Superregnum: Eukaryota
Regnum: Fungi
Subregnum: Dikarya
Divisio: Basidiomycota
Subdivisio: Agaricomycotina
Classis: Agaricomycetes
Subclassis: Agaricomycetidae
Ordo: Agaricales
Subordo: Agaricineae
Familia: Hymenogastraceae
Genus: Psilocybe
Species: P. acadiensis – P. acutipilea – P. aerugineomaculans – P. albofimbriata – P. allenii – P. andina – P. anellariformis – P. angustipleurocystidiata – P. antioquensis – P. apelliculosa – P. aquamarina – P. araucana – P. arcana – P. argentina – P. argentipes – P. armandii – P. atlantis – P. atrobrunnea – P. aucklandii – P. australiana – P. aztecorum – P. azurescens – P. baeocystis – P. banderillensis – P. blattariopsis – P. bohemica – P. bonetii – P. borealis – P. brasiliensis – P. brunneocystidiata – P. bulbosa – P. bullacea – P. cabiensis – P. caeruleoannulata – P. caerulescens – P. caerulipes – P. carbonaria – P. caribaea – P. castaneicolor – P. castanella – P. chiapanensis – P. chilensis – P. chionophila – P. chuxiongensis – P. clavata – P. cokeriana – P. collybioides – P. columbiana – P. coprophila – P. cordispora – P. crobula – P. cubensis – P. cyanescens – P. cyanofibrillosa – P. dumontii – P. egonii – P. eucalypta – P. fagicola – P. farinacea – P. fimicola – P. fimetaria – P. flammuliformis – P. flocculosa – P. fuegiana – P. fuliginosa – P. furtadoana – P. galindii – P. gallaeciae – P. glutinosa – P. goniospora – P. graminicola – P. graveolens – P. guatapensis – P. guilartensis – P. heimii – P. heliconiae – P. herrerae – P. heterosticha – P. hispanica – P. hoogshagenii – P. horakii – P. inconspicua – P. indica – P. inquilina – P. isabelae – P. jacobsii – P. jaliscana – P. josecastilloae – P. keralensis – P. kumaenorum – P. laetissima – P. laticystis – P. latispora – P. laurae – P. lazoi – P. liniformans – P. lipophila – P. lonchophora – P. longinqua – P. luteonitens – P. magica – P. mairei – P. makarorae – P. mammillata – P. marthae – P. merdaria – P. meridensis – P. mesophylla – P. mesospora – P. mexicana – P. micropora – P. moelleri – P. montana – P. moravica – P. moseri – P. muliercula – P. muscorum – P. naematoliformis – P. natalensis – P. natarajanii – P. neocaledonica – P. neorhombispora – P. nothofagensis – P. novaezelandiae – P. novoxalapensis – P. oaxacana – P. ochreata – P. omiumsanctorum – P. oregonensis – P. pallidispora – P. panaeoliformis – P. paulensis – P. paupana – P. paupera – P. pegleriana – P. peladae – P. pelliculosa – P. percevalii – P. pericystis – P. peruviana – P. phyllogena – P. physaloides – P. pileocystidiata – P. pintonii – P. pleurocystidiosa – P. plutonia – P. portoricensis – P. praetervisa – P. pratensis – P. pseudoaztecorum – P. pseudobullacea – P. pteridophytorum – P. puberula – P. pyrispora – P. quebecensis – P. ramulosa – P. rhomboidospora – P. rickii – P. rostrata – P. rzedowski – P. sabulosa – P. samuiensis – P. sardoa – P. scatigena – P. schoenetii – P. schultesii – P. sclerotifera – P. semiangustipleurocystidiata – P. semiinconspicua – P. semilanceata – P. semistriata – P. septentrionalis – P. serbica – P. sierrae – P. silvatica – P. singeri – P. singeriana – P. singularis – P. smithiana – P. sphagnicola – P. squamosa – P. squarrosipes – P. stametsii – P. strictipes – P. stuntzii – P. subacutipilea – P. subaeruginascens – P. subaeruginosa – P. subalnetorum – P. subanellariiformis – P. subborealis – P. subbrevipes – P. subcaerulipes – P. subcoprophila – P. subcubensis – P. subfimetaria – P. subheliconiae – P. subhoogshagenii – P. submaritima – P. subpsilocybioides – P. subtropicalis – P. subviscida – P. subyungensis – P. tampanensis – P. tasmaniana – P. teofilae – P. thrausta – P. tolucensis – P. trufemiae – P. turficola – P. tuxtlensis – P. uruguayensis – P. uxpanapensis – P. valdiviensis – P. valenzuelae – P. velifera – P. venenata – P. venezuelana – P. veraecrucis – P. vialis – P. villarrealiae – P. washingtonensis – P. wassonii – P. wassoniorum – P. wayanadensis – P. weilii – P. weldenii – P. weraroa – P. wrightii – P. yungensis – P. zapotecoantillarum – P. zapotecocaribaea – P. zapotecorum – P. zoncuantlensis
Add (1): P. chuxiongensis
Name
Psilocybe (Fr.) P.Kumm. Führ. Pilzk. (Zerbst): 21, 71. 1871.
References
Kummer, P. 1871. Der Führer in die Pilzkunde: Anleitung zum methodischen, leichten und sichern Bestimmen der in Deutschland vorkommenden Pilze, mit Ausnahme der Schimmel- und allzu winzigen Schleim- und Kern-Pilzchen. pp. [i]–[iv] + 1–146 + pls. [i]–[iv]. Verlag von E. Luppe's Buchhandlung, Zerbst. BHL ZOBODAT (PDF) Reference page.
Murrill, W.A. 1923. Dark-spored Agarics: 5. Psilocybe. Mycologia 15(1): 1–22. DOI: 10.2307/3753647 PDF. Reference page.
Smith, A.H. & Hesler, L.R. 1946. New and unusual dark-spored agarics from North America. Journal of the Elisha Mitchell Scientific Society 62: 177-200. full article Zobodat (PDF). Open access Reference page.
Singer, R. & Smith, A.H. 1958. New species of Psilocybe. Mycologia 50(1): 141-142. DOI: 10.2307/3756045. Reference page.
Singer, R. 1959. New and interesting species of Basidiomycetes. VII. Mycologia 51: 578-594. DOI: 10.1080/00275514.1959.12024842. Paywall Reference page.
Singer, R. 1969. Mycoflora australis. Beihefte zur Nova Hedwigia 29: 1-405. Reference page.
Guzmán, G. 1978. The species of Psilocybe known from Central and South America. Mycotaxon 7 (2): 225-255. Reference page.
Guzmán, G. 1979. Observations on the evolution of Psilocybe and description of four new hallucinogenic species from Mexican tropical forests. Beihefte zur Nova Hedwigia 8: 168-181. full article Zobodat (PDF). Reference page.
Guzmán, G. & Pollock, S.H. 1979. Tres nuevas especies y tres nuevos registros de los hongos alucinógenos en Mexico y datos sobre el cultívo en el laboratorio. Boletín de la Sociedad Mexicana de Micología 13: 261-270. PDF Reference page.
Guzmán, G. 1983. The genus Psilocybe. A systematic revision of the known species including the history, distribution and chemistry of the hallucinogenic species. Beihefte zur Nova Hedwigia 74: 1-439. ISBN 978-3768254748. Reference page.
Guzmán, G., Saldarriaga, Y., Pineda, F., García, G. & Velázquez, L.F. 1994. New species of Psilocybe from Colombia and discussion on the known species. Mycotaxon 51: 225-235. Paywall Reference page.
Guzmán, G. 2005. Species Diversity of the Genus Psilocybe (Basidiomycotina, Agaricales, Strophariaceae) in the World Mycobiota, with Special Attention to Hallucinogenic Properties. International Journal of Medicinal Mushrooms, Vol. 7 , pp. 305–331.
Links
Index Fungorum: IF 18418
MycoBank: MB 18418
Psilocybe (/ˌsaɪloʊˈsaɪbi/ SY-loh-SY-bee)[2] is a genus of gilled mushrooms, growing worldwide, in the family Hymenogastraceae. Many species contain the psychedelic compounds psilocybin and psilocin.
Taxonomy
Taxonomic history
P. tampanensis with spore prints
A 2002 study of the molecular phylogeny of the agarics[3] indicated that the genus Psilocybe as then defined was polyphyletic, falling into two distinct clades that are not directly related to each other. The blue-staining hallucinogenic species constituted one clade and the non-bluing species the other. The previous type species of the genus, Psilocybe montana (now Deconica montana), was in the non-bluing clade, but in 2010 the type species was changed to P. semilanceata, a member of the bluing clade. A 2006 molecular phylogenetic study of the Agaricales by Matheny and colleagues, further demonstrated the separation of the bluing and non-bluing clades of Psilocybe in a larger, strongly supported phylogenetic tree of the Agaricales.[4]
Psilocybe had been placed taxonomically in the agaric family Strophariaceae based upon its spore and pileipellis morphology. The phylogenetic study by Matheny et al., placed the non-bluing Psilocybe and its close relatives in a basal position within the Strophariaceae, a sister taxon to a clade containing the other genera within that family. The bluing Psilocybe, however, form a clade that is sister to Galerina in the newly revised family, Hymenogastraceae that used to be restricted to secotioid, false-truffles.[4] The phylogenetic study by Moncalvo, et al. confirmed that the agaric genus Melanotus is simply a subgroup of the non-bluing Psilocybe, all of which are placed in Deconica, and also pointed to a close relationship between the latter genus and the genera Kuehneromyces and Phaeogalera.[3]
Modern classification
In 2007, a paper by Redhead et al. proposed conserving the genus Psilocybe with Psilocybe semilanceata as its type species.[5] The suggestion was accepted by unanimous vote of the Nomenclature Committee for Fungi of the International Botanical Congress in 2010, meaning that P. semilanceata (a member of the bluing clade) now serves as the type species of the genus.[6] Since P. semilanceata is now the type species of the genus, the bluing hallucinogenic clade remained in the genus Psilocybe (Hymenogastraceae) while the non-bluing clade were transferred to the genus Deconica (Strophariaceae).[7] However, it has been demonstrated that P. fuscofulva, a species that used to be known as P. atrobrunnea, belongs to the genus Psilocybe s.s. but does not contain psychotropic compounds.[8] Negative results have also been published for P. fimetaria.[9]
Etymology
The genus name Psilocybe is a compound of the Greek elements ψιλός (psilós) "bare" / "naked" and κύβη (kúbe) "head" / "swelling",[10] giving the meaning "bare-headed" (i.e. bald) referring to the mushroom's detachable pellicle (loose skin over the cap), which can resemble a bald pate.
Description
P. ovoideocystidiata, Washington
Psilocybe fruit bodies are typically small, nondescript mushrooms with a typical "little brown mushroom" morphology. Macroscopically, they are characterized by their small to occasionally medium size, brown to yellow-brown coloration, with a typically hygrophanous cap, and a spore print-color that ranges from lilac-brown to dark purple-brown (though rusty-brown colored varieties are known in at least one species).[11] Hallucinogenic species typically have a blue-staining reaction when the fruit body is bruised. Microscopically, they are characterized by pileipellis with hyphae that run parallel to the pileus surface, forming a cutis, by their lack of chrysocystidia, and by spores that are smooth, ellipsoid to rhomboid to subhexagonal in shape, with a distinct apical germ pore. Ecologically, all species of Psilocybe are saprotrophs, growing on various kinds of decaying organic matter.[12][13]
Distribution and habitat
Global distribution of over 100 psychoactive species of genus Psilocybe mushrooms[14]: 207
Approximate known range of Psilocybe cyanescens
Geographically, species in this genus are found throughout the world in most biomes.[15] The greatest species diversity seems to be in the neotropics, from Mesoamerica through Brazil and Chile.[14] Psilocybe are found in a variety of habitats and substrates. Many of the species found in temperate regions, such as Psilocybe cyanescens, seem to have an affinity for landscaped areas mulched with woodchips and are actually rather rare in natural settings removed from human habitation.[16] Contrary to popular belief, only a minority of Psilocybe species, such as P. cubensis and P. subcubensis, grow directly on feces.[17] Many other species are found in habitats such as mossy, grassy, or forest humus soils. Psilocybe arose about 65 million years ago.[18]
Psychoactivity
Biochemistry and pharmacology
Psilocybin molecule
Psilocin molecule
The psilocybin molecule is indirectly responsible for the hallucinogenic properties of the Psilocybe. This compound, as well as all other indole alkaloids, are derived from the amino acid tryptophan, being the only amino acid with the indole-amine ring. Tryptophan is converted to tryptamine by decarboxylation.[19] Two methylation steps occur producing DMT, another psychedelic compound.[19] Hydroxylation of this compound produces the more potent hallucinogen psilocin, followed by phosphorylation yielding psilocybin.[19] After ingestion of the psilocybin compound alkaline phosphatases present in the body's digestive system, kidneys, and possibly in the blood readily cleave the phosphoryl ester bond from psilocybin, yielding the hydroxyl compound, psilocin.[20] Psilocin is the chemical primarily responsible for the hallucinogenic effects of the Psilocybe.[20] The blue-staining species of Psilocybe are characterized by the presence of psilocin and psilocybin. This blue-staining reaction occurs after the fruit body has been injured, particularly near the base of the stalk.[21] This reaction is thought to be due to the oxidation of psilocybin after the outer surface of the fruit body has been breached.[22] The degree of bluing in a Psilocybe fruit body roughly correlates with the concentration of psilocin in the mushroom.[23] Psilocybin is chemically far more stable than psilocin, the latter compound being largely lost when the mushroom is heated or dried.[24]
The chemical structure of serotonin, a neurotransmitter, is similar to that of psilocin. The latter differs mainly by the location of one of the hydroxyls, and the addition of two methyl groups that make the molecule lipophilic (fat soluble), ergo capable of crossing the lipid membrane sheaths of the central nervous system.[25] After psilocybin has been ingested and dephosphorylated, to psilocin, the mechanism it uses in the brain has a direct agonist effect on the 5-HT serotonin receptors.[20] To explain this effect, the psilocin molecule essentially mimics the serotonin molecule, binding to the 5-HT receptors and initiating the same response as the serotonin. This effect explains the euphoria experienced by ingestion of this "agonist." Initially, hallucinogens were thought to blockade these serotonin neurotransmitters, but persistent research led to this agonist effect conclusion.[20]
Woolley and Campbell conducted research to determine whether the depletion of the hormone serotonin had a direct effect on mental disorders and that hallucinations might be due to an excess of serotonin.[26] Their results led them to study chemicals analogous to serotonin. They found that the psychoactive chemicals psilocybin and psilocin exhibited serotonin-like effects, however as dosage increased, these compounds acted as serotonin antagonists, psilocybin being comparable to the most potent antagonist yet discovered.[26] This is a plausible basis for the psychological effects of these hallucinogenic compounds.
Even though these chemicals are psychoactive and therefore the basidiomycete deemed toxic, there have been no reports of fatalities or induced internal organ damage directly associated with ingestion of these chemicals.[27] Misidentification of the fruit body could lead to ingestion of a lethal fungus.
Some psychoactive species contain baeocystin, norbaeocystin and β‐carboline monoamine oxidase inhibitors in addition to psilocin and psilocybin.[28]
Medical and psychiatric aspects
The medicinal uses of the Psilocybe was recorded by Native Americans of Central America. Shamans, or curanderas would avidly ingest the "sacred mushrooms" for the extrasensory perceptual effects it gave them in order to better assess problems faced in their society.[29] The observed effects of the alkaloids found in these mushrooms has given rise to research into their possible uses for psychiatric medicine.[29] For details on contemporary research, see: Psilocybin: Medical research.
History and ethnography
P. zapotecorum, Mexico
Main article: Psilocybin mushrooms
Hallucinogenic species of Psilocybe have a long history of use among the native peoples of Mesoamerica for religious communion, divination, and healing, from pre-Columbian times up to the present day. Hallucinogenic Psilocybe were known to the aboriginal Mexicans as teonanácatl (literally "divine mushroom")[30] and were reportedly served at the coronation of Moctezuma II in 1502. After the Spanish conquest of the Americas, the use of hallucinogenic plants and mushrooms, like other pre-Christian traditions, was forcibly suppressed and driven underground.[31]
By the 20th century, hallucinogenic mushroom use was thought by non-Native Americans to have disappeared entirely. However, in 1955, Valentina Wasson and R. Gordon Wasson became the first Westerners to actively participate in an indigenous mushroom ceremony. The Wassons did much to publicize their discovery, even publishing an article on their experiences in Life in 1957.[32] In 1956, Roger Heim identified the hallucinogenic mushroom that the Wassons had brought back from Mexico as Psilocybe and in 1958, Albert Hofmann first reported psilocin and psilocybin as the active compound in these mushrooms.[33] There is some skepticism as to whether or not these "sacred mushrooms" were actually in the genus Psilocybe. However, according to Heim's research in Mexico, he identified three species of Psilocybe that he believed were used in these native ceremonies. The species identified by Heim were; P. mexicana, P. caerulescens, and P. zapotecorum.[34][35][36] are a variety of Psilocybe mushrooms that make up the teonanácatl group of hallucinogenic mushrooms, including P. cubensis.[37] Isauro Nava Garcia, a Mazatec man, provided guidance to Heim while Heim conducted his field and culture work.[38] Garcia was an avid observer of the fungi in his environment while identifying specific characteristics about the fruit body of the Psilocybe his ancestors utilized, as well as knowing where they could be found.[38]
At present, hallucinogenic mushroom use has been reported among a number of groups spanning from central Mexico to Oaxaca, including groups of Nahua, Mixtecs, Mixe, Mazatecs, Zapotecs, and others.[39]
The popularization of entheogens by Wasson, Timothy Leary, and others has led to an explosion in the use of hallucinogenic Psilocybe throughout the world. By the early 1970s, a number of psychoactive Psilocybe species were described from temperate North America, Europe, and Asia and were widely collected. Books describing methods of cultivating P. cubensis in large quantities were also published. The relatively easy availability of hallucinogenic Psilocybe from wild and cultivated sources has made it among the most widely used of the hallucinogenic drugs.
Legal status
P. mexicana, Mexico
Main article: Legal status of psilocybin mushrooms
The purified chemicals psilocybin and psilocin are listed as Schedule II drugs under the United Nations 1971 Convention on Psychotropic Substances.[40] However, the UN drug treaties do not apply to cultivation, preparation, or international transport of psilocybin mushrooms.
Internationally, the two chemicals are generally considered controlled substances. However, there is much ambiguity about what is considered a "container" of these compounds. In several countries (e.g. Brazil), the chemicals themselves are listed as controlled substances, but the mushrooms that contain the chemicals are not, therefore deemed legal.[41] In the United States, possession of Psilocybe mushroom fruiting bodies is illegal in every state except for Florida. This is because the Supreme Court of Florida does not believe that these mushrooms could "reasonably be found to be containers of the schedule I substance, psilocybin".[42]
In the United States there is no federal law mentioning the possession of Psilocybe spores, this is because only the psilocybin and psilocin compounds are considered Schedule I drugs and there is no presence of these compounds in the spores themselves, only in the fruiting body of the cultivated spores. However, there are several US states that have actually prohibited possession of these spores because they can be cultivated to produce these hallucinogenic, Schedule I drugs. These states includes California, Georgia,[43] and Idaho.[41][44]
However, possession of the spores by a qualified mycologist in California is legal if being put to use for research purposes, which must be approved by Research Advisory Panel.[45] If not authorized by law, possession of spores or cultivation of fruiting bodies of the Psilocybe is punishable to not more than one year in county jail or state prison.[45]
Psilocybin mushrooms as well as other "soft drugs" which are stronger than cannabis but not synthetic, are legally available through smart shops in the Netherlands. Only the truffle form of magic mushrooms (such as P. tampanensis) are currently legal, but these still contain the active ingredients and produce similar effect as the caps and stalks.[46]
Notable species
Main article: List of Psilocybe species
Psilocybe semilanceata
Psilocybe cubensis (Stropharia cubensis); the most commonly cultivated and consumed Psilocybe,[47] due to ease of cultivation and large size of fruit bodies; also commonly collected throughout the tropics and subtropics, nicknamed the commercial psilocybe.
Psilocybe cyanescens; Native to the Pacific Northwest of North America, but also found in western Europe; nicknamed the wavy-cap or wavies.
Psilocybe natalensis; is found in South Africa and closely related to Psilocybe cubensis.[48]
Psilocybe semilanceata; The most common psilocybin-containing mushroom.[49] Found in northern temperate climates; nicknamed the liberty cap.
Psilocybe azurescens, a highly potent species native to the U.S. states of Washington and Oregon, but popular in outdoor cultivation, and expanding its range as a result; nicknamed azies.
See also
Fungi portal
María Sabina
References
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Cited books
Guzmán G. (1983). The genus Psilocybe: A Systematic Revision of the Known Species Including the History, Distribution and Chemistry of the Hallucinogenic Species. Nova Hedwigia Beihefte. Vol. 74. Berlin, Germany: J. Cramer. ISBN 978-3-7682-5474-8.
Stamets P. (1996). Psilocybin Mushrooms of the World: An Identification Guide. Berkeley, California: Ten Speed Press. ISBN 978-0-89815-839-7.
Further reading
Emboden, William A. (1979). Narcotic plants (Rev. and enl ed.). New York: Macmillan. ISBN 0-02-535480-9. OCLC 4832354.
Furst, Peter T. (1976). Hallucinogens and culture. San Francisco. ISBN 0-88316-517-1. OCLC 2120984.
Haard, Richard; Haard, Karen (1977). Poisonous & hallucinogenic mushrooms (2d ed.). Mayne Island, B.C.: Cloudburst Press. ISBN 0-88930-005-4. OCLC 3131519.
McKenna, Terence K. (1993). Food of the gods : the search for the original tree of knowledge : a radical history of plants, drugs, and human evolution. New York: Bantam Books. ISBN 0-553-37130-4. OCLC 45078669.
Metzner, Ralph; Darling, Diane (2005). Sacred mushroom of visions : teonanácatl : a sourcebook on the psilocybin mushroom. Rochester, Vt.: Park Street Press. ISBN 978-1-59477-044-9. OCLC 62216799.
Ott, Jonathan; Bigwood, Jeremy (1978). Teonanácatl : hallucinogenic mushrooms of North America : extracts from the Second International Conference on Hallucinogenic Mushrooms, held October 27-30, 1977, near Port Townsend, Washington. Seattle: Madrona Publishers. ISBN 0-914842-32-3. OCLC 4135392.
Oss, O. T.; Oeric, O. N. (1976). Psilocybin, magic mushroom grower's guide : a handbook for psilocybin enthusiasts. Berkeley, Calif.: And/Or Press. ISBN 0-915904-13-6. OCLC 2647420.
Stamets, Paul. (1996). Psilocybin mushrooms of the world : an identification guide. Berkeley, Calif.: Ten Speed Press. ISBN 0-89815-839-7. OCLC 34514700.
External links
Wikimedia Commons has media related to Psilocybe.
Wikispecies has information related to Psilocybe.
Taxonomy
MushroomExpert.com Taxonomy in Transition: The Strophariaceae - Taxonomic issues of Psilocybe and other stropharioid fungi.
Machiel E. Noordeloos: Psilocybe - taxonomy and characteristics of non-bluing Psilocybe.
History and ethnography
Timeline of mushroom use at Erowid.org
Legal aspects
Psilocybin Mushrooms: Legal Status – Erowid
EMCDDA Thematic Paper: Hallucinogenic mushrooms - an emerging trend case study, June 26, 2006
Other
The Shroomery Detailed information about psilocybe mushrooms including identification, cultivation and spores, psychedelic images, trip reports, a dosage calculator and an active community.
Psilocybe mushrooms from The Encyclopedia of Psychoactive Substances
INCHEM - Psilocybe and others – Toxicology of psilocybin mushrooms.
A Worldwide Geographical Distribution of the Neurotropic Fungi
Psilocybe Mushrooms – Studies in Ethnomycology
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