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, and who gorge themselves on our tax dollars.
I met Jochen Gartz shortly after the fall of the Berlin Wall at the third symposium of the European College for the Study of Mushrooms Net Consciousness (ECSC) in Freiburg, Germany.
Our encounter was my first contact with a researcher from the former East Germany. Jochen Gartz's enthusiastic lecture was a truly consciousnessexpanding event, his words breaking down traditional borders and crossing over into new territory. The magic mushrooms spoke through him - with no trace of dogma or ideology - in the tradition of true anarchy that is the hallmark of mushroom magic. What I heard was unbelievable.
Jochen spoke of a "new" psychedelic mushroom and its migration. The mycelia had spread in concentric circles outward from Leipzig, jumping all political borders. Finally, when the mycelia reached West German soil, the hated Berlin Wall crumbled. Could there possibly be a connection between the evolution of the magic mushroom and the evolution of our consciousness? Could a mushroom have contributed to the resolution of our political conflicts? In the past, politicians, even popes, had their own jesters and magicians, who functioned as pressure release valves in the machinations of political power struggles. It is obvious that a country whose chancellor is being pelted with eggs, urgently needs a new breed of magician who are able to readjust reality. But today, no aspiring magician should go about this task without this book as a guide for the wondrous journey into the realm of magic mushrooms. Christian Rdtsch Figure 5 - "Anthropomorphic Beings Engaged in Mushroom Dance" 10,000-year-old rock drawing in Tassili, Sahara (Algeria) CHAPTER 1 I BELIEVE THE TIME HAS COME FOR A COMPREHENSIVE REVIEW OF NEW FINDINGS FROM THE FIELDS OF MYCOLOGY, TAXONOMY AND NATURAL PRODUCTS CHEMISTRY When R.G. Wasson, R. Heim and A. Hofmann began their interdisciplinary research program to study the Mexican species of mushrooms and their usage in Mexican mushroom cults, their efforts culminated in a 1958 landmark report that described the isolation, molecular structure and synthesis of the mushrooms' active ingredients: psilocybin and psilocin. Several years later, these substances were also identified in a species of mushroom in Europe, Psilocybe semilanceata, which became the first in a series of newly discovered species. Since then, psychoactive mushrooms from other genera have been reported with increasing frequency. As part of my analytical work dedicated to the identification of naturally occurring chemicals, I had the good fortune to be part of a research team that studied alkaloids found in a variety of mushroom species. Now I believe the time has come for a comprehensive review of new findings from the fields of mycology, taxonomy and natural products chemistry. Wasson and his successors have already provided detailed accounts pertaining to the history and study of the Me

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a have been reported from the following countries: Finland, Norway, Sweden, Denmark, Germany, Switzerland, Austria, The Netherlands, Belgium, France, Russia, Poland, the former Czechoslovakia, Hungary, Romania, Scotland, England, Wales, Italy and Spain. Unfortunately, there are no comprehensive maps detailing the species's distribution pattern.
Traditionally, mycologists have often neglected relatively tiny species, such as Psilocybe semilanceata, that tend to share their habitats with other, more prominent species. The sarcastic phrase "The mushrooms occur in abundance wherever mycologists abound" is particularly pertinent in reference to the Psilocybe species. Prior to the discovery of psilocybin, the Psilocybe genus languished in the literature, shrouded in obscurity. To this day, few 189. Psilocybe semilanceata Fr. Worthless] The cap is uniformly conic to bell-shaped, with a pointy or obtuse center forming an almost wart-like protrusion; initially, caps are often taller than they are wide, margins are bent and curved inward; later on, width of cap is 1.5-4 cm. Hygrophanous; coloration is a dirtyish olive-brown when wet, with translucent striate margins; at the center, coloration is ocher or greenish-yellow against an overall shade of smudgy pale yellow and oftentimes some greenish stains; only the margins are banded by a darkcolored, watery stripe around the edge. No stripes or banding evident when mushrooms are completely dried. Lacking a veil, caps are thin-fleshed, bald, with an easily separable pellicle that remains gelatinous-sticky for a long time, turning shiny when dry. Gills are olive brown to blackish purple brown in color, with the edges often remaining white, gill spacing is quite crowded; gill attachment is either roughly linear or mostly adnexed; up to 3.5 mm wide; attached at the stem only, fully detached later on. Spores are elongated to ellipitical in shape, smooth and large, measuring 12-16 u by 6-8,u. Color of spore dust is blackish purple brown. Stem is very slender, almost uniformly thin and always twisted, 6-12 cm long and 1.25-2 mm thick, yellowish or whitish in color; areas subjected to pressure develop bluishgreen stains. Stems are silky smooth and roughly at the center, cortinate fibrils appear like remnants of a veil, which is brittle and lined with a white fibrous cord of wool-like texture. When dry, the flesh of the cap is colored pale yellow, while the stem's flesh is ocher brown in color, especially towards the bottom. It is odorless and its flavor is mild. The mushroom grows from August to October, frequently in gregarious clusters, and can be found in pastures and along roadways, How To Grow Copelandia growing on dung that has undergone complete decomposition.
It is not a particularly rare species. Figure 11(above) This excellent description of Psilocybe semilanceata by Michael & Schulz (1927) is shown here as originally published in German, with an English translation. Mycologists spa have been reported from the following countries: Finland, Norway, Sweden, Denmark, Germany, Switzerland, Austria, The Netherlands, Belgium, France, Russia, Poland, the former Czechoslovakia, Hungary, Romania, Scotland, England, Wales, Italy and Spain. Unfortunately, there are no comprehensive maps detailing the species's distribution pattern. Traditionally, mycologists have often neglected relatively tiny species, such as Psilocybe semilanceata, that tend to share their habitats with other, more prominent species. The sarcastic phrase "The mushrooms occur in abundance wherever mycologists abound" is particularly pertinent in reference to the Psilocybe species. Prior to the discovery of psilocybin, the Psilocybe genus languished in the literature, shrouded in obscurity. To this day, few 189. Psilocybe semilanceata Fr. Worthless] The cap is uniformly conic to bell-shaped, with a pointy or obtuse center forming an almost wart-like protrusion; initially, caps are often taller than they are wide, margins are bent and curved inward; later on, width of cap is 1.5-4 cm. Hygrophanous; coloration is a dirtyish olive-brown when wet, with translucent striate margins; at the center, coloration is ocher or greenish-yellow against an overall shade of smudgy pale yellow and oftentimes some greenish stains; only the margins are banded by a darkcolored, watery stripe around the edge. No stripes or banding evident when mushrooms are completely dried. Lacking a veil, caps are thin-fleshed, bald, with an easily separable pellicle that remains gelatinous-sticky for a long time, turning shiny when dry. Gills are olive brown to blackish purple brown in color, with the edges often remaining white, gill spacing is quite crowded; gill attachment is either roughly linear or mostly adnexed; up to 3.5 mm wide; attached at the stem only, fully detached later on. Spores are elongated to ellipitical in shape, smooth and large, measuring 12-16 u by 6-8,u.
Color of spore dust is blackish purple brown. Stem is very slender, almost uniformly thin and always twisted, 6-12 cm long and 1.25-2 mm thick, yellowish or whitish in color; areas subjected to pressure develop bluishgreen stains. Stems are silky smooth and roughly at the center, cortinate fibrils appear like remnants of a

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veil, which is brittle and lined with a white fibrous cord of wool-like texture. When dry, the flesh of the cap is colored pale yellow, while the stem's flesh is ocher brown in color, especially towards the bottom. It is odorless and its flavor is mild. The mushroom grows from August to October, frequently in gregarious clusters, and can be found in pastures and along roadways, growing on dung that has undergone complete decomposition. It is not a particularly rare species. Figure 11(above) This excellent description of Psilocybe semilanceata by Michael & Schulz (1927) is shown here as originally published in German, with an English translation. Mycologists spa have been reported from the following countries: Finland, Norway, Sweden, Denmark, Germany, Switzerland, Austria, The Netherlands, Belgium, France, Russia, Poland, the former Czechoslovakia, Hungary, Romania, Scotland, England, Wales, Italy and Spain. Unfortunately, there are no comprehensive maps detailing the species's distribution pattern. Traditionally, mycologists have often neglected relatively tiny species, such as Psilocybe semilanceata, that tend to share their habitats with other, more prominent species. The sarcastic phrase "The mushrooms occur in abundance wherever mycologists abound" is particularly pertinent in reference to the Psilocybe species. Prior to the discovery of psilocybin, the Psilocybe genus languished in the literature, shrouded in obscurity. To this day, few 189. Psilocybe semilanceata Fr. Worthless The cap is uniformly conic to bell-shaped, with a pointy or obtuse center forming an almost wart-like protrusion; initially, caps are often taller than they are wide, margins are bent and curved inward; later on, width of cap is 1.5-4 cm. Hygrophanous; coloration is a dirtyish olive-brown when wet, with translucent striate margins; at the center, coloration is ocher or greenish-yellow against an overall shade of smudgy pale yellow and oftentimes some greenish stains; only the margins are banded by a darkcolored, watery stripe around the edge. No stripes or banding evident when mushrooms are completely dried.
Lacking a veil, caps are thin-fleshed, bald, with an easily separable pellicle that remains gelatinous-sticky for a long time, turning shiny when dry. Gills are olive brown to blackish purple brown in color, with the edges often remaining white, gill spacing is quite crowded; gill attachment is either roughly linear or mostly adnexed; up to 3.5 mm wide; attached at the stem only, fully detached later on. Spores are elongated to ellipitical in shape, smooth and large, measuring 12-16 u by 6-8,u.
Color of spore dust is blackish purple brown.
Stem is very slender, almost uniformly thin and always twisted, 6-12 cm long and 1.25-2 mm thick, yellowish or whitish in color; areas subjected to pressure develop bluishgreen stains. Stems are silky smooth and roughly at the center, cortinate fibrils appear like remnants of a veil, which is brittle and lined with a white fibrous cord of wool-like texture. When dry, the flesh of the cap is colored pale yellow, while the stem's flesh is ocher brown in color, especially towards the bottom. It is odorless and its flavor is mild. The mushroom grows from August to October, frequently in gregarious clusters, and can be found in pastures and along roadways, growing on dung that has undergone complete decomposition. It is not a particularly rare species. Figure 11(above) This excellent description of Psilocybe semilanceata by Michael & Schulz (1927) is shown here as originally published in German, with an English translation. Mycologists spa have been reported from the following countries: Finland, Norway, Sweden, Denmark, Germany, Switzerland, Austria, The Netherlands, Belgium, France, Russia, Poland, the former Czechoslovakia, Hungary, Romania, Scotland, England, Wales, Italy and Spain. Unfortunately, there are no comprehensive maps detailing the species's distribution pattern.
Traditionally, mycologists have often neglected relatively tiny species, such as Psilocybe semilanceata, that tend to share their habitats with other, more prominent species. The sarcastic phrase "The mushrooms occur in abundance wherever mycologists abound" is particularly pertinent in reference to the Psilocybe species.
Prior to the discovery of psilocybin, the Psilocybe genus languished in the literature, shrouded in obscurity. To this day, few 189. Psilocybe semilanceata Fr. Worthless The cap is uniformly conic to bell-shaped, with a pointy or obtuse center forming an almost wart-like protrusion; initially, caps are often taller than they are wide, margins are bent and curved inward; later on, width of cap is 1.5-4 cm. Hygrophanous; coloration is a dirtyish olive-brown when wet, with translucent striate margins; at the center, coloration is ocher or greenish-yellow against an overall shade of smudgy pale yellow and oftentimes some greenish stains; only the margins are banded by a darkcolored, watery stripe around the edge. No stripes or banding evident when mushrooms are completely dried. Lacking a veil, caps are thin-fleshed, bald, with an easily separable pellicle that remains gelatinous-sticky for a long time, turning shiny when dry. Gills are olive brown to blackish purple brown in color, with the edges often remaining white, gill spacing is quite crowded; gill attachment is either roughly linear or mostly adnexed; up to 3.5 mm wide; attached at the stem only, fully detached later on. Spores are elongated to ellipitical in shape, smooth and large, measuring 12-16 u by 6-8,u. Color of spore dust is blackish purple brown.
Stem is very slender, almost uniformly thin and always twisted, 6-12 cm long and 1.
25-2 mm thick, yellowish or whitish in color; areas subjected to pressure develop bluishgreen stains.
Stems are silky smooth and roughly at the center, cortinate fibrils appear like remnants of a veil, which is brittle and lined with a white fibrous cord of wool-like texture. When dry, the flesh of the cap is colored pale yellow, while the stem's flesh is ocher brown in color, especially towards the bottom. It is odorless and its flavor is mild.
The mushroom grows from August to October, frequently in gregarious clusters, and can be found in pastures and along roadways, growing on dung that has undergone complete decomposition. It is not a particularly rare species. Figure 11(above) This excellent description of Psilocybe semilanceata by Michael & Schulz (1927) is shown here as originally published in German, with an English translation. Mycologists sp

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e creek on wood chips of Carpinus, Alnus and Salix, on raw compost mixtures of Picea, Pinus and Larix needles, as Sept. Oct. Nov. Dec. Jan. Figure 21 - Fruiting curve of Psilocybe cyanescens based on observations at several locations in the former Czechoslovakia. The mycelia make use of different kinds of plant debris and even grow on wet cardboard, where they develop into rhizomorphs just like they would in nature. Rhizomorphs are thick strands of mycelia that serve to transport nutrients and water. They also develop intense blue stains (see Figure 22). Figure 23 Distribution pattern of Psilocybe cyanescens in Germany and adjacent areas (according to Krieglsteiner).
Locations are indicated by black dots. Figure 22 Psilocybe bohemica rhizomorphs growing on wet cardboard. Figure 24 - Psilocybe cyanescens at a natural location (USA). Figure 25 - Psilocybe bohemica on twigs and leaves.
Impressive Experiences Psilocybe bohemica is a very psychoactive species. Its effects are vividly documented in the following account of one natural scientist's experience as part of controlled clinical trials in Prague: About 30 mg of psilocybin in mushroom tissue was prepared in hot water, with effects already noticeable ten minutes after ingestion. I grew increasingly quiet.
At first, my legs began to tingle, then my underarms as well. Aside from a deeper breathing rhythm, few other somatic effects were noted. Initially there were fits of laughter caused by unusual cognitive associations; this laughter also affected the two "sober" guides. A growing hyperacuity interfered with the ability to listen to music, so that Vivaldi's "Springtime" caused painful stabs inside the brain. I compared the pain to that caused by a "sawing knife". The experimenters appeared bloated and yellow.
.
.
Existing bodily characteristics, such as thinning hair stimulated a person's illusionary transformation into a monk with tonsure. Their voices also appeared reverent and, from Statistics On Shrooms a somewhat paranoid point of view, these gentlemen at times seemed to be working a switching station that, for some reasons, was my enemy. At the same time, I found both of them to be quite likeable.
During this time period, the other female subject perceived fantastic images of moving colors and saw visions of her whole life unfolding behind closed eyes. During this period, I had the distinct impression that an electrical current was flowing through my body, which was not an uncomfortable sensation. About three hours later, the gentlemen retired to Trippin On Shrooms the kitchen and the nature of the experience changed quite drastically. At first I felt as if my legs were increasingly merging into the wall, a very comfortable experience. In a state of utter clarity of consciousness, I finally felt as if I had no body at all. I said. "The most descriptive expression is the experience of a pure soul". Using words as triggers, we were able to induce shared experiences o Those who ingest Copelandia cyanescens, known in CATTLE AS A POSSIBLE DISPERSAL MECHANISM FOR PSYCHOACTIVE DUNG FUNGI One may ask the question, "how did these mushrooms arrive in Australia and New Zealand?" Well some species may be endemic,that is, they were already there naturally. Other species such as the above described dung-inhabiting mushrooms most likelyappeared after the introduction of cattle on the subcontinent.The first livestock to arrive in Australia were brought from the Cape of Good Hope in1788, and included 2 bulls and 5 cows, along with other domesticated farm animals.
Byl803, the government owned approximately 1800 cattle, most of which were importedfrom the Cape, Calcutta, and the west coast of America.
It was during this period thatsome of the visionary mushrooms mentioned in this field guide probably first appeared inAustralia (Unsigned, 1973). According to Australian mycologist John Burton Cleland(1934), "fungi growing in cow or horse-dung and confined to such habitats, must in thecase of Australia, all belong to introduced species". It is believed to have been the SouthAfrican dung beetle which may have actually spread the spores. According to Englishmycologist Roy Watling of the Royal Botanic Gardens in Glasgow, Scotland, "it must beremembered that fungi can change substrate preferences and there are coprophilousfungi on kangaroo droppings etc." Some mycologists who have studied the "magicmushrooms" in Australia and NZ claim that the "use of P. cubensis as a recreational drugtends to confirm the belief that some] farmers in early times may have] added one or two basidiomes gilled mushrooms] to a mealto liven it up and still do] Margot & Watling, 1981)." CATTLE AS A POSSIBLE DISPERSAL MECHANISM FOR PSYCHOACTIVE DUNG FUNGI One may ask the question, "how did these mushrooms arrive in Australia and New Zealand?" Well some species may be endemic,that is, they were already there naturally. Other species such as the above described dung-inhabiting mushrooms most likelyappeared after the introduction of cattle on the subcontinent.
The first livestock to arrive in Australia were brought from the Cape of Good Hope in1788, and included 2 bulls and 5 cows, along with other domesticated farm animals. Byl803, the government owned approximately 1800 cattle, most of which were importedfrom the Cape, Calcutta, and the west coast of America. It was during this period thatsome of the visionary mushrooms mentioned in this field guide probably first appeared inAustralia (Unsigned, 1973). According to Australian mycologist John Burton Cleland(1934), "fungi growing in cow or horse-dung and confined to such habitats, must in thecase of Australia, all belong to introduced species". It is believed to have been the SouthAfrican dung beetle which may have actually spread the spores. According to Englishmycologist Roy Watling of the Royal Botanic Gardens in Glasgow, Scotland, "it must beremembered that fungi can change substrate preferences and there are coprophilousfungi on kangaroo droppings etc." Some mycologists who have studied the "magicmushrooms" in Australia and NZ claim that the "use of P. cubensis as a recreational drugtends to confirm the belief that some] farmers in early times may have] added one or two basidiomes gilled mushrooms] to a mealto liven it up and still mushroom cap mushroom kits do] Margot & Watling, 1981)." CATTLE AS A POSSIBLE DISPERSAL MECHANISM FOR PSYCHOACTIVE DUNG FUNGI One may ask the question, "how did these mushrooms arrive in Australia and New Zealand?" Well some species may be endemic,that is, they were already there naturally. Other species such as the above described dung-inhabiting mushrooms most likelyappeared after the introduction of cattle on the subcontinent.The first livestock to arrive in Australia were brought from the Cape of Good Hope in1788, and included 2 bulls and 5 cows, along with other domesticated farm animals. Byl803, the government owned approximately 1800 cattle, most of which were importedfrom the Cape, Calcutta, and the west coast of America. It was during this period thatsome of the visionary mushrooms mentioned in this field guide probably first appeared inAustralia (Unsigned, 1973). According to Australian mycologist John Burton Cleland(1934), "fungi growing in cow or horse-dung and confined to such habitats, must in thecase of Australia, all belong to introduced species". It is believed to have been the SouthAfrican dung beetle which may have actually spread the spores. According to Englishmycologist Roy Watling of the Royal Botanic Gardens in Glasgow, Scotland, "it must beremembered that fungi can change substrate preferences and there are coprophilousfungi on kangaroo droppings etc." Some mycologists who have studied the "magicmushrooms" in Australia and NZ claim that the "use of P. cubensis as a recreational drugtends to confirm the belief that [some farmers in early times may have added one or two basidiomes gilled mushrooms to a mealto liven it up and still do Margot & Watling, 1981)." CATTLE AS A POSSIBLE DISPERSAL MECHANISM FOR PSYCHOACTIVE DUNG FUNGI One may ask the question, "how Information On Shrooms did these mushrooms arrive in Australia and New Zealand?" Well some species may be endemic,that is, they were already there naturally.
Other species such as the above described dung-inhabiting mushrooms most likelyappeared after the introduction of cattle on the subcontinent.The first livestock to arrive in Australia were brought from the Cape of Good Hope in1788, and included 2 bulls and 5 cows, along with other domesticated farm animals. Byl803, the government owned approximately 1800 cattle, most of which were importedfrom the Cape, Calcutta, and the west coast of America. It was during this period thatsome of the visionary mushrooms mentioned in this field guide probably first appeared inAustralia (Unsigned, 1973). According to Australian mycologist John Burton Cleland(1934), "fungi growing in cow or horse-dung and confined to such habitats, must in thecase of Australia, all belong to introduced species". It is believed to have been the SouthAfrican dung beetle which may have actually spread the spores.
According to Englishmycologist Roy Watling of the Royal Botanic Gardens in Glasgow, Scotland, "it must beremembered that fungi can change substrate preferences and there are coprophilousfungi on kangaroo droppings etc." Some mycologists who have studied the "magicmushrooms" in Australia and NZ claim that the "use of P. cubensis as a recreational drugtends to confirm the belief that some farmers in early times may have added one or two basidiomes gilled mushrooms to a mealto liven it up and still do Margot & Watling, 1981).
" was followed by a very vivid sensation of the soul in flight, coupled with feelings of euphoria.When looking out the window into the dark night of a forest landscape, visions of strange patterns and formations occurred, which were deeply impressive and seemed to impart an inkling of eternity. At the end of four hours, the effects had dissipated without dysphoria or any type of somatic side effect. A control experiment for comparison purposes was performed using 0.8 g of dried Psilocybe semilanceata. The onset of symptoms was much more sudden, including a heavy flow of tears, so that there was an initial phase of anxiety. Only in a later phase of the experience was it possible to perceive ornaments in the form of "underwater streamers", and to appreciate the aesthetically enhanced nature of these visions. The regular pattern of. involuntary intoxications is a good indicator for the large scope of expansion of Inocybe aeruginascens into new habitats during the 1980s. For example, at the time of the initial intoxications - when the species was still restricted to a few easily quantifiable collections - the mushrooms had spread from Potsdam to the location known in 1982, and from there moved on to several other locations in the vicinity, where more than 150 mushrooms were found (see Figure 34). Symbiosis With Trees Starting in late May 1984, fruiting bodies of the species could be found in abundance at countless new locations across the Brandenburg region of Germany. They tend to grow near the roots of different deciduous trees (Populus, Tilia, Quercus, Betula), on lawns in parks and gardens, at the edges of trails and in the paved margin areas of tree-lined sidewalks (where they may even grow on bare, sandy soil) as well as amongst the greenery of residential areas in the suburbs and communities in and around Berlin. Herein lies the most marked difference between Inocybe aeruginascens and other European psychotropic mushroom species: Inocybe aeruginascens grows only in areas of human development. Their prime locations are in the middle of villages and towns, where they grow locally much like other Inocybe species. They may temporarily produce mass quantities of fruiting bodies, in those locations that are typical habitats for the edible varieties of the fairy ring mushroom. So far, the most abundant crop of fruiting bodies was observed in 1987, due to very wet weather conditions, which allowed the mushrooms to thrive. The following years were comparatively dry and the species hardly fruited at all. It wasn't until 1990 that a few mushrooms re-emerged at the classic location in Potsdam. Despite 1989 having been a bad year for mushrooms, it was the year when Inocybe aeruginascens was found for the first time at four locations in and around Rostock, a city located on the Eastern German coast, which is famous for its wet climate. Finding the mushrooms at these locations is evidence for a mu The majority of adverse physical effects or negative psychological reactions produced by "magic mushrooms" generally result from inappropriate set and expectation, or because of improper dosage, which may vary considerably among consumers, different mushroom species, or even within an individual species. The question of dosage is often confused by the variation in the source of the hallucinogenic mushroom species which is consumed.
For example, Psilocybe cubensis, when picked and eaten from its natural dung (manure) habitat, produces a relatively mild mindaltering experience, which is evident from the large amounts of fresh specimens needed to achieve a threshold experience.
However when grown in vitro (indoor laboratory cultivation and/or illicit cultivation), Psilocybe cubensis apparently can produce a more potent strain capable of inducing a very intense visual, sometimes quite disturbing, experience. This dosage assumes that the consumption of 1 to 3 gm of dried material would be too low if the mushroom specimen came from a wild source. This low potency for Psilocybe cubensis has been confirmed by research scientists Margot & Watling, (1981), who were surprised by the comparatively small amounts of psilocybin and psilocin which they extracted from wild specimens Statistics On Shrooms collected from five different locations in Australia. This suggests that a much larger dose would be required to produce significant hallucinations.
It is possible that the chemicals most likely degenerated between the time that they were harvested and the time of analysis. However, it should be noted that a strain of Psilocybe cubensis producing different flushes (harvests) will vary somewhat in potency between flushes. Most recreational users of Psilocybe cubensis (when grown in vitro) require a dosage of ed and large numbers of studies were conducted, primarily with LSD. These investigators sought to discover the receptor binding sites for hallucinogenic compounds in the brain and to understand the mechanisms underlying the genesis of psychedelic visions. Today, we still lack a sound theoretical framework able to explain the relationship between chemical compounds and the manifestation of their psychoactivity. Even though basic research is certainly important, its methods, unfortunately, are often a function of a rather one-sided pharmacological approach to investigating the effects of psilocybin, LSD and mescaline - an approach that is, in fact, too narrow to address the remarkably unusual nature of these substances and their effects. Misunderstandings between pharmacologists and toxicologists on the one hand and psychiatrists and psychologists on the other can often be traced all the way back to the 1950's, creating a legacy of disputes and arguments that have yet to be resolved. S. Grof undertook the tedious task of analyzing 5,000 experimental LSD protocols in an effort to isolate "absolute" symptoms that are reported or occur all of the time. His results were negative. According to Grof, hallucinogenic substances are non-specific triggers causing a sequence of altered states of consciousness, which do not fit the syndrome labeled "toxic psychosis". Rather, it is the individual's personality, along with the experimental setting that significantly shape the nature of the psychedelic experience. This view is shared by a majority of experts with considerable experience in conducting psychedelics-assisted psychotherapy. Even "real" somatic symptoms, such as nausea or vomiting, can often be controlled through psychological intervention techniques administered by trained professionals. A Plethora of Names The broad range of possible experiences inspired the use of labels other than "hallucinogens", with widely differing semantic connotations: entheogens, psychedelics, illusionogens, psycholytics, psychomimetics, psychodysleptica, psychoemetics and others. "Phantastica" (Lewin) is the oldest label ever used to describe this class of substances. This term successfully evokes dream-like, fanciful aspects of the experience, as well as the potential for euphoric and dysphoric emotional overtones. More recent terminology often says more about semantic biases of those who use the labels than about any factual, objective characteristics of the alkaloids they refer to. Accordingly, official antidrug propaganda since the 1960's has disparaged "psychedelics" as excessively glamorous and too positive a label, as the term was popular among Timothy Leary's fans and supporters. When used in low doses or for the first time, these substances are most likely to bring about a kind of magical transformation of surroundings, with a heightened ability to perceive subtle differences along the color spectru

Dosages for Erowid Psilocybe australiana Guzmán & Watling, Psilocybe eucalypta Guzmán &

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Mind-altering (psilocybine containing) mushrooms have been traditionally used in religious healing and curing ceremonies by native

Macroscopically, it is extremely difficult to distinguish from Psilocybe semilanceata.
Unlike the latter species, however, Psilocybe pelliculosa will grow in forests on wood chips and sawdust. Beug and Bigwood were able to furnish analytical proof in support of the claim that Psilocybe pelliculosa is weaker in its psychotropic effects than comparable species. Psilocybe pelliculosa contains about 30-50% of the amount of psilocybin found in Psilocybe cyanescens (slang names: Blue wavy, Cyan, Grandote), a species common across the Pacific Northwest. It fruits primarily in parks, forming partial fairy rings. This species did not become popular among users until the mid-1970s. species still fruits most abundantly in the fall. A New Psychoactive Mushroom Mushroom Trips as a Popular Sport Several additional Psilocybe species have been found in the Pacific Northwest, even though the taxonomic classification of most of these species remains inadequate, despite the fact that monographs such as those by P. Stamets offer quite detailed descriptions of the psychotropic mycoflora. In the mid-1970s, Guzman and Ott reported a rather spectacular event concerning the spread of a "new" mushroom species. During the fall of 1972, large numbers of a strongly bluing gilled mushroom with a distinct ring pattern were found at the University of Washington in Seattle. The fruiting bodies were found growing on bark mulch, which came from a central distribution point and which had been spread widely across the campus by gardeners. Due to the bluing reaction, students at the university assumed that the mushroom contained psilocybin, a belief that was confirmed later on. The sudden appearance of massive numbers of fruiting bodies quickly inspired students at the university to use the mushrooms as a hallucinogen. In my opinion, it is still uncertain if the mushroom really appeared spontaneously, or whether it fruited on bark debris simply because the substance had previously been mixed with spawn derived from fruiting bodies that originated elsewhere. In any case, in 1976, the mushrooms were named Psilocybe stuntzii Guzman & Ott (slang name: "blue veil" or "stuntzees", (see Figures 54 and 71). Today, the species can be found growing on bark and on lawns in parks, on golf courses, football fields and gardens in numbers so large that it is considered the second most important species in terms of usage, after Psilocybe semilanceata. In addition, Panaeolus subbalteatus is another regionally important mushroom species (slang name: "red cap"), even though its users believe it to be slightly more poisonous than Pluteus Growing the Psilocybe species. Still, the mushroom is used quite frequently, because it begins to fruit during the spring. The Psilocybe species, on the other hand, do not appear until fall and continue to grow into early winter, when temperatures consistently drop below freezing, which inhibits further fruiting of the spe

There are more than 1 dozen species of "magic mushrooms" in Australia and New Zealand. Four of these species are dung (manure) inhabiting mushrooms. They include Psilocybe cubensis and/or Psilocybe subcubensis (known locally as "gold caps" and/or "gold tops"), Psilocybe subaeruginosa, and Copelandia cyanescens (the latter is known locally as "blue meanies"). These four species contain the mind altering alkaloids psilocybine and psilocine and are the most common hallucinogenic mushrooms in Australia. In New Zealand, the most commonly used species are Copelandia cyanescens and Psilocybe semilanceata, the latter species is recognized throughout the world as the "liberty cap"). This species only occurs in manured soil and does not grow directly from the dung of cattle, sheep or other four legged farm animals. Psilocybe cubensis the most popular of these species, is well known throughout much of the world; however, this species is not known to occur in New Zealand. Other species described in this guide are known to occur in manured soil, in pastures, meadows, grazing lands, some lawns and in the bark mulch and woodchips of deciduous woods. JOCHEN GARTZ MAGIC MUSHROOMS Around the World A Scientific Journey Across Cultures and Time The Case for Challenging Research and Value Systems * LIS PUBLICATIONS * LOS ANGELES, CA* Figure 1 - Water Color Painting of Psilocybe semilanceata (Germany, 1927) TABLE OF CONTENT (With Active Links' Just Click On A Subject To Go To The Page) "Who Was the First Magician?" - Foreword by Christian Ratsch 7 1. Introduction 9 2. Reflections on the History and Scientific Study of Magic Mushrooms 10 3. The Current State of Knowledge About European Species 14 3.1 Psilocybe semilanceata: The Classic Species Among European Psychotropic Mushrooms 16 3.2 Psilocybe cyanescens: Potent Mushrooms Growing on Wood Debris 29 3.3 Panaeolus subbalteatus: Mycology and Myths about the Panaeolus Species 37 3.4 Inocybe aeruginascens: Fast-Spreading New Arrivals 44 3.5 Gymnopilus purpuratus: Magnificent Mushrooms from South America 51 3.6 Conocybe cyanopus: Tiny Mushrooms of Remarkable Potency 55 3.7 Pluteus salicinus: A Little-known Wood-Inhabiting Species 58 4. Mushroom Identification: Taxonomic Confusion and the Potential for Deadly Mistakes 61 5. The Bluing Phenomenon and Metol Testing: Reality vs. Wishful Thinking 63 6. Mushroom Cultivation: Classic Findings and New Techniques 66 7. Psychotropic Mushroom Species Around the World 77 7.1 Spotlight on North America and Hawaii 79 7.2 Mycophilia in Central and South America 82 7.3 Australia's Mycoflora Attracts Attention 84 7.4 European Customs and Conventions 87 7.5 Japanese Experimentation 93 7.6 Intoxications and the Oldest Known Mushroom Cult in Africa 95 7.7 Usage in Southeast Asia and the South Pacific Islands 98 8. Some Comments on Effects of Mushrooms from the Category Phantastika 102 9. Psychotherapy 108 10. Outlook 114 11. Bibliography 120 Index 129 Figure 2 - Psilocybe cubensis from Australia Figure 3 - Water color painting of Panaeolus subbalteatus (Germany, 1927). Figure 4 - Fresh Panaeolus subbalteatus mushrooms. FOREWORD Nobody knows precisely when the first magic mushroom emerged from the shadows of prehistory to enter the light of consciousness. Nobody knows when the first magic mushroom was eaten by a human being. Nobody knows just who the first magic mushroom eater was. In seeking answers to these questions, we can only speculate. Mycophobes, however, are quick to voice their conviction that only a fool would be reckless enough to want to attain a higher state of consciousness beyond the boundaries of everyday reality. And only a fool would attempt to do this by ingesting those odd little things that mysteriously thrive on decaying, humid soil, rotten wood and malodorous mounds of cow manure. Historically, magic, mushrooms have been feared and hated` since antiquity: magic mushrooms were thought to be made from poisons that had dripped from serpents' fangs; they were considered to be unclean emissions of evil spirits; moreover, mushrooms were a kn As they say, ʼTis the season to be pickingʼ, but make More than half of Australia's beef cattle can be found in the coastal areas of Queensland and New South Wales; and the 20 to 30 inch (500-750mm) rainfall belt of Queensland, New South Wales and Northern Victoria, generally provide adequate climatic environments for the growth of psilocybian mushrooms, especially after heavy rains. It has been suggested that "Psilocybe cubensis was introduced into Australia accidentally by early settlers along with their livestock." This same spore dispersal mechanism also probably applies to Copelandia cyanescens, Panaeolus subbalteatus and several additional species known to occur in or around the dung of other ruminants. This includes Psilocybe semilanceata and the non-hallucinogenic "haymaker's" mushroom Panaeolina foenisecii. While cattle are raised in all Australian states, as well as in the central lowlands, recreational users have been known to export these psychoptic species to various areas in Australia from areas where they were collected. In the case of New Zealand, hereafter referred to as NZ, cattle are the primary source for Copelandia cyanescens, but the "liberty cap" mushroom Psilocybe semilanceata only grows in the manured soil of four-legged ruminants and not directly from manure (Jansen, Pers. Comm., 1988). The identification section of this guide documents reported locations for more than 1 dozen species of psilocybian mushrooms in Australia and NZ which most likely have been used at one time or another for recreational purposes.

Psilocybe Azurescens Directions Mind-altering (psilocybine containing) mushrooms have been traditionally used Tea Liberty Cap Mushroom Kits Tea Liberty Cap Mushroom Kits Tea in religious healing and curing ceremonies by native

ulinary mushroom bears no resemblance, either in size or form, to Inocybe aeruginascens. Overall, however, these unfortunate cases have also contributed to our understanding of mushroom biochemistry. In this context, I want to emphasize once more that the hallucinogenic varieties among the Inocybes can easily be mistaken for those muscarine-producing Inocybe species that are extremely poisonous. As part of his investigation of the Psilocybe genus, Guzman noted a common trait among the hallucinogenic species, in addition to the bluing reaction: a flour-like smell or taste. Apart from the inherent subjective nature of our sense of smell and taste, a common odor is a trait that definitely does not apply to the European species (also see Chapter 3.2). Mycophile or Mycophobe? There are reports from the Western United States about people with expert knowledge of Psilocybe semilanceata - devoted mushroom hunters who can identify the species with drill and accuracy. At the same time, however, these experts cannot identify easily spotted common table mushrooms, nor are they able to differentiate the Agaricus species (champignons) from other mushrooms, even when these species grow on the same pasture. Such individuals, then, are not interested in species other than Psilocybe semilanceata. In my opinion, this attitude reflects a rare combination of mycophilia and mycophobia. A mushroom's spore dust provides important information needed to determine identity. A spore print is left by the gills when the cap is placed on black or white paper (depending on spore color). As the process takes several hours, a glass vessel must be placed over the cap to prevent drying. While useful, information obtained from spore analyses has its limitations, For instance, spores derived from mushrooms belonging to different genera may have the same color, but reveal basic differences under the microscope. There is also a high degree of similarity among spores from different Psilocybe species. Thus, the only way to prevent grave errors and potentially deadly intoxications is to rely on experienced experts for mushroom identification, a process that must include analysis of available ecological data. CHAPTER 5 THE BLUING PHENOMENON AND METOL TESTING: REALITY VS. WISHFUL THINKING As previously discussed in Chapters 3.1 and 3.7, the bluing reaction is characteristic of species that produce psilocybin. Still, for unknown reasons, some species or samples belonging to a genus that usually turns blue may not always change color, regardless of psilocybin content. Among the species that I have examined, Psilocybe bohemica displayed the most impressive bluing reaction. The caps of this species stain very quickly in reaction to pressure. Other species, such as Psilocybe cubensis (Earle) Sing. have stems that develop very intensely blue stains, while their caps do not exhibit the bluing reaction. By contrast, Psilocybe