| Revision as of 18:55, 21 January 2007 editUberMan5000 (talk | contribs)Extended confirmed users2,591 editsm →Children's culture← Previous edit | Revision as of 10:59, 26 January 2007 edit undoCasliber (talk | contribs)Edit filter managers, Administrators200,918 edits rewrite intro moreNext edit → | ||
| (One intermediate revision by the same user not shown) | |||
| Line 28: | Line 28: | ||
| | howEdible=poisonous | | howEdible=poisonous | ||
| | howEdible2=psychoactive}} | | howEdible2=psychoactive}} | ||
| The Fly agaric ('''''Amanita muscaria''''') is a ] ] of the genus '']''. The quintessential ], it is a large imposing white-gilled white-spotted red ], one of the most recognizable and widely encountered in popular culture. Though it is generally considered poisonous, ''Amanita muscaria'' is otherwise famed for its ] properties. It had a religious significance in Siberian culture and possibly ancient India and Scandinavia. Since mediaeval times it has been used as an insecticide, from where it derives its name. | |||
| Native to both Europe and North America, ''Amanita muscaria'' has been unintentionally conveyed to many countries in the southern hemisphere, generally as a ] with pine plantations, and is now a true cosmopolitan species. | |||
| == Description == | == Description == | ||
Revision as of 10:59, 26 January 2007
| Amanita muscaria | |
|---|---|
| |
| Amanita muscaria, near Tyndrum, Scotland | |
| Conservation status | |
| Template:StatusSecure | |
| Scientific classification | |
| Kingdom: | Fungi |
| Division: | Basidiomycota |
| Class: | Homobasidiomycetae |
| Subclass: | Hymenomycetes |
| Order: | Agaricales |
| Family: | Amanitaceae |
| Genus: | Amanita |
| Species: | A. muscaria |
| Binomial name | |
| Amanita muscaria (Linnaeus) Hook. | |
Amanita muscaria Mycological characteristics | |
|---|---|
 | Gills on hymenium |
 | Cap is flat or convex |
 | Hymenium is free |
 | Stipe has a ring and volva |
 | Spore print is white |
 | Ecology is mycorrhizal |
 | Edibility is poisonous or psychoactive |
The Fly agaric (Amanita muscaria) is a basidiomycete fungus of the genus Amanita. The quintessential toadstool, it is a large imposing white-gilled white-spotted red mushroom, one of the most recognizable and widely encountered in popular culture. Though it is generally considered poisonous, Amanita muscaria is otherwise famed for its hallucinogenic properties. It had a religious significance in Siberian culture and possibly ancient India and Scandinavia. Since mediaeval times it has been used as an insecticide, from where it derives its name.
Native to both Europe and North America, Amanita muscaria has been unintentionally conveyed to many countries in the southern hemisphere, generally as a symbiont with pine plantations, and is now a true cosmopolitan species.
Description
Amanita muscaria is a large distinctive mushroom, generally common and numerous where it grows, often being found in groups with basidiocarps in all stages of development. Fully grown, the bright red cap is usually around 8-20 cm (3-8 inches) in diameter, though sometimes larger ones are found, and is covered with numerous small white to yellow flecks (warts). It is worth noting that the red colour may fade after rain and in older mushrooms. The warts are remnants of the universal veil, a membrane that encloses the entire mushroom when it is still very young. The gills are white, as is the sporeprint. The stem is white, 5-20 cm high (approximately 2-8 inches), with a basal bulb that bears universal veil remnants, in the form of a ragged collar or group of more or less distinct rings or ruffs that circles the base of the stalk (or stipe). The white ring can be quite wide and flaccid. There is generally no associated smell.
showing various growth stages.
Fly agaric fruiting bodies emerge from the soil looking like a white egg, covered in the white warty material of the universal veil. As the fungus grows, the red colour appears through the broken veil, and the cap changes from bell-shaped to hemispherical and finally flattening in mature specimens.
Though very distinctive, the fly agaric has been mistaken for other yellow to red species in the Americas such as Armillaria cf. mellea and the edible Amanita basii, a Mexican species similar to A. caesarea of Europe. Poison control centers in the U.S. and Canada are aware that "amarillo" is a common name of caesarea-like species in Mexico, not just the Spanish for 'yellow'.
Amanita caesarea can be distinguished as it has an entire orange red cap, lacking the numerous white warty spots of the fly agaric. Furthermore the stem, gills and ring are bright yellow, not white. Finally the volva is a distinct white bag, not broken into scales.
In Australia, the introduced fly agaric may be confused with the local Amanita xanthocephala, which grows in association with Eucalypts. This species also generally lacks the white warts of A. muscaria and bears no ring.
Origin of the name
The common names in English, "fly agaric", and German, "Fliegenpilz", come from its European use as an insecticide, sprinkled in milk. This practice was first recorded by Albertus Magnus in his work De vegetabilibus sometime before 1256, commenting:
"vocatur fungus muscarum, eo quod in lacte pulverizatus interficit muscas"
("It is called the mushroom of flies, because crushed in milk it kills flies")
This was known to Linnaeus who gave it the name "Agaricus muscarius", the specific name deriving from Latin musca meaning "fly". The flykilling agent is now known to be ibotenic acid.
Fly agaric is still used in this manner in parts of eastern Europe such as Poland and Romania. In England and Sweden it was also used for getting rid of bugs, and Bug Agaric was an old alternate name.
Classification
Amanita muscaria is a member of the large genus Amanita, of which there are many deadly poisonous as well as some edible species. The highly poisonous Panther Cap (Amanita pantherina) is somewhat similar in appearance though brown rather than red. Other red Amanitas include the previously mentioned edible Caesar's mushroom (Amanita caesarea).
Two recent molecular studies show that Amanita muscaria's close relatives in the genus appear to be Amanita gemmata, A. farinosa and A. roseitincta.
Varieties
Middlesex Fells, Massachusetts
Other varieties have similar appearance to var. muscaria, but differ most conspicuously in cap colour:
- Var. alba, an uncommon fungus, has a white to silvery white cap with white warts but otherwise similar to the usual form. Fruiting in August and September, it is restricted to mixed coniferous and deciduous forests in northern North America.
- Var. americana has a yellow or yellow-orange cap
- Var. aureola is found in southern Europe, and has an orange cap.
- Var. flavivolvata is red, with yellow warts, and occurs in the western regions of the North American continent, from southern Alaska down through the Rocky Mountains, Costa Rica to at least Andean Colombia. It contains similar poisons to var. muscaria.
- Var. formosa, found in Europe, has an orange-yellow cap with yellowish or tan warts and stem.
- Var. guessowii is yellow to orange, with center of cap more orange or reddish orange than the outer part, apparently restricted to northeastern North America, from Newfoundland and Quebec down to Tennessee.
- Var. persicina is pinkish to orangish "melon" colored with poorly formed or absent remnants of universal veil on the stem and vasal bulb, known from the Southeastern Coastal areas of the U.S.A, described in 1977.
- Var. regalis, from Scandinavia and Alaska, is liver-brown and has yellow warts. It appears to be uniformly distinctive and some authorities treat it as a separate species (A. regalis) though at least one DNA study does not support this.
Distribution and habitat
Amanita muscaria is a cosmopolitan mushroom, found naturally in birch, pine, spruce and fir woodlands across the northern hemisphere from the British Isles to Siberia, and North America. It has been widely transported into the southern hemisphere, including Australia, New Zealand, South Africa and South America, where it usually occurs under introduced pine trees.
In Australia it appears to have formed new associations with southern beech (Nothofagus) in Tasmania and Victoria and invading native rainforest.
When imported to a new country, A. muscaria can jump to native species (for example, Eucalyptus in Australia). It can then be exported with its new symbiont (for example, from Australia to Argentina).
A recent molecular study proposes an ancestral origin in the Siberian–Beringian region in the Tertiary period before radiating outwards across Asia, Europe and North America.
Toxicity
You must add a |reason= parameter to this Cleanup template – replace it with {{Cleanup|section|reason=<Fill reason here>}}, or remove the Cleanup template.
The active principle in Amanita muscaria was, until quite recently, thought to be muscarine. Dr. Albert Hofmann and Dr. Richard Schultes have discovered, in tandem with Dr. Eugster in Switzerland and Dr. Takemoto in Japan, mainly ibotenic acid and muscimole as the active principles. The ibotenic acid fraction is converted, via the refluxing in water, into muscimole. Inconsequential amounts of other alkaloids are present, but largely inactive mentally.
Muscarine is also present in this mushroom in tiny amounts and is converted to muscimole during the reflux as well. It remains intact in the raw mushroom, however.
Consuming more than about one gram of A. muscaria can cause nausea and a number of other effects, depending on dosage, ranging from twitching to drowsiness, cholinergic effects (lower blood pressure, increase sweat and saliva), visual distortions, mood changes, euphoria, relaxation, and hallucinations.
In near-fatal doses it causes swollen features and delirium, characterised by bouts of marked agitation followed by periods of quiet hallucination. Effects appear after around 60 minutes and typically peak within three hours, but certain effects can last for up to ten hours. The effect is highly variable and individuals can react quite differently to the same dose.
Deaths from A. muscaria are extremely rare. Fatal doses have occurred in North America (var. guessowii). The amount and ratio of chemical compounds per mushroom varies widely from region to region, season to season, further confusing the issue. Many older books list it as deadly, giving the impression that it is far more toxic than it really is. The vast majority of mushroom poisoning fatalities (90% or more) are from having eaten either the greenish to yellowish to brownish mottled death cap (A. phalloides) or one of the destroying angels (Amanita virosa), several overall white Amanita species.
The toxic substances of A. muscaria are water soluble and susceptible to heat. The mushroom can be at least partly de-toxified by thoroughly parboiling or leaching it in boiling water. According to some sources, once detoxified, the mushroom becomes edible.
Some people who use the heated or dried mushrooms for their psychoactive effects believe they are toxic to the liver with repeated use. It is seen as similar to, but more acute, than the use of alcohol.
Chemistry
The mushroom contains a number of psychoactive agents: ibotenic acid, muscimol, muscazone and muscarine, of which muscimol (3hydroxy-5-aminomethy-1 isoxazole, an unsaturated cyclic hydroxamic acid) is the most significant. Muscarine, discovered in 1869, was long thought to be the active hallucinogenic agent in A. muscaria until late 1960s, when scientists recognized it as ibotenic acid and muscimol. Some users cook the mushroom before ingestion, because it is said that the ibotenic acid turns into muscimol under this heat. This supposedly removes several unpleasant side effects due to the conversion of the much more toxic ibotenic acid into muscimol.
Muscarine binds with Muscarinic acetylcholine receptor and lead to the excitation of the neurons bearing these receptors.
Psychoactive properties
Although the fly agaric is not related to other psychoactive fungi such as the Psilocybe species, it has been used as an entheogen in rituals to communicate to the spirit world, largely in Siberia, with some reported incidents elsewhere in the northern hemisphere. Mesoamericans never consumed fly agaric for religion, but instead use Psilocybe. Psilocybe and Amanita are not chemically related with regard to their psychoactive properties and therefore produce markedly different psychoactive effects.
The active ingredient is excreted in the urine of those consuming the mushrooms, and it has sometimes been the practice for a shaman to consume the mushrooms, and the rest of the tribe to drink his urine: the shaman, in effect, partially detoxifying the drug (the sweat- and twitch-causing muscarine is absent in the urine). This was also not an uncommon practice in Siberia, where the poor would consume the urine of the wealthy, who could afford to buy the mushrooms. If a fly agaric is eaten, it is usually not fresh, but in its sun-dried form, where the hallucinogenic chemicals are more concentrated (ibotenic acid converted to the more stable and far less poisonous muscimol).
The notion that Nordic Vikings used Amanita muscaria to produce their berserker rages was first suggested by the Swedish professor Samuel Ödman in 1784. Ödman 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. Today, it is generally considered an urban legend or at best speculation that cannot be proven. Muscimole is a mild relaxant, and is unlikely to cause violent rage.
Mythology and religion
Koryak Siberians 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, can learn from it.
Finno-Ugric peoples have traditionally used Amanita muscaria as entheogen.
Amanita muscaria is widely thought to be the Soma talked about in Rig Veda of India, and is less often also thought to be the amrita talked about in Buddhist scriptures.
John Marco Allegro argues in The Sacred Mushroom and the Cross that the Christian religion is derived from a sex and psychedelic mushroom cult.
Ethnobotanist and ethnomycologist Giorgio Samorini suggests in his book "Animals and Psychedelics" a symbiotic relationship between toads, flies and fly agaric. Flies, after a lick of Amanita Muscaria become inebriated and delirious prey for hungry toads that may have learned this, therefore hanging out around toadstools. This relationship within nature illuminates an etymological keystone and example of zoopharmacognosy. This would also provide further biosemiotic insight into the ancient mystery of toads, flies and mushrooms appearing together in popular mythology and fairy lore.
In a 2005 interview with Steven Scott, authors Hawk and Venus discuss Amanita muscaria as their daily sacrament. They claim that shamanic preparation and use of the mushroom results in higher levels of consciousness.
The British writer Robert Graves theorizes in a preface to his book, The Greek Myths, that the Dionysian saturnalias were conducted under the influence of this mushroom.
Legality
Template:Globalize/USA Amanita muscaria is un-scheduled in the United States. Any sales of Amanita muscaria for human ingestion are regulated by the FDA.
Popular culture
The red-and-white spotted toadstool is a common image in popular culture; a partly grown Amanita muscaria, as shown left, is clearly the fungus which this icon is based on.
Children's culture
Garden ornaments, and children's picture books depicting gnomes and fairies, such as Smurf, very often show fly agaric mushrooms used as seats, or homes; it is rather uncommon for any other identifiable mushroom to be shown in this role. How this artistic convention arose is not known. Two of the most famous use of the mushroom are in the video game series Super Mario Bros. and the dancing mushroom sequence in the 1940 Disney film Fantasia.
Art
The mushroom is mentioned in the song "The Flowers of Guatemala" by the American band R.E.M., providing the song's central image.
The band Shelleyan Orphan has an instrumental song entitled "Amanita Muscaria" on their 1989 album "Century Flower".
Santa Claus
The ethnobotanist Jonathan Ott has suggested that the idea of Santa Claus and the tradition of hanging stockings over the fireplace is based centrally upon the fly agaric mushroom itself. With its generally red and white color scheme, he argues that Santa Claus's suit is related to the mushroom. He also draws parallels with flying reindeer: reindeer are said to enjoy the mushroom because of its euphoric results, and therefore prance around in a hallucinogenic after-effect. A direct connection to Santa Claus is not very likely, as until the 20th century, the red-and-white Santa suit familiar today was not especially common (see also: Origins of Santa Claus). One scholar researching possible links between religious myths and the red mushroom notes, "If Santa Claus had but one eye , or if magic urine had been a part of his legend, his connection to the Amanita muscaria would be much easier to believe."
Ott also speculates about Santa's bag of toys. According to historians, ancient Siberia was one of the first civilizations to use fly agaric in practice. The Siberian hut, or yurt, is equipped with a smokehole at the top. Ott suggests that a shaman entered the yurt through the smokehole with a sack of mushrooms in his hand, to be placed in stockings over the fireplace where they could be dried for celebratory use.
Computer games
For uses of the mushroom in computer games, see: Mushrooms in computer games.
Footnotes
- Jordan P & Wheeler S (2001). The Ultimate Mushroom Book. Hermes House.
- Zeitlmayr L (1976). Wild Mushrooms:An Illustrated Handbook. garden City Press, Hertfordshire. ISBN 0-584-10324-7.
- Haas H (1969). The Young Specialist Looks at Fungi. Burke.
- Krieger LCC (1967). The Mushroom Handbook. Dover. ISBN 486-21861-9.
{{cite book}}: Check|isbn=value: length (help) - ^ Ramsbottom J (1953). Mushrooms & Toadstools. Collins. ISBN.
- Nilson S & Persson O (1977). Fungi of Northern Europe 2: Gill-Fungi. Penguin.
- Moncalvo J-M, Drehmel D, & Vilgalys R. (2000). Variation in modes and rates of evolution in nuclear and mitochondrial ribosomal DNA in the mushroom genus Amanita (Agaricales, Basidiomycota): phylogenetic implications. Molecular Phylogenetic and Evolution 16:48-63.
- Drehmel D, Moncalvo J-M, & Vilgalys R. (1999). Molecular phylogeny of Amanita based on large subunit ribosomal DNA sequences: implications for taxonomy and character evolution. Mycologia 91:610-618
- Phillips R (1991). Mushrooms of North America. Little, Brown & Co. ISBN.
- Jenkins DT. (1977). A taxonomic and nomenclatural study of the genus Amanita section Amanita for North America. Biblioth. Mycol. 57: 126 pp
- Miller OK (1982) Higher fungi in Alaskan subarctic tundra and taiga plant communities. Arctic and Alpine Mycology: the First International Symposium on Arcto-Alpine Mycology (eds Laursen GA, Ammirati JF), 123–149. University of Washington Press, Seattle and London.
- ^ Geml J, Laursen GA, O’neill K, Nusbaum HC & Taylor DL (2006)Beringian origins and cryptic speciation events in the fly agaric (Amanita muscaria) Molecular Ecology 15, 225–239
- Reid DA (1980) A monograph of the Australian species of Amanita Persoon ex Hooker (Fungi). Australian Journal of Botany, 8, 1–96
- Reid DA, Eicker A (1991) South African fungi: the genus Amanita. Mycological Research, 95, 80–95.
- Fuhrer, Bruce (2005) A Field Guide to Australian Fungi. Bloomings Books. ISBN 1-876473-51-7
- http://www.williamrubel.com/mushrooms/amanita-muscaria/
- ^ Wasson, R. Gordon. (1968). Soma: The Divine Mushroom of Immortality. Harcourt Brace Jovanovick, Inc.
-
Alan Bellows (January 21 2006). "Urine For a Treat". Damn Interesting. Retrieved 2006-11-08.
{{cite news}}: Check date values in:|date=(help) - http://leda.lycaeum.org/?ID=14032
- Ödman S .(1784) Försök at utur Naturens Historia förklara de nordiska gamla Kämpars Berserka-gang (An attept to Explain the Berserk-raging of Ancient Nordic Warriors through Natural History) Nya Handlingar, publ. Kungliga Vetenskaps Akademien 5 Stockholm. 240-247
- Hajicek-Dobberstein, Scott. 1995. Soma siddhas and alchemical enlightenment: psychedelic mushrooms in Buddhist tradition. Journal of Ethnopharmacology, vol. 48, pp. 99-118.
- Allegro, John. (1970). The Sacred Mushroom and the Cross: A Study of the Nature and Origins of Christianity within the Fertility Cults of the Ancient Near East. London: Hodder and Stoughton. ISBN 0-340-12875-5.
-
Steven Scott (December 29 2005). "The High Shamans of Soma". Cannabis Culture. Retrieved 2006-11-18.
{{cite news}}: Check date values in:|date=(help) - Graves R. (1955) The Greek Myths, London: Penguin. ISBN 0-14-001026-2
- Ott 1976, p. 97 harvnb error: no target: CITEREFOtt1976 (help)
- Wasson 1968, p. 168 harvnb error: no target: CITEREFWasson1968 (help)
- Hajicek-Dobberstein 1995, p. 117 harvnb error: no target: CITEREFHajicek-Dobberstein1995 (help)
Bibliography
- Heinrich, Clark. Strange Fruit. Retitled by the publisher as 'Magic Mushrooms in Religion and Alchemy'. Excellent view of Amanita Muscaria in the history of the world's religions.
- Högberg, Ole. Flugsvampen och människan. Section concerning the berserker myth is published online (In Swedish and PDF format) ISBN 91-7203-555-2
- Ott, J. 1976. Hallucinogenic Plants of North America. Wingbow Press, Berkeley.
External links
- James Arthur - Mushrooms and Mankind
- Detailed medical and scientific review of the amanita muscaria
- California fungi page on Amanita muscaria
- The psychedelic secrets of Santa Claus An article which suggests modern Christmas traditions are based on ancient Amanita muscaria eating shamans of the northern steppes
- Fly Agaric, Father Christmas and Lunch with a Toxicologist
- Amanita Muscaria: Fungus of the Month
- Habitat and growing conditions
- The Erowid Amanitas Vault
- The Pharmacratic Inquisition Documentary about the mythology and symbolism of Amanita muscaria.