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Amanita muscaria

May 03, 2024

Amanita muscaria, commonly known as the fly agaric or fly amanita,[5] is a basidiomycete of the genus Amanita. It is a large white-gilled, white-spotted, and usually red mushroom.

Amanita muscaria
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Agaricales
Family: Amanitaceae
Genus: Amanita
Species:
A. muscaria
Binomial name
Amanita muscaria
(L.) Lam. (1783)
Subspecies and varieties
Amanita muscaria
Gills on hymenium
Cap is convex
Hymenium is free
Stipe has a ring and volva
Spore print is white
Ecology is mycorrhizal
Edibility is poisonous or psychoactive

Despite its easily distinguishable features, A. muscaria is a fungus with several known variations, or subspecies. These subspecies are slightly different, some having yellow or white caps, but are all usually called fly agarics, most often recognizable by their notable white spots. Recent DNA fungi research, however, has shown that some mushrooms called 'fly agaric' are in fact unique species, such as A. persicina (the peach-colored fly agaric).

Native throughout the temperate and boreal regions of the Northern Hemisphere, A. muscaria has been unintentionally introduced to many countries in the Southern Hemisphere, generally as a symbiont with pine and birch plantations, and is now a true cosmopolitan species. It associates with various deciduous and coniferous trees.

Although poisonous, death due to poisoning from A. muscaria ingestion is quite rare. Parboiling twice with water draining weakens its toxicity and breaks down the mushroom's psychoactive substances; it is eaten in parts of Europe, Asia, and North America. All A. muscaria varieties, but in particular A. muscaria var. muscaria, are noted for their hallucinogenic properties, with the main psychoactive constituents being muscimol and its neurotoxic precursor ibotenic acid. A local variety of the mushroom was used as an intoxicant and entheogen by the indigenous peoples of Siberia.[6][7]

Arguably the most iconic toadstool species, the fly agaric is one of the most recognizable and widely encountered in popular culture, including in video games—for example, the frequent use of a recognizable A. muscaria in the Mario franchise (e.g. its Super Mushroom power-up)—and television—for example, the houses in The Smurfs franchise.[8] There have been cases of children admitted to hospitals after consuming this poisonous mushroom; the children may have been attracted to it because of its pop-culture associations.[9]

Taxonomy edit

The name of the mushroom in many European languages is thought to derive from its use as an insecticide when sprinkled in milk. This practice has been recorded from Germanic- and Slavic-speaking parts of Europe, as well as the Vosges region and pockets elsewhere in France, and Romania.[10] Albertus Magnus was the first to record it in his work De vegetabilibus some time before 1256,[11] commenting vocatur fungus muscarum, eo quod in lacte pulverizatus interficit muscas, "it is called the fly mushroom because it is powdered in milk to kill flies."[12]

 
Showing the partial veil under the cap dropping away to form a ring around the stipe

The 16th-century Flemish botanist Carolus Clusius traced the practice of sprinkling it into milk to Frankfurt in Germany,[13] while Carl Linnaeus, the "father of taxonomy", reported it from Småland in southern Sweden, where he had lived as a child.[14] He described it in volume two of his Species Plantarum in 1753, giving it the name Agaricus muscarius,[15] the specific epithet deriving from Latin musca meaning "fly".[16] It gained its current name in 1783, when placed in the genus Amanita by Jean-Baptiste Lamarck, a name sanctioned in 1821 by the "father of mycology", Swedish naturalist Elias Magnus Fries. The starting date for all the mycota had been set by general agreement as January 1, 1821, the date of Fries's work, and so the full name was then Amanita muscaria (L.:Fr.) Hook. The 1987 edition of the International Code of Botanical Nomenclature changed the rules on the starting date and primary work for names of fungi, and names can now be considered valid as far back as May 1, 1753, the date of publication of Linnaeus's work.[17] Hence, Linnaeus and Lamarck are now taken as the namers of Amanita muscaria (L.) Lam..

The English mycologist John Ramsbottom reported that Amanita muscaria was used for getting rid of bugs in England and Sweden, and bug agaric was an old alternative name for the species.[12] French mycologist Pierre Bulliard reported having tried without success to replicate its fly-killing properties in his work Histoire des plantes vénéneuses et suspectes de la France (1784), and proposed a new binomial name Agaricus pseudo-aurantiacus because of this.[18] One compound isolated from the fungus is 1,3-diolein (1,3-di(cis-9-octadecenoyl)glycerol), which attracts insects.[19] It has been hypothesised that the flies intentionally seek out the fly agaric for its intoxicating properties.[20] An alternative derivation proposes that the term fly- refers not to insects as such but rather the delirium resulting from consumption of the fungus. This is based on the medieval belief that flies could enter a person's head and cause mental illness.[21] Several regional names appear to be linked with this connotation, meaning the "mad" or "fool's" version of the highly regarded edible mushroom Amanita caesarea. Hence there is oriol foll "mad oriol" in Catalan, mujolo folo from Toulouse, concourlo fouolo from the Aveyron department in Southern France, ovolo matto from Trentino in Italy. A local dialect name in Fribourg in Switzerland is tsapi de diablhou, which translates as "Devil's hat".[22]

Classification edit

Amanita muscaria is the type species of the genus. By extension, it is also the type species of Amanita subgenus Amanita, as well as section Amanita within this subgenus. Amanita subgenus Amanita includes all Amanita with inamyloid spores. Amanita section Amanita includes the species with patchy universal veil remnants, including a volva that is reduced to a series of concentric rings, and the veil remnants on the cap to a series of patches or warts. Most species in this group also have a bulbous base.[23][24] Amanita section Amanita consists of A. muscaria and its close relatives, including A. pantherina (the panther cap), A. gemmata, A. farinosa, and A. xanthocephala.[25] Modern fungal taxonomists have classified Amanita muscaria and its allies this way based on gross morphology and spore inamyloidy. Two recent molecular phylogenetic studies have confirmed this classification as natural.[26][27]

Description edit

 
Cross section of fruiting body, showing pigment under skin and free gills

A large, conspicuous mushroom, Amanita muscaria is generally common and numerous where it grows, and is often found in groups with basidiocarps in all stages of development. Fly agaric fruiting bodies emerge from the soil looking like white eggs. After emerging from the ground, the cap is covered with numerous small white to yellow pyramid-shaped warts. These are remnants of the universal veil, a membrane that encloses the entire mushroom when it is still very young. Dissecting the mushroom at this stage reveals a characteristic yellowish layer of skin under the veil, which helps identification. As the fungus grows, the red colour appears through the broken veil and the warts become less prominent; they do not change in size, but are reduced relative to the expanding skin area. The cap changes from globose to hemispherical, and finally to plate-like and flat in mature specimens.[28] Fully grown, the bright red cap is usually around 8–20 centimetres (3–8 inches) in diameter, although larger specimens have been found. The red colour may fade after rain and in older mushrooms.

The free gills are white, as is the spore print. The oval spores measure 9–13 by 6.5–9 μm; they do not turn blue with the application of iodine.[29] The stipe is white, 5–20 cm (2–8 in) high by 1–2 cm (12–1 in) wide, and has the slightly brittle, fibrous texture typical of many large mushrooms. At the base is a bulb that bears universal veil remnants in the form of two to four distinct rings or ruffs. Between the basal universal veil remnants and gills are remnants of the partial veil (which covers the gills during development) in the form of a white ring. It can be quite wide and flaccid with age. There is generally no associated smell other than a mild earthiness.[30][31]

Although very distinctive in appearance, the fly agaric has been mistaken for other yellow to red mushroom species in the Americas, such as Armillaria cf. mellea and the edible A. basii—a Mexican species similar to A. caesarea of Europe. Poison control centres in the U.S. and Canada have become aware that amarill (Spanish for 'yellow') is a common name for the A. caesarea-like species in Mexico.[4] A. caesarea is distinguished by its entirely orange to red cap, which lacks the numerous white warty spots of the fly agaric (though these sometimes wash away during heavy rain).[32] Furthermore, the stem, gills and ring of A. caesarea are bright yellow, not white.[33] The volva is a distinct white bag, not broken into scales.[34] In Australia, the introduced fly agaric may be confused with the native vermilion grisette (Amanita xanthocephala), which grows in association with eucalypts. The latter species generally lacks the white warts of A. muscaria and bears no ring.[35] Additionally, immature button forms resemble puffballs.[36]

Controversy edit

 
Amanita muscaria var. formosa is now a synonym for Amanita muscaria var. guessowii.[3]

Amanita muscaria varies considerably in its morphology, and many authorities recognize several subspecies or varieties within the species. In The Agaricales in Modern Taxonomy, German mycologist Rolf Singer listed three subspecies, though without description: A. muscaria ssp. muscaria, A. muscaria ssp. americana, and A. muscaria ssp. flavivolvata.[23]

However, a 2006 molecular phylogenetic study of different regional populations of A. muscaria by mycologist József Geml and colleagues found three distinct clades within this species representing, roughly, Eurasian, Eurasian "subalpine", and North American populations. Specimens belonging to all three clades have been found in Alaska; this has led to the hypothesis that this was the centre of diversification for this species. The study also looked at four named varieties of the species: var. alba, var. flavivolvata, var. formosa (including var. guessowii), and var. regalis from both areas. All four varieties were found within both the Eurasian and North American clades, evidence that these morphological forms are polymorphisms rather than distinct subspecies or varieties.[37] Further molecular study by Geml and colleagues published in 2008 show that these three genetic groups, plus a fourth associated with oak–hickory–pine forest in the southeastern United States and two more on Santa Cruz Island in California, are delineated from each other enough genetically to be considered separate species. Thus A. muscaria as it stands currently is, evidently, a species complex.[38] The complex also includes at least three other closely related taxa that are currently regarded as species:[1] A. breckonii is a buff-capped mushroom associated with conifers from the Pacific Northwest,[39] and the brown-capped A. gioiosa and A. heterochroma from the Mediterranean Basin and from Sardinia respectively. Both of these last two are found with Eucalyptus and Cistus trees, and it is unclear whether they are native or introduced from Australia.[40][41]

Amanitaceae.org lists four varieties as of May 2019, but says that they will be segregated into their own taxa "in the near future". They are:[2]

Image Reference name Common name Synonym Description
  Amanita muscaria var. muscaria[1] Euro-Asian fly agaric Bright red fly agaric from northern Europe and Asia. Cap might be orange or yellow due to slow development of the purple pigment. Wide cap with white or yellow warts which are removed by rain.

Known to be toxic but used by shamans in northern cultures. Associated predominantly with Birch and diverse conifers in forest.

  Amanita muscaria subsp. flavivolvata[3] American fly agaric red, with yellow to yellowish-white warts. It is found from southern Alaska down through the Rocky Mountains, through Central America, all the way to Andean Colombia. Rodham Tulloss uses this name to describe all "typical" A. muscaria from indigenous New World populations.
  Amanita muscaria var. guessowii[4] American fly agaric (yellow variant) Amanita muscaria var. formosa has a yellow to orange cap, with the centre more orange or perhaps even reddish orange. It is found most commonly in northeastern North America, from Newfoundland and Quebec south all the way to the state of Tennessee. Some authorities (cf. Jenkins) treat these populations as A. muscaria var. formosa, while others (cf. Tulloss) recognise them as a distinct variety.
  Amanita muscaria var. inzengae[42] Inzenga's fly agaric it has a pale yellow to orange-yellow cap with yellowish warts and stem which may be tan.

Distribution and habitat edit

A. muscaria is a cosmopolitan mushroom, native to conifer and deciduous woodlands throughout the temperate and boreal regions of the Northern Hemisphere,[37] including higher elevations of warmer latitudes in regions such as Hindu Kush, the Mediterranean and also Central America. A recent molecular study proposes that it had an ancestral origin in the SiberianBeringian region in the Tertiary period, before radiating outwards across Asia, Europe and North America.[37] The season for fruiting varies in different climates: fruiting occurs in summer and autumn across most of North America, but later in autumn and early winter on the Pacific coast. This species is often found in similar locations to Boletus edulis, and may appear in fairy rings.[43] Conveyed with pine seedlings, it has been widely transported into the southern hemisphere, including Australia,[44] New Zealand,[45] South Africa[46] and South America, where it can be found in the Brazilian states of Paraná,[37] São Paulo, Minas Gerais, Rio Grande do Sul.[47]

 
A. muscaria in a Pinus radiata plantation, near Mount Field National Park, Tasmania

Ectomycorrhizal, A. muscaria forms symbiotic relationships with many trees, including pine, oak, spruce, fir, birch, and cedar. Commonly seen under introduced trees,[48] A. muscaria is the fungal equivalent of a weed in New Zealand, Tasmania and Victoria, forming new associations with southern beech (Nothofagus).[49] The species is also invading a rainforest in Australia, where it may be displacing the native species.[48] It appears to be spreading northwards, with recent reports placing it near Port Macquarie on the New South Wales north coast.[50] It was recorded under silver birch (Betula pendula) in Manjimup, Western Australia in 2010.[51] Although it has apparently not spread to eucalypts in Australia, it has been recorded associating with them in Portugal. Commonly found throughout the great Southern region of western Australia, it is regularly found growing on Pinus radiata.[52]

Toxicity edit

 
Mature. The white spots may wash off with heavy rainfall.

A. muscaria poisoning has occurred in young children and in people who ingested the mushrooms for a hallucinogenic experience,[21][53][54] or who confused it with an edible species.

A. muscaria contains several biologically active agents, at least one of which, muscimol, is known to be psychoactive. Ibotenic acid, a neurotoxin, serves as a prodrug to muscimol, with a small amount likely converting to muscimol after ingestion. An active dose in adults is approximately 6 mg muscimol or 30 to 60 mg ibotenic acid;[55][56] this is typically about the amount found in one cap of Amanita muscaria.[57] The amount and ratio of chemical compounds per mushroom varies widely from region to region and season to season, which can further confuse the issue. Spring and summer mushrooms have been reported to contain up to 10 times more ibotenic acid and muscimol than autumn fruitings.[53]

Deaths from A. muscaria have been reported in historical journal articles and newspaper reports,[58][59][60] but with modern medical treatment, fatal poisoning from ingesting this mushroom is extremely rare.[61] Many books list A. muscaria as deadly,[62] but according to David Arora, this is an error that implies the mushroom is far more toxic than it is.[63] Furthermore, The North American Mycological Association has stated that there were "no reliably documented cases of death from toxins in these mushrooms in the past 100 years".[64]

The active constituents of this species are water-soluble, and boiling and then discarding the cooking water at least partly detoxifies A. muscaria.[65] Drying may increase potency, as the process facilitates the conversion of ibotenic acid to the more potent muscimol.[66] According to some sources, once detoxified, the mushroom becomes edible.[67][68] Patrick Harding describes the Sami custom of processing the fly agaric through reindeer.[69]

Pharmacology edit

 
Muscimol, the principal psychoactive constituent of A. muscaria
 
Ibotenic acid, a prodrug to muscimol found in A. muscaria

Muscarine, discovered in 1869,[70] was long thought to be the active hallucinogenic agent in A. muscaria. Muscarine binds with muscarinic acetylcholine receptors leading to the excitation of neurons bearing these receptors. The levels of muscarine in Amanita muscaria are minute when compared with other poisonous fungi[71] such as Inosperma erubescens, the small white Clitocybe species C. dealbata and C. rivulosa. The level of muscarine in A. muscaria is too low to play a role in the symptoms of poisoning.[72]

The major toxins involved in A. muscaria poisoning are muscimol (3-hydroxy-5-aminomethyl-1-isoxazole, an unsaturated cyclic hydroxamic acid) and the related amino acid ibotenic acid. Muscimol is the product of the decarboxylation (usually by drying) of ibotenic acid. Muscimol and ibotenic acid were discovered in the mid-20th century.[73][74] Researchers in England,[75] Japan,[76] and Switzerland[74] showed that the effects produced were due mainly to ibotenic acid and muscimol, not muscarine.[19][73] These toxins are not distributed uniformly in the mushroom. Most are detected in the cap of the fruit, a moderate amount in the base, with the smallest amount in the stalk.[77][78] Quite rapidly, between 20 and 90 minutes after ingestion, a substantial fraction of ibotenic acid is excreted unmetabolised in the urine of the consumer. Almost no muscimol is excreted when pure ibotenic acid is eaten, but muscimol is detectable in the urine after eating A. muscaria, which contains both ibotenic acid and muscimol.[56]

Ibotenic acid and muscimol are structurally related to each other and to two major neurotransmitters of the central nervous system: glutamic acid and GABA respectively. Ibotenic acid and muscimol act like these neurotransmitters, muscimol being a potent GABAA agonist, while ibotenic acid is an agonist of NMDA glutamate receptors and certain metabotropic glutamate receptors[79] which are involved in the control of neuronal activity. It is these interactions which are thought to cause the psychoactive effects found in intoxication.[21][57]

Muscazone is another compound that has more recently been isolated from European specimens of the fly agaric. It is a product of the breakdown of ibotenic acid by ultra-violet radiation.[80] Muscazone is of minor pharmacological activity compared with the other agents.[21] Amanita muscaria and related species are known as effective bioaccumulators of vanadium; some species concentrate vanadium to levels of up to 400 times those typically found in plants.[81] Vanadium is present in fruit-bodies as an organometallic compound called amavadine.[81] The biological importance of the accumulation process is unknown.[82]

Symptoms edit

Fly agarics are best known for the unpredictability of their effects. Depending on habitat and the amount ingested per body weight, effects can range from mild nausea and twitching to drowsiness, cholinergic crisis-like effects (low blood pressure, sweating and salivation), auditory and visual distortions, mood changes, euphoria, relaxation, ataxia, and loss of equilibrium (like with tetanus.)[53][54][57][59]

In cases of serious poisoning the mushroom causes delirium, somewhat similar in effect to anticholinergic poisoning (such as that caused by Datura stramonium), characterised by bouts of marked agitation with confusion, hallucinations, and irritability followed by periods of central nervous system depression. Seizures and coma may also occur in severe poisonings.[54][57] Symptoms typically appear after around 30 to 90 minutes and peak within three hours, but certain effects can last for several days.[32][56] In the majority of cases recovery is complete within 12 to 24 hours.[65] The effect is highly variable between individuals, with similar doses potentially causing quite different reactions.[53][56][83] Some people suffering intoxication have exhibited headaches up to ten hours afterwards.[56] Retrograde amnesia and somnolence can result following recovery.[57]

Treatment edit

Medical attention should be sought in cases of suspected poisoning. If the delay between ingestion and treatment is less than four hours, activated charcoal is given. Gastric lavage can be considered if the patient presents within one hour of ingestion.[84] Inducing vomiting with syrup of ipecac is no longer recommended in any poisoning situation.[85]

 
Found in a parking lot, Portland Oregon US.

There is no antidote, and supportive care is the mainstay of further treatment for intoxication. Though sometimes referred to as a deliriant and while muscarine was first isolated from A. muscaria and as such is its namesake, muscimol does not have action, either as an agonist or antagonist, at the muscarinic acetylcholine receptor site, and therefore atropine or physostigmine as an antidote is not recommended.[86] If a patient is delirious or agitated, this can usually be treated by reassurance and, if necessary, physical restraints. A benzodiazepine such as diazepam or lorazepam can be used to control combativeness, agitation, muscular overactivity, and seizures.[53] Only small doses should be used, as they may worsen the respiratory depressant effects of muscimol.[87] Recurrent vomiting is rare, but if present may lead to fluid and electrolyte imbalances; intravenous rehydration or electrolyte replacement may be required.[57][88] Serious cases may develop loss of consciousness or coma, and may need intubation and artificial ventilation.[54][89] Hemodialysis can remove the toxins, although this intervention is generally considered unnecessary.[65] With modern medical treatment the prognosis is typically good following supportive treatment.[61][65]

Uses edit

Psychoactive edit

 
Photographed in Mount Lofty Botanic Gardens, Adelaide Hills, South Australia

The wide range of psychoactive effects have been variously described as depressant, sedative-hypnotic, psychedelic, dissociative, or deliriant; paradoxical effects such as stimulation may occur however. Perceptual phenomena such as synesthesia, macropsia, and micropsia may occur; the latter two effects may occur either simultaneously or alternatingly, as part of Alice in Wonderland syndrome, collectively known as dysmetropsia, along with related distortions pelopsia and teleopsia. Some users report lucid dreaming under the influence of its hypnotic effects. Unlike Psilocybe cubensis, A. muscaria cannot be commercially cultivated, due to its mycorrhizal relationship with the roots of pine trees. However, following the outlawing of psilocybin mushrooms in the United Kingdom in 2006, the sale of the still legal A. muscaria began increasing.[90]

Marija Gimbutas reported to R. Gordon Wasson that in remote areas of Lithuania, A. muscaria has been consumed at wedding feasts, in which mushrooms were mixed with vodka. She also reported that the Lithuanians used to export A. muscaria to the Sami in the Far North for use in shamanic rituals. The Lithuanian festivities are the only report that Wasson received of ingestion of fly agaric for religious use in Eastern Europe.[91]

Siberia edit

 
Amanita muscaria, Eastern Siberia

A. muscaria was widely used as an entheogen by many of the indigenous peoples of Siberia. Its use was known among almost all of the Uralic-speaking peoples of western Siberia and the Paleosiberian-speaking peoples of the Russian Far East. There are only isolated reports of A. muscaria use among the Tungusic and Turkic peoples of central Siberia and it is believed that on the whole entheogenic use of A. muscaria was not practised by these peoples.[6] In western Siberia, the use of A. muscaria was restricted to shamans, who used it as an alternative method of achieving a trance state. (Normally, Siberian shamans achieve trance by prolonged drumming and dancing.) In eastern Siberia, A. muscaria was used by both shamans and laypeople alike, and was used recreationally as well as religiously.[6] In eastern Siberia, the shaman would take the mushrooms, and others would drink his urine.[92] This urine, still containing psychoactive elements, may be more potent than the A. muscaria mushrooms with fewer negative effects such as sweating and twitching, suggesting that the initial user may act as a screening filter for other components in the mushroom.[93]

The Koryak of eastern Siberia have a story about the fly agaric (wapaq) which enabled Big Raven to carry a whale to its home. In the story, the deity Vahiyinin ("Existence") spat onto earth, and his spittle became the wapaq, and his saliva becomes the warts. After experiencing the power of the wapaq, Raven was so exhilarated that he told it to grow forever on earth so his children, the people, could learn from it.[94] Among the Koryaks, one report said that the poor would consume the urine of the wealthy, who could afford to buy the mushrooms.[95] It was reported that the local reindeer would often follow an individual intoxicated by the muscimol mushroom, and if said individual were to urinate in snow the reindeer would become similarly intoxicated and the Koryak people's would use the drunken state of the reindeer to more easily rope and hunt them.[96]

Other reports and theories edit

The Finnish historian T. I. Itkonen mentions that A. muscaria was once used among the Sámi peoples. Sorcerers in Inari would consume fly agarics with seven spots.[97] In 1979, Said Gholam Mochtar and Hartmut Geerken published an article in which they claimed to have discovered a tradition of medicinal and recreational use of this mushroom among a Parachi-speaking group in Afghanistan.[98] There are also unconfirmed reports of religious use of A. muscaria among two Subarctic Native American tribes. Ojibwa ethnobotanist Keewaydinoquay Peschel reported its use among her people, where it was known as miskwedo (an abbreviation of the name oshtimisk wajashkwedo (= "red-top mushroom").[99][100] This information was enthusiastically received by Wasson, although evidence from other sources was lacking.[101] There is also one account of a Euro-American who claims to have been initiated into traditional Tlicho use of Amanita muscaria.[102] The flying reindeer of Santa Claus, who is called Joulupukki in Finland, could symbolize the use of A. muscaria by Sámi shamans.[103][104][105] However, Sámi scholars and the Sámi peoples themselves refute any connection between Santa Claus and Sámi history or culture[106].

"The story of Santa emerging from a Sámi shamanic tradition has a critical number of flaws," asserts Tim Frandy, assistant professor of Nordic Studies at the University of British Columbia and a member of the Sámi descendent community in North America. "The theory has been widely criticized by Sámi people as a stereotypical and problematic romanticized misreading of actual Sámi culture."[106]

Vikings edit

The notion that Vikings used A. muscaria to produce their berserker rages was first suggested by the Swedish professor Samuel Ödmann in 1784.[107] Ödmann based his theories on reports about the use of fly agaric among Siberian shamans. The notion has become widespread since the 19th century, but no contemporary sources mention this use or anything similar in their description of berserkers. Muscimol is generally a mild relaxant, but it can create a range of different reactions within a group of people.[108] It is possible that it could make a person angry, or cause them to be "very jolly or sad, jump about, dance, sing or give way to great fright".[108] Comparative analysis of symptoms have, however, since shown Hyoscyamus niger to be a better fit to the state that characterises the berserker rage.[109]

Soma edit
See also: Botanical identity of Soma-Haoma

In 1968, R. Gordon Wasson proposed that A. muscaria was the soma talked about in the Rigveda of India,[110] a claim which received widespread publicity and popular support at the time.[111] He noted that descriptions of Soma omitted any description of roots, stems or seeds, which suggested a mushroom,[112] and used the adjective hári "dazzling" or "flaming" which the author interprets as meaning red.[113] One line described men urinating Soma; this recalled the practice of recycling urine in Siberia. Soma is mentioned as coming "from the mountains", which Wasson interpreted as the mushroom having been brought in with the Aryan migrants from the north.[114] Indian scholars Santosh Kumar Dash and Sachinanda Padhy pointed out that both eating of mushrooms and drinking of urine were proscribed, using as a source the Manusmṛti.[115] In 1971, Vedic scholar John Brough from Cambridge University rejected Wasson's theory and noted that the language was too vague to determine a description of Soma.[116] In his 1976 survey, Hallucinogens and Culture, anthropologist Peter T. Furst evaluated the evidence for and against the identification of the fly agaric mushroom as the Vedic Soma, concluding cautiously in its favour.[117] Kevin Feeney and Trent Austin compared the references in the Vedas with the filtering mechanisms in the preparation of Amanita muscaria and published findings supporting the proposal that fly-agaric mushrooms could be a likely candidate for the sacrament.[105] Other proposed candidates include Psilocybe cubensis, Peganum harmala,[118] and Ephedra.

Christianity edit
 
Mosaic of red mushrooms, found in the Christian Basilica di Santa Maria Assunta, in Aquileia, northern Italy, dating to before 330 CE

Philologist, archaeologist, and Dead Sea Scrolls scholar John Marco Allegro postulated that early Christian theology was derived from a fertility cult revolving around the entheogenic consumption of A. muscaria in his 1970 book The Sacred Mushroom and the Cross.[119] This theory has found little support by scholars outside the field of ethnomycology. The book was widely criticized by academics and theologians, including Sir Godfrey Driver, emeritus Professor of Semitic Philology at Oxford University and Henry Chadwick, the Dean of Christ Church, Oxford.[120] Christian author John C. King wrote a detailed rebuttal of Allegro's theory in the 1970 book A Christian View of the Mushroom Myth; he notes that neither fly agarics nor their host trees are found in the Middle East, even though cedars and pines are found there, and highlights the tenuous nature of the links between biblical and Sumerian names coined by Allegro. He concludes that if the theory were true, the use of the mushroom must have been "the best kept secret in the world" as it was so well concealed for two thousand years.[121][122]

Fly trap edit

Amanita muscaria is traditionally used for catching flies possibly due to its content of ibotenic acid and muscimol, which lead to its common name "fly agaric". Recently, an analysis of nine different methods for preparing A. muscaria for catching flies in Slovenia have shown that the release of ibotenic acid and muscimol did not depend on the solvent (milk or water) and that thermal and mechanical processing led to faster extraction of ibotenic acid and muscimol.[123]

Culinary edit

 
A blooming toadstool in Turkey

The toxins in A. muscaria are water-soluble: parboiling A. muscaria fruit bodies can detoxify them and render them edible,[67] although consumption of the mushroom as a food has never been widespread.[124] The consumption of detoxified A. muscaria has been practiced in some parts of Europe (notably by Russian settlers in Siberia) since at least the 19th century, and likely earlier. The German physician and naturalist Georg Heinrich von Langsdorff wrote the earliest published account on how to detoxify this mushroom in 1823. In the late 19th century, the French physician Félix Archimède Pouchet was a populariser and advocate of A. muscaria consumption, comparing it to manioc, an important food source in tropical South America that must also be detoxified before consumption.[67]

Use of this mushroom as a food source also seems to have existed in North America. A classic description of this use of A. muscaria by an African-American mushroom seller in Washington, D.C., in the late 19th century is described by American botanist Frederick Vernon Coville. In this case, the mushroom, after parboiling, and soaking in vinegar, is made into a mushroom sauce for steak.[125] It is also consumed as a food in parts of Japan. The most well-known current use as an edible mushroom is in Nagano Prefecture, Japan. There, it is primarily salted and pickled.[126]

A 2008 paper by food historian William Rubel and mycologist David Arora gives a history of consumption of A. muscaria as a food and describes detoxification methods. They advocate that Amanita muscaria be described in field guides as an edible mushroom, though accompanied by a description on how to detoxify it. The authors state that the widespread descriptions in field guides of this mushroom as poisonous is a reflection of cultural bias, as several other popular edible species, notably morels, are also toxic unless properly cooked.[67]

In culture edit

 
Moritz von Schwind's 1851 painting of Rübezahl features fly agarics.[127]

The red-and-white spotted toadstool is a common image in many aspects of popular culture.[29] Garden ornaments and children's picture books depicting gnomes and fairies, such as the Smurfs, often show fly agarics used as seats, or homes.[29][128] Fly agarics have been featured in paintings since the Renaissance,[129] albeit in a subtle manner. For instance, in Hieronymus Bosch's painting, The Garden of Earthly Delights, the mushroom can be seen on the left-hand panel of the work.[130] In the Victorian era they became more visible, becoming the main topic of some fairy paintings.[131] Two of the most famous uses of the mushroom are in the Mario franchise (specifically two of the Super Mushroom power-up items and the platforms in several stages which are based on a fly agaric),[132][133] and the dancing mushroom sequence in the 1940 Disney film Fantasia.[134]

An account of the journeys of Philip von Strahlenberg to Siberia and his descriptions of the use of the mukhomor there was published in English in 1736. The drinking of urine of those who had consumed the mushroom was commented on by Anglo-Irish writer Oliver Goldsmith in his widely read 1762 novel, Citizen of the World.[135] The mushroom had been identified as the fly agaric by this time.[136] Other authors recorded the distortions of the size of perceived objects while intoxicated by the fungus, including naturalist Mordecai Cubitt Cooke in his books The Seven Sisters of Sleep and A Plain and Easy Account of British Fungi.[137] This observation is thought to have formed the basis of the effects of eating the mushroom in the 1865 popular story Alice's Adventures in Wonderland.[138] A hallucinogenic "scarlet toadstool" from Lappland is featured as a plot element in Charles Kingsley's 1866 novel Hereward the Wake based on the medieval figure of the same name.[139] Thomas Pynchon's 1973 novel Gravity's Rainbow describes the fungus as a "relative of the poisonous Destroying angel" and presents a detailed description of a character preparing a cookie bake mixture from harvested Amanita muscaria.[140] Fly agaric shamanism is also explored in the 2003 novel Thursbitch by Alan Garner.[141]

See also edit

References edit

  1. ^ a b c Tulloss RE; Yang Z-L (2012). "Amanita muscaria Singer". Studies in the Genus Amanita Pers. (Agaricales, Fungi). Retrieved 2019-05-06.
  2. ^ a b c "Infraspecific taxa of muscaria". amanitaceae.org.
  3. ^ a b c Tulloss RE; Yang Z-L (2012). "Amanita muscaria subsp. flavivolvata Singer". Studies in the Genus Amanita Pers. (Agaricales, Fungi). Retrieved 2013-02-21.
  4. ^ a b c Tulloss RE; Yang Z-L (2012). "Amanita muscaria var. guessowii Veselý". Studies in the Genus Amanita Pers. (Agaricales, Fungi). Retrieved 2013-02-21.
  5. ^ "Standardized Common Names for Wild Species in Canada". National General Status Working Group. 2020.
  6. ^ a b c Nyberg, H. (1992). (PDF). Karstenia. 32 (71–80): 71–80. doi:10.29203/ka.1992.294. Archived from the original (PDF) on 2018-05-15. Retrieved 2018-05-15.
  7. ^ Carboué, Quentin; Lopez, Michel (2021). "Amanita muscaria: Ecology, Chemistry, Myths". Encyclopedia. 1 (3): 905. doi:10.3390/encyclopedia1030069.
  8. ^ Li, Chen; Oberlies, Nicholas H. (2005). "The most widely recognized mushroom: Chemistry of the genus Amanita" (PDF). Life Sciences. 78 (5): 532–538. doi:10.1016/j.lfs.2005.09.003. PMID 16203016.
  9. ^ Biderman, Chris (2023-10-14). "They look delightful but California hospital warns against eating these poisonous mushrooms". Health & Medicine. Sacramento Bee. Sacramento, California, U.S. Retrieved 2024-02-23.
  10. ^ Wasson, Soma, p. 198.
  11. ^ Magnus A. (1256). "Book II, Chapter 6; p. 87 and Book VI, Chapter 7; p. 345". De vegetabilibus.
  12. ^ a b Ramsbottom, p. 44.
  13. ^ Clusius C. (1601). "Genus XII of the pernicious mushrooms". Rariorum plantarum historia.
  14. ^ Linnaeus C. (1745). Flora svecica [suecica] exhibens plantas per regnum Sueciae crescentes systematice cum differentiis specierum, synonymis autorum, nominibus incolarum, solo locorum, usu pharmacopæorum (in Latin). Stockholm: Laurentii Salvii.
  15. ^ Linnaeus C (1753). "Tomus II". Species Plantarum (in Latin). Vol. 2. Stockholm: Laurentii Salvii. p. 1172.
  16. ^ Simpson DP (1979). Cassell's Latin dictionary (5th ed.). London: Cassell Ltd. p. 883. ISBN 978-0-304-52257-6.
  17. ^ Esser K; Lemke PA (1994). The Mycota: a comprehensive treatise on fungi as experimental systems for basic and applied research. Springer. p. 181. ISBN 978-3-540-66493-2.
  18. ^ Wasson, Soma, p. 200.
  19. ^ a b Benjamin, Mushrooms: poisons and panaceas, pp. 306–07.
  20. ^ Samorini, Giorgio (2002). Animals and psychedelics: the natural world and the instinct to alter consciousness. Inner Traditions/Bear. 823/1251 (67%) in Kindle edition. ISBN 978-0-89281-986-7.
  21. ^ a b c d Michelot D; Melendez-Howell LM. (2003). "Amanita muscaria: chemistry, biology, toxicology, and ethnomycology". Mycological Research. 107 (Pt 2): 131–46. doi:10.1017/S0953756203007305. PMID 12747324. S2CID 41451034.
  22. ^ Wasson, Soma, p. 194
  23. ^ a b Singer R. (1986). The Agaricales in modern taxonomy (4th ed.). Koenigstein, West Germany: Koeltz Scientific Books. ISBN 978-3-87429-254-2.
  24. ^ Jenkins DT (1986). Amanita of North America. Mad River Press. ISBN 978-0-916422-55-4.
  25. ^ Tulloss RE; Yang Z-L (2012). "Amanita sect. Amanita". Studies in the Genus Amanita Pers. (Agaricales, Fungi). Retrieved 2013-02-21.
  26. ^ Moncalvo JM; Drehmel D; Vilgalys R. (July 2000). (PDF). Molecular Phylogenetics and Evolution. 16 (1): 48–63. doi:10.1006/mpev.2000.0782. PMID 10877939. Archived from the original (PDF) on 6 March 2009. Retrieved 2009-02-16.
  27. ^ Drehmel D; Moncalvo JM; Vilgalys R. (1999). . Mycologia (abstract). 91 (4): 610–18. doi:10.2307/3761246. JSTOR 3761246. Archived from the original on 2008-12-28. Retrieved 2009-02-16.
  28. ^ Zeitlmayr L. (1976). Wild mushrooms: an illustrated handbook. Hertfordshire, UK: Garden City Press. ISBN 978-0-584-10324-3.
  29. ^ a b c Arora, D. (1986). Mushrooms demystified: a comprehensive guide to the fleshy fungi (2nd ed.). Berkeley: Ten Speed Press. pp. 282–83. ISBN 978-0-89815-169-5.
  30. ^ Jordan P; Wheeler S. (2001). The ultimate mushroom book. Hermes House. ISBN 978-0-8317-3080-2.
  31. ^ Phillips R. (2006). Mushrooms. Pan MacMillan. p. 140. ISBN 978-0-330-44237-4.
  32. ^ a b Brvar, M.; Mozina, M.; Bunc, M. (May 2006). "Prolonged psychosis after Amanita muscaria ingestion". Wien. Klin. Wochenschr. 118 (9–10): 294–7. doi:10.1007/s00508-006-0581-6. PMID 16810488. S2CID 21075349.
  33. ^ Haas H. (1969). The young specialist Looks at fungi. Burke. p. 94. ISBN 978-0-222-79414-7.
  34. ^ Krieger LCC (1967). The mushroom handbook. Dover. ISBN 978-0-486-21861-8.
  35. ^ Grey P. (2005). Fungi Down Under: the Fungimap guide to Australian fungi. Melbourne: Royal Botanic Gardens. p. 21. ISBN 978-0-646-44674-5.
  36. ^ Benjamin, Mushrooms: poisons and panaceas, pp. 303–04.
  37. ^ a b c d Geml J; Laursen GA; O'Neill K; Nusbaum HC; Taylor DL (January 2006). (PDF). Molecular Ecology. 15 (1): 225–39. Bibcode:2006MolEc..15..225G. CiteSeerX 10.1.1.420.2327. doi:10.1111/j.1365-294X.2005.02799.x. PMID 16367842. S2CID 10246338. Archived from the original (PDF) on 2011-07-16.
  38. ^ Geml, J.; Tulloss, R. E.; Laursen, G. A.; et al. (2008). (PDF). Molecular Phylogenetics and Evolution. 48 (2): 694–701. doi:10.1016/j.ympev.2008.04.029. PMID 18547823. S2CID 619242. Archived from the original (PDF) on 2009-03-26. Retrieved 2009-10-28.
  39. ^ Tulloss, R. E. (2012). "Amanita breckonii Ammirati & Thiers". Studies in the Genus Amanita Pers. (Agaricales, Fungi) – Tulloss RE, Yang Z-L. Retrieved 2013-02-21.
  40. ^ Tulloss, R. E. (2012). "Amanita gioiosa S. Curreli ex S. Curreli". Studies in the Genus Amanita Pers. (Agaricales, Fungi) – Tulloss RE, Yang Z-L. Retrieved 2013-02-21.
  41. ^ Tulloss, R. E. (2012). "Amanita heterochroma S. Curreli". Studies in the Genus Amanita Pers. (Agaricales, Fungi) – Tulloss RE, Yang Z-L. Retrieved 2013-02-21.
  42. ^ "Amanita muscaria var. inzengae - Amanitaceae.org - Taxonomy and Morphology of Amanita and Limacella". www.amanitaceae.org.
  43. ^ Benjamin, Mushrooms: poisons and panaceas, p. 305.
  44. ^ Reid DA (1980). "A monograph of the Australian species of Amanita Persoon ex Hooker (Fungi)". Australian Journal of Botany. Supplementary. Series 8: 1–96. doi:10.1071/BT8008001. S2CID 89306634.
  45. ^ Segedin BP, Pennycook SR (2001). "A nomenclatural checklist of agarics, boletes, and related secotioid and gasteromycetous fungi recorded from New Zealand". New Zealand Journal of Botany. 39 (2): 285–348. Bibcode:2001NZJB...39..285S. doi:10.1080/0028825X.2001.9512739. S2CID 85352273.
  46. ^ Reid DA; Eicker A. (1991). "South African fungi: the genus Amanita". Mycological Research. 95 (1): 80–95. doi:10.1016/S0953-7562(09)81364-6.
  47. ^ Wartchow F, Maia LC, de Queirox Cavalcanti MA (2013). "Taxonomic studies of Amanita muscaria (L.) Lam (Amanitaceae, Agaricomycetes) and its infraspecific taxa in Brazil". Acta Botanica Brasilica. 27 (1): 31–39. doi:10.1590/S0102-33062013000100005.  
  48. ^ a b Fuhrer BA (2005). A field guide to Australian fungi. Melbourne: Bloomings Books. p. 24. ISBN 978-1-876473-51-8.
  49. ^ Hall IR; Stephenson SE; Buchanan PK; Yn W; Cole AL (2003). Edible and poisonous mushrooms of the world. New Zealand Institute for Crop & Food Research Limited. pp. 130–1. ISBN 978-0-478-10835-4.
  50. ^ May T. (2006). "News from the Fungimap president". Fungimap Newsletter. 29: 1.
  51. ^ Robinson R (2010). "First Record of Amanita muscaria in Western Australia" (PDF). Australasian Mycologist. 29 (1): 4–6.
  52. ^ Keane PJ; Kile GA; Podger FD (2000). Diseases and pathogens of eucalypts. Canberra: CSIRO Publishing. p. 85. ISBN 978-0-643-06523-9.
  53. ^ a b c d e Benjamin DR (1992). "Mushroom poisoning in infants and children: the Amanita pantherina/muscaria group". Journal of Toxicology: Clinical Toxicology. 30 (1): 13–22. doi:10.3109/15563659208994442. PMID 1347320.
  54. ^ a b c d Hoegberg LC; Larsen L; Sonne L; Bang J; Skanning PG (2008). "Three cases of Amanita muscaria ingestion in children: two severe courses [abstract]". Clinical Toxicology. 46 (5): 407–8. doi:10.1080/15563650802071703. PMID 18568796. S2CID 115828300.
  55. ^ Theobald W; Büch O; Kunz HA; Krupp P; Stenger EG; Heimann H. (March 1968). "[Pharmacological and experimental psychological studies with 2 components of fly agaric (Amanita muscaria)]". Arzneimittelforschung (in German). 18 (3): 311–5. PMID 5696006.
  56. ^ a b c d e Chilton WS (1975). "The course of an intentional poisoning". MacIlvanea. 2: 17.
  57. ^ a b c d e f Satora, L.; Pach, D.; Butryn, B.; Hydzik, P.; Balicka-Slusarczyk, B. (June 2005). "Fly agaric (Amanita muscaria) poisoning, case report and review". Toxicon. 45 (7): 941–3. doi:10.1016/j.toxicon.2005.01.005. PMID 15904689.
  58. ^ Cagliari GE (1897). "Mushroom poisoning". Medical Record. 52: 298.
  59. ^ a b Buck, R. W. (August 1963). "Toxicity of Amanita muscaria". JAMA. 185 (8): 663–4. doi:10.1001/jama.1963.03060080059020. PMID 14016551.
  60. ^ "Vecchi's death said to be due to a deliberate experiment with poisonous mushrooms" (PDF). The New York Times. 19 December 1897. Retrieved 2009-02-02.
  61. ^ a b Tupalska-Wilczyńska, K.; Ignatowicz, R.; Poziemski, A.; Wójcik, H.; Wilczyński, G. (1996). "Zatrucia muchomorami plamistym i czerwonym--patogeneza, objawy, leczenie" [Poisoning with spotted and red mushrooms—pathogenesis, symptoms, treatment]. Wiad. Lek. (in Polish). 49 (1–6): 66–71. PMID 9173659.
  62. ^ Phillips, Roger (2010). Mushrooms and Other Fungi of North America. Buffalo, NY: Firefly Books. p. 16. ISBN 978-1-55407-651-2.
  63. ^ Arora, Mushrooms demystified, p. 894.
  64. ^ "Mushroom poisoning syndromes". North American Mycological Association (NAMA) website. NAMA. from the original on 4 April 2009. Retrieved 2009-03-22.
  65. ^ a b c d Piqueras, J. (10 January 1990). "Amanita muscaria, Amanita pantherina and others". IPCS INTOX Databank. Retrieved 2008-12-08.
  66. ^ Benjamin, Mushrooms: poisons and panaceas, p. 310.
  67. ^ a b c d Rubel, W.; Arora, D. (2008). (PDF). Economic Botany. 62 (3): 223–43. doi:10.1007/s12231-008-9040-9. S2CID 19585416. Archived from the original (PDF) on 2020-11-12. Retrieved 2011-02-09.
  68. ^ Shaw, Hank (2011-12-24). "How to Safely Eat Amanita Muscaia". honest-food.net. from the original on 2016-03-04.
  69. ^ Dr. Patrick Harding - Unwrapping the Mysteries of Christmas on YouTube
  70. ^ Schmiedeberg O.; Koppe R. (1869). Das Muscarin, das giftige Alkaloid des Fliegenpilzes (in German). Leipzig: F.C.W. Vogel. OCLC 6699630.
  71. ^ Eugster, C. H. (July 1968). "[Active substances from the toadstool]". Naturwissenschaften (in German). 55 (7): 305–13. doi:10.1007/BF00600445. PMID 4878064. S2CID 9153757.
  72. ^ Benjamin, Mushrooms: poisons and panaceas, p. 306.
  73. ^ a b Bowden, K.; Drysdale, A. C.; Mogey, G. A. (June 1965). "Constituents of Amanita muscaria". Nature. 206 (991): 1359–60. Bibcode:1965Natur.206.1359B. doi:10.1038/2061359a0. PMID 5891274. S2CID 4178793.
  74. ^ a b Eugster, C. H.; Müller, G. F.; Good, R. (June 1965). "[The active ingredients from Amanita muscaria: ibotenic acid and muscazone]". Tetrahedron Lett. (in German). 6 (23): 1813–5. doi:10.1016/S0040-4039(00)90133-3. PMID 5891631.
  75. ^ Bowden, K.; Drysdale, A. C. (March 1965). "A novel constituent of Amanita muscaria". Tetrahedron Lett. 6 (12): 727–8. doi:10.1016/S0040-4039(01)83973-3. PMID 14291871.
  76. ^ Takemoto, T.; Nakajima, T.; Yokobe, T. (December 1964). "[Structure of ibotenic acid]". Yakugaku Zasshi (in Japanese). 84: 1232–33. PMID 14266560.
  77. ^ Lampe, K.F., 1978. "Pharmacology and therapy of mushroom intoxications". In: Rumack, B.H., Salzman, E. (Eds.), Mushroom Poisoning: Diagnosis and Treatment. CRC Press, Boca Raton, FL, pp. 125–169
  78. ^ Tsunoda, K.; Inoue, N.; Aoyagi, Y.; Sugahara, T. (1993). "Changes in concentration of ibotenic acid and muscimol in the fruit body of Amanita muscaria during the reproduction stage: Food hygienic studies of toxigenic basidiomycotina: II" (pdf). J Food Hyg Soc Jpn. 34 (1): 18–24. doi:10.3358/shokueishi.34.18.
  79. ^ Jørgensen, C. G.; Bräuner-Osborne, H.; Nielsen, B.; et al. (May 2007). "Novel 5-substituted 1-pyrazolol analogues of ibotenic acid: synthesis and pharmacology at glutamate receptors". Bioorganic & Medicinal Chemistry. 15 (10): 3524–38. doi:10.1016/j.bmc.2007.02.047. PMID 17376693.
  80. ^ Fritz, H.; Gagneux, A. R.; Zbinden, R.; Eugster, C. H. (1965). "The structure of muscazone". Tetrahedron Letters. 6 (25): 2075–76. doi:10.1016/S0040-4039(00)90156-4.
  81. ^ a b Garner, C. D.; Armstrong, E. M.; Berry, R. E.; et al. (May 2000). "Investigations of Amavadin". Journal of Inorganic Biochemistry. 80 (1–2): 17–20. doi:10.1016/S0162-0134(00)00034-9. PMID 10885458.
  82. ^ Hubregtse, T.; Neeleman, E.; Maschmeyer, T.; Sheldon, R. A.; Hanefeld, U.; Arends, I. W. (May 2005). "The first enantioselective synthesis of the amavadin ligand and its complexation to vanadium". Journal of Inorganic Biochemistry. 99 (5): 1264–7. doi:10.1016/j.jinorgbio.2005.02.004. PMID 15833352.
  83. ^ Ott, J. (1976). Hallucinogenic Plants of North America. Berkeley, CA: Wingbow Press. ISBN 978-0-914728-15-3.
  84. ^ Vale, J. A.; Kulig, K.; American Academy of Clinical Toxicology (2004). "Position paper: gastric lavage". Journal of Toxicology: Clinical Toxicology. 42 (7). European Association of Poisons Centres and Clinical Toxicologists: 933–43. doi:10.1081/CLT-200045006. PMID 15641639. S2CID 29957973.
  85. ^ American Academy Of Clinical Toxico; European Association Of Poisons Cen (2004). "Position paper: Ipecac syrup". Journal of Toxicology: Clinical Toxicology. 42 (2): 133–43. doi:10.1081/CLT-120037421. PMID 15214617. S2CID 218865551.
  86. ^ Dart, R. C. (2004). Medical toxicology. Philadelphia, PA: Lippincott Williams & Wilkins. pp. 1719–35. ISBN 978-0-7817-2845-4.
  87. ^ Brent, J.; Wallace, K. L.; Burkhart, K. K.; Phillips, S. D.; Donovan, J. W. (2005). Critical care toxicology: diagnosis and management of the critically poisoned patient. Philadelphia, PA: Elsevier Mosby. pp. 1263–75. ISBN 978-0-8151-4387-1.
  88. ^ Benjamin, Mushrooms: poisons and panaceas, p. 313.
  89. ^ Bosman, C. K.; Berman, L.; Isaacson, M.; Wolfowitz, B.; Parkes, J. (October 1965). "Mushroom poisoning caused by Amanita pantherina. Report of 4 cases". South African Medical Journal. 39 (39): 983–86. PMID 5892794.
  90. ^ (PDF). Lisbon: European Monitoring Centre for Drugs and Drug Addiction. 2006. p. 17. ISBN 978-92-9168-249-2. Archived from the original (PDF) on 2012-03-29. Retrieved 2009-02-13.
  91. ^ Wasson, R. Gordon (1980). The Wondrous Mushroom: Mycolatry in Mesoamerica. McGraw-Hill. pp. 43–44. ISBN 978-0-07-068443-0.
  92. ^ Wasson, Soma, p. 161.
  93. ^ Diaz, J. (1996). How Drugs Influence Behavior: A Neurobehavioral Approach. Upper Saddle River, N.J.: Prentice Hall. ISBN 978-0-02-328764-0.
  94. ^ Ramsbottom, p. 45.
  95. ^ Wasson, Soma, pp. 234–35.
  96. ^ Lee, MR; Dukan, E; Milne, I (2018). "Amanita muscaria (fly agaric): from a shamanistic hallucinogen to the search for acetylcholine". Journal of the Royal College of Physicians of Edinburgh. 48 (1): 85–91. doi:10.4997/jrcpe.2018.119. ISSN 1478-2715. PMID 29741535. S2CID 13693096.
  97. ^ Wasson, Soma, p. 279.
  98. ^ Mochtar, S. G.; Geerken, H. (1979). "The Hallucinogens Muscarine and Ibotenic Acid in the Middle Hindu Kush: A contribution on traditional medicinal mycology in Afghanistan". Afghanistan Journal (in German). 6. Translated by P. G. Werner: 62–65. from the original on 17 February 2009. Retrieved 2009-02-23. Several Shutulis asserted that Amanita-extract was administered orally as a medicine for treatment of psychotic conditions, as well as externally as a therapy for localised frostbite.
  99. ^ Peschel, Keewaydinoquay (1978). Puhpohwee for the people: a narrative account of some uses of fungi among the Ahnishinaubeg. Cambridge, MA: Botanical Museum of Harvard University. ISBN 978-1-879528-18-5.
  100. ^ Navet, E. (1988). "Les Ojibway et l'Amanite tue-mouche (Amanita muscaria). Pour une éthnomycologie des Indiens d'Amérique du Nord". Journal de la Société des Américanistes (in French). 74 (1): 163–80. doi:10.3406/jsa.1988.1334.
  101. ^ Letcher, p. 149.
  102. ^ Larsen, S. (1976). The Shaman's Doorway. New York, NY: Station Hill Press. ISBN 978-0-89281-672-9.
  103. ^ Xulu, Melanie (2017-12-12). "Santa Claus the Magic Mushroom & the Psychedelic Origins of Christmas". MOOF. Retrieved 2020-12-26.
  104. ^ "Magic mushrooms & Reindeer - Weird Nature - BBC animals - YouTube". www.youtube.com. Archived from the original on 2021-12-11. Retrieved 2020-12-26.
  105. ^ a b Kevin Feeney (2020). "Fly Agaric: A Compendium of History, Pharmacology, Mythology, & Exploration". ResearchGate. Retrieved 2020-12-26.
  106. ^ a b Campbell, Olivia (Dec 21, 2023). "What does Santa have to do with … psychedelic mushrooms?". National Geographic. Retrieved 2023-12-22.
  107. ^ (in Swedish) Ödmann S. (1784) Försök at utur Naturens Historia förklara de nordiska gamla Kämpars Berserka-gang (An attempt to Explain the Berserk-raging of Ancient Nordic Warriors through Natural History). Kongliga Vetenskaps Academiens nya Handlingar 5: 240–247 (In: Wasson, 1968)
  108. ^ a b Hoffer, A.; Osmond, H. (1967). The Hallucinogens. Academic Press. pp. 443–54. ISBN 978-0-12-351850-7.
  109. ^ Fatur, Karsten (2019-11-15). "Sagas of the Solanaceae: Speculative ethnobotanical perspectives on the Norse berserkers". Journal of Ethnopharmacology. 244: 112151. doi:10.1016/j.jep.2019.112151. ISSN 0378-8741. PMID 31404578. S2CID 199548329.
  110. ^ Wasson, Soma, p. 10.
  111. ^ Letcher, p. 145.
  112. ^ Wasson, Soma, p. 18.
  113. ^ Wasson, Soma, pp. 36–37.
  114. ^ Wasson, Soma, pp. 22–24.
  115. ^ Letcher, p. 146.
  116. ^ Brough, J. (1971). "Soma and Amanita muscaria". Bulletin of the School of Oriental and African Studies. 34 (2): 331–62. doi:10.1017/S0041977X0012957X. S2CID 84458441.
  117. ^ Furst, Peter T. (1976). Hallucinogens and Culture. Chandler & Sharp. pp. 96–108. ISBN 978-0-88316-517-1.
  118. ^ Flattery, David Stophlet; Schwartz, Martin (1989-01-01). Haoma and Harmaline: The Botanical Identity of the Indo-Iranian Sacred Hallucinogen "soma" and Its Legacy in Religion, Language, and Middle-Eastern Folklore. University of California Press. ISBN 978-0-520-09627-1.
  119. ^ Allegro, J. (1970). The Sacred Mushroom and the Cross: A Study of the Nature and Origins of Roman Theology within the Fertility Cults of the Ancient Near East. London: Hodder & Stoughton. ISBN 978-0-340-12875-6.
  120. ^ Letcher, p. 160.
  121. ^ King, J. C. (1970). A Christian View of the Mushroom Myth. London: Hodder & Stoughton. ISBN 978-0-340-12597-7.
  122. ^ Letcher, p. 161.
  123. ^ Lumpert (2016). "Catching flies with Amanita muscaria: traditional recipes from Slovenia and their efficacy in the extraction of ibotenic acid". Journal of Ethnopharmacology. 187: 1–8. doi:10.1016/j.jep.2016.04.009. PMID 27063872.
  124. ^ Viess, Debbie. "Further Reflections on Amanita muscaria as an Edible Species"
  125. ^ Coville, F. V. 1898. Observations on Recent Cases of Mushroom Poisoning in the District of Columbia. United States Department of Agriculture, Division of Botany. U.S. Government Printing office, Washington, D.C.
  126. ^ Phipps, A. G.; Bennett, B.C.; Downum, K. R. (2000). Japanese use of Beni-tengu-dake (Amanita muscaria) and the efficacy of traditional detoxification methods (Thesis). Florida International University, Miami, Florida.
  127. ^ "Art Registry: 1750–1850". Mykoweb. from the original on 2 February 2009. Retrieved 2009-02-26.
  128. ^ Benjamin, Mushrooms: poisons and panaceas, p. 295.
  129. ^ "The Registry of Mushrooms in Works of Art". Mykoweb. from the original on 1 February 2009. Retrieved 2009-02-16.
  130. ^ Michelot, Didier; Melendez-Howell, Leda Maria (February 2003). "Amanita muscaria: chemistry, biology, toxicology, and ethnomycology". Mycological Research. 107 (2): 131–146. doi:10.1017/s0953756203007305. ISSN 0953-7562. PMID 12747324.
  131. ^ . Mushroom, the Journal of Wild Mushrooming. Archived from the original on 15 January 2009. Retrieved 2009-02-16.
  132. ^ . UGO Networks. Archived from the original on October 28, 2008.
  133. ^ Li, C.; Oberlies, N. H. (December 2005). "The most widely recognized mushroom: chemistry of the genus Amanita" (PDF). Life Sciences. 78 (5): 532–38. doi:10.1016/j.lfs.2005.09.003. PMID 16203016.
  134. ^ Ramsbottom, p. 43.
  135. ^ Letcher, p. 122.
  136. ^ Letcher, p. 123.
  137. ^ Letcher, p. 125.
  138. ^ Letcher, p. 126.
  139. ^ Letcher, p. 127.
  140. ^ Pynchon, T. (1995). Gravity's Rainbow. New York: Penguin Books. pp. 92–93. ISBN 978-0-09-953321-4.
  141. ^ Letcher, p. 129.

Works cited edit

  • Allegro, John (2009). The sacred mushroom and the cross (40th anniversary ed.). Crestline, CA: Gnostic Media. ISBN 978-0-9825562-7-6.
  • Arora, David (1986). Mushrooms demystified: a comprehensive guide to the fleshy fungi (2nd ed.). Berkeley: Ten Speed Press. ISBN 978-0-89815-169-5.
  • Benjamin, Denis R. (1995). Mushrooms: poisons and panaceas—a handbook for naturalists, mycologists and physicians. New York: WH Freeman and Company. ISBN 978-0-7167-2600-5.
  • Furst, Peter T. (1976). Hallucinogens and Culture. Chandler & Sharp. pp. 98–106. ISBN 978-0-88316-517-1.
  • Letcher, Andy (2006). Shroom: A Cultural history of the magic mushroom. London: Faber and Faber. ISBN 978-0-571-22770-9.
  • Ramsbottom, J. (1953). Mushrooms & Toadstools. Collins. ISBN 978-1-870630-09-2.
  • Wasson, R. Gordon (1968). Soma: Divine Mushroom of Immortality. Harcourt Brace Jovanovick. ISBN 978-0-88316-517-1.

External links edit

 
Wikimedia Commons has media related to Amanita muscaria.
 
Wikispecies has information related to Amanita muscaria.
  • Webpages on Amanita species by Tulloss and Yang Zhuliang
  • Amanita on erowid.org
  • Aminita muscaria, Amanita pantherina and others (Group PIM G026) by IPCS INCHEM

May 03, 2024
amanita, muscaria, commonly, known, agaric, amanita, basidiomycete, genus, amanita, large, white, gilled, white, spotted, usually, mushroom, scientific, classification, domain, eukaryota, kingdom, fungi, division, basidiomycota, class, agaricomycetes, order, a. Amanita muscaria commonly known as the fly agaric or fly amanita 5 is a basidiomycete of the genus Amanita It is a large white gilled white spotted and usually red mushroom Amanita muscaria Scientific classification Domain Eukaryota Kingdom Fungi Division Basidiomycota Class Agaricomycetes Order Agaricales Family Amanitaceae Genus Amanita Species A muscaria Binomial name Amanita muscaria L Lam 1783 Subspecies and varieties A muscaria var alba A muscaria subsp flavivolvata Singer 1 2 A muscaria var guessowii Vesely 3 A muscaria var inzengae Neville amp Poumarat 4 2 Amanita muscariaMycological characteristicsGills on hymeniumCap is convexHymenium is freeStipe has a ring and volvaSpore print is whiteEcology is mycorrhizalEdibility is poisonous or psychoactive Despite its easily distinguishable features A muscaria is a fungus with several known variations or subspecies These subspecies are slightly different some having yellow or white caps but are all usually called fly agarics most often recognizable by their notable white spots Recent DNA fungi research however has shown that some mushrooms called fly agaric are in fact unique species such as A persicina the peach colored fly agaric Native throughout the temperate and boreal regions of the Northern Hemisphere A muscaria has been unintentionally introduced to many countries in the Southern Hemisphere generally as a symbiont with pine and birch plantations and is now a true cosmopolitan species It associates with various deciduous and coniferous trees Although poisonous death due to poisoning from A muscaria ingestion is quite rare Parboiling twice with water draining weakens its toxicity and breaks down the mushroom s psychoactive substances it is eaten in parts of Europe Asia and North America All A muscaria varieties but in particular A muscaria var muscaria are noted for their hallucinogenic properties with the main psychoactive constituents being muscimol and its neurotoxic precursor ibotenic acid A local variety of the mushroom was used as an intoxicant and entheogen by the indigenous peoples of Siberia 6 7 Arguably the most iconic toadstool species the fly agaric is one of the most recognizable and widely encountered in popular culture including in video games for example the frequent use of a recognizable A muscaria in the Mario franchise e g its Super Mushroom power up and television for example the houses in The Smurfs franchise 8 There have been cases of children admitted to hospitals after consuming this poisonous mushroom the children may have been attracted to it because of its pop culture associations 9 Contents 1 Taxonomy 1 1 Classification 2 Description 2 1 Controversy 3 Distribution and habitat 4 Toxicity 4 1 Pharmacology 4 2 Symptoms 4 3 Treatment 5 Uses 5 1 Psychoactive 5 1 1 Siberia 5 1 2 Other reports and theories 5 1 2 1 Vikings 5 1 2 2 Soma 5 1 2 3 Christianity 5 2 Fly trap 5 3 Culinary 6 In culture 7 See also 8 References 8 1 Works cited 9 External linksTaxonomy editThe name of the mushroom in many European languages is thought to derive from its use as an insecticide when sprinkled in milk This practice has been recorded from Germanic and Slavic speaking parts of Europe as well as the Vosges region and pockets elsewhere in France and Romania 10 Albertus Magnus was the first to record it in his work De vegetabilibus some time before 1256 11 commenting vocatur fungus muscarum eo quod in lacte pulverizatus interficit muscas it is called the fly mushroom because it is powdered in milk to kill flies 12 nbsp Showing the partial veil under the cap dropping away to form a ring around the stipe The 16th century Flemish botanist Carolus Clusius traced the practice of sprinkling it into milk to Frankfurt in Germany 13 while Carl Linnaeus the father of taxonomy reported it from Smaland in southern Sweden where he had lived as a child 14 He described it in volume two of his Species Plantarum in 1753 giving it the name Agaricus muscarius 15 the specific epithet deriving from Latin musca meaning fly 16 It gained its current name in 1783 when placed in the genus Amanita by Jean Baptiste Lamarck a name sanctioned in 1821 by the father of mycology Swedish naturalist Elias Magnus Fries The starting date for all the mycota had been set by general agreement as January 1 1821 the date of Fries s work and so the full name was then Amanita muscaria L Fr Hook The 1987 edition of the International Code of Botanical Nomenclature changed the rules on the starting date and primary work for names of fungi and names can now be considered valid as far back as May 1 1753 the date of publication of Linnaeus s work 17 Hence Linnaeus and Lamarck are now taken as the namers of Amanita muscaria L Lam The English mycologist John Ramsbottom reported that Amanita muscaria was used for getting rid of bugs in England and Sweden and bug agaric was an old alternative name for the species 12 French mycologist Pierre Bulliard reported having tried without success to replicate its fly killing properties in his work Histoire des plantes veneneuses et suspectes de la France 1784 and proposed a new binomial name Agaricus pseudo aurantiacus because of this 18 One compound isolated from the fungus is 1 3 diolein 1 3 di cis 9 octadecenoyl glycerol which attracts insects 19 It has been hypothesised that the flies intentionally seek out the fly agaric for its intoxicating properties 20 An alternative derivation proposes that the term fly refers not to insects as such but rather the delirium resulting from consumption of the fungus This is based on the medieval belief that flies could enter a person s head and cause mental illness 21 Several regional names appear to be linked with this connotation meaning the mad or fool s version of the highly regarded edible mushroom Amanita caesarea Hence there is oriol foll mad oriol in Catalan mujolo folo from Toulouse concourlo fouolo from the Aveyron department in Southern France ovolo matto from Trentino in Italy A local dialect name in Fribourg in Switzerland is tsapi de diablhou which translates as Devil s hat 22 Classification edit Amanita muscaria is the type species of the genus By extension it is also the type species of Amanita subgenus Amanita as well as section Amanita within this subgenus Amanita subgenus Amanita includes all Amanita with inamyloid spores Amanita section Amanita includes the species with patchy universal veil remnants including a volva that is reduced to a series of concentric rings and the veil remnants on the cap to a series of patches or warts Most species in this group also have a bulbous base 23 24 Amanita section Amanita consists of A muscaria and its close relatives including A pantherina the panther cap A gemmata A farinosa and A xanthocephala 25 Modern fungal taxonomists have classified Amanita muscaria and its allies this way based on gross morphology and spore inamyloidy Two recent molecular phylogenetic studies have confirmed this classification as natural 26 27 Description edit nbsp Cross section of fruiting body showing pigment under skin and free gills A large conspicuous mushroom Amanita muscaria is generally common and numerous where it grows and is often found in groups with basidiocarps in all stages of development Fly agaric fruiting bodies emerge from the soil looking like white eggs After emerging from the ground the cap is covered with numerous small white to yellow pyramid shaped warts These are remnants of the universal veil a membrane that encloses the entire mushroom when it is still very young Dissecting the mushroom at this stage reveals a characteristic yellowish layer of skin under the veil which helps identification As the fungus grows the red colour appears through the broken veil and the warts become less prominent they do not change in size but are reduced relative to the expanding skin area The cap changes from globose to hemispherical and finally to plate like and flat in mature specimens 28 Fully grown the bright red cap is usually around 8 20 centimetres 3 8 inches in diameter although larger specimens have been found The red colour may fade after rain and in older mushrooms The free gills are white as is the spore print The oval spores measure 9 13 by 6 5 9 mm they do not turn blue with the application of iodine 29 The stipe is white 5 20 cm 2 8 in high by 1 2 cm 1 2 1 in wide and has the slightly brittle fibrous texture typical of many large mushrooms At the base is a bulb that bears universal veil remnants in the form of two to four distinct rings or ruffs Between the basal universal veil remnants and gills are remnants of the partial veil which covers the gills during development in the form of a white ring It can be quite wide and flaccid with age There is generally no associated smell other than a mild earthiness 30 31 Although very distinctive in appearance the fly agaric has been mistaken for other yellow to red mushroom species in the Americas such as Armillaria cf mellea and the edible A basii a Mexican species similar to A caesarea of Europe Poison control centres in the U S and Canada have become aware that amarill Spanish for yellow is a common name for the A caesarea like species in Mexico 4 A caesarea is distinguished by its entirely orange to red cap which lacks the numerous white warty spots of the fly agaric though these sometimes wash away during heavy rain 32 Furthermore the stem gills and ring of A caesarea are bright yellow not white 33 The volva is a distinct white bag not broken into scales 34 In Australia the introduced fly agaric may be confused with the native vermilion grisette Amanita xanthocephala which grows in association with eucalypts The latter species generally lacks the white warts of A muscaria and bears no ring 35 Additionally immature button forms resemble puffballs 36 Controversy edit nbsp Amanita muscaria var formosa is now a synonym for Amanita muscaria var guessowii 3 Amanita muscaria varies considerably in its morphology and many authorities recognize several subspecies or varieties within the species In The Agaricales in Modern Taxonomy German mycologist Rolf Singer listed three subspecies though without description A muscaria ssp muscaria A muscaria ssp americana and A muscaria ssp flavivolvata 23 However a 2006 molecular phylogenetic study of different regional populations of A muscaria by mycologist Jozsef Geml and colleagues found three distinct clades within this species representing roughly Eurasian Eurasian subalpine and North American populations Specimens belonging to all three clades have been found in Alaska this has led to the hypothesis that this was the centre of diversification for this species The study also looked at four named varieties of the species var alba var flavivolvata var formosa including var guessowii and var regalis from both areas All four varieties were found within both the Eurasian and North American clades evidence that these morphological forms are polymorphisms rather than distinct subspecies or varieties 37 Further molecular study by Geml and colleagues published in 2008 show that these three genetic groups plus a fourth associated with oak hickory pine forest in the southeastern United States and two more on Santa Cruz Island in California are delineated from each other enough genetically to be considered separate species Thus A muscaria as it stands currently is evidently a species complex 38 The complex also includes at least three other closely related taxa that are currently regarded as species 1 A breckonii is a buff capped mushroom associated with conifers from the Pacific Northwest 39 and the brown capped A gioiosa and A heterochroma from the Mediterranean Basin and from Sardinia respectively Both of these last two are found with Eucalyptus and Cistus trees and it is unclear whether they are native or introduced from Australia 40 41 Amanitaceae org lists four varieties as of May 2019 update but says that they will be segregated into their own taxa in the near future They are 2 Image Reference name Common name Synonym Description nbsp Amanita muscaria var muscaria 1 Euro Asian fly agaric Bright red fly agaric from northern Europe and Asia Cap might be orange or yellow due to slow development of the purple pigment Wide cap with white or yellow warts which are removed by rain Known to be toxic but used by shamans in northern cultures Associated predominantly with Birch and diverse conifers in forest nbsp Amanita muscaria subsp flavivolvata 3 American fly agaric red with yellow to yellowish white warts It is found from southern Alaska down through the Rocky Mountains through Central America all the way to Andean Colombia Rodham Tulloss uses this name to describe all typical A muscaria from indigenous New World populations nbsp Amanita muscaria var guessowii 4 American fly agaric yellow variant Amanita muscaria var formosa has a yellow to orange cap with the centre more orange or perhaps even reddish orange It is found most commonly in northeastern North America from Newfoundland and Quebec south all the way to the state of Tennessee Some authorities cf Jenkins treat these populations as A muscaria var formosa while others cf Tulloss recognise them as a distinct variety nbsp Amanita muscaria var inzengae 42 Inzenga s fly agaric it has a pale yellow to orange yellow cap with yellowish warts and stem which may be tan Distribution and habitat editA muscaria is a cosmopolitan mushroom native to conifer and deciduous woodlands throughout the temperate and boreal regions of the Northern Hemisphere 37 including higher elevations of warmer latitudes in regions such as Hindu Kush the Mediterranean and also Central America A recent molecular study proposes that it had an ancestral origin in the Siberian Beringian region in the Tertiary period before radiating outwards across Asia Europe and North America 37 The season for fruiting varies in different climates fruiting occurs in summer and autumn across most of North America but later in autumn and early winter on the Pacific coast This species is often found in similar locations to Boletus edulis and may appear in fairy rings 43 Conveyed with pine seedlings it has been widely transported into the southern hemisphere including Australia 44 New Zealand 45 South Africa 46 and South America where it can be found in the Brazilian states of Parana 37 Sao Paulo Minas Gerais Rio Grande do Sul 47 nbsp A muscaria in a Pinus radiata plantation near Mount Field National Park Tasmania Ectomycorrhizal A muscaria forms symbiotic relationships with many trees including pine oak spruce fir birch and cedar Commonly seen under introduced trees 48 A muscaria is the fungal equivalent of a weed in New Zealand Tasmania and Victoria forming new associations with southern beech Nothofagus 49 The species is also invading a rainforest in Australia where it may be displacing the native species 48 It appears to be spreading northwards with recent reports placing it near Port Macquarie on the New South Wales north coast 50 It was recorded under silver birch Betula pendula in Manjimup Western Australia in 2010 51 Although it has apparently not spread to eucalypts in Australia it has been recorded associating with them in Portugal Commonly found throughout the great Southern region of western Australia it is regularly found growing on Pinus radiata 52 Toxicity edit nbsp Mature The white spots may wash off with heavy rainfall A muscaria poisoning has occurred in young children and in people who ingested the mushrooms for a hallucinogenic experience 21 53 54 or who confused it with an edible species A muscaria contains several biologically active agents at least one of which muscimol is known to be psychoactive Ibotenic acid a neurotoxin serves as a prodrug to muscimol with a small amount likely converting to muscimol after ingestion An active dose in adults is approximately 6 mg muscimol or 30 to 60 mg ibotenic acid 55 56 this is typically about the amount found in one cap of Amanita muscaria 57 The amount and ratio of chemical compounds per mushroom varies widely from region to region and season to season which can further confuse the issue Spring and summer mushrooms have been reported to contain up to 10 times more ibotenic acid and muscimol than autumn fruitings 53 Deaths from A muscaria have been reported in historical journal articles and newspaper reports 58 59 60 but with modern medical treatment fatal poisoning from ingesting this mushroom is extremely rare 61 Many books list A muscaria as deadly 62 but according to David Arora this is an error that implies the mushroom is far more toxic than it is 63 Furthermore The North American Mycological Association has stated that there were no reliably documented cases of death from toxins in these mushrooms in the past 100 years 64 The active constituents of this species are water soluble and boiling and then discarding the cooking water at least partly detoxifies A muscaria 65 Drying may increase potency as the process facilitates the conversion of ibotenic acid to the more potent muscimol 66 According to some sources once detoxified the mushroom becomes edible 67 68 Patrick Harding describes the Sami custom of processing the fly agaric through reindeer 69 Pharmacology edit nbsp Muscimol the principal psychoactive constituent of A muscaria nbsp Ibotenic acid a prodrug to muscimol found in A muscaria Muscarine discovered in 1869 70 was long thought to be the active hallucinogenic agent in A muscaria Muscarine binds with muscarinic acetylcholine receptors leading to the excitation of neurons bearing these receptors The levels of muscarine in Amanita muscaria are minute when compared with other poisonous fungi 71 such as Inosperma erubescens the small white Clitocybe species C dealbata and C rivulosa The level of muscarine in A muscaria is too low to play a role in the symptoms of poisoning 72 The major toxins involved in A muscaria poisoning are muscimol 3 hydroxy 5 aminomethyl 1 isoxazole an unsaturated cyclic hydroxamic acid and the related amino acid ibotenic acid Muscimol is the product of the decarboxylation usually by drying of ibotenic acid Muscimol and ibotenic acid were discovered in the mid 20th century 73 74 Researchers in England 75 Japan 76 and Switzerland 74 showed that the effects produced were due mainly to ibotenic acid and muscimol not muscarine 19 73 These toxins are not distributed uniformly in the mushroom Most are detected in the cap of the fruit a moderate amount in the base with the smallest amount in the stalk 77 78 Quite rapidly between 20 and 90 minutes after ingestion a substantial fraction of ibotenic acid is excreted unmetabolised in the urine of the consumer Almost no muscimol is excreted when pure ibotenic acid is eaten but muscimol is detectable in the urine after eating A muscaria which contains both ibotenic acid and muscimol 56 Ibotenic acid and muscimol are structurally related to each other and to two major neurotransmitters of the central nervous system glutamic acid and GABA respectively Ibotenic acid and muscimol act like these neurotransmitters muscimol being a potent GABAA agonist while ibotenic acid is an agonist of NMDA glutamate receptors and certain metabotropic glutamate receptors 79 which are involved in the control of neuronal activity It is these interactions which are thought to cause the psychoactive effects found in intoxication 21 57 Muscazone is another compound that has more recently been isolated from European specimens of the fly agaric It is a product of the breakdown of ibotenic acid by ultra violet radiation 80 Muscazone is of minor pharmacological activity compared with the other agents 21 Amanita muscaria and related species are known as effective bioaccumulators of vanadium some species concentrate vanadium to levels of up to 400 times those typically found in plants 81 Vanadium is present in fruit bodies as an organometallic compound called amavadine 81 The biological importance of the accumulation process is unknown 82 Symptoms edit Fly agarics are best known for the unpredictability of their effects Depending on habitat and the amount ingested per body weight effects can range from mild nausea and twitching to drowsiness cholinergic crisis like effects low blood pressure sweating and salivation auditory and visual distortions mood changes euphoria relaxation ataxia and loss of equilibrium like with tetanus 53 54 57 59 In cases of serious poisoning the mushroom causes delirium somewhat similar in effect to anticholinergic poisoning such as that caused by Datura stramonium characterised by bouts of marked agitation with confusion hallucinations and irritability followed by periods of central nervous system depression Seizures and coma may also occur in severe poisonings 54 57 Symptoms typically appear after around 30 to 90 minutes and peak within three hours but certain effects can last for several days 32 56 In the majority of cases recovery is complete within 12 to 24 hours 65 The effect is highly variable between individuals with similar doses potentially causing quite different reactions 53 56 83 Some people suffering intoxication have exhibited headaches up to ten hours afterwards 56 Retrograde amnesia and somnolence can result following recovery 57 Treatment editMedical attention should be sought in cases of suspected poisoning If the delay between ingestion and treatment is less than four hours activated charcoal is given Gastric lavage can be considered if the patient presents within one hour of ingestion 84 Inducing vomiting with syrup of ipecac is no longer recommended in any poisoning situation 85 nbsp Found in a parking lot Portland Oregon US There is no antidote and supportive care is the mainstay of further treatment for intoxication Though sometimes referred to as a deliriant and while muscarine was first isolated from A muscaria and as such is its namesake muscimol does not have action either as an agonist or antagonist at the muscarinic acetylcholine receptor site and therefore atropine or physostigmine as an antidote is not recommended 86 If a patient is delirious or agitated this can usually be treated by reassurance and if necessary physical restraints A benzodiazepine such as diazepam or lorazepam can be used to control combativeness agitation muscular overactivity and seizures 53 Only small doses should be used as they may worsen the respiratory depressant effects of muscimol 87 Recurrent vomiting is rare but if present may lead to fluid and electrolyte imbalances intravenous rehydration or electrolyte replacement may be required 57 88 Serious cases may develop loss of consciousness or coma and may need intubation and artificial ventilation 54 89 Hemodialysis can remove the toxins although this intervention is generally considered unnecessary 65 With modern medical treatment the prognosis is typically good following supportive treatment 61 65 Uses editPsychoactive edit nbsp Photographed in Mount Lofty Botanic Gardens Adelaide Hills South Australia The wide range of psychoactive effects have been variously described as depressant sedative hypnotic psychedelic dissociative or deliriant paradoxical effects such as stimulation may occur however Perceptual phenomena such as synesthesia macropsia and micropsia may occur the latter two effects may occur either simultaneously or alternatingly as part of Alice in Wonderland syndrome collectively known as dysmetropsia along with related distortions pelopsia and teleopsia Some users report lucid dreaming under the influence of its hypnotic effects Unlike Psilocybe cubensis A muscaria cannot be commercially cultivated due to its mycorrhizal relationship with the roots of pine trees However following the outlawing of psilocybin mushrooms in the United Kingdom in 2006 the sale of the still legal A muscaria began increasing 90 Marija Gimbutas reported to R Gordon Wasson that in remote areas of Lithuania A muscaria has been consumed at wedding feasts in which mushrooms were mixed with vodka She also reported that the Lithuanians used to export A muscaria to the Sami in the Far North for use in shamanic rituals The Lithuanian festivities are the only report that Wasson received of ingestion of fly agaric for religious use in Eastern Europe 91 Siberia edit nbsp Amanita muscaria Eastern Siberia A muscaria was widely used as an entheogen by many of the indigenous peoples of Siberia Its use was known among almost all of the Uralic speaking peoples of western Siberia and the Paleosiberian speaking peoples of the Russian Far East There are only isolated reports of A muscaria use among the Tungusic and Turkic peoples of central Siberia and it is believed that on the whole entheogenic use of A muscaria was not practised by these peoples 6 In western Siberia the use of A muscaria was restricted to shamans who used it as an alternative method of achieving a trance state Normally Siberian shamans achieve trance by prolonged drumming and dancing In eastern Siberia A muscaria was used by both shamans and laypeople alike and was used recreationally as well as religiously 6 In eastern Siberia the shaman would take the mushrooms and others would drink his urine 92 This urine still containing psychoactive elements may be more potent than the A muscaria mushrooms with fewer negative effects such as sweating and twitching suggesting that the initial user may act as a screening filter for other components in the mushroom 93 The Koryak of eastern Siberia have a story about the fly agaric wapaq which enabled Big Raven to carry a whale to its home In the story the deity Vahiyinin Existence spat onto earth and his spittle became the wapaq and his saliva becomes the warts After experiencing the power of the wapaq Raven was so exhilarated that he told it to grow forever on earth so his children the people could learn from it 94 Among the Koryaks one report said that the poor would consume the urine of the wealthy who could afford to buy the mushrooms 95 It was reported that the local reindeer would often follow an individual intoxicated by the muscimol mushroom and if said individual were to urinate in snow the reindeer would become similarly intoxicated and the Koryak people s would use the drunken state of the reindeer to more easily rope and hunt them 96 Other reports and theories editThe Finnish historian T I Itkonen mentions that A muscaria was once used among the Sami peoples Sorcerers in Inari would consume fly agarics with seven spots 97 In 1979 Said Gholam Mochtar and Hartmut Geerken published an article in which they claimed to have discovered a tradition of medicinal and recreational use of this mushroom among a Parachi speaking group in Afghanistan 98 There are also unconfirmed reports of religious use of A muscaria among two Subarctic Native American tribes Ojibwa ethnobotanist Keewaydinoquay Peschel reported its use among her people where it was known as miskwedo an abbreviation of the name oshtimisk wajashkwedo red top mushroom 99 100 This information was enthusiastically received by Wasson although evidence from other sources was lacking 101 There is also one account of a Euro American who claims to have been initiated into traditional Tlicho use of Amanita muscaria 102 The flying reindeer of Santa Claus who is called Joulupukki in Finland could symbolize the use of A muscaria by Sami shamans 103 104 105 However Sami scholars and the Sami peoples themselves refute any connection between Santa Claus and Sami history or culture 106 The story of Santa emerging from a Sami shamanic tradition has a critical number of flaws asserts Tim Frandy assistant professor of Nordic Studies at the University of British Columbia and a member of the Sami descendent community in North America The theory has been widely criticized by Sami people as a stereotypical and problematic romanticized misreading of actual Sami culture 106 Vikings edit The notion that Vikings used A muscaria to produce their berserker rages was first suggested by the Swedish professor Samuel Odmann in 1784 107 Odmann based his theories on reports about the use of fly agaric among Siberian shamans The notion has become widespread since the 19th century but no contemporary sources mention this use or anything similar in their description of berserkers Muscimol is generally a mild relaxant but it can create a range of different reactions within a group of people 108 It is possible that it could make a person angry or cause them to be very jolly or sad jump about dance sing or give way to great fright 108 Comparative analysis of symptoms have however since shown Hyoscyamus niger to be a better fit to the state that characterises the berserker rage 109 Soma edit See also Botanical identity of Soma Haoma In 1968 R Gordon Wasson proposed that A muscaria was the soma talked about in the Rigveda of India 110 a claim which received widespread publicity and popular support at the time 111 He noted that descriptions of Soma omitted any description of roots stems or seeds which suggested a mushroom 112 and used the adjective hari dazzling or flaming which the author interprets as meaning red 113 One line described men urinating Soma this recalled the practice of recycling urine in Siberia Soma is mentioned as coming from the mountains which Wasson interpreted as the mushroom having been brought in with the Aryan migrants from the north 114 Indian scholars Santosh Kumar Dash and Sachinanda Padhy pointed out that both eating of mushrooms and drinking of urine were proscribed using as a source the Manusmṛti 115 In 1971 Vedic scholar John Brough from Cambridge University rejected Wasson s theory and noted that the language was too vague to determine a description of Soma 116 In his 1976 survey Hallucinogens and Culture anthropologist Peter T Furst evaluated the evidence for and against the identification of the fly agaric mushroom as the Vedic Soma concluding cautiously in its favour 117 Kevin Feeney and Trent Austin compared the references in the Vedas with the filtering mechanisms in the preparation of Amanita muscaria and published findings supporting the proposal that fly agaric mushrooms could be a likely candidate for the sacrament 105 Other proposed candidates include Psilocybe cubensis Peganum harmala 118 and Ephedra Christianity edit nbsp Mosaic of red mushrooms found in the Christian Basilica di Santa Maria Assunta in Aquileia northern Italy dating to before 330 CE Philologist archaeologist and Dead Sea Scrolls scholar John Marco Allegro postulated that early Christian theology was derived from a fertility cult revolving around the entheogenic consumption of A muscaria in his 1970 book The Sacred Mushroom and the Cross 119 This theory has found little support by scholars outside the field of ethnomycology The book was widely criticized by academics and theologians including Sir Godfrey Driver emeritus Professor of Semitic Philology at Oxford University and Henry Chadwick the Dean of Christ Church Oxford 120 Christian author John C King wrote a detailed rebuttal of Allegro s theory in the 1970 book A Christian View of the Mushroom Myth he notes that neither fly agarics nor their host trees are found in the Middle East even though cedars and pines are found there and highlights the tenuous nature of the links between biblical and Sumerian names coined by Allegro He concludes that if the theory were true the use of the mushroom must have been the best kept secret in the world as it was so well concealed for two thousand years 121 122 Fly trap edit Amanita muscaria is traditionally used for catching flies possibly due to its content of ibotenic acid and muscimol which lead to its common name fly agaric Recently an analysis of nine different methods for preparing A muscaria for catching flies in Slovenia have shown that the release of ibotenic acid and muscimol did not depend on the solvent milk or water and that thermal and mechanical processing led to faster extraction of ibotenic acid and muscimol 123 Culinary edit nbsp A blooming toadstool in Turkey The toxins in A muscaria are water soluble parboiling A muscaria fruit bodies can detoxify them and render them edible 67 although consumption of the mushroom as a food has never been widespread 124 The consumption of detoxified A muscaria has been practiced in some parts of Europe notably by Russian settlers in Siberia since at least the 19th century and likely earlier The German physician and naturalist Georg Heinrich von Langsdorff wrote the earliest published account on how to detoxify this mushroom in 1823 In the late 19th century the French physician Felix Archimede Pouchet was a populariser and advocate of A muscaria consumption comparing it to manioc an important food source in tropical South America that must also be detoxified before consumption 67 Use of this mushroom as a food source also seems to have existed in North America A classic description of this use of A muscaria by an African American mushroom seller in Washington D C in the late 19th century is described by American botanist Frederick Vernon Coville In this case the mushroom after parboiling and soaking in vinegar is made into a mushroom sauce for steak 125 It is also consumed as a food in parts of Japan The most well known current use as an edible mushroom is in Nagano Prefecture Japan There it is primarily salted and pickled 126 A 2008 paper by food historian William Rubel and mycologist David Arora gives a history of consumption of A muscaria as a food and describes detoxification methods They advocate that Amanita muscaria be described in field guides as an edible mushroom though accompanied by a description on how to detoxify it The authors state that the widespread descriptions in field guides of this mushroom as poisonous is a reflection of cultural bias as several other popular edible species notably morels are also toxic unless properly cooked 67 In culture edit nbsp Moritz von Schwind s 1851 painting of Rubezahl features fly agarics 127 The red and white spotted toadstool is a common image in many aspects of popular culture 29 Garden ornaments and children s picture books depicting gnomes and fairies such as the Smurfs often show fly agarics used as seats or homes 29 128 Fly agarics have been featured in paintings since the Renaissance 129 albeit in a subtle manner For instance in Hieronymus Bosch s painting The Garden of Earthly Delights the mushroom can be seen on the left hand panel of the work 130 In the Victorian era they became more visible becoming the main topic of some fairy paintings 131 Two of the most famous uses of the mushroom are in the Mario franchise specifically two of the Super Mushroom power up items and the platforms in several stages which are based on a fly agaric 132 133 and the dancing mushroom sequence in the 1940 Disney film Fantasia 134 An account of the journeys of Philip von Strahlenberg to Siberia and his descriptions of the use of the mukhomor there was published in English in 1736 The drinking of urine of those who had consumed the mushroom was commented on by Anglo Irish writer Oliver Goldsmith in his widely read 1762 novel Citizen of the World 135 The mushroom had been identified as the fly agaric by this time 136 Other authors recorded the distortions of the size of perceived objects while intoxicated by the fungus including naturalist Mordecai Cubitt Cooke in his books The Seven Sisters of Sleep and A Plain and Easy Account of British Fungi 137 This observation is thought to have formed the basis of the effects of eating the mushroom in the 1865 popular story Alice s Adventures in Wonderland 138 A hallucinogenic scarlet toadstool from Lappland is featured as a plot element in Charles Kingsley s 1866 novel Hereward the Wake based on the medieval figure of the same name 139 Thomas Pynchon s 1973 novel Gravity s Rainbow describes the fungus as a relative of the poisonous Destroying angel and presents a detailed description of a character preparing a cookie bake mixture from harvested Amanita muscaria 140 Fly agaric shamanism is also explored in the 2003 novel Thursbitch by Alan Garner 141 See also edit nbsp Fungi portal List of Amanita species Legal status of psychoactive Amanita mushroomsReferences edit a b c Tulloss RE Yang Z L 2012 Amanita muscaria Singer Studies in the Genus Amanita Pers Agaricales Fungi Retrieved 2019 05 06 a b c Infraspecific taxa of muscaria amanitaceae org a b c Tulloss RE Yang Z L 2012 Amanita muscaria subsp flavivolvata Singer Studies in the Genus Amanita Pers Agaricales Fungi Retrieved 2013 02 21 a b c Tulloss RE Yang Z L 2012 Amanita muscaria var guessowii Vesely Studies in the Genus Amanita Pers Agaricales Fungi Retrieved 2013 02 21 Standardized Common Names for Wild Species in Canada National General Status Working Group 2020 a b c Nyberg H 1992 Religious use of hallucinogenic fungi A comparison between Siberian and Mesoamerican Cultures PDF Karstenia 32 71 80 71 80 doi 10 29203 ka 1992 294 Archived from the original PDF on 2018 05 15 Retrieved 2018 05 15 Carboue Quentin Lopez Michel 2021 Amanita muscaria Ecology Chemistry Myths Encyclopedia 1 3 905 doi 10 3390 encyclopedia1030069 Li Chen Oberlies Nicholas H 2005 The most widely recognized mushroom Chemistry of the genus Amanita PDF Life Sciences 78 5 532 538 doi 10 1016 j lfs 2005 09 003 PMID 16203016 Biderman Chris 2023 10 14 They look delightful but California hospital warns against eating these poisonous mushrooms Health amp Medicine Sacramento Bee Sacramento California U S Retrieved 2024 02 23 Wasson Soma p 198 Magnus A 1256 Book II Chapter 6 p 87 and Book VI Chapter 7 p 345 De vegetabilibus a b Ramsbottom p 44 Clusius C 1601 Genus XII of the pernicious mushrooms Rariorum plantarum historia Linnaeus C 1745 Flora svecica suecica exhibens plantas per regnum Sueciae crescentes systematice cum differentiis specierum synonymis autorum nominibus incolarum solo locorum usu pharmacopaeorum in Latin Stockholm Laurentii Salvii Linnaeus C 1753 Tomus II Species Plantarum in Latin Vol 2 Stockholm Laurentii Salvii p 1172 Simpson DP 1979 Cassell s Latin dictionary 5th ed London Cassell Ltd p 883 ISBN 978 0 304 52257 6 Esser K Lemke PA 1994 The Mycota a comprehensive treatise on fungi as experimental systems for basic and applied research Springer p 181 ISBN 978 3 540 66493 2 Wasson Soma p 200 a b Benjamin Mushrooms poisons and panaceas pp 306 07 Samorini Giorgio 2002 Animals and psychedelics the natural world and the instinct to alter consciousness Inner Traditions Bear 823 1251 67 in Kindle edition ISBN 978 0 89281 986 7 a b c d Michelot D Melendez Howell LM 2003 Amanita muscaria chemistry biology toxicology and ethnomycology Mycological Research 107 Pt 2 131 46 doi 10 1017 S0953756203007305 PMID 12747324 S2CID 41451034 Wasson Soma p 194 a b Singer R 1986 The Agaricales in modern taxonomy 4th ed Koenigstein West Germany Koeltz Scientific Books ISBN 978 3 87429 254 2 Jenkins DT 1986 Amanita of North America Mad River Press ISBN 978 0 916422 55 4 Tulloss RE Yang Z L 2012 Amanita sect Amanita Studies in the Genus Amanita Pers Agaricales Fungi Retrieved 2013 02 21 Moncalvo JM Drehmel D Vilgalys R July 2000 Variation in modes and rates of evolution in nuclear and mitochondrial ribosomal DNA in the mushroom genus Amanita Agaricales Basidiomycota phylogenetic implications PDF Molecular Phylogenetics and Evolution 16 1 48 63 doi 10 1006 mpev 2000 0782 PMID 10877939 Archived from the original PDF on 6 March 2009 Retrieved 2009 02 16 Drehmel D Moncalvo JM Vilgalys R 1999 Molecular phylogeny of Amanita based on large subunit ribosomal DNA sequences implications for taxonomy and character evolution Mycologia abstract 91 4 610 18 doi 10 2307 3761246 JSTOR 3761246 Archived from the original on 2008 12 28 Retrieved 2009 02 16 Zeitlmayr L 1976 Wild mushrooms an illustrated handbook Hertfordshire UK Garden City Press ISBN 978 0 584 10324 3 a b c Arora D 1986 Mushrooms demystified a comprehensive guide to the fleshy fungi 2nd ed Berkeley Ten Speed Press pp 282 83 ISBN 978 0 89815 169 5 Jordan P Wheeler S 2001 The ultimate mushroom book Hermes House ISBN 978 0 8317 3080 2 Phillips R 2006 Mushrooms Pan MacMillan p 140 ISBN 978 0 330 44237 4 a b Brvar M Mozina M Bunc M May 2006 Prolonged psychosis after Amanita muscaria ingestion Wien Klin Wochenschr 118 9 10 294 7 doi 10 1007 s00508 006 0581 6 PMID 16810488 S2CID 21075349 Haas H 1969 The young specialist Looks at fungi Burke p 94 ISBN 978 0 222 79414 7 Krieger LCC 1967 The mushroom handbook Dover ISBN 978 0 486 21861 8 Grey P 2005 Fungi Down Under the Fungimap guide to Australian fungi Melbourne Royal Botanic Gardens p 21 ISBN 978 0 646 44674 5 Benjamin Mushrooms poisons and panaceas pp 303 04 a b c d Geml J Laursen GA O Neill K Nusbaum HC Taylor DL January 2006 Beringian origins and cryptic speciation events in the fly agaric Amanita muscaria PDF Molecular Ecology 15 1 225 39 Bibcode 2006MolEc 15 225G CiteSeerX 10 1 1 420 2327 doi 10 1111 j 1365 294X 2005 02799 x PMID 16367842 S2CID 10246338 Archived from the original PDF on 2011 07 16 Geml J Tulloss R E Laursen G A et al 2008 Evidence for strong inter and intracontinental phylogeographic structure in Amanita muscaria a wind dispersed ectomycorrhizal basidiomycete PDF Molecular Phylogenetics and Evolution 48 2 694 701 doi 10 1016 j ympev 2008 04 029 PMID 18547823 S2CID 619242 Archived from the original PDF on 2009 03 26 Retrieved 2009 10 28 Tulloss R E 2012 Amanita breckonii Ammirati amp Thiers Studies in the Genus Amanita Pers Agaricales Fungi Tulloss RE Yang Z L Retrieved 2013 02 21 Tulloss R E 2012 Amanita gioiosa S Curreli ex S Curreli Studies in the Genus Amanita Pers Agaricales Fungi Tulloss RE Yang Z L Retrieved 2013 02 21 Tulloss R E 2012 Amanita heterochroma S Curreli Studies in the Genus Amanita Pers Agaricales Fungi Tulloss RE Yang Z L Retrieved 2013 02 21 Amanita muscaria var inzengae Amanitaceae org Taxonomy and Morphology of Amanita and Limacella www amanitaceae org Benjamin Mushrooms poisons and panaceas p 305 Reid DA 1980 A monograph of the Australian species of Amanita Persoon ex Hooker Fungi Australian Journal of Botany Supplementary Series 8 1 96 doi 10 1071 BT8008001 S2CID 89306634 Segedin BP Pennycook SR 2001 A nomenclatural checklist of agarics boletes and related secotioid and gasteromycetous fungi recorded from New Zealand New Zealand Journal of Botany 39 2 285 348 Bibcode 2001NZJB 39 285S doi 10 1080 0028825X 2001 9512739 S2CID 85352273 Reid DA Eicker A 1991 South African fungi the genus Amanita Mycological Research 95 1 80 95 doi 10 1016 S0953 7562 09 81364 6 Wartchow F Maia LC de Queirox Cavalcanti MA 2013 Taxonomic studies of Amanita muscaria L Lam Amanitaceae Agaricomycetes and its infraspecific taxa in Brazil Acta Botanica Brasilica 27 1 31 39 doi 10 1590 S0102 33062013000100005 nbsp a b Fuhrer BA 2005 A field guide to Australian fungi Melbourne Bloomings Books p 24 ISBN 978 1 876473 51 8 Hall IR Stephenson SE Buchanan PK Yn W Cole AL 2003 Edible and poisonous mushrooms of the world New Zealand Institute for Crop amp Food Research Limited pp 130 1 ISBN 978 0 478 10835 4 May T 2006 News from the Fungimap president Fungimap Newsletter 29 1 Robinson R 2010 First Record of Amanita muscaria in Western Australia PDF Australasian Mycologist 29 1 4 6 Keane PJ Kile GA Podger FD 2000 Diseases and pathogens of eucalypts Canberra CSIRO Publishing p 85 ISBN 978 0 643 06523 9 a b c d e Benjamin DR 1992 Mushroom poisoning in infants and children the Amanita pantherina muscaria group Journal of Toxicology Clinical Toxicology 30 1 13 22 doi 10 3109 15563659208994442 PMID 1347320 a b c d Hoegberg LC Larsen L Sonne L Bang J Skanning PG 2008 Three cases of Amanita muscaria ingestion in children two severe courses abstract Clinical Toxicology 46 5 407 8 doi 10 1080 15563650802071703 PMID 18568796 S2CID 115828300 Theobald W Buch O Kunz HA Krupp P Stenger EG Heimann H March 1968 Pharmacological and experimental psychological studies with 2 components of fly agaric Amanita muscaria Arzneimittelforschung in German 18 3 311 5 PMID 5696006 a b c d e Chilton WS 1975 The course of an intentional poisoning MacIlvanea 2 17 a b c d e f Satora L Pach D Butryn B Hydzik P Balicka Slusarczyk B June 2005 Fly agaric Amanita muscaria poisoning case report and review Toxicon 45 7 941 3 doi 10 1016 j toxicon 2005 01 005 PMID 15904689 Cagliari GE 1897 Mushroom poisoning Medical Record 52 298 a b Buck R W August 1963 Toxicity of Amanita muscaria JAMA 185 8 663 4 doi 10 1001 jama 1963 03060080059020 PMID 14016551 Vecchi s death said to be due to a deliberate experiment with poisonous mushrooms PDF The New York Times 19 December 1897 Retrieved 2009 02 02 a b Tupalska Wilczynska K Ignatowicz R Poziemski A Wojcik H Wilczynski G 1996 Zatrucia muchomorami plamistym i czerwonym patogeneza objawy leczenie Poisoning with spotted and red mushrooms pathogenesis symptoms treatment Wiad Lek in Polish 49 1 6 66 71 PMID 9173659 Phillips Roger 2010 Mushrooms and Other Fungi of North America Buffalo NY Firefly Books p 16 ISBN 978 1 55407 651 2 Arora Mushrooms demystified p 894 Mushroom poisoning syndromes North American Mycological Association NAMA website NAMA Archived from the original on 4 April 2009 Retrieved 2009 03 22 a b c d Piqueras J 10 January 1990 Amanita muscaria Amanita pantherina and others IPCS INTOX Databank Retrieved 2008 12 08 Benjamin Mushrooms poisons and panaceas p 310 a b c d Rubel W Arora D 2008 A Study of Cultural Bias in Field Guide Determinations of Mushroom Edibility Using the Iconic Mushroom Amanita Muscaria as an Example PDF Economic Botany 62 3 223 43 doi 10 1007 s12231 008 9040 9 S2CID 19585416 Archived from the original PDF on 2020 11 12 Retrieved 2011 02 09 Shaw Hank 2011 12 24 How to Safely Eat Amanita Muscaia honest food net Archived from the original on 2016 03 04 Dr Patrick Harding Unwrapping the Mysteries of Christmas on YouTube Schmiedeberg O Koppe R 1869 Das Muscarin das giftige Alkaloid des Fliegenpilzes in German Leipzig F C W Vogel OCLC 6699630 Eugster C H July 1968 Active substances from the toadstool Naturwissenschaften in German 55 7 305 13 doi 10 1007 BF00600445 PMID 4878064 S2CID 9153757 Benjamin Mushrooms poisons and panaceas p 306 a b Bowden K Drysdale A C Mogey G A June 1965 Constituents of Amanita muscaria Nature 206 991 1359 60 Bibcode 1965Natur 206 1359B doi 10 1038 2061359a0 PMID 5891274 S2CID 4178793 a b Eugster C H Muller G F Good R June 1965 The active ingredients from Amanita muscaria ibotenic acid and muscazone Tetrahedron Lett in German 6 23 1813 5 doi 10 1016 S0040 4039 00 90133 3 PMID 5891631 Bowden K Drysdale A C March 1965 A novel constituent of Amanita muscaria Tetrahedron Lett 6 12 727 8 doi 10 1016 S0040 4039 01 83973 3 PMID 14291871 Takemoto T Nakajima T Yokobe T December 1964 Structure of ibotenic acid Yakugaku Zasshi in Japanese 84 1232 33 PMID 14266560 Lampe K F 1978 Pharmacology and therapy of mushroom intoxications In Rumack B H Salzman E Eds Mushroom Poisoning Diagnosis and Treatment CRC Press Boca Raton FL pp 125 169 Tsunoda K Inoue N Aoyagi Y Sugahara T 1993 Changes in concentration of ibotenic acid and muscimol in the fruit body of Amanita muscaria during the reproduction stage Food hygienic studies of toxigenic basidiomycotina II pdf J Food Hyg Soc Jpn 34 1 18 24 doi 10 3358 shokueishi 34 18 Jorgensen C G Brauner Osborne H Nielsen B et al May 2007 Novel 5 substituted 1 pyrazolol analogues of ibotenic acid synthesis and pharmacology at glutamate receptors Bioorganic amp Medicinal Chemistry 15 10 3524 38 doi 10 1016 j bmc 2007 02 047 PMID 17376693 Fritz H Gagneux A R Zbinden R Eugster C H 1965 The structure of muscazone Tetrahedron Letters 6 25 2075 76 doi 10 1016 S0040 4039 00 90156 4 a b Garner C D Armstrong E M Berry R E et al May 2000 Investigations of Amavadin Journal of Inorganic Biochemistry 80 1 2 17 20 doi 10 1016 S0162 0134 00 00034 9 PMID 10885458 Hubregtse T Neeleman E Maschmeyer T Sheldon R A Hanefeld U Arends I W May 2005 The first enantioselective synthesis of the amavadin ligand and its complexation to vanadium Journal of Inorganic Biochemistry 99 5 1264 7 doi 10 1016 j jinorgbio 2005 02 004 PMID 15833352 Ott J 1976 Hallucinogenic Plants of North America Berkeley CA Wingbow Press ISBN 978 0 914728 15 3 Vale J A Kulig K American Academy of Clinical Toxicology 2004 Position paper gastric lavage Journal of Toxicology Clinical Toxicology 42 7 European Association of Poisons Centres and Clinical Toxicologists 933 43 doi 10 1081 CLT 200045006 PMID 15641639 S2CID 29957973 American Academy Of Clinical Toxico European Association Of Poisons Cen 2004 Position paper Ipecac syrup Journal of Toxicology Clinical Toxicology 42 2 133 43 doi 10 1081 CLT 120037421 PMID 15214617 S2CID 218865551 Dart R C 2004 Medical toxicology Philadelphia PA Lippincott Williams amp Wilkins pp 1719 35 ISBN 978 0 7817 2845 4 Brent J Wallace K L Burkhart K K Phillips S D Donovan J W 2005 Critical care toxicology diagnosis and management of the critically poisoned patient Philadelphia PA Elsevier Mosby pp 1263 75 ISBN 978 0 8151 4387 1 Benjamin Mushrooms poisons and panaceas p 313 Bosman C K Berman L Isaacson M Wolfowitz B Parkes J October 1965 Mushroom poisoning caused by Amanita pantherina Report of 4 cases South African Medical Journal 39 39 983 86 PMID 5892794 Hallucinogenic mushrooms an emerging trend case study PDF Lisbon European Monitoring Centre for Drugs and Drug Addiction 2006 p 17 ISBN 978 92 9168 249 2 Archived from the original PDF on 2012 03 29 Retrieved 2009 02 13 Wasson R Gordon 1980 The Wondrous Mushroom Mycolatry in Mesoamerica McGraw Hill pp 43 44 ISBN 978 0 07 068443 0 Wasson Soma p 161 Diaz J 1996 How Drugs Influence Behavior A Neurobehavioral Approach Upper Saddle River N J Prentice Hall ISBN 978 0 02 328764 0 Ramsbottom p 45 Wasson Soma pp 234 35 Lee MR Dukan E Milne I 2018 Amanita muscaria fly agaric from a shamanistic hallucinogen to the search for acetylcholine Journal of the Royal College of Physicians of Edinburgh 48 1 85 91 doi 10 4997 jrcpe 2018 119 ISSN 1478 2715 PMID 29741535 S2CID 13693096 Wasson Soma p 279 Mochtar S G Geerken H 1979 The Hallucinogens Muscarine and Ibotenic Acid in the Middle Hindu Kush A contribution on traditional medicinal mycology in Afghanistan Afghanistan Journal in German 6 Translated by P G Werner 62 65 Archived from the original on 17 February 2009 Retrieved 2009 02 23 Several Shutulis asserted that Amanita extract was administered orally as a medicine for treatment of psychotic conditions as well as externally as a therapy for localised frostbite Peschel Keewaydinoquay 1978 Puhpohwee for the people a narrative account of some uses of fungi among the Ahnishinaubeg Cambridge MA Botanical Museum of Harvard University ISBN 978 1 879528 18 5 Navet E 1988 Les Ojibway et l Amanite tue mouche Amanita muscaria Pour une ethnomycologie des Indiens d Amerique du Nord Journal de la Societe des Americanistes in French 74 1 163 80 doi 10 3406 jsa 1988 1334 Letcher p 149 Larsen S 1976 The Shaman s Doorway New York NY Station Hill Press ISBN 978 0 89281 672 9 Xulu Melanie 2017 12 12 Santa Claus the Magic Mushroom amp the Psychedelic Origins of Christmas MOOF Retrieved 2020 12 26 Magic mushrooms amp Reindeer Weird Nature BBC animals YouTube www youtube com Archived from the original on 2021 12 11 Retrieved 2020 12 26 a b Kevin Feeney 2020 Fly Agaric A Compendium of History Pharmacology Mythology amp Exploration ResearchGate Retrieved 2020 12 26 a b Campbell Olivia Dec 21 2023 What does Santa have to do with psychedelic mushrooms National Geographic Retrieved 2023 12 22 in Swedish Odmann S 1784 Forsok at utur Naturens Historia forklara de nordiska gamla Kampars Berserka gang An attempt to Explain the Berserk raging of Ancient Nordic Warriors through Natural History Kongliga Vetenskaps Academiens nya Handlingar 5 240 247 In Wasson 1968 a b Hoffer A Osmond H 1967 The Hallucinogens Academic Press pp 443 54 ISBN 978 0 12 351850 7 Fatur Karsten 2019 11 15 Sagas of the Solanaceae Speculative ethnobotanical perspectives on the Norse berserkers Journal of Ethnopharmacology 244 112151 doi 10 1016 j jep 2019 112151 ISSN 0378 8741 PMID 31404578 S2CID 199548329 Wasson Soma p 10 Letcher p 145 Wasson Soma p 18 Wasson Soma pp 36 37 Wasson Soma pp 22 24 Letcher p 146 Brough J 1971 Soma and Amanita muscaria Bulletin of the School of Oriental and African Studies 34 2 331 62 doi 10 1017 S0041977X0012957X S2CID 84458441 Furst Peter T 1976 Hallucinogens and Culture Chandler amp Sharp pp 96 108 ISBN 978 0 88316 517 1 Flattery David Stophlet Schwartz Martin 1989 01 01 Haoma and Harmaline The Botanical Identity of the Indo Iranian Sacred Hallucinogen soma and Its Legacy in Religion Language and Middle Eastern Folklore University of California Press ISBN 978 0 520 09627 1 Allegro J 1970 The Sacred Mushroom and the Cross A Study of the Nature and Origins of Roman Theology within the Fertility Cults of the Ancient Near East London Hodder amp Stoughton ISBN 978 0 340 12875 6 Letcher p 160 King J C 1970 A Christian View of the Mushroom Myth London Hodder amp Stoughton ISBN 978 0 340 12597 7 Letcher p 161 Lumpert 2016 Catching flies with Amanita muscaria traditional recipes from Slovenia and their efficacy in the extraction of ibotenic acid Journal of Ethnopharmacology 187 1 8 doi 10 1016 j jep 2016 04 009 PMID 27063872 Viess Debbie Further Reflections on Amanita muscaria as an Edible Species Coville F V 1898 Observations on Recent Cases of Mushroom Poisoning in the District of Columbia United States Department of Agriculture Division of Botany U S Government Printing office Washington D C Phipps A G Bennett B C Downum K R 2000 Japanese use of Beni tengu dake Amanita muscaria and the efficacy of traditional detoxification methods Thesis Florida International University Miami Florida Art Registry 1750 1850 Mykoweb Archived from the original on 2 February 2009 Retrieved 2009 02 26 Benjamin Mushrooms poisons and panaceas p 295 The Registry of Mushrooms in Works of Art Mykoweb Archived from the original on 1 February 2009 Retrieved 2009 02 16 Michelot Didier Melendez Howell Leda Maria February 2003 Amanita muscaria chemistry biology toxicology and ethnomycology Mycological Research 107 2 131 146 doi 10 1017 s0953756203007305 ISSN 0953 7562 PMID 12747324 Mushrooms in Victorian Fairy Paintings by Elio Schachter Mushroom the Journal of Wild Mushrooming Archived from the original on 15 January 2009 Retrieved 2009 02 16 The Top 11 Video Game Powerups UGO Networks Archived from the original on October 28 2008 Li C Oberlies N H December 2005 The most widely recognized mushroom chemistry of the genus Amanita PDF Life Sciences 78 5 532 38 doi 10 1016 j lfs 2005 09 003 PMID 16203016 Ramsbottom p 43 Letcher p 122 Letcher p 123 Letcher p 125 Letcher p 126 Letcher p 127 Pynchon T 1995 Gravity s Rainbow New York Penguin Books pp 92 93 ISBN 978 0 09 953321 4 Letcher p 129 Works cited edit Allegro John 2009 The sacred mushroom and the cross 40th anniversary ed Crestline CA Gnostic Media ISBN 978 0 9825562 7 6 Arora David 1986 Mushrooms demystified a comprehensive guide to the fleshy fungi 2nd ed Berkeley Ten Speed Press ISBN 978 0 89815 169 5 Benjamin Denis R 1995 Mushrooms poisons and panaceas a handbook for naturalists mycologists and physicians New York WH Freeman and Company ISBN 978 0 7167 2600 5 Furst Peter T 1976 Hallucinogens and Culture Chandler amp Sharp pp 98 106 ISBN 978 0 88316 517 1 Letcher Andy 2006 Shroom A Cultural history of the magic mushroom London Faber and Faber ISBN 978 0 571 22770 9 Ramsbottom J 1953 Mushrooms amp Toadstools Collins ISBN 978 1 870630 09 2 Wasson R Gordon 1968 Soma Divine Mushroom of Immortality Harcourt Brace Jovanovick ISBN 978 0 88316 517 1 External links edit nbsp Wikimedia Commons has media related to Amanita muscaria nbsp Wikispecies has information related to Amanita muscaria Webpages on Amanita species by Tulloss and Yang Zhuliang Amanita on erowid org Aminita muscaria Amanita pantherina and others Group PIM G026 by IPCS INCHEM Retrieved from https en wikipedia org w index php title Amanita muscaria amp oldid 1221534621, wikipedia, wiki, book, books, library,

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