Significance Humans have a long history of using natural resources, especially plants, to induce nonordinary states of consciousness. Imbibing substances derived from plants have been linked to ancient and elaborate knowledge systems and rituals. While archaeological evidence of the consumption of psychotropics, such as alcohol or caffeine, dates back thousands of years, evidence of the use of other psychoactive substances has been more difficult to document. This article presents the results of chemical analyses of organic residues found in a 1,000-year-old ritual bundle recovered from the highland Andes. The analyses provide evidence of the use of multiple psychoactive plants associated with a sophisticated botanical knowledge system among ritual specialists (shamans) during pre-Columbian times.

Abstract Over several millennia, various native plant species in South America have been used for their healing and psychoactive properties. Chemical analysis of archaeological artifacts provides an opportunity to study the use of psychoactive plants in the past and to better understand ancient botanical knowledge systems. Liquid chromatography tandem mass spectrometry (LC-MS/MS) was used to analyze organic residues from a ritual bundle, radiocarbon dated to approximately 1,000 C.E., recovered from archaeological excavations in a rock shelter located in the Lípez Altiplano of southwestern Bolivia. The site is located at an elevation of ∼3,900 m above sea level and contains evidence of intermittent human occupations during the last 4,000 years. Chemical traces of bufotenine, dimethyltryptamine, harmine, and cocaine, including its degradation product benzoylecgonine, were identified, suggesting that at least three plants containing these compounds were part of the shamanic paraphernalia dating back 1,000 years ago, the largest number of compounds recovered from a single artifact from this area of the world, to date. This is also a documented case of a ritual bundle containing both harmine and dimethyltryptamine, the two primary ingredients of ayahuasca. The presence of multiple plants that come from disparate and distant ecological areas in South America suggests that hallucinogenic plants moved across significant distances and that an intricate botanical knowledge was intrinsic to pre-Columbian ritual practices.

Throughout history and across diverse cultures, humans have sought out and utilized various substances to alter perception and ordinary conscious experiences (1⇓–3). Entheogens are a group of substances with known psychoactive effects that are used within spiritual and religious ritual contexts, often with a goal of awakening, transcendence, and/or personal development (4). Many Native American cultures, both past and present, have drawn on their botanical knowledge and incorporated particular species into ritual, social, and medicinal practices (5⇓⇓⇓⇓⇓⇓⇓⇓–14). There are numerous plant species native to South America that contain psychoactive compounds, and their use by ancient specialists provides significant clues concerning past knowledge systems and the importance of certain species for cultural practices (5, 11, 15). Hallucinogenic plants, in particular, have been used in numerous American contexts to establish a bridge between society and supernatural forces (6, 7, 9, 16, 17). In South America, the ethnographic documentation of the consumption of some critical plants has been linked with a deeper history of their use by means of archaeological research (18). Archaeometric studies have demonstrated the consumption of a few plant species such as coca (Erythroxylum coca) (19⇓⇓–22), vilca or cebil (Anadenanthera spp.) (17, 23, 24), tobacco (Nicotiana spp.) (12, 25), and yage/ayahuasca (Banisteriopsis caapi) (15). This paper adds to those previous studies by demonstrating the consumption of many of these resources together. Using liquid chromatography tandem mass spectrometry (LC-MS/MS), we tested for the presence of psychoactive compounds in the materials that composed a 1,000-year-old ritual bundle excavated in a dry rock shelter from southwestern Bolivia.

Results We sampled two artifacts from the ritual bundle (i): the fox-snout pouch interior was gently scraped to produce a small sample from adhering debris, and (ii) a superficial section from the larger fragment of archaeological plant stem tissue was collected. The scraping from the fox-snout pouch revealed multiple psychotropic compounds, suggesting that it contained multiple plants that were ingested for their psychoactive properties. Specifically, the pouch chromatograms indicated the presence of at least five psychotropic compounds: cocaine, benzoylecgonine (BZE), harmine, bufotenine, dimethyltryptamine (DMT), and a peak possibly related to psilocin (Fig. 3). Fig. 3. LC-MS/MS results from the fox-snout pouch indicating the presence of cocaine, BZE, harmine, bufotenine, DMT, and peak potentially corresponding to psilocin. Regarding the archaeological plant stem, the chromatogram showed peaks that correspond to the presence of cocaine, BZE, and bufotenine (Fig. 4). None of the modern plants considered here contain these three substances together, nor do we know of any species that contains these three compounds in concert. Therefore, some, and possibly all, of these chemical compounds may be exogenous. Due to the destructive nature of chemical analysis, we only collected a very small surface sample of the archaeological plant. Therefore, the sample tested may reflect the chemistry of the items that plant surface was in contact with, rather than the biogenic signal of the plant itself. Two interpretations could explain this anomaly (i): that some of these compounds are biogenic to the archaeological plant on the string or (ii) that all of the compounds are exogenous. Fig. 4. LC-MS/MS results from the larger piece of plant tissue indicating the presence of cocaine, BZE, and bufotenine.

Discussion The analyses indicated the presence of five psychoactive compounds derived from at least three different plant sources recovered from the bundle, the largest number of psychoactives present in a single archaeological assemblage reported from South America. Cocaine and BZE were identified in both the fox-snout pouch and archaeological plant samples, suggesting the presence and use of E. coca leaves by the owner of this kit. E. coca has a very long history of use in South America and is still widely used today (18⇓–20). While not exclusively used as an entheogen, the leaves contain active ingredients including cocaine and BZE, and are consumed for social, ritual, and medicinal purposes (44). Coca leaves are chewed (or brewed into a tea), and the active ingredient, cocaine, acts as a mild stimulant and as an anesthetic. Coca leaves are also used to help with symptoms of altitude sickness and gastrointestinal disorders (45, 46). Chemical tests that were run on a number of pre-Columbian mummies from South America (especially Chile and Peru) show the presence of cocaine and/or its metabolite BZE, including in young infants, who likely received the chemical through their mother’s breastmilk (24, 47). The fox-snout pouch likely carried coca leaves, and we hypothesize that the presence of these compounds on the archaeological plant come from coca leaves rubbing against the surface of the plant on the string. Therefore, we do not think that the archaeological plant on the string is a piece of stem from an E. coca plant, but instead these two distinct items (coca leaves and this plant stem on the textile string) were in close contact inside the ritual bundle. The presence of bufotenine suggests that seeds from Anadenanthera were carried in the fox-snout pouch and may have been related to the archaeological plant. Within a South American context, bufotenine has been most widely documented in the seeds of Anadenanthera, while the stem/bark of the plant has not yielded evidence of bufotenine content (instead having trace amounts of DMT-oxide) (48). It is possible that the bufotenine is endogenously present in the unknown archaeological plant sample and that further morphological work will be needed to identify this plant stem. For example, a study of Brosimum acutifolium, a plant found in northern South America, contains bufotenine in its latex (produced in the stem/bark), and is used as a shamanic potion by people of the Guiana plateau (49). Further analysis of this preserved ancient plant will be needed to confirm a species identification. Anadenanthera colubrina (often called vilca or cebil) and Anadenanthera peregrina (called yopo) were widely used by South American horticultural tribes and are known to contain psychoactive tryptamines. The primary component in Anadenanthera is bufotenine (5-OH-DMT), and the genus also contains trace amounts of the tryptamines N,N-dimethyltryptamine (DMT) and 5-methoxy-N-N-dimethyltryptamine (23, 50). These tryptamines have a range of documented psychoactive effects depending on ingestion route and are taken as a stimulant and/or for their hallucinogenic properties (51⇓–53). The seeds (which contain the psychoactive compounds) are ground as snuff and inhaled, mixed into a beverage such as chicha (an alcoholic drink brewed widely in South America), or given in an enema (23, 51, 53). Previous Tiwanaku-period archaeological finds of snuff trays and tubes have been thought to be related to inhalation of Anadenanthera, and while only a few have been analyzed in depth, those that were tested indicated Anadenanthera presence (17, 53). A recent study of mummies from the Azapa Valley, Chile, dated to between 500 and 1100 CE, showed that two individuals, male and female, had consumed Anadenanthera, as evidenced by bufotenine present in their hair (24). The identification of bufotenine in the scraping from the fox-snout pouch indicates Anadenanthera seeds were carried and used, likely ground into a powder on the snuff trays and inhaled using the snuff tube found within the ritual bundle. The pouch also contained harmine, DMT, and a peak was observed that may be from a fungus with psilocin. In South American botanicals, harmine is found in highest quantities in the B. caapi plant, most commonly prepared as the main ingredient in “ayahuasca” (54). The presence of DMT is potentially confounding, as this tryptamine is found in low concentrations in A. colubrina and A. peregrina and in higher concentrations in Psychotria viridis. Therefore, the DMT presence could be derived from the same Anadenathera material contributing bufotenine to the pouch scraping, or it could be from an independent source, such as Psychotria. While psilocin was not in our initial compound screenings, the presence of a peak at the retention times and transitions, corresponding to psilocin, suggests it was in the original sample. Psilocin is also a tryptamine, 4-hydroxy-dimethyltryptamine, and it may be possible that its presence in the sample is derived from a psilocin containing fungus. Recently scholars have sought out evidence of ayahuasca use during pre-Columbian times. In contemporary contexts, ayahuasca is a hypernym for a range of psychotropic concoctions and is traditionally associated with Amazonian cultures (55). The primary ingredient in ayahuasca is B. caapi, which may be boiled and brewed as a tea (alone), although it is often mixed with other plants, most commonly P. viridis (known as chacruna). B. caapi is grown in tropical areas of northern South America while P. viridis is thought to have been limited to Amazonian lowland areas in the past (56, 57). B. caapi contains the β-carboline alkaloids harmine, harmaline, and tetrahydraharmine while P. viridis contains DMT (58). When these two plants are combined in ayahuasca preparations they have dynamic interacting effects: The β-carboline alkaloids prevent the breakdown of the DMT in the digestive tract and then act as monoamine oxidase inhibitors, thus allowing the DMT to activate the central nervous system, causing vivid hallucinogenic experiences for consumers (57). Scholars have debated the historical use of ayahuasca, with some suggesting it has relatively recent origins, while others argue that it may have been used for centuries, or even millennia (24). Archaeological evidence of ayahuasca consumption is still lacking. However, Ogalde et al. (15, 59) analyzed hair from 32 Tiwanaku period mummies dated between 400 and 900 CE from the Azapa Valley of northern Chile and found chemical traces of harmine in the hair of an infant and of an adult male, indicating Banisteriopsis consumption. They noted that the presence of harmine alone suggests that the consumption of Banisteriopsis was not for hallucinogenic purposes (since harmine is a monoaminoxidase inhibitor with psychoactive effects but not hallucinogenic ones), but rather for medicinal or therapeutic reasons (15, 59). The presence of Banisteropsis in archaeological contexts, therefore, does not necessarily indicate that it was used as a hallucinogen/entheogen. The combination of Banisteropsis with other plants to induce hallucinations, it has been argued, may have developed in more recent times (24, 60). Of particular interest is the possibility that ayahuasca (a blend of various plants) was used in this ancient context. Given the presence of harmine (Banisteriopsis) and DMT (via multiple potential sources), ayahuasca must be considered. It is likely that shamans ingested plants containing harmine and DMT simultaneously to achieve a hallucinogenic state, either through a beverage, such as ayahuasca, or through a composite snuff that contained these plants in a single mixture (61, 62). The Piaroa of southern Venezuela use both A. peregrina and Banisteriopsis in their snuff preparations (and consume additional doses of Banisteriopsis before snuff inhalation) (63). It is possible that a similar preparation was used by shamans in our study area. However, the plants containing these psychotropic compounds may have also been used separately, potentially even as medications. For example, recent work on the bark of A. colubrina has indicated chemical compounds that aid in pain treatment (antinociceptive effects) (62). Anadenanthera, Banisteriopsis, and Erythroxylum could have also been used for medicinal/therapeutic uses, such as during pregnancy or in early childhood, as evidenced by the presence of Banisteriopsis and Erythroxylum in young individuals (59). Although our results do not provide conclusive evidence for the early use of ayahuasca in the form most commonly observed in modern South American indigenous communities (as an entheogen using Banisteriopsis and Psychotria together), it is evidence that this combination was possibly used as early as 1,000 y ago. One significant compound we did not identify in the ritual bundle is mescaline, a phenethylamine alkaloid (3,4,5-trimethoxyphenethylamine), which is known for its hallucinogenic effects and has a history of being used in the Americas as an entheogen (6, 7, 9). Echinopsis pachanoi (previously listed as Trichocereus pachanoi), also known as San Pedro cactus, is native to South America and contains mescaline. Much of the evidence of E. pachanoi in South America is found in iconographic representations on pottery, lithic sculptures, and textiles (7, 64⇓–66). However, direct evidence of the use of E. pachanoi for mescaline, such as via archaeobotanical or chemical residue data, is still lacking, as confirmed by our results. While evidence of direct consumption of any of these plants is absent (no human remains were associated with this archaeological context), the substantial evidence of the presence of hallucinogenic plants is compelling. Few studies have recovered direct evidence of psychoactives in South American archaeological contexts, and this case systematically demonstrates evidence for multiple psychoactive plants found together in a single artifact. Importantly, as others have noted, these plants come from distant and diverse ecological zones (23, 60). Because these plants are foreign to the Lípez highlands, it remains to be established whether they were acquired through trading networks or directly by the shamans themselves. In either case, their role as articulators of ideology must have been strongly reinforced by these interregional contacts. These erudite and well-trained ritual specialists must have also been very influential individuals in ancient Andean society. With the disintegration of Tiwanaku, at around 1000 CE, rituals involving snuff paraphernalia vanished in the core area, nonetheless, shamanic cults endured in other regions (28, 31). The snuffing tablets and the inhalation tube recovered at Cueva del Chileno show greater affinity with a regional tradition that continued to evolve after Tiwanaku’s collapse. The “circumpuneño” tradition comprised the Atacama region in northern Chile, the Jujuy puna in northwestern Argentina, and the Lípez highlands of southwestern Bolivia, and involved the consumption of hallucinogens and mortuary ritual that included burial desecration and human decapitation (35, 41, 42).

Conclusions Chemical analysis of organic residues from this ancient bundle indicates that the ritual specialists in this region had extensive knowledge of and access to various plants with psychoactive properties. Our results indicate that this is the largest number of psychoactive compounds found in association with a single archaeological artifact from South America. The chemical residues of at least five compounds that are known to have psychotropic effects on humans, present in the fox-snout pouch, imply that multiple plants were used to induce extraordinary states of consciousness, potentially within a range of ritual and healing contexts. The plants that were used in the rituals included Erythroxylum, Anadenanthera, Banisteriopsis, and potentially other sources contributing DMT and psilocin (such as Psychotria leaves and hallucinogenic fungi). This is conclusive evidence for the presence of at least three psychoactive plants, the highest number of such specimens recovered from a single South American artifact, and suggests intriguing evidence that ritual specialists might have manipulated and used multiple plants together in their psychoactive preparations.

Materials and Methods The ritual bundle was carefully opened in La Paz under environmentally controlled conditions, and the entire sampling process was documented with photographs and notes. Due to the irreplaceable nature of these precious artifacts, only very small samples were removed for analyses. A small, surface piece of the archaeological plant on the string was removed with a sterilized scalpel, and a scraping from the interior of the fox-snout pouch was collected and analyzed by liquid chromatography with tandem mass spectrometry (LC-MS/MS). This method is highly sensitive and very effective for analyzing small samples and is capable of detecting the presence of minute amounts of specific compounds. The analysis of the artifacts was performed using LC-MS/MS in a modification of a published procedure (67). The expansion of the assay allowed for the detection of cocaine and its products, as well as monitoring of several compounds of potential interest (SI Appendix, Table S1). Deuterated internal standards (benzoylecgonine-d3, cocaine-d3), as well as nondeuterated drug standards for each of the drugs were obtained from Cerilliant. Solid phase extraction columns (Clin II, 691–0353T) were obtained from SPEWare. All solvents were HPLC grade or better, and all chemicals were American Chemical Society (ACS) grade. Several milligrams of each artifact were pulverized and then sonicated in methanol (30 min at room temperature). Deuterated cocaine and deuterated BZE were added as internal standards to the artifact samples. Phosphate buffer (pH 2.7; 1.5 mL) was added, and the sample was sonicated at 75 °C for 3 h. The buffer was decanted into clean glass tubes, and sodium phosphate buffer (pH 6.0; 1 mL) was added. Solid-phase mixed mode extraction columns (Clin II, 691–0353T) were conditioned with methylene chloride:methanol:ammonium hydroxide (78:20:2 vol/vol 2 mL), ethyl acetate (2 mL), methanol (2 mL), and 0.1 M hydrochloric acid (1 mL). The samples were allowed to flow through the columns, and then the columns were washed with deionized water (2 mL), 0.1 M hydrochloric acid (2 mL), methanol (2 mL), and ethyl acetate (2 mL). The columns were allowed to dry between washes under nitrogen pressure (30 psi; 2 min). The drugs were finally eluted, using freshly prepared methylene chloride: methanol:ammonium hydroxide (78:20:2 vol/vol 3 mL). The extracts were evaporated to dryness under nitrogen at 40 °C and reconstituted in methanol (50 μL) for injection into the LC-MS/MS instrument. An Agilent Technologies 1200 Series liquid chromatograph pump coupled to a 6430 triple quadrupole mass spectrometer (MS), operating in positive electrospray chemical ionization mode (ESI), was used for analysis. The liquid chromatographic column was a Zorbax Eclipse XDB C18 (4.6 × 50 mm × 1.8 μm), the column temperature was held at 40 °C, and the injection volume was 5 μL. The mobile phase consisted of Solvent A: 20 mM ammonium acetate (pH 6.4) and Solvent B: methanol. At time 0, the solvent composition was 85% A; 15% B, which changed to 50% of each after 4 min then returned to the original settings, at 6 min, where it was held a further 4 min. The gas temperature was 350 °C, the gas flow was 8 L/min, and the nebulizer pressure was 40 psi. Nitrogen was used as the collision gas and the capillary voltage was 4,000 V. Accurate identification of chemical compounds in unknown samples requires the use of reference data from known compounds. We selected a number of compounds of interest (based on previous studies of South American psychoactives). In some cases, those compounds are well documented for LC-MS/MS analysis, while others were confirmed through LC-MS/MS analysis of modern plant samples. E. coca is commonly used by modern indigenous peoples living in the highlands of Peru and Bolivia. Coca leaves contain cocaine and its primary degradation product, BZE. The leaves of P. viridis contain N,N-DMT. The vines and bark of B. caapi contain the compounds of harmine and harmaline and also contain small amounts of 5-methoxy-DMT. A. colubrina seeds were analyzed and contain 5-OH-DMT, along with trace amounts of DMT and 5-methoxy-DMT. E. pachanoi (San Pedro cactus) contains the psychedelic compound mescaline. Two transitions were selected for each compound. SI Appendix, Table S2 shows the optimized fragment voltages for the parent ion (M +1) as well as the collision energy for fragmentation of the product ions. Each subsequent analysis required the ratio between the quantitative ion and the qualifier ion to be within ±20% to meet the criterion for a positive result.

Acknowledgments We thank Cindy Coulter and Margaux Garnier of Immunalysis Corporation, the National Geographic Foundation, and the Stahl Foundation (UC Berkeley Archaeological Research Facility); the Ministry of Cultures and Tourism of Bolivia and the Mancomunidad de Lípez, including the regional authorities of San Agustin and Alota, for their endorsement of our research, and all the men and women of the local communities that assisted in the excavations; and Darwin Palomino, José Moller, Carlos Revilla, Carlos Capriles, Alejandra Domic, Blaine Maley, BrieAnna Langlie, Maria Bruno, and Eduardo Machicado for their contributions in the excavations. Funds for archaeological fieldwork in the Sora valley (Lípez) were provided by National Geographic Society Grant 8742-10, MONOPOL Ltda., and the Bartolome de Las Casas Foundation.

Footnotes Author contributions: M.J.M., J.A.-J., and J.M.C. designed research; M.J.M., J.A.-J., C.M., and J.M.C. performed research; M.J.M. and C.M. contributed new reagents/analytic tools; M.J.M., J.A.-J., C.M., and J.M.C. analyzed data; and M.J.M., J.A.-J., C.M., and J.M.C. wrote the paper.

The authors declare no conflict of interest.

This article is a PNAS Direct Submission.

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