[2]

Description

Species of Mandragora are perennial herbaceous plants. They have large vertical tap roots, sometimes forked. Their stems are short or virtually absent. The leaves form a rosette at the base of the plant. The flowers are sometimes borne on a short stalk (scape), and are solitary, with whorls of five parts. The sepals are joined at the base, as are the petals, both in the shape of a lobed bell. The stamens are shorter than the petals, joined to the floral tube towards the base. The ovary has two chambers (locules). After fertilization, a yellow or orange fruit forms (botanically a berry).[3][4]

Taxonomy

Mandragora officinarum with violet flowers

The genus Mandragora was first used in 1753 by Carl Linnaeus in the first edition of Species Plantarum where the Mediterranean species Mandragora officinarum was described,[5][6] which is thus the type species of the genus.[7] (Linnaeus later changed his mind and in 1759 placed M. officinarum in the genus Atropa as A. mandragora.[8])

Jackson and Berry (1979)[7] and Ungricht et al. (1998)[9] have documented the subsequent confusion over the number of Mediterranean species of Mandragora and their scientific names. Dioscorides was among those who distinguished between "male" and "female" mandrakes,[7] a distinction used in 1764 when Garsault published the names Mandragora mas and Mandragora foemina.[9] The size and shape of the fruit and the colour and time of appearance of the flowers have been used to distinguish possible species. In the 1820s, Antonio Bertoloni used flowering time to name two species as Mandragora vernalis, the spring-flowering mandrake, and Mandragora autumnalis, the autumn-flowering mandrake. Identifying the former as Linnaeus's M. officinarum, works such as Flora Europaea listed two Mediterranean species of Mandragora: M. officinarum and M. autumnalis.[4][7] Using statistical analysis of morphological characters, Ungricht et al. found no distinct clusters among the specimens they examined and concluded that Linnaeus's M. officinarum is a single, variable species.[9] Other sources divide M. officinarum sensu lato differently. Plants from the western Mediterranean, from Turkey westwards to the Iberian peninsula and Morocco, are placed in M. officinarum; plants from the eastern Mediterranean, from Syria to Israel, are placed in M. autumnalis.[10]

Classification and phylogeny

Traditionally, Mandragora has been considered to be closely related to Atropa and Lycium, being grouped together in the same tribe or subtribe as at least the first of these genera.[9] Molecular phylogenetic studies suggest that the genus belongs in the large subfamily Solanoideae, but that within this subfamily, it is one of a number of isolated genera with no immediate relatives.[11][12] It has thus been placed in its own tribe, Mandragoreae.[10]

Within the genus, studies have used different circumscriptions of the Mediterranean mandrakes. Two studies that separate plants found in the Levant (Mandragora autumnalis) from those found in the rest of the Mediterranean area (Mandragora officinarum) suggest that there are two clades in the genus - one based in the Mediterranean and beyond to Turkmenistan and Iran, and one in the Sino-Himalayan region. A simplified cladogram based on these studies is shown below.[10][13] In one of the studies, M. chinghaiensis was embedded within M. caulescens.[10]

Mandragoreae

Mandragora turcomanica

Mandragora autumnalis

Mandragora officinarum

Mandragora caulescens

Mandragora chinghaiensis

The Solanaceae are primarily a New World family. Mandragora is suggested to have originated around 20 million years ago, arriving in Eurasia through the agency of birds, with the main split between the species occurring around 10 million years ago.[10]

Species

(As of March 2015), major online plant databases (such as Tropicos, The Plant List, and GRIN Taxonomy for Plants) accept different numbers of species in the genus Mandragora. Three species are accepted in a 1998 review of the genus and by GRIN.[9][14] Other sources keep M. autumnalis and M. chinghaiensis as separate species.[10]

  • Mandragora officinarum L. and Mandragora autumnalis Bertol.
    Central and southern Portugal and throughout the Mediterranean area, eastwards to Syria and Jordan. Virtually stemless; petals 1.2–6.5 cm (0.5–2.6 in) long, greenish white through blue to violet; berry globose to ovoid, yellow to orange when ripe.[9]
    M. autumnalis may be included within M. officinarum[9][14] or considered a separate species. Older sources consider M. autumnalis to the main species found in the Mediterranean with M. officinarum confined to northern Italy and parts of the coast of former Yugoslavia.[4][7] Some more recent sources distinguish plants found in the Levant as Mandragora autumnalis,[10][11] one difference being that the seeds are more than twice as large as those of M. officinarum.[10]
  • Mandragora turcomanica Mizg.[14][15]
    Turkmenistan, Iran (Golestan Province). Stemless; petals 2.3–2.7 cm (0.9–1.1 in) long, violet; berry yellow, strongly aromatic.[16]
  • Mandragora caulescens C.B.Clarke (including Mandragora chinghaiensis Kuang & A.M.Lu, Mandragora tibetica Grubov)[14][17][18]
    India , Nepal, Bhutan and parts of China (south-east Qinghai, west Sichuan, east Xizang (Tibet), north-west Yunnan). Stems sometimes present; petals dark purple or yellow; berry globose. Considerably variable in size and appearance, possibly justifying dividing the taxon into subspecies or even species.[19]

Toxicity

Atropine is a mixture of D and L isomers, the L isomer being hyoscyamine.

Like many members of the Solanaceae, species of Mandragora contain highly biologically active alkaloids, tropane alkaloids in particular.[20] Hanuš et al. reviewed the phytochemistry of Mandragora species. More than 80 substances have been identified; their paper gives the detailed chemical structure of 37 of them.[21] The different parts of the plant contain different proportions and concentrations of alkaloids, with the roots having the highest concentrations. Alkaloids present include atropine, apoatropine, belladonnine, cuscohygrine, hyoscyamine, scopolamine (hyoscine), 3α-tigloyloxytropane, and 3α,6β-ditigloyloxytropane.[7][9] M. caulescens and M. turcomanica are also reported to contain anisodamine.[19][22]

Clinical reports of the effects of consumption of plants described as M. autumnalis (M. offinarum sensu lato) include severe symptoms similar to those of atropine poisoning, including blurred vision, dilation of the pupils (mydriasis), dryness of the mouth, difficulty in urinating, dizziness, headache, vomiting, blushing, and a rapid heart rate (tachycardia). Hyperactivity and hallucinations also occurred in the majority of patients.[23][24][25]

Uses

Mandragora species have a long use in traditional medicine, extracts being used for their real or supposed aphrodisiac, hypnotic, emetic, purgative, sedative, and pain-killing effects.[2] Tropane alkaloids are known to be effective as analgesics and anaesthetics, and can be used to increase circulation and dilate pupils, among other effects.[9] Hyoscine and anisodamine are used medicinally in China.[19] Continued use of M. autumnalis in folk medicine was reported in Sicily in 2014.[26] M. caulescens (as M. chinghaiensis) has been listed as a Chinese medicinal plant needing conservation.[27]

The presence of deliriant and hallucinogenic alkaloids and the sometimes vaguely humanoid shape of their roots have led to mandrakes being associated with a variety of myths and superstitious practices throughout history.[9][2] However, the plants used in this way are not always species of Mandragora; for example, bryony (Bryonia) is explicitly mentioned as the source of a "mandrake" or "mandragora" in some sources.[28]

References

  1. Fatur, Karsten; Kreft, Samo (April 2020). "Common anticholinergic solanaceaous plants of temperate Europe - A review of intoxications from the literature (1966–2018)" (in en). Toxicon 177: 52–88. doi:10.1016/j.toxicon.2020.02.005. PMID 32217234. https://linkinghub.elsevier.com/retrieve/pii/S0041010120300362. 
  2. 2.0 2.1 2.2 2.3 Fatur, Karsten (June 2020). ""Hexing Herbs" in Ethnobotanical Perspective: A Historical Review of the Uses of Anticholinergic Solanaceae Plants in Europe" (in en). Economic Botany 74 (2): 140–158. doi:10.1007/s12231-020-09498-w. ISSN 0013-0001. http://link.springer.com/10.1007/s12231-020-09498-w. 
  3. Zhang, Zhi-Yun; Lu, Anmin; D'Arcy, William G.. "Mandragora". in Wu, Zhengyi; Raven, Peter H.; Hong, Deyuan. Flora of China (online). eFloras.org. http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=119600. Retrieved 2015-03-30. 
  4. 4.0 4.1 4.2 Hawkes, J.G. (1972). "Mandragora". in Tutin, T.G.; Heywood, V.H.; Burges, N.A. et al.. Flora Europaea, Volume 3: Diapensiaceae to Myoporaceae. Cambridge University Press. pp. 199–200. ISBN 978-0-521-08489-5. 
  5. IPNI Plant Name Query Results for Mandragora officinarum. 1. http://www.ipni.org/ipni/simplePlantNameSearch.do?find_wholeName=Mandragora+officinarum. Retrieved 2015-03-29. 
  6. Linnaeus, C. (1753). "Mandragora". Species Plantarum, vol. 1. p. 181. https://www.biodiversitylibrary.org/page/358200#page/193/mode/1up. Retrieved 2015-03-29. 
  7. 7.0 7.1 7.2 7.3 7.4 7.5 Jackson, Betty P.; Berry, Michael I. (1979). "39. Mandragora - taxonomy and chemistry of the European species". in Hawkes, J.G.; Lester, R.N.; Skelding, A.D.. The biology and taxonomy of the Solanaceae. London: Academic Press. pp. 505–512. http://www.samorini.it/doc1/alt_aut/ek/jackson.pdf. Retrieved 2015-03-29. 
  8. "Mandragora officinarum". http://www.theplantlist.org/tpl1.1/record/kew-2506563. 
  9. 9.0 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9 Ungricht, Stefan; Knapp, Sandra; Press, John R. (1998). "A revision of the genus Mandragora (Solanaceae)". Bulletin of the Natural History Museum, Botany Series 28 (1): 17–40. https://archive.org/stream/bulletinofnatura28natulond#page/16/mode/2up. Retrieved 2015-03-31. 
  10. 10.0 10.1 10.2 10.3 10.4 10.5 10.6 10.7 Tu, Tieyao; Volis, Sergei; Dillon, Michael O.; Sun, Hang; Wen, Jun (2010). "Dispersals of Hyoscyameae and Mandragoreae (Solanaceae) from the New World to Eurasia in the early Miocene and their biogeographic diversification within Eurasia". Molecular Phylogenetics and Evolution 57 (3): 1226–1237. doi:10.1016/j.ympev.2010.09.007. PMID 20858548. 
  11. 11.0 11.1 Olmstead, Richard G.; Bohs, Lynn; Migid, Hala Abdel; Santiago-Valentin, Eugenio; Garcia, Vicente F.; Collier, Sarah M. (2008), "A molecular phylogeny of the Solanaceae", Taxon 57 (4): 1159–1181, doi:10.1002/tax.574010 
  12. Särkinen, Tiina; Bohs, Lynn; Olmstead, Richard G.; Knapp, Sandra (2013), "A phylogenetic framework for evolutionary study of the nightshades (Solanaceae): a dated 1000-tip tree", BMC Evolutionary Biology 13 (1): 214, doi:10.1186/1471-2148-13-214, PMID 24283922 
  13. Särkinen et al. (2013), additional file 2
  14. 14.0 14.1 14.2 14.3 "Search results for Mandragora". USDA. http://www.ars-grin.gov/cgi-bin/npgs/html/tax_search.pl?Mandragora. 
  15. "Mandragora turcomanica Mizg". http://www.tropicos.org/Name/29604625. 
  16. Akhania, Hossein; Ghorbanib, Abdol‐Basset (2003). "Mandragora turcomanica (Solanaceae) in Iran: a new distribution record for an endangered species". Systematics and Biodiversity 1 (2): 177–180. doi:10.1017/S1477200003001105. 
  17. "Mandragora caulescens C.B. Clarke". http://www.tropicos.org/Name/29604866. 
  18. "Search results for Mandragora". http://www.theplantlist.org/tpl1.1/search?q=Mandragora. 
  19. 19.0 19.1 19.2 Zhang, Zhi-Yun; Lu, Anmin; D'Arcy, William G.. "Mandragora caulescens". in Wu, Zhengyi; Raven, Peter H.; Hong, Deyuan. Flora of China (online). eFloras.org. http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=200020546. Retrieved 2015-03-30. 
  20. Fatur, Karsten; Kreft, Samo (April 2020). "Common anticholinergic solanaceaous plants of temperate Europe - A review of intoxications from the literature (1966–2018)" (in en). Toxicon 177: 52–88. doi:10.1016/j.toxicon.2020.02.005. PMID 32217234. https://linkinghub.elsevier.com/retrieve/pii/S0041010120300362. 
  21. Hanuš, Lumír O.; Řezanka, Tomáš; Spížek, Jaroslav; Dembitsky, Valery M. (2005), "Substances isolated from Mandragora species", Phytochemistry 66 (20): 2408–2417, doi:10.1016/j.phytochem.2005.07.016, PMID 16137728 
  22. Razzakov, N. A.; Aripova, S. F.; Akhmedova, E.; Karimov, A. (1998), "Alkaloids of Mandragora turcomanica", Chemistry of Natural Compounds 34 (6): 741–742, doi:10.1007/BF02336107 
  23. Jiménez-Mejías, M.E.; Montaño-Díaz, M.; López Pardo, F.; Campos Jiménez, E.; Martín Cordero, M.C.; Ayuso González, M.J.; González de la Puente, M.A. (1990-11-24), "Intoxicación atropínica por Mandragora autumnalis: descripción de quince casos [Atropine poisoning by Mandragora autumnalis: a report of 15 cases]", Medicina Clínica 95 (18): 689–692, PMID 2087109 
  24. Piccillo, Giovita A.; Mondati, Enrico G. M.; Moro, Paola A. (2002), "Six clinical cases of Mandragora autumnalis poisoning: diagnosis and treatment", European Journal of Emergency Medicine 9 (4): 342–347, doi:10.1097/00063110-200212000-00010, PMID 12501035 
  25. Fatur, Karsten; Kreft, Samo (April 2020). "Common anticholinergic solanaceaous plants of temperate Europe - A review of intoxications from the literature (1966–2018)" (in en). Toxicon 177: 52–88. doi:10.1016/j.toxicon.2020.02.005. PMID 32217234. https://linkinghub.elsevier.com/retrieve/pii/S0041010120300362. 
  26. Tuttolomondo, Teresa; Licata, Mario; Leto, Claudio; Savo, Valentina; Bonsangue, Giuseppe; Gargano, Maria Letizia; Venturella, Giuseppe; La Bella, Salvatore (2014), "Ethnobotanical investigation on wild medicinal plants in the Monti Sicani Regional Park (Sicily, Italy)", Journal of Ethnopharmacology 153 (3): 568–586, doi:10.1016/j.jep.2014.02.032, PMID 24632020 
  27. Shengji, Pei; Huyin, Huai; Lixin, Yang (2009), "Medicinal Plants and Their Conservation in China with Reference to the Chinese Himalayan Region", Asian Medicine 5 (2): 273–290, doi:10.1163/157342109X568810 
  28. Christian, Paul (1963), The History and Practice of Magic, trans. Ross Nichols, New York: Citadel Press, OCLC 301220772 , pp. 402–403

Wikidata ☰ Q212742 entry