Peyote and other Psychoactive Cactiby Adam Gottlieb
How to use them - How to extract them What they contain - Where to obtain them How to cultivate them and increase their potency 35 different species discussed Index:
INTRODUCTIONFor many years most of us have been aware of the psychoactive effects of Peyote. More recently in drug-oriented literature there have been numerous references to other cacti believed to have hallucinogenic properties. Among these are Doņana from northern Mexico, San Pedro from the Andes, three related mescaline-bearing species from South America, and at least 15 species used by the Indians of Central Mexico as Peyote substitutes. Botanists and Chemists are now studying the constitutes of these cacti and are making some remarkable discoveries. In this guide we will consider each of these cacti and bring the reader up to date on what scientists have learn ed about them. The various methods of using these cacti are also discussed. Directions are given for cultivating cacti and increasing the yield of mescaline and other alkaloids. There are instructions for extracting mescaline from Peyote and San Pedro, and mixed alkaloids from Doņana and other cacti. We also include a brief discussion of the legal aspects of these hallucinogenic cacti and give the names and addresses of legitimate suppliers from whom these plants can be obtained at reasonable prices.
(Note: In Mexico there is a popular liquor called mescal. Many people believe that it is made from the Peyote cactus. Actually it is fermented from the Maguey plant, a large succulent of the Amaryllis family with sword-like leaves. This plant does not contain mescaline or related alkaloids.) It was in 1896 that Arthur Heffter extracted mescaline from Peyote and tested it upon himself. This was the first hallucinogenic compound isolated by man. About 350 mg of mescaline is required for a psychotropic experience, although definite effects can be felt from as little as 100 mg. Mescaline may comprise as much as six percent of the weight of the dried button, but is more often closer to one percent. An average dried button the diameter of a quarter weighs about 2 grams. it usually takes 6-10 of these buttons to gain the desired effect. It has been noted that the peyote experience is quantitatively somewhat different than that of pure mescaline, the former being more physical than the latter. This is due to several of the other alkaloids present in the cactus. These include: HORDENINE, N-METHYLMESCALINE, N-ACETYLMESCALINE, PELLOTINE, ANHALININE, ANHALONINE, ANHALIDNINE, ANHALONIDINE, ANHALAMINE, O-METHYLANHALONIDINE, TYRAMINE, and LOPHOPHORINE. Not all of these substances have psychopharmacological activity when administered singly. Some of them in combination apparently potentiate the effects of the mescaline and definitely alter some of the characteristics of the experience. Two of these alkaloids - Hordenine and Tyramine - have been found to possess antibacterial activity, presumably because of their phenolic function. For ages the Huichol Indians have rubbed the juices of fresh peyote into wounds to prevent infection and to promote healing. The Tarahumara Indians consume small amounts of peyote to combat hunger, thirst and exhaustion especially while hunting. They have been known to run for days after a Deer with no food, water or rest. Peyote has many uses in folkloric medicine including the treatment of arthritis, consumption, influenza, intestinal disorders, diabetes, snake and scorpion bites and datura poisoning. The Huichol and other tribes recognize two forms of peyote. One is larger, more potent and more bitter than the other. They call it TZINOURITEHUA-HIKURI (peyote of the Gods). The smaller, more palatable, but milder buttons are called RHAITOUMUANITARI-HIKURI (peyote of the goddesses). The difference between the two forms may be due solely to how old the plants are. Alkaloids tend to accumulate in these cacti with age. It is possible, however, that the goddess peyote is a different species. Until recently botanists believed that the genus LOPHOPHORA consisted of a single but highly varible species. But in 1967 H.H. Bravo found near Queretaro in south-central Mexico another species which he named LOPHOPHORA DIFFUSA. This plant is yellow-green, soft, ribless and contains a somewhat different alkaloid mixture with far less mescaline that L. williamsi.
The entire experience may last from 6 to 12 hours depending upon the individual and the amount of the plant consumed. After all the peyote effects have passed there is no comedown. One is likely to feel pleasantly relaxed and much a peace with the world. Although there is usually no desire for food during the experience one would probably have a wholesome appetite afterwards.
A method which avoids both the bitterness and the nausea is the rectal infusion. 8-16 grams of dried peyote is ground into a fine powder and boiled in a pint of water for 30 minutes. It is then strained and further boiled to reduce it's volume to one half pint. After cooling, this is taken as an enema using a small bulb syringe and retained for at least two hours. If there is any fecal matter in the lower bowel, a small cleansing enema should be taken and thoroughly expelled before having the peyote infusion. Otherwise much of the drug will be taken up by the feces and later voided.
The best time to harvest any cactus is after a long dry spell. The worst time is during or after a rainy period. The plants build up alkaloids during dry seasons and draw upon them for growth when the rains come. If the plants are harvested during or after a wet spell, the alkaloid content may have dropped below 50 percent. If you have a soil test kit, you can get a good indication of the potency of cacti growing wild. If the soil is rich in nitrogen, the plants are likely to be rich in alkaloids. When harvesting peyote, many people uproot the entire plant. This is unnecessary and wasteful. The roots contain no mescaline. Some of these plants have taken a long time to reach their size. A cactus three inches in diameter may be more than 20 years old. To collect peyote properly the button should be cleanly decapitated slightly above ground level. When the roots are left intact new buds will form where the old was removed. These will eventually develop into full-size buttons which may be harvested as before. Faulty harvesting method have seriously depleted populations of this cactus. Because of the presence of several phenolic alkaloids peyote cacti do not spoil easily and may be kept in their fresh form for several weeks after harvesting. If they are to be kept longer than this they must be refrigerated, frozen, or dried. The enzymes which cause the harvested plant to eventually decompose also destroy the mescaline and other alkaloids. To dry peyote buttons lay them out in the hot sun or in an oven at 250 degrees F until completely devoid of moisture.
PEYOTILLO: TSUWIRI: SUNAMI: This plant, ARIOCARPUS FISSURATUS, has been used in folkoric medicine of Mexico and southwestern USA. It is believed to be more potent than peyote and is used in the same manner as that cactus or made into an intoxicating drink. Among some tribes it is known as Chaute (a generic term for Ariocarpus species), living rock, or dry whiskey. The latter name, however, is often used for peyote and other psychoactive cacti. There are two varieties of A. fissuratus: var. lloydii and var. fissuratus. Both have about the same phytochemical makeup. The plant contains mostly hordenine, less N-methyl-tyramine and some N-methyl-3,4-dimethoxy-B-phenethylamine. Two other species, A. kotschoubeyanus also known as Pata De Venado or Pezuna De Venado, and A. trigonus also contain these alkaloids. DOŅANA: This small cactus, CORYPHANTHA MACROMERIS, from northern Mexico has been found to contain macromerine, a phenethylamine drug reputed to have about 1/5 the potency of mescaline. It also contains normacromerine, N-formylnor-macromerin, tyramine, N-methyltramine, hordenine, N-methyl-3,4-dimethoxy-B-phenethylamine, metanephrine, and synephrine (a macromerine precursor). Other coryphantha species which contain macromerine with most of these other alkaloids include: C. pectinada, C. elephantideus, C. runyonii and C. cornifera var. echinus. Most of these alkaloids with the exception of macromerine have also been found in other varieties of C. conifera and in C. durangensis, C. ottonis, C. poselgeriana and C. ramillosa. Considering that there is usually no more than 0.1 percent macromerine in Doņana and that a gram or more of this alkaloid may be needed to produce a psychotropic effect, one would have to consume more than a kilo of the dried cactus or 20 pounds of the fresh plant. Clearly this is not possible for most humans. If one wishes to experiment with the hallucinogenic properties of Doņana, is is necessary first to make an extraction of the mixed alkaloids. Methods for this are given latter in this guide. DOLICHOTHELE: Several tribes occasionally use any one of several species of Dolichothele as a peyote-like sacrament. These include D. baumii, D. longimamma, D. melalenca, D. sphaerica. D. surculosa, and D. uberiforma. Recent investigations have revealed in these the presence of small amounts of the alkaloids N-methylphenethylamine, B-O-methylsynephrine, N-methyltryamine, synephrine, hordenine, and dolichotheline (N-isovalerylhistamine). MISCELLANEOUS: Several other cacti have been used by the Tarahumares as peyote substitutes. Among these are Obregonia denegrii, Aztekium ritterii, Astrophytum asterias, A. capricorne, A. myriostigma (Bishops cap), and Solisia pectinata. The Tarahumares also consume a cactus which they call Mulato (Mammillaria micromeris) and claim that it prolongs life, gives speed to runners, and clarifies vison for mystical insights. Another cactus similarly employed is known as Rosapara (Epitheliantha micromeris) is believed by many botanists to be the same species as Mulato, but at a later vegetative stage. The large cactus Pachycereus pecten-aboriginum, known locally as Cawe, has occasionally been used as a narcotic. What little studies have been carried out on these cacti have revealed the presence of alkaloids most of the other species we have discussed, but no mescaline or macromerine. Many of these alkaloids have some psychopharmacalogical properties, but nothing to compare with those two drugs. Furthermore, the amounts of these alkaloids are usually so small as to be insignificant. For example, the species Obregonia denegrii contains tyramine 0.003 percent, hordenine 0.002 percent, and N-methyltyramin 0.0002 percent. These are all known sympathomimetics, but the percentages are far too minute to have any value. Several publications in recent years have mentioned the sacramental use of these cacti. As a result thousands of people have obtained these plants from cactus dealers and ingested them, usually with disappointing (and sometimes nauseating) results. Sadly many of these cacti are quite rare. If too many people destroy them experimentally, they may become a seriously endangered species. The most suitable cacti for a true psychedelic experience are peyote, which is for the most part illegal, and several species of Trichocereus (such as San Pedro), which are still legal. SAN PEDRO: This cactus has gained considerable fame in the past five years after numerous reports that it is hallucinogenic, contains mescaline, and is readily available from cactus nurseries. This plant known botanically as Trichocereus pachanoi, is native to the Andes of Peru and Equador. Unlike the small peyote cactus, San Pedro is large and multi-branched. In it's natural enviorment, it often grows to heights of 10 or 15 feet. It's mescaline content is less than that of peyote (0.3 - 1.2 percent), but because of it's great size and rapid growth, it may provide a more economical source of mescaline than peyote. One plant may easily yield several pounds of pure mescaline upon extraction. San Pedro also contains tyramine, hordenine, 3-methoxytyramine, anhalaninine, anhalonidine, 3,4-dimethoxyphen-ethylamine, 3,4-dimethoxy-4-hydroxy-B-phenethylamine, and 3,5-dimethoxy-4-hydroxy-B-phenethylamine. Some of these are known sympathomimetics. Others have no apparent effects when ingested by themselves. It is possible, however, that in combination with the mescaline and other active compounds they may have a synergistic influence upon one another and subtly alter the qualitive aspects of the experience. It is also possible that any compounds in the plant which act a mild MAO inhibitors will render a person vulnerable to some of the above mentioned amines which would ordinarily be metabolized before they could take effect. The effects of San Pedro are in many ways more pleasant than those of peyote. To begin with, it's taste is only slightly bitter and the initial nausea is not as likely to occur. When the full psychotropic experience takes hold it is less overwhelming, more tranquil and not nearly as physical as that from peyote. San Pedro may be eaten fresh or dried and taken in any of the manners described for peyote. Cuttings of San Pedro sold in the USA are usually about three feet long by four inches diameter. A piece 4-8 inches long will usually bring about the desired effect. The skin and spines must be removed. The skin should not be thrown away, however. The green tissue close to the skin contains a high concentration of mescaline. Some people chew the skin until all the juices are extracted. If you don't what to do this, the skins can be boiled in water for several hours to make a potent tea. The woody core of the cactus cannot be eaten. One can eat around it like a corn cob. The core does not have much alkaloid content, but can be mashed and boiled as a tea for what little is there. To dry San Pedro slice the cactus into disks (actually stars) 1/2 inch thick and dry thoroughly in the sun or in an oven at 250 degrees F. The spines must be removed either before drying or before chewing. Also one must be careful of the splinters from the woody core. If a tea is made from fresh San Pedro, the cactus must be either sliced, chopped or crushed before boiling. San Pedro is a hardy cactus and endures cold climates quite well. It grows at altiudes from sea level to 9000 feet high in the Andes where it is most frequently found on western slopes. The soil in this region is very rich in humus and various minerals. This helps in the production of mescaline and other alkaloids. There are several cacti which look much like San Pedro and have even been mistaken for it by trained botanists. In 1960 when Turner and Heyman discovered that San Pedro contained mescaline they erroneously identified the plant as Opunita cylindtica. A few other South American species of Trichocereus also contain mescaline with related alkaloids. These include: T. BRIDGESII, T. MACROGONUS, T.TERSCHECKII, and T. WERDERMANNIANUS. There is evidence that the ritualistic use of San Pedro dates back to 1000 BC. Even today it is used by Curanderos (medicine men) of northern Peru. They prepare a drink called CIMORA from it and take this in a ceremonial setting to diagnose the spiritual or subconscious basis of a patient's illness.
Live plants of any of the species mentioned in this guide - with the exception perhaps of peyote - can be purchased from suppliers named at the end of this chapter. Freshly harvested peyote cuttings are frequently available on the underground market for 50 cents to one dollar per button. When selecting peyote cuttings for planting choose ones which are firm and unbruised with at least 1/2 inch of taproot below the top. If the bottom of the taproot is still delicate where it has been cut, the button should be placed bottoms up in partial shade for a day or two until the severed area has a dry corky texture. If this is not done, the plant will be prone to rot. The best soil mix can be prepared from 3 parts coarse sand, 1 part loam and 1 part leaf mold. Bake this mixture in an oven at 400 degrees F for an hour to kill fungus, bacteria, weed seeds and insect eggs. After the soil mix has cooled it is ready to use. The taproot of the plant may be dipped in a rooting mixture, such as ROOTONE, before planting. This enhances root development and hinders decay. Place the bottom just deep enough so that the soil does not quite touch the green part of the plant. The soil should be kept slightly moist and evenly so. If you are planting a tall cactus like San Pedro, the cutting should be placed deeply enough in the soil that it will have sufficient support to stand. San Pedro type cacti can also be laid upon the ground and will send down roots from their sides while the buds grow upwards. San Pedro can grow well in almost any soil as long as there is decent drainage. Cacti tend to grow mostly during spring and autumn, to send down roots in the summer, and to rest through winter. Although cactus cuttings may be planted anytime of the year they stand the best chance if planted in the late spring. They should be watered thoroughly once or twice a week depending upon how rapidly moisture is lost. The soil an inch below the surface should always contain some moisture. Watering can be cut back to less than half during the winter. INCREASING THE POTENCY OF PSYCHOACTIVE CACTI There are several factors which influence production of mescaline and related alkaloids in cacti. Presence of a wide variety of trace minerals is important. Occasional watering with Hoagland A-Z trace mineral concentrate provides these minerals. Combine 1 part concentrate with 9 parts water and water cacti with this once every two months. Experiments conducted by Rosenberg, Mclaughlin and Paul at the University of of Michigan, Ann Arbor in 1966 demonstrated that dopamine is a precursor of mescaline in the peyote cactus. Tyramine and dopa were also found to be mescaline precursors, but not as immediate and efficient as dopamine. It appears that in the plant tyosine breaks down to become tyramine and dopa. These then recombine to form dopamine which is converted to nor-mescaline and finally to mescaline. One can take advantage to this sequence by inject-ing each peyote plant with dopamine 4 weeks prior to harvesting. Much of the dopamine will convert to mescaline during this time, giving a considerable increase in the alkaloid of the plant. Prepare a saturated solution of free base dopamine in a .05 N solution of hydrochloric acid and inject 1-2 cc into the root of each plant and the same amount into the green portion above the root. Let the needle penetrate to the center of the plant, inject slowly and allow the needle to remain in place a few seconds after injection. It is best to deprive the plant of water for 1-2 weeks before injection. This makes the plant tissues take up the injection fluids more readily. If dopamine is not available, a mixture of tyramine and dopa can be used instead 6 weeks before harvesting for comparable results. San Pedro and other mescaline-bearing cacti can be similarly treated for increased mescaline production. Inject at the base of the plant and again every 3-4 inches following a spiral pattern up the length of the plant. A series of booster injections can be given to any of these cacti every 6-8 weeks and once again 4 weeks before harvesting for greater mescaline accumulation. It is also possible to increase the macromerine and nor-macromerine content of Doņana cacti using tyramine or DL-norepinephrine as precursors. Injections should be given 20-25 days before harvesting. Series of injections can be given 45 days apart for higher alkaloid accumulation.
Grind a kilo of the dried cactus, place this in a large pressure cooker, cover with distilled water, and boil for 30 minutes. Strain the liquids and save them. Return the pulp to the pot, add more water and boil again for 30 minutes. Strain the liquids and combine them with the first strainings. Repeat this process about five times or until the pulp no longer has a bitter taste. Discard the pulp and reduce the volume of the combined strainings by boiling in an open pot. Do not use aluminum ware. When the liquids have been concentrated to the thickness of cream (about one quart), stop the boiling and stir in 400 grams of sodium hydroxide (lye). This makes the mescaline more soluble in benzene and less in water. If a large separatory funnel is available pour the liquids into it and add 1600 ml of benzene. Shake the funnel well for five minutes and let it stand for two hours. If a separatory funnel is not available the process can be carried out in a one gallon jug with a siphon attached. After standing for 2 hours the water layer will settle to the bottom and the benzene layer will float to the top. Between the two layers will be a thin emulsion layer of mixed water and benzene. Drain off the water and emulsion layers if you are using a separatory funnel or siphon off the benzene layer if you are using the makeshift jug-siphon apparatus. Be certain that neither the water or emulsion layers get into the benzene layer when separating. If any of these layers do get into the benzene during separation pour everything back into the separator, let it stand and repeat the separation more carefully. It is better to leave some benzene layer in the water and emulsion than to get emulsion and water into the benzene. Nothing will be wasted. All of the benzene which contains the mescaline will eventually be salvaged. Sometimes the layers will fail to separate properly. If this is the case immerse the funnel or jug in a deep pot of hot water for two hours. This will break up the emulsion and bring about the separation. Prepare a solution of 2 parts sulfuric acid and one part water. (never add water to the acid or it will splatter; add the acid a little at a time to the water by pouring it down the inside of the graduate or measuring cup containing the water.) Add 25 drops of the acid solution one drop at a time to the benzene extracts. Stopper the jug and shake well for one minute. Then let stand for five minutes. White streaks of mescaline sulfates should begin to appear in the benzene. If these do not appear, shake the jug more vigorously for two to three minutes and let it settle for five more minutes. I have found that when extracting mescaline from San Pedro it is sometimes necessary to shake the mixture more thoroughly and for a longer time to get the mescaline streaks to form. This is probably because of the lower mescaline content in the plant. This would also apply to any peyote that does not have a high mescaline content. After the streaks appear add 25 more drops of the acid solution in the same manner, shake as before and let settle for ten minutes. More streaks will appear. Add 15 drops of acid, shake and wait 15 minutes for streaks to form. Add 10 drops, shake and wait about 30 minutes. Test the solution with wide range pH paper. It should show that the solution is between pH 7.5 and 8. Allow the mescaline sulfate crystals to completely precipitate. Siphon off as much of the benzene as possible without disturbing the crystals on the bottom of the jug. The next steps are to salvage any mescaline still in the water and emulsion layer. Combine the benzene siphonings with the water/emulsion layer, shake these well together for 5 minutes and let settle for two hours as before. Carefully remove the benzene layer, treat it again with acid, precipitate the crystals and siphon off the benzene as in the previous steps. Recombine the siphoned benzene with the watery layer and repeat this again and again until no more crystals precipitate. Siphon off as much benzene as possible without drawing crystals through the siphon. The next step involves removing the remaining benzene from the crystals. There are two methods to choose from. The first is the quickest, but requires ether, which is dangerous and often difficult to procure. Shake up the crystals with the remaining benzene and pour it into a funnel with filter paper. After the benzene has passed through the filter rinse the empty jug with 100 ml of ether to salvage any crystals in the jug and pour the ether over the crystals in the filter. After the ether has passed through the filter repeat the rinsing with another 100 ml of ether. Then let the crystals dry. If ether is not available or you do not wish to use such a highly combustible substance, the precipitate and residual benzene can be poured into a beaker. The jug should be rinsed several more times with a little benzene and added to the beaker so no crystals are left behind. The beaker is then placed in a heat bath until all of the benzene has been evaporated. The next step is to purify the mescaline sulfate crystals. Dissolve the dry crystals in 200 ml of near-boiling distilled water. Add a pinch of activated charcoal (Norite) and filter while still hot through number 2 filter paper. The hot water which contains the mescaline will pass through the filter. The Norite absorbes impurities from the mescaline. After the liquids have passed through the filter pour a little more hot water over the filter to rinse through any remaining mescaline which may have impregnated the filter paper. Add 10 percent ammonia solution a few drops at a time to the hot filtrates until the solution registers between pH 6.5 and 7. Place a boiling stone in the solution and reduce it's volume to 75 ml by boiling. Remove the boiling stone and allow the solution to cool to room temperature. Place the solution in a freezer or in a refrigerator set to the coldest possible temperature and allow the solution to cool to almost freezing. Tiny white needle-like crystals form around the bottom and sides of the beaker. Break up the crystals with a glass stirring rod while the solution is still ice cold and pour through a filter. Mescaline sulfate is insoluable in near freezing water and will not pass through the filter. Rinse the beaker with fresh ice water and pour this over the filter. The crystals will now be pure white and can be dried under a heat lamp or in an over at 250 degrees F. More mescaline can be salvaged from the water that has passed through the filter by boiling these liquids down to about 20 ml, adding Norite while hot, filtering through number 2 paper as before, chilling the filterate to near freezing as once before, filtering while cold, rinsing with ice water and drying the crystals. This repetition should obtain at least two more grams of mescaline sulfate. If large volume mescaline extraction is being conducted it would be worthwhile to repeat this salvaging procedure several more times.
Pulverize the dried cactus (tufts and spines need not be removed). Prepare a mixture of two parts isopropyl rubbing alcohol and one part clear, non-sudsing, unscented and untinted ammonia. Make the pulverized material soggy with this mixture and allow it to stand covered overnight. Do not use aluminum or iron wares during any of these steps. After soaking, cover the mash with isopropyl alcohol and boil in a heat bath for six hours. Strain the liquids through muslin and press as much liquid as possible from the pulp. With fresh alcohol repeat the boiling and straining three more times. Combine the strained liquids. Evaporate this in a heat bath until only a tar remains. (When evaporating a solvent use and electric range or hot plate rather than a gas stove. Have adequate ventilation and avoid breathing the fumes.) The tar can be further dried by spreading it thinly on a baking tray and placing it in an oven set at the lowest possible heat. Remove the tray once every fifteen minutes to examine the material. When it appears to be almost dry place it back in the oven, shut the heat off, and let it stay there until the oven cools.
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