Subaeruginosa Psilocybe How Grow Grow

There Psilocybesemilanceataromania are more than 1 dozen species how to grow psilocybe subaeruginosa of "magic mushrooms" in Australia and Psilocybe Semilanceata Romania New

xican mushroom species, so that these materials need not be repeated in this context. However, certain aspects concerning the more recent uses of these mushrooms as well as their conditions of growth will receive more detailed attention in later chapters. The main purpose of this book is to inspire further study of these mushrooms, particularly basic research efforts and medical applications of magic mushroom ingredients. The extensive bibliography will help scientists and other interested mycophiles to further immerse themselves in this complex area of study. Jochen Gartz Figure 6 - Bronze doors with mushroom motif entitled "Trial and Judgment" at Hildesheim Cathedral, Germany (ca. 1020).
CHAPTER 2 REFLECTIONS ON THE HISTORY AND SCIENTIFIC STUDY OF MAGIC MUSHROOMS It is remarkable that cultures native to the American continent knew about a relatively large number of natural mind-altering substances compared to early cultures that evolved in Europe or Asia. Botanical evidence does not support the notion that Europe is home to fewer hallucinogenic plants than other regions.
Furthermore, the growing number of recently discovered European mushroom species containing psilocybin indicate a flourishing psychotropic mycoflora in Europe similar to those found in other countries. It is unlikely that early European cultures learned less about local plants and mushrooms through usage and experience than cultures elsewhere in the world. Most likely, early cultural knowledge of European psychoactive plants and mushrooms was lost or destroyed at some time in history, probably as early as several hundred years ago. The discovery that the fly agaric mushroom (Amanita muscaria) was known for its psychoactive properties in Siberia invited the conclusion that this mushroom was used as a psychotropic agent in medieval Europe as well. In fact, there is very little evidence from the Middle Ages to indicate widespread knowledge of the effects of specific mushrooms on human consciousness. However, I believe that past reports on psychoactive Season Statistics On Shrooms Season Statistics On Shrooms Gymnopilus Statistics On Shrooms Gymnopilus mushrooms were causally linked to Amanita muscaria simply because this was the only known psychotropic mushroom in Europe at that time. While the usage of Amanita muscaria among Siberian tribes has generated reports of spectacular hallucinations, European accounts of fly agaric intoxications do not generally include descriptions of such intensely hallucinatory effects. Accordingly, the potent hallucinogenic effects of specific Psilocybes and related species are likely to have had a much more significant influence on early European cultures than the delirium-like visions induced by Amanita muscaria, a species that is also known to induce unconsciousness and severe somatic side effects.
This hypothesis is corroborated by data from comprehensive field studies conducted in Mexico. I believe that historic accounts including those described below - indicate a knowledge of

went in waves. Increasingly, all colors in her immediate surroundings coalesced into shades of green. The hallucinations were fearsome; the heads of monsters became visible and a wall opened up into an abyss. There was a succession of human figure with animal heads. The next day, everything was back to normal. The oldest child (age 14) also saw her parents' hair color turn green, had dilated pupils and watched geometric shapes appear on the wall. The youngest child (age 11) experienced cramps and lost consciousness. In 1960, Singer and Guzman suggested that Panaeolus cyanescens might contain psilocybin, because of the intense blue staining they had observed. It wasn't until after the intoxications in Menton had been publicized, that a research team working with A. Hofmann detected 0.2% of psilocybin in the mushrooms. Considering the powerful effects, however, this concentration appears to be too low to cause such impressive reactions. Later on, Sandoz Laboratories reported the level of psilocybin in dried samples as 0.8%, along with 1.2% psilocin. The level of psilocin, however, may have been falsely elevated by the presence of serotonin and its derivates in the mushroom sample that was being tested. According to Stijve, a mushroom sample collected by J.W. Allen in Thailand contained 0.4% - 1.05% of psilocin, with only trace amounts of psilocybin; serotonin was present in large amounts, comparable to concentrations found in all Panaeolus species. Apparently, Panaeolus cyanescens produces more psilocin than psilocybin. Still, I was able to detect 0.4% of psilocybin in mycelia cultivated on malt agar, with no other indole compounds present. Discussion of the Panaeolus species would remain incomplete without pointing out that those subjectively terrifying psychoses reported in 1965 cannot be attributed to a specific mushroom ingredient, but were likely precipitated by the circumstances (set and setting) surrounding the incident. The effects described by J. Allen in Hawaii after eating 20 specimens paint a different picture altogether: With radio music playing softly in the dark, euphoria began to come on in waves. After 20 minutes, visions became so intense that I tried to close my eyes. Whenever 1 did close my eyes, my eyelids felt as if they were being sprayed from the outside. Colors were sharp and clear, but I always quickly opened my eyes again. Colors were dancing like laser beams to the rhythm of the music. The stars in the sky assembled in clusters that reached all the way into my soul. I was a little scared at the idea that the ocean water might rush up all the way into our hut. Other than that, feelings of euphoria were overwhelming. At times, I was overcome by fits of laughter. That night, I slept like "a prince ". The following morning I gathered up my belongings and had to walk back across the pasture where I had collected the mushrooms the day before. I noticed a lot o , 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 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 Mushroom 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,

HALUCINOGEN MUSHROOMS

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

Gymnopilus Sp.

. For that reason, freeze-dried samples for biochemical analysis are stored at -10°C prior to alkaloid extractions or chromatography testing. In addition to the reports from Mushroom Psilocybin Identification Finland, investigators in North America have noted that psilocybin's decay rate is slowest in Psilocybe semilanceata, compared to other species. (1) R = H2P03 (2) R = H Figure 19 - Structural formulas for psilocybin (1) and psilocin (2). CH3 CH3 Psilocybe semilanceata Figure 20 - Distribution pattern of Psilocybe semilanceata in Germany and adjacent areas. Locations are indicated by black dots. CHAPTER 3.2 PSILOCYBE CYANESCENS - POTENT MUSHROOMS GROWING ON WOOD DEBRIS At least one other Psilocybe species in addition to Psilocybe semilanceata is known to exist in Europe. At this point, I must emphasize that the differentiation of single species within the Psilocybe genus is subject to considerable controversy among eminent taxonomists. For example, there are different methods of distinguishing the Hypholoma genus from the Stropharia genus. The Widespread Distribution of Psilocybe cyanescens While Psilocybe semilanceata is a species that has long been clearly defined and is well known by this name, there are, according to Krieglsteiner, other strongly bluing mushrooms that can be described as belonging to the "Psilocybe cyanescens complex". These are all mushrooms that grow on raw compost and plant debris. In accordance with current states of knowledge, the following names in the literature are merely synonyms for Psilocybe cyanescens Wakefield emend. Krieglsteiner: different herbariums. However, the microscopic data pertaining to Gymnopilus sp. the Psilocybe species are poorly delineated and oftentimes overlap. It is therefore imperative that additional mycological studies of Psilocybe cyanescens be performed. To this end, fresh mushroom samples from various European locations should be used, and biochemical methods must be included in the investigation. Guzman's division Fruitingsubaeruginosaindoors of Psilocybe cyanescens by geographic area, however, definitely turned out to be inaccurate. According to his system, -North Africa was home to Psilocybe mairei, while Psilocybe cyanescens were found in England and Holland and Psilocybe serbica supposedly grew in Serbia and Bohemia. The geographic distribution of the entire species seems to cover a vast area, with variations along climate and terrain at locations where samples were collected. Such disparate morphologies are to be expected when dealing with "young" species, that is, species that have not yet firmly established themselves and are still expanding into new locations.
Figure 7 (p. 14) displays locations in Europe and North Africa where samples of Psilocybe cyanescens have been found. - Hypholoma cyanescens R. Maire - Hypholoma coprinifacies (Rolland ss. Herink) Pouzar - Geophila cyanescens (R. Maire) Kuhner & Romagnesi - Psilocybe serbica Moser & Horak - Psilocybe mairei Singer - Psilocyb

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 East Texas Cubensis 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 Gymnopilus Sp Habitat Season 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
Most users of the psychoactive visionary mushrooms have very little knowledge of their scientific names. Instead, they have given their favorite species local epithets which are commonly used by those who collect and ingest them. Some of these popular names are also known and applied by users outside of Australia and NZ. "Magic Mushrooms" is the most common term applied to any mushroom which contains psilocybine and/or psilocine. It was invented by a Life Magazine editor in l957 ( see Wasson, l957). Psilocybe cubensis is known in Australia as "golden tops", "gold tops" or sometimes "gold caps." The Australian epithets may have been given to this species by members of a local, drugusing group of surfers which frequented the Gold Coast region of Eastern Australia; however, some of these names have apparently been used to describe several different species of Psilocybe by users in Australia (see Allen, 1997). As mentioned above, Psilocybe cubensis is not known to occur in New Zealand. Those who ingest Copelandia cyanescens, known in Australia and New Mushroom Psilocybin Identification Zealand as "blue meanies", also refer to this species as "Blue Legs", "golden tops" or "gold caps".
The latter two nicknames, as well as "dimple tops" and "cone heads", are common terms applied to Copelandia cyanescens in the Hawaiian Islands; and some of these same popular names have also been used by visiting surfers from both New Zealand and Australia, to describe the macroscopic characteristics of Copelandia cyanescens. These same surfers visiting Hawaii's North Shore have reportedly ingested mushrooms prior to surfing, as do many of the locally based surfers in Australia and NZ.
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 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, 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

xican mushroom species, so that these materials need not be repeated in this context.
However, certain aspects concerning the more recent uses of these mushrooms as well as their conditions of growth will receive more detailed attention in later chapters. The main purpose of this book is to inspire further study of these mushrooms, particularly basic research efforts and medical applications of magic mushroom ingredients. The extensive bibliography will help scientists and other interested mycophiles to further immerse themselves in this complex area of study.
Jochen Gartz Figure 6 - Bronze doors with mushroom motif entitled "Trial and Judgment" at Hildesheim Cathedral, Germany (ca. 1020). CHAPTER 2 REFLECTIONS ON THE HISTORY AND SCIENTIFIC STUDY OF MAGIC MUSHROOMS It is remarkable that cultures native to the American continent knew about a relatively large number of natural mind-altering substances compared to early cultures that evolved in Europe or Asia. Botanical evidence does not support the notion that Europe is home to fewer hallucinogenic plants than other regions. Drug Testing Shrooms Furthermore, the growing number of recently discovered European mushroom species containing psilocybin indicate a flourishing psychotropic mycoflora in Europe similar to those found in other countries. It is unlikely that early European cultures learned less about local plants and mushrooms through usage and experience than cultures elsewhere in the world. Most likely, early cultural knowledge of European psychoactive plants and mushrooms was lost or destroyed Psychedelic Mushrooms West Texas at some time in history, probably as early as several hundred years ago. The discovery that the fly agaric mushroom (Amanita muscaria) was known for its psychoactive properties in Siberia invited the conclusion that this mushroom was used as a psychotropic agent in medieval Europe as well. In fact, there is very little evidence from the Middle Ages to indicate widespread knowledge of the effects of specific mushrooms on human consciousness. However, I believe that past reports on psychoactive mushrooms were causally linked to Amanita muscaria simply because this was the only known psychotropic mushroom in Europe at that time. While the usage of Amanita muscaria among Siberian tribes has generated reports of spectacular hallucinations, European accounts of fly agaric intoxications do not generally include descriptions of such intensely hallucinatory effects. Accordingly, the potent hallucinogenic effects of specific Psilocybes and related species are likely to have had a much more significant influence on early European cultures than the delirium-like visions induced by Amanita muscaria, a species that is also known to induce unconsciousness and severe somatic side effects. This hypothesis is corroborated by data from comprehensive field studies conducted in Mexico.
I believe that historic accounts including those described below - indicate a knowledge of


magic magic berlin mushrooms

Mushrooms align="right"> own cause of death and disease, bloated stomachs and insanity.
Beliefs such as these have survived to the present day. They persist, for example,,, as figures of speech, s u c h as the slick Austrian description of a societal misfit as someone "who ate those madness-inducing mushrooms." But, there is another, very different, magic mushroom legacy as well. Flesh of the Gods for Devil Worshippers The Old World.
Mycenaean civilization began with a mushroom trip -Mushrooms were an ingredient in the ambrosia of Dionysus. Porphyrius, the fourth century Latin poet and contemporary of Emperor Konstantin, knew that magic mushrooms were the children of the gods. WHO WAS THE FIRST MAGICIAN? A quasi-cannibalistic ritual, the act of eating the children of the gods unlocked one's power to experience the truly divine. But not all mushrooms enable human beings to enter the realm of divine consciousness.
This magic power resides in only those fungi known as "fool's mushrooms", which were considered poisonous and believed to be the spawn of the Devil throughout the late Middle Ages and well into modern times.
The New World: The Aztecs in Mexico referred to a number of small, inconspicuous mushrooms as teonartacatl, or "flesh of the Gods." These sacred mushrooms were eaten during the course of rituals intended to contact the Gods in order to learn about the world and the realm of the divine.
These magic mushroom rituals thoroughly spooked the Catholic Spaniards. The mushroom eaters, commonly thought of as Devil worshippers, were hounded by the Inquisition. Still, all good things survive the tests of time, so the cult of magic mushroom eaters did not become extinct. Like mycelia underground, the cult continued to flourish, and at the proper time in recorded history, in 1957, the fruit of the fully grown mushroom re-surfaced to draw widespread public attention. Valentine and Gordon Wasson became the heroes of the modern neo-mycophilic movement. Back to the Old World: The revelations and insights gained from the use of psychoactive mushrooms were so magically wonderful, that our native European "fool's mushrooms" - which were gene ; considered inedible - had to be recognized Magic Mushroom Drawing as closely "Psilocybe Semilanceata : Pacific Blue, Liberty Cap " related to the magic mushrooms of Mexico, the flesh of the Aztec Gods. The souls of magic mushrooms in Mexico and Germany are essentially made from the same substance: psilocybin. Jochen Gartz has made an extraordinary contribution to the field of mycology by embracing Germany's magic mushrooms and the scientific study and testing of these fungi. The research efforts upon which this book is based require nothing less than a fearless, brave and courageous consciousness, free of prejudice and mycophobia. I am convinced that a researcher's consciousness infused by the spirit of the magic mushroom is capable of far deeper scientific insights than we can ever expect from the usual ivory tower academics, isolated from reality

went in waves. Increasingly, all colors in her immediate surroundings coalesced into shades of green. The hallucinations were fearsome; the heads of monsters became visible and a wall opened up into an abyss. There was a succession of human figure with animal heads. The next day, everything was back to normal. The oldest child (age 14) also saw her parents' hair color turn green, had dilated pupils and watched geometric shapes appear on the wall. The youngest child (age 11) experienced cramps and lost consciousness. In 1960, Singer and Guzman suggested that Panaeolus cyanescens might contain psilocybin, because of the intense blue staining they had observed. It wasn't until after the intoxications in Menton had been publicized, that a research team working with A. Hofmann detected 0.2% of psilocybin in the mushrooms. Considering the powerful effects, however, this concentration appears to be too low to cause such impressive reactions. Later on, Sandoz Laboratories reported the level of psilocybin in dried samples as 0.8%, along with 1.2% psilocin. The level of psilocin, however, may have been falsely elevated by the presence of serotonin and its derivates in the mushroom sample that was being tested. According to Stijve, a mushroom sample collected by J.W. Allen in Thailand contained 0.4% - 1.05% of psilocin, with only trace amounts of psilocybin; serotonin was present in large amounts, comparable to concentrations found in all Panaeolus species. Apparently, Panaeolus cyanescens produces more psilocin than psilocybin. Still, I was able to detect 0.4% of psilocybin in mycelia cultivated on malt agar, with no other indole compounds present. Discussion of the Panaeolus species would remain incomplete without pointing out that those subjectively terrifying psychoses reported in 1965 cannot be attributed to a specific mushroom ingredient, but were likely precipitated by the circumstances (set and setting) surrounding the incident. The effects described by J. Allen in Hawaii after eating 20 specimens paint a different picture altogether: With radio music playing softly in the dark, euphoria began to come on in waves. After 20 minutes, visions became so intense that I tried to close my eyes. Whenever 1 did close my eyes, my eyelids felt as if they were being sprayed from the outside. Colors were sharp and clear, but I always quickly opened my eyes again. Colors were dancing like laser beams to the rhythm of the music. The stars in the sky assembled in clusters that reached all the way into my soul. I was a little scared at the idea that the ocean water might rush up all the way into our hut. Other than that, feelings of euphoria were overwhelming. At times, I was overcome by fits of laughter. That night, I slept like "a prince ". The following morning I gathered up my belongings and had to walk back across the pasture where I had collected the mushrooms the day before. I noticed a lot o Most recreational users of Psilocybe cubensis (when grown in vitro) require a dosage of 1 to 2 gm of dried mushrooms to produce an altered state of consciousness; a clinical dosage for Psilocybe cubensis, on the other hand, had previously been reported as ranging from 3 to 5 gm of dried material. This dosage would be comparable to the amount of fungal material consumed for religious purposes in a Mazatec Indian healing and curing ceremony. In 1982, one research team "found that the level of psilocybin and psilocin varies over a factor of 4 among various in vitro cultures of Psilocybe cubensis, while specimens from outdoors varied tenfold." A fresh dosage of Psilocybe cubensis in Australia would be approximately from 1 to 2 large mushrooms weighing up to as much as one fresh ounce, or as many as from 25 to 50 small mushrooms equaling the same weight amount. Ethnopharmacologist Jonathan Ott (1976, 1993) noted that he has observed "the ingestion of from 0.5 gm to 5.9 gm dried weight (10 gm to 40 gm fresh)", of various species of Psilocybe. Dosage for Psilocybe subcubensis would be the same as for Psilocybe cubensis. Both of these latter two species are macroscopically alike. The usual dosage for Copelandia cyanescens required to induce psychedelic visual effects ranges from 1 to 3 large specimens (cap diameter c. 5 mm), or as many as 5 to l0 medium-sized mushrooms (cap diameter c. 2.5 mm); however, personal tolerance to this species may occur with continued use, and some who consume large amounts of this mushroom have reportedly ingested as many as 50 to 200 fresh specimens of various sizes. 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 Most recreational users of Psilocybe cubensis (when grown in vitro) require a dosage of 1 to 2 gm of dried mushrooms to produce an altered state of consciousness; a clinical dosage for Psilocybe cubensis, on the other hand, had previously been reported as ranging from 3 to 5 gm of dried material. This dosage would be comparable to the amount of fungal material consumed for religious purposes in a Mazatec Indian healing and curing ceremony. In 1982, one research team "found that the level of psilocybin and psilocin varies over a factor of 4 among various in vitro cultures of Psilocybe cubensis, while specimens from outdoors varied tenfold." A fresh dosage of Psilocybe cubensis in Australia would be approximately from 1 to 2 large mushrooms weighing up to as much as one fresh ounce, or as many as from 25 to 50 small mushrooms equaling the same weight amount. Ethnopharmacologist Jonathan Ott (1976, 1993) noted that he has observed "the ingestion of from 0.5 gm to 5.9 gm dried weight (10 gm to 40 gm fresh)", of various species of Psilocybe. Dosage for Psilocybe subcubensis would be the same as for Psilocybe cubensis. Both of these latter two species are macroscopically alike. The usual dosage for Copelandia cyanescens required to induce psychedelic visual effects ranges from 1 to 3 large specimens (cap diameter c. 5 mm), or as many as 5 to l0 medium-sized mushrooms (cap diameter c. 2.5 mm); however, personal tolerance to this species may occur with continued use, and some who consume large amounts of this mushroom have reportedly ingested as many as 50 to 200 fresh specimens of various sizes. 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 Sp psilocybe cyanescens Sp 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 East Texas Cubensis bark mulch and woodchips of deciduous woods.

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