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Gyromitra esculenta

October 27, 2023

Gyromitra esculenta /ˌrˈmtrə ˌɛskjəˈlɛntə, ˌɪrə-/[2] is an ascomycete fungus from the genus Gyromitra, widely distributed across Europe and North America. It normally fruits in sandy soils under coniferous trees in spring and early summer. The fruiting body, or mushroom, is an irregular brain-shaped cap dark brown in colour that can reach 10 centimetres (4 inches) high and 15 cm (6 in) wide, perched on a stout white stipe up to 6 cm (2+12 in) high.

Gyromitra esculenta
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Pezizomycetes
Order: Pezizales
Family: Discinaceae
Genus: Gyromitra
Species:
G. esculenta
Binomial name
Gyromitra esculenta
(Pers. ex Pers.) Fr. (1849)
Synonyms[1]
  • Helvella esculenta Pers. (1800)
  • Physomitra esculenta (Pers.) Boud. (1907)
Gyromitra esculenta
Smooth hymenium
Cap is convex
Hymenium attachment is not applicable
Stipe is bare
Spore print is yellow to buff
Ecology is saprotrophic or mycorrhizal
Edibility is deadly or choice

Although potentially fatal if eaten raw, Gyromitra esculenta is a popular delicacy in Scandinavia, Eastern Europe, and the upper Great Lakes region of North America. Although popular in some districts of the eastern Pyrenees, it is prohibited from sale to the public in Spain. It may be sold fresh in Finland, but it must be accompanied by warnings and instructions on correct preparation.

Although it is still commonly parboiled before preparation, evidence suggests that even this procedure may not make Gyromitra esculenta entirely safe for consumption.[3] When consumed, the principal active agent, gyromitrin, is hydrolyzed into the toxic compound monomethylhydrazine (MMH), a type of rocket fuel. The toxin affects the liver, central nervous system, and sometimes the kidneys. Symptoms of poisoning involve vomiting and diarrhea several hours after consumption, followed by dizziness, lethargy and headache. Severe cases may lead to delirium, coma and death after five to seven days.

Taxonomy and naming Edit

The fungus was first described in 1800, by mycologist Christian Hendrik Persoon, as Helvella esculenta,[4] and gained its current accepted binomial name when the Swedish mycologist Elias Magnus Fries placed it in the genus Gyromitra in 1849.[5] The genus name is derived from the Greek terms gyros/γυρος "round" and mitra/μιτρα "headband".[6] Its specific epithet is derived from the Latin esculentus, "edible".[7]

It is known by a variety of common descriptive names such as "brain mushroom",[8] "turban fungus",[9] elephant ears,[10] or "beefsteak mushroom/morel", although beefsteak mushroom can also refer to the much less toxic basidiomycete Fistulina hepatica.[11] Dating from the 19th century, the German term lorchel is a result of the older lorche, itself from the 18th century Low German Lorken, aligning with the similar-sounding (and similar-looking) morchel.[12][13]

Gyromitra esculenta is a member of a group of fungi known as "false morels", so named for their resemblance to the highly regarded true morels of the genus Morchella. The grouping includes other species of the genus Gyromitra, such as G. infula (elfin saddle), G. caroliniana and G. gigas (snow morel). While some of these species contain little to no gyromitrin, many guidebooks recommend treating them all as poisonous, since their similar appearance and significant intraspecific variation can make reliable identification difficult.[14] The toxic qualities of G. esculenta may be reduced by cooking, but possibly not enough to prevent poisoning from repeated consumption.[15]

The more distantly related ascomycete mushrooms of the genus Verpa, such as V. bohemica and V. conica, are also known as false morels, early morels or thimble morels; like the Gyromitra, they are eaten by some and considered poisonous by others.[16]

The genus Gyromitra had been classically considered part of the family Helvellaceae, along with the similar-looking elfin saddles of the genus Helvella. Analysis of the ribosomal DNA of many of the Pezizales showed Gyromitra esculenta and the other false morels to be only distantly related to the other members of the Helvellaceae and instead most closely related to the genus Discina, forming a clade which also contains Pseudorhizina and Hydnotrya. Thus the four genera are now included in the family Discinaceae.[17]

Description Edit

 
A younger specimen with a less wrinkled cap

Resembling a brain, the irregularly shaped cap may be up to 10 cm (4 in) high and 15 cm (6 in) wide. Initially smooth, it becomes progressively more wrinkled as it grows and ages. The cap colour may be various shades of reddish-, chestnut-, purplish-, bay-, dark or sometimes golden-brown; it darkens to black in age.[18] Specimens from California may have more reddish-brown caps.[8] Attached to the cap at several points, the stipe is 3–6 cm (1–2+12 in) high and 1–5 cm (12–2 in) wide.[19] Gyromitra esculenta has been reported to have a solid stipe whereas those of true morels (Morchella spp.) are hollow,[20] although a modern source says it is hollow as well.[18] The smell can be pleasant and has been described as fruity, and the fungus is mild-tasting. The spore print is whitish, with transparent spores that are elliptical and 17–22 μm in length.[21]

Similar species Edit

Gyromitra esculenta resembles the various species of true morel, although the latter are more symmetric and look more like pitted gray, tan, or brown sponges. Its cap is generally darker and larger.[22]

Gyromitra gigas, G. infula and G. ambigua in particular are similar.[19] The latter two are toxic to humans.[18]

Distribution and habitat Edit

Gyromitra esculenta grows on sandy soil in Temperate coniferous forest and occasionally in deciduous woodlands. Among conifers it is mostly found under pines (Pinus spp.), but also sometimes under aspen (Populus spp.).[23] The hunting period is from April to July, earlier than for other species, and the fungus may even sprout up with the melting snow.[8] It can be abundant in some years and rare in others. The mushroom is more commonly found in places where ground has been disturbed, such as openings, rivulets, washes, timber clearings, plowed openings, forest fire clearings, and roadsides.[20] Enthusiasts in Finland have been reported burying newspaper inoculated with the fungus in the ground in autumn and returning the following spring to collect mushrooms.[24]

Although more abundant in montane and northern coniferous woodlands such as the Sierra Nevada and the Cascade Range in northwestern North America, Gyromitra esculenta is found widely across the continent,[8] as far south as Mexico.[25] It is also common in Central Europe, less abundant in the east, and more in montane areas than lowlands.[9] It has been recorded from Northern Ireland,[26] from Uşak Province in Western Turkey,[27] and from the vicinity of Kaş in the Antalya Province of Turkey's southern coast.[28]

Toxicity Edit

 
For sale with warning sign, Market Square, Helsinki

Toxic reactions have been known for at least a hundred years. Experts speculated the reaction was more of an allergic one specific to the consumer, or a misidentification, rather than innate toxicity of the fungus, due to the wide range in effects seen. Some would suffer severely or perish while others exhibited no symptoms after eating similar amounts of mushrooms from the same dish. Yet others would be not poisoned after eating Gyromitra esculenta for many years[29] However, the fungus is now widely recognized as potentially deadly.[30]

Gyromitra esculenta contains levels of the poison gyromitrin that vary locally among populations; although these mushrooms are only rarely involved in poisonings in either North America or western Europe, intoxications are seen frequently in eastern Europe and Scandinavia.[31] A 1971 Polish study reported at the time that the species accounted for up to 23% of mushroom fatalities each year.[32] Death rates have dropped since the mid-twentieth century; in Sweden poisoning is common, though life-threatening poisonings have not been detected and there was no fatality reported over the 50 years from 1952 to 2002.[33] Gyromitra poisonings are rare in Spain, due to the widespread practice of drying the mushrooms before preparation and consumption,[34] but has a mortality rate of about 25%.[35]

A lethal dose of gyromitrin has been estimated to be 10–30 mg/kg for children and 20–50 mg/kg in adults. These doses correspond to around 0.2–0.6 kg (7 oz – 1 lb 5 oz) and 0.4–1 kg (14 oz – 2 lb 3 oz) of fresh mushroom respectively.[36] Evidence suggests that children are more severely affected; it is unclear whether this is due to a larger weight consumed per body mass ratio or to differences in enzyme and metabolic activity.[37]

Geographical variation Edit

Populations of Gyromitra esculenta appear to vary geographically in their toxicity. A French study has shown that mushrooms collected at higher altitudes have lower concentrations of toxin than those from lower elevations,[37] and there is some evidence that fungi west of the Rocky Mountains in North America contain less toxin than those to the east.[38] However, poisonings in the west have been reported,[39] although less frequently than in Europe.[40]

Biochemistry Edit

 
MMH (C H3N2H3), a toxic metabolite

The identity of the toxic constituents eluded researchers until 1968, when acetaldehyde N-methyl-N-formylhydrazone, better known as gyromitrin, was isolated.[41] Gyromitrin is a volatile water-soluble hydrazine compound hydrolyzed in the body into N-methyl-N-formylhydrazine (MFH) then monomethylhydrazine (MMH). Other N-methyl-N-formylhydrazone derivatives, such as, have been isolated in subsequent research, although they are present in smaller amounts. These other compounds would also produce monomethylhydrazine when hydrolyzed, although it remains unclear how much each contributes to the false morel's toxicity.[42]

The toxins react with pyridoxal-5-phosphate—the activated form of pyridoxine (vitamin B6)—and form a hydrazone. This reduces production of the neurotransmitter GABA via decreased activity of glutamic acid decarboxylase,[43] producing the neurological symptoms. MMH also causes oxidative stress leading to methemoglobinemia.[36] Inhibition of diamine oxidase (histaminase) elevates histamine levels resulting in headaches, nausea, vomiting, and abdominal pain.[44]

MFH, as a mushroom component[45] and an intermediary product of gyromitrin hydrolysis,[46] has toxicities of its own. MFH undergoes cytochrome P450-regulated oxidative metabolism which, via reactive nitrosamide intermediates, leads to formation of methyl radicals which lead to liver necrosis.[47][48]

Symptoms Edit

The symptoms of poisoning are typically gastrointestinal and neurological.[33] Symptoms occur within 6–12 hours of consumption, although cases of more severe poisoning may present sooner—as little as 2 hours after ingestion. Initial symptoms are gastrointestinal, with sudden onset of nausea, vomiting, and watery diarrhea which may be bloodstained. Dehydration may develop if the vomiting or diarrhea is severe. Dizziness, lethargy, vertigo, tremor, ataxia, nystagmus, and headaches develop soon after;[33] fever often occurs, a distinctive feature which does not develop after poisoning by other types of mushrooms.[49] In most cases of poisoning, symptoms do not progress from these initial symptoms, and patients recover after 2–6 days of illness.[32]

In some cases there may be an asymptomatic phase following the initial symptoms which is then followed by more significant toxicity including kidney damage,[50] liver damage, and neurological dysfunction including seizures and coma.[36] These signs usually develop within 1–3 days in serious cases.[33] The patient develops jaundice and the liver and spleen become enlarged, in some cases blood sugar levels will rise (hyperglycemia) and then fall (hypoglycemia) and liver toxicity is seen. Additionally intravascular hemolysis causes destruction of red blood cells resulting in increase in free hemoglobin and hemoglobinuria which can lead to renal toxicity or kidney failure. Methemoglobinemia may also occur in some cases. This is where higher than normal levels of methemoglobin, which is a form of hemoglobin that can not carry oxygen, are found in the blood. It causes the patient to become short of breath and cyanotic.[51] Cases of severe poisoning may progress to a terminal neurological phase, with delirium, muscle fasciculations and seizures, and mydriasis progressing to coma, circulatory collapse, and respiratory arrest.[52] Death may occur from five to seven days after consumption.[53]

Treatment Edit

Treatment is mainly supportive; gastric decontamination with activated charcoal may be beneficial if medical attention is sought within a few hours of consumption. However, symptoms often take longer than this to develop, and patients do not usually present for treatment until many hours after ingestion, thus limiting its effectiveness.[54] Patients with severe vomiting or diarrhea can be rehydrated with intravenous fluids.[32] Monitoring of biochemical parameters such as methemoglobin levels, electrolytes, liver and kidney function, urinalysis, and complete blood count is undertaken and any abnormalities are corrected. Dialysis can be used if kidney function is impaired or the kidneys are failing. Hemolysis may require a blood transfusion to replace the lost red blood cells, while methemoglobinemia is treated with intravenous methylene blue.[55]

Pyridoxine, also known as vitamin B6, can be used to counteract the inhibition by MMH on the pyridoxine-dependent step in the synthesis of the neurotransmitter GABA. Thus GABA synthesis can continue and symptoms are relieved.[56] Pyridoxine, which is only useful for the neurological symptoms and does not decrease hepatic toxicity,[48][57] is given at a dose of 25 mg/kg; this can be repeated up to a maximum total of 15 to 30 g daily if symptoms do not improve.[58] Benzodiazepines are given to control seizures; as they also modulate GABA receptors they may potentially increase the effect of pyridoxine. Additionally MMH inhibits the chemical transformation of folic acid into its active form, folinic acid, this can be treated by folinic acid given at 20–200 mg daily.[36]

Long-term effects Edit

ALS Edit

Lagrange et al. presented in 2018 a link between life-long foraging for Gyromitra esculenta and amyotrophic lateral sclerosis in French Alps populations.[59] Similar ALS clusters possibly related to mushrooms are found near Aosta Valley (Italy), in Sardinia, and in Michigan.[60]

Carcinogenicity Edit

Monomethylhydrazine,[61] gyromitrin,[62] raw Gyromitra esculenta,[63] and N-methyl-N-formylhydrazine[45][64] have been shown to be carcinogenic in experimental animals. Although Gyromitra esculenta has not been observed to cause cancer in humans,[65] it is possible there is a carcinogenic risk for people who ingest these types of mushrooms.[45] Even small amounts may have a carcinogenic effect.[66] At least 11 different hydrazones have been isolated from Gyromitra esculenta, and it is not known if all potential carcinogens can be completely removed by parboiling.[3]

Consumption Edit

 
For sale in Helsinki, with compulsory preparation instructions

Despite its recognized toxicity, Gyromitra esculenta is marketed and consumed in several countries or states in Europe and North America. It was previously consumed in Germany, with fungi picked in and exported from Poland; more recently, however, Germany and Switzerland discouraged consumption by prohibiting its sale.[21][65] Similarly in Sweden, the Swedish National Food Administration warns that it is not fit for human consumption,[67] and restricts purchase of fresh mushrooms to restaurants alone.[68] The mushroom is still highly regarded and consumed in Bulgaria, being sold in markets and picked for export there.[69] In some countries such as Spain, especially in the eastern Pyrenees, they are traditionally considered a delicacy, and many people report consuming them for many years with no ill effects.[70] Despite this, the false morel is listed as hazardous in official mushroom lists published by the Catalan Government[14] and sale to the public is prohibited throughout Spain.[71] Outside of Europe, Gyromitra esculenta is consumed in the Great Lakes region and some western states in the United States.[72]

Selling and purchasing fresh false morels is legal in Finland, where it is highly regarded.[73] However, the mushrooms are required by law to be accompanied with a warning that they are poisonous and legally prescribed preparation instructions.[74] False morels are also sold prepared and canned, in which case they are ready to be used. Official figures from the Finnish Ministry of Agriculture and Forestry report a total amount of false morels sold in Finland of 21.9 tonnes in 2006 and 32.7 tonnes, noted as being above average, in 2007.[75] In 2002, the Finnish Food Safety Authority estimated annual consumption of false morels to be hundreds of tonnes in plentiful years.[76] In Finnish cuisine, false morels may be cooked in an omelette, or gently sautéed in butter in a saucepan, flour and milk added to make a béchamel sauce, or pie filling. Alternatively, more fluid can be added for a false morel soup. Typical condiments added for flavour include parsley, chives, dill and black pepper.[77][78]

While cooking the fungus expels the toxins, the cook can inhale them through steam.[79]

Controversies Edit

In 2015, Swedish chef Paul Svensson [sv] caused a controversy when he prepared a dish with Gyromitra esculenta in a TV show. Mushroom expert Monica Svensson criticized him for including it, because of the mushroom's carcinogenic substances and the risk that inexperienced people might misinterpret the recipe and omit the steps that reduce the toxicity level. She also expressed criticism to Per Morberg for similar reasons. Paul Svensson said that he was not aware of the carcinogenic effects and apologized afterwards, and he promised to remove the mushroom from his dishes.[80]

Preparation Edit

 
Cooked in a cream sauce

Most of the gyromitrin must be removed to render false morels edible. The recommended procedure involves either first drying and then boiling the mushrooms, or boiling the fresh mushrooms directly.[81] To prepare fresh mushroom it is recommended that they are cut into small pieces and parboiled twice in copious amounts of water, at least three parts water to one part chopped mushrooms, for at least five minutes, after each boiling the mushroom should be rinsed thoroughly in clean water.[81] Each round of parboiling reduces the free gyromitrin contents to a tenth.[82] Significant amounts of gyromitrin are retained in the internal structure of the mushroom even after boiling. After 3 rounds of boiling for 5 minutes and discarding the water, the gyromitrin content is reduced to 6-15 % of the original. After 5 rounds, this content is reduced to 7 %.[83] The gyromitrin is leached into the water where it will remain, therefore the parboiling water must be discarded and replaced with fresh water after each round of boiling. However, it is still recommended that the mushroom be boiled after drying.[81]

MMH boils at 87.5 °C (190 °F) and thus readily vaporizes into the air when water containing fresh false morels is boiled.[39] Poorly ventilated spaces allow vapor to accumulate, resulting in gyromitrin poisoning. If boiling the mushrooms indoors, care should be taken to ensure adequate ventilation, and, if symptoms of gyromitrin poisoning appear, immediately seek fresh air.[84] Even after boiling, small amounts of gyromitrin remain in the mushrooms. Given the possibility of accumulation of toxins,[how?] repeated consumption is not recommended.[85]

Prospects for cultivation Edit

Strains with much lower concentrations of gyromitrin have been discovered, and the fungus has been successfully grown to fruiting in culture.[86] Thus there is scope for future research into cultivation of safer strains.[87]

See also Edit

References Edit

General
  • Benjamin, Denis R. (1995). Mushrooms: poisons and panaceas—a handbook for naturalists, mycologists and physicians. New York: WH Freeman. ISBN 978-0-7167-2600-5.
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External links Edit

 
Wikimedia Commons has media related to Gyromitra esculenta.
  • "Gyromitra esculenta, one of the false morels"
  • California Fungi—Gyromitra esculenta
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October 27, 2023
gyromitra, esculenta, ascomycete, fungus, from, genus, gyromitra, widely, distributed, across, europe, north, america, normally, fruits, sandy, soils, under, coniferous, trees, spring, early, summer, fruiting, body, mushroom, irregular, brain, shaped, dark, br. Gyromitra esculenta ˌ dʒ aɪ r oʊ ˈ m aɪ t r e ˌ ɛ s k j e ˈ l ɛ n t e ˌ dʒ ɪ r e 2 is an ascomycete fungus from the genus Gyromitra widely distributed across Europe and North America It normally fruits in sandy soils under coniferous trees in spring and early summer The fruiting body or mushroom is an irregular brain shaped cap dark brown in colour that can reach 10 centimetres 4 inches high and 15 cm 6 in wide perched on a stout white stipe up to 6 cm 2 1 2 in high Gyromitra esculentaScientific classificationDomain EukaryotaKingdom FungiDivision AscomycotaClass PezizomycetesOrder PezizalesFamily DiscinaceaeGenus GyromitraSpecies G esculentaBinomial nameGyromitra esculenta Pers ex Pers Fr 1849 Synonyms 1 Helvella esculenta Pers 1800 Physomitra esculenta Pers Boud 1907 Gyromitra esculentaMycological characteristicsSmooth hymeniumCap is convexHymenium attachment is not applicableStipe is bareSpore print is yellow to buffEcology is saprotrophic or mycorrhizalEdibility is deadly or choiceAlthough potentially fatal if eaten raw Gyromitra esculenta is a popular delicacy in Scandinavia Eastern Europe and the upper Great Lakes region of North America Although popular in some districts of the eastern Pyrenees it is prohibited from sale to the public in Spain It may be sold fresh in Finland but it must be accompanied by warnings and instructions on correct preparation Although it is still commonly parboiled before preparation evidence suggests that even this procedure may not make Gyromitra esculenta entirely safe for consumption 3 When consumed the principal active agent gyromitrin is hydrolyzed into the toxic compound monomethylhydrazine MMH a type of rocket fuel The toxin affects the liver central nervous system and sometimes the kidneys Symptoms of poisoning involve vomiting and diarrhea several hours after consumption followed by dizziness lethargy and headache Severe cases may lead to delirium coma and death after five to seven days Contents 1 Taxonomy and naming 2 Description 2 1 Similar species 3 Distribution and habitat 4 Toxicity 4 1 Geographical variation 4 2 Biochemistry 4 3 Symptoms 4 4 Treatment 4 5 Long term effects 4 5 1 ALS 4 5 2 Carcinogenicity 5 Consumption 5 1 Controversies 5 2 Preparation 5 3 Prospects for cultivation 6 See also 7 References 8 External linksTaxonomy and naming EditThe fungus was first described in 1800 by mycologist Christian Hendrik Persoon as Helvella esculenta 4 and gained its current accepted binomial name when the Swedish mycologist Elias Magnus Fries placed it in the genus Gyromitra in 1849 5 The genus name is derived from the Greek terms gyros gyros round and mitra mitra headband 6 Its specific epithet is derived from the Latin esculentus edible 7 It is known by a variety of common descriptive names such as brain mushroom 8 turban fungus 9 elephant ears 10 or beefsteak mushroom morel although beefsteak mushroom can also refer to the much less toxic basidiomycete Fistulina hepatica 11 Dating from the 19th century the German term lorchel is a result of the older lorche itself from the 18th century Low German Lorken aligning with the similar sounding and similar looking morchel 12 13 Gyromitra esculenta is a member of a group of fungi known as false morels so named for their resemblance to the highly regarded true morels of the genus Morchella The grouping includes other species of the genus Gyromitra such as G infula elfin saddle G caroliniana and G gigas snow morel While some of these species contain little to no gyromitrin many guidebooks recommend treating them all as poisonous since their similar appearance and significant intraspecific variation can make reliable identification difficult 14 The toxic qualities of G esculenta may be reduced by cooking but possibly not enough to prevent poisoning from repeated consumption 15 The more distantly related ascomycete mushrooms of the genus Verpa such as V bohemica and V conica are also known as false morels early morels or thimble morels like the Gyromitra they are eaten by some and considered poisonous by others 16 The genus Gyromitra had been classically considered part of the family Helvellaceae along with the similar looking elfin saddles of the genus Helvella Analysis of the ribosomal DNA of many of the Pezizales showed Gyromitra esculenta and the other false morels to be only distantly related to the other members of the Helvellaceae and instead most closely related to the genus Discina forming a clade which also contains Pseudorhizina and Hydnotrya Thus the four genera are now included in the family Discinaceae 17 Description Edit nbsp A younger specimen with a less wrinkled capResembling a brain the irregularly shaped cap may be up to 10 cm 4 in high and 15 cm 6 in wide Initially smooth it becomes progressively more wrinkled as it grows and ages The cap colour may be various shades of reddish chestnut purplish bay dark or sometimes golden brown it darkens to black in age 18 Specimens from California may have more reddish brown caps 8 Attached to the cap at several points the stipe is 3 6 cm 1 2 1 2 in high and 1 5 cm 1 2 2 in wide 19 Gyromitra esculenta has been reported to have a solid stipe whereas those of true morels Morchella spp are hollow 20 although a modern source says it is hollow as well 18 The smell can be pleasant and has been described as fruity and the fungus is mild tasting The spore print is whitish with transparent spores that are elliptical and 17 22 mm in length 21 Similar species Edit Gyromitra esculenta resembles the various species of true morel although the latter are more symmetric and look more like pitted gray tan or brown sponges Its cap is generally darker and larger 22 Gyromitra gigas G infula and G ambigua in particular are similar 19 The latter two are toxic to humans 18 Distribution and habitat EditGyromitra esculenta grows on sandy soil in Temperate coniferous forest and occasionally in deciduous woodlands Among conifers it is mostly found under pines Pinus spp but also sometimes under aspen Populus spp 23 The hunting period is from April to July earlier than for other species and the fungus may even sprout up with the melting snow 8 It can be abundant in some years and rare in others The mushroom is more commonly found in places where ground has been disturbed such as openings rivulets washes timber clearings plowed openings forest fire clearings and roadsides 20 Enthusiasts in Finland have been reported burying newspaper inoculated with the fungus in the ground in autumn and returning the following spring to collect mushrooms 24 Although more abundant in montane and northern coniferous woodlands such as the Sierra Nevada and the Cascade Range in northwestern North America Gyromitra esculenta is found widely across the continent 8 as far south as Mexico 25 It is also common in Central Europe less abundant in the east and more in montane areas than lowlands 9 It has been recorded from Northern Ireland 26 from Usak Province in Western Turkey 27 and from the vicinity of Kas in the Antalya Province of Turkey s southern coast 28 Toxicity Edit nbsp For sale with warning sign Market Square HelsinkiToxic reactions have been known for at least a hundred years Experts speculated the reaction was more of an allergic one specific to the consumer or a misidentification rather than innate toxicity of the fungus due to the wide range in effects seen Some would suffer severely or perish while others exhibited no symptoms after eating similar amounts of mushrooms from the same dish Yet others would be not poisoned after eating Gyromitra esculenta for many years 29 However the fungus is now widely recognized as potentially deadly 30 Gyromitra esculenta contains levels of the poison gyromitrin that vary locally among populations although these mushrooms are only rarely involved in poisonings in either North America or western Europe intoxications are seen frequently in eastern Europe and Scandinavia 31 A 1971 Polish study reported at the time that the species accounted for up to 23 of mushroom fatalities each year 32 Death rates have dropped since the mid twentieth century in Sweden poisoning is common though life threatening poisonings have not been detected and there was no fatality reported over the 50 years from 1952 to 2002 33 Gyromitra poisonings are rare in Spain due to the widespread practice of drying the mushrooms before preparation and consumption 34 but has a mortality rate of about 25 35 A lethal dose of gyromitrin has been estimated to be 10 30 mg kg for children and 20 50 mg kg in adults These doses correspond to around 0 2 0 6 kg 7 oz 1 lb 5 oz and 0 4 1 kg 14 oz 2 lb 3 oz of fresh mushroom respectively 36 Evidence suggests that children are more severely affected it is unclear whether this is due to a larger weight consumed per body mass ratio or to differences in enzyme and metabolic activity 37 Geographical variation Edit Populations of Gyromitra esculenta appear to vary geographically in their toxicity A French study has shown that mushrooms collected at higher altitudes have lower concentrations of toxin than those from lower elevations 37 and there is some evidence that fungi west of the Rocky Mountains in North America contain less toxin than those to the east 38 However poisonings in the west have been reported 39 although less frequently than in Europe 40 Biochemistry Edit nbsp MMH C H3N2H3 a toxic metaboliteThe identity of the toxic constituents eluded researchers until 1968 when acetaldehyde N methyl N formylhydrazone better known as gyromitrin was isolated 41 Gyromitrin is a volatile water soluble hydrazine compound hydrolyzed in the body into N methyl N formylhydrazine MFH then monomethylhydrazine MMH Other N methyl N formylhydrazone derivatives such as have been isolated in subsequent research although they are present in smaller amounts These other compounds would also produce monomethylhydrazine when hydrolyzed although it remains unclear how much each contributes to the false morel s toxicity 42 The toxins react with pyridoxal 5 phosphate the activated form of pyridoxine vitamin B6 and form a hydrazone This reduces production of the neurotransmitter GABA via decreased activity of glutamic acid decarboxylase 43 producing the neurological symptoms MMH also causes oxidative stress leading to methemoglobinemia 36 Inhibition of diamine oxidase histaminase elevates histamine levels resulting in headaches nausea vomiting and abdominal pain 44 MFH as a mushroom component 45 and an intermediary product of gyromitrin hydrolysis 46 has toxicities of its own MFH undergoes cytochrome P450 regulated oxidative metabolism which via reactive nitrosamide intermediates leads to formation of methyl radicals which lead to liver necrosis 47 48 Symptoms Edit The symptoms of poisoning are typically gastrointestinal and neurological 33 Symptoms occur within 6 12 hours of consumption although cases of more severe poisoning may present sooner as little as 2 hours after ingestion Initial symptoms are gastrointestinal with sudden onset of nausea vomiting and watery diarrhea which may be bloodstained Dehydration may develop if the vomiting or diarrhea is severe Dizziness lethargy vertigo tremor ataxia nystagmus and headaches develop soon after 33 fever often occurs a distinctive feature which does not develop after poisoning by other types of mushrooms 49 In most cases of poisoning symptoms do not progress from these initial symptoms and patients recover after 2 6 days of illness 32 In some cases there may be an asymptomatic phase following the initial symptoms which is then followed by more significant toxicity including kidney damage 50 liver damage and neurological dysfunction including seizures and coma 36 These signs usually develop within 1 3 days in serious cases 33 The patient develops jaundice and the liver and spleen become enlarged in some cases blood sugar levels will rise hyperglycemia and then fall hypoglycemia and liver toxicity is seen Additionally intravascular hemolysis causes destruction of red blood cells resulting in increase in free hemoglobin and hemoglobinuria which can lead to renal toxicity or kidney failure Methemoglobinemia may also occur in some cases This is where higher than normal levels of methemoglobin which is a form of hemoglobin that can not carry oxygen are found in the blood It causes the patient to become short of breath and cyanotic 51 Cases of severe poisoning may progress to a terminal neurological phase with delirium muscle fasciculations and seizures and mydriasis progressing to coma circulatory collapse and respiratory arrest 52 Death may occur from five to seven days after consumption 53 Treatment Edit Treatment is mainly supportive gastric decontamination with activated charcoal may be beneficial if medical attention is sought within a few hours of consumption However symptoms often take longer than this to develop and patients do not usually present for treatment until many hours after ingestion thus limiting its effectiveness 54 Patients with severe vomiting or diarrhea can be rehydrated with intravenous fluids 32 Monitoring of biochemical parameters such as methemoglobin levels electrolytes liver and kidney function urinalysis and complete blood count is undertaken and any abnormalities are corrected Dialysis can be used if kidney function is impaired or the kidneys are failing Hemolysis may require a blood transfusion to replace the lost red blood cells while methemoglobinemia is treated with intravenous methylene blue 55 Pyridoxine also known as vitamin B6 can be used to counteract the inhibition by MMH on the pyridoxine dependent step in the synthesis of the neurotransmitter GABA Thus GABA synthesis can continue and symptoms are relieved 56 Pyridoxine which is only useful for the neurological symptoms and does not decrease hepatic toxicity 48 57 is given at a dose of 25 mg kg this can be repeated up to a maximum total of 15 to 30 g daily if symptoms do not improve 58 Benzodiazepines are given to control seizures as they also modulate GABA receptors they may potentially increase the effect of pyridoxine Additionally MMH inhibits the chemical transformation of folic acid into its active form folinic acid this can be treated by folinic acid given at 20 200 mg daily 36 Long term effects Edit ALS Edit Lagrange et al presented in 2018 a link between life long foraging for Gyromitra esculenta and amyotrophic lateral sclerosis in French Alps populations 59 Similar ALS clusters possibly related to mushrooms are found near Aosta Valley Italy in Sardinia and in Michigan 60 Carcinogenicity Edit Monomethylhydrazine 61 gyromitrin 62 raw Gyromitra esculenta 63 and N methyl N formylhydrazine 45 64 have been shown to be carcinogenic in experimental animals Although Gyromitra esculenta has not been observed to cause cancer in humans 65 it is possible there is a carcinogenic risk for people who ingest these types of mushrooms 45 Even small amounts may have a carcinogenic effect 66 At least 11 different hydrazones have been isolated from Gyromitra esculenta and it is not known if all potential carcinogens can be completely removed by parboiling 3 Consumption Edit nbsp For sale in Helsinki with compulsory preparation instructionsDespite its recognized toxicity Gyromitra esculenta is marketed and consumed in several countries or states in Europe and North America It was previously consumed in Germany with fungi picked in and exported from Poland more recently however Germany and Switzerland discouraged consumption by prohibiting its sale 21 65 Similarly in Sweden the Swedish National Food Administration warns that it is not fit for human consumption 67 and restricts purchase of fresh mushrooms to restaurants alone 68 The mushroom is still highly regarded and consumed in Bulgaria being sold in markets and picked for export there 69 In some countries such as Spain especially in the eastern Pyrenees they are traditionally considered a delicacy and many people report consuming them for many years with no ill effects 70 Despite this the false morel is listed as hazardous in official mushroom lists published by the Catalan Government 14 and sale to the public is prohibited throughout Spain 71 Outside of Europe Gyromitra esculenta is consumed in the Great Lakes region and some western states in the United States 72 Selling and purchasing fresh false morels is legal in Finland where it is highly regarded 73 However the mushrooms are required by law to be accompanied with a warning that they are poisonous and legally prescribed preparation instructions 74 False morels are also sold prepared and canned in which case they are ready to be used Official figures from the Finnish Ministry of Agriculture and Forestry report a total amount of false morels sold in Finland of 21 9 tonnes in 2006 and 32 7 tonnes noted as being above average in 2007 75 In 2002 the Finnish Food Safety Authority estimated annual consumption of false morels to be hundreds of tonnes in plentiful years 76 In Finnish cuisine false morels may be cooked in an omelette or gently sauteed in butter in a saucepan flour and milk added to make a bechamel sauce or pie filling Alternatively more fluid can be added for a false morel soup Typical condiments added for flavour include parsley chives dill and black pepper 77 78 While cooking the fungus expels the toxins the cook can inhale them through steam 79 Controversies Edit In 2015 Swedish chef Paul Svensson sv caused a controversy when he prepared a dish with Gyromitra esculenta in a TV show Mushroom expert Monica Svensson criticized him for including it because of the mushroom s carcinogenic substances and the risk that inexperienced people might misinterpret the recipe and omit the steps that reduce the toxicity level She also expressed criticism to Per Morberg for similar reasons Paul Svensson said that he was not aware of the carcinogenic effects and apologized afterwards and he promised to remove the mushroom from his dishes 80 Preparation Edit nbsp Cooked in a cream sauceMost of the gyromitrin must be removed to render false morels edible The recommended procedure involves either first drying and then boiling the mushrooms or boiling the fresh mushrooms directly 81 To prepare fresh mushroom it is recommended that they are cut into small pieces and parboiled twice in copious amounts of water at least three parts water to one part chopped mushrooms for at least five minutes after each boiling the mushroom should be rinsed thoroughly in clean water 81 Each round of parboiling reduces the free gyromitrin contents to a tenth 82 Significant amounts of gyromitrin are retained in the internal structure of the mushroom even after boiling After 3 rounds of boiling for 5 minutes and discarding the water the gyromitrin content is reduced to 6 15 of the original After 5 rounds this content is reduced to 7 83 The gyromitrin is leached into the water where it will remain therefore the parboiling water must be discarded and replaced with fresh water after each round of boiling However it is still recommended that the mushroom be boiled after drying 81 MMH boils at 87 5 C 190 F and thus readily vaporizes into the air when water containing fresh false morels is boiled 39 Poorly ventilated spaces allow vapor to accumulate resulting in gyromitrin poisoning If boiling the mushrooms indoors care should be taken to ensure adequate ventilation and if symptoms of gyromitrin poisoning appear immediately seek fresh air 84 Even after boiling small amounts of gyromitrin remain in the mushrooms Given the possibility of accumulation of toxins how repeated consumption is not recommended 85 Prospects for cultivation Edit Strains with much lower concentrations of gyromitrin have been discovered and the fungus has been successfully grown to fruiting in culture 86 Thus there is scope for future research into cultivation of safer strains 87 See also EditList of deadly fungiReferences EditGeneralBenjamin Denis R 1995 Mushrooms poisons and panaceas a handbook for naturalists mycologists and physicians New York WH Freeman ISBN 978 0 7167 2600 5 Specific GSD Species Synonymy Gyromitra esculenta Pers Fr Species Fungorum CAB International Retrieved 29 September 2015 Gyromitra Merriam Webster com Dictionary esculent Merriam Webster com Dictionary a b Dart Richard C 2004 Mushrooms Medical toxicology Philadelphia Williams amp Wilkins pp 1719 35 ISBN 978 0 7817 2845 4 Persoon CH 1800 Comm Schaeff Icon Pict 64 Fries EM 1849 Summa veg Scand Section Post Stockholm p 346 Liddell Henry G Scott Robert 1980 A Greek English Lexicon Abridged ed Oxford Oxford University Press ISBN 978 0 19 910207 5 Simpson D P 1979 Cassell s Latin Dictionary 5th ed London Cassell p 883 ISBN 978 0 304 52257 6 a b c d Arora David 1986 Mushrooms Demystified a comprehensive guide to the fleshy fungi 2nd ed Berkeley Ten Speed Press pp 801 02 ISBN 978 0 89815 169 5 a b Lamaison Jean Louis Polese Jean Marie 2005 The Great Encyclopedia of Mushrooms Konemann p 230 ISBN 978 3 8331 1239 3 Dearness J 1924 Gyromitra poisoning Mycologia 16 4 143 176 doi 10 2307 3753381 JSTOR 3753381 Ammirati Joseph F Traquair James A Horgen Paul A 1985 Poisonous mushrooms of the northern United States and Canada Minneapolis University of Minnesota Press pp 122 ISBN 978 0 8166 1407 3 Dudenredaktion Bibliographisches Institut Mannheim 2001 Duden 07 Das Herkunftsworterbuch Etymologie der deutschen Sprache in German Dudenverlag ISBN 978 3 411 04074 2 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link North Pamela 1967 Poisonous Plants and Fungi in colour Blandford Press amp Pharmacological Society of Great Britain p 109 OCLC 955264 a b Departament de Salut Generalitat de Catalunya Bolets in Catalan Archived from the original on 8 March 2009 Retrieved 20 March 2009 Phillips Roger 2010 Mushrooms and Other Fungi of North America Buffalo NY Firefly Books p 363 ISBN 978 1 55407 651 2 Benjamin 1995 p 267 O Donnell Kerry Cigelnik Elizabeth Weber Nancy S Trappe James M 1997 Phylogenetic relationships among ascomycetous truffles and the true and false morels inferred from 18S and 28S ribosomal DNA sequence analysis Mycologia 89 1 48 65 doi 10 2307 3761172 JSTOR 3761172 a b c Trudell Steve Ammirati Joe 2009 Mushrooms of the Pacific Northwest Timber Press Field Guides Portland OR Timber Press pp 279 280 ISBN 978 0 88192 935 5 a b Davis R Michael Sommer Robert Menge John A 2012 Field Guide to Mushrooms of Western North America Berkeley University of California Press pp 394 395 ISBN 978 0 520 95360 4 OCLC 797915861 a b Nilsson S Persson O 1977 Fungi of Northern Europe 1 Larger Fungi Excluding Gill Fungi Penguin pp 34 35 ISBN 978 0 14 063005 3 a b Zeitlmayr Linus 1976 Wild Mushrooms An Illustrated Handbook Hertfordshire Garden City Press p 112 ISBN 978 0 584 10324 3 Ammirati Traquair amp Horgen 1985 p 121 Smith 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Luonnonmarjojen ja sienien kauppaantulomaarat vuonna 2007 Amounts of wild berries and mushrooms offered for sale in 2007 in Finnish Helsinki Finnish Ministry of Agriculture and Forestry p 10 Finnish Food Safety Authority 2002 Riskiraportti elintarvikkeiden ja Talousveden kemialliset vaarat Risk report on toxins in food and tapwater in Finnish p 38 Kevat on aikaa korvasienen ja vainonputken in Finnish Lapin Keittiomestarit Archived from the original on 26 May 2008 Retrieved 22 June 2008 Davidson A 2003 North Atlantic Seafood A Comprehensive Guide with Recipes Ten Speed Press p 361 ISBN 978 1 58008 450 5 Miller Jr Orson K Miller Hope H 2006 North American Mushrooms A Field Guide to Edible and Inedible Fungi Guilford CN FalconGuides p 509 ISBN 978 0 7627 3109 1 Nilsson Kerstin 26 April 2015 Har lagar tv kocken Paul Svensson mat med giftsvamp in Swedish Aftonbladet Retrieved 26 April 2015 a b c False Morel Fungi poisonous when raw The Finnish Food Safety Authority Evira 2008 Archived from the original on 18 December 2007 Retrieved 4 March 2008 Pyysalo H Niskanen A 1977 On the occurrence of N methyl N formylhydrazones in fresh and processed false morel Gyromitra esculenta Journal of Agricultural and Food Chemistry 25 3 644 47 doi 10 1021 jf60211a006 PMID 558239 Hydrazones in the False Morel Nordic Council of Ministers 1995 p 18 ISBN 978 92 9120 681 0 Benjamin 1995 p 269 Benjamin 1995 p 278 List PH Sundermann G 1974 Achtung Fruhjahrslorcheln Deutsche Apotheker Zeitung 114 331 32 Benjamin 1995 p 279External links Edit nbsp Wikimedia Commons has media related to Gyromitra esculenta Gyromitra esculenta one of the false morels California Fungi Gyromitra esculenta Official Finnish instructions for the processing of false morels Archived 2 February 2019 at the Wayback Machine Retrieved from https en wikipedia org w index php title Gyromitra esculenta amp oldid 1179560851, wikipedia, wiki, book, books, library,

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