Coca (Cocaine) History, Domestication, and Use

Coca, the source of natural cocaine, is one of a handful of shrubs in the Erythroxylum family of plants. Erythroxylum includes over 100 different species of trees, shrubs and sub-shrubs native to South America and elsewhere. Two of the South American species, E. coca and E. novogranatense, have potent alkaloids occurring in their leaves, and those leaves have been used for their medicinal and hallucinogenic properties for thousands of years. E. coca originates from the montaà ±a zone of the eastern Andes, between 500 and 2,000 meters (1,640-6,500 feet)  above sea level. The earliest archaeological evidence of coca use is in coastal Ecuador, ca 5,000 years ago. E. novagranatense is known as Colombian coca and it is more able to adapt to different climates and elevations; it first up in northern Peru beginning about 4,000 years ago. Coca Use The ancient method of Andean cocaine use involves folding coca leaves into a quid and placing it between the teeth and the inside of the cheek. An alkaline substance, such as powdered wood ash or baked and powdered seashells is then transferred into the quid using a silver awl or pointed tube of limestone. This method of consumption was first described to Europeans by the Italian explorer Amerigo Vespucci, who met coca users when he visited the coast of northeastern Brazil, in AD 1499. Archaeological evidence shows the procedure is much older than that. Coca use was part of ancient Andean daily life, an important symbol of cultural identity in ceremonies, and used medicinally as well. Chewing coca is said to be good for relief of fatigue and hunger, beneficial for gastrointestinal illnesses, and said to ease the pain of dental caries, arthritis, headaches, sores, fractures, nosebleed, asthma, and impotence. Chewing coca leaves also is believed to ease the effects of living in high altitudes.   Chewing more than 20-60 grams (.7-2 ounces) of coca leaves results in a cocaine dose of 200-300 milligrams, equivalent to one line of powdered cocaine. Coca Domestication History The earliest evidence of coca use discovered to date comes from a handful of preceramic sites in the Nancho Valley. Coca leaves have been direct-dated by AMS to 7920 and 7950 cal BP. Artifacts associated with coca processing were also found in contexts dated as early as 9000-8300 cal BP. What is the AMS dating method?What does cal BP mean? Evidence for coca use has also been from in caves in the Ayacucho valley of Peru, within levels dated between 5250-2800 cal BC. Evidence for coca use has been identified from most cultures in South America, including Nazca, Moche, Tiwanaku, Chiribaya and Inca cultures. According to ethnohistoric records, horticulture and use of coca became a state monopoly in the Inca empire about AD 1430. The Inca elites restricted use to the nobility beginning in the 1200s, but coca continued to widen in use until all but lowest classes had access at the time of the Spanish conquest. Archaeological Evidence of Coca Use Nanchoc valley sites (Peru), 8000-7800 cal BPAyacucho valley caves (Peru), 5250-2800 cal BCValdivia culture (3000 BC) of coastal Ecuador (may represent long-distance trade or domestication)Peruvian coast (2500-1800 BC)Nazca figurines (300 BC-AD 300)Moche (AD 100-800) pots illustrate a bulging cheek, and coca leaves in gourds have been recovered from Moche tombsTiwanaku by AD 400Arica, Chile by AD 400The Cabuza culture (ca AD 550) mummies buried with coca quids in their mouths In addition to the presence of coca quids and kits, and the artistic depictions of coca use, archaeologists have used the presence of excessive alkali deposits on human teeth and alveolar abscesses as evidence. However, it isnt clear whether abscesses are caused by coca use, or treated by coca use, and results have been ambiguous about using excessive calculus on teeth. Beginning in the 1990s, gas chromatography was used to identify cocaine use in mummified human remains, particularly the Chirabaya culture, recovered from the Atacama Desert of Peru. The identification of BZE, a metabolic product of coca (benzoylecgonine), in hair shafts, is considered ample evidence of coca use, even for modern-day users. Coca Archaeological Sites San Lorenzo del Mate (Ecuador), 500 BC-AD 500, adult male interment with excessive calculus deposits on his teeth, an associated decorated shell spatula and a small bowl-like deposit of an alkali substance (probably once in a gourd)Las Balsas (Ecuador) (300 BC-AD 100). Cal receptaclePLM-7, Arica site in coastal Chile, 300 BC, coca kitPLM-4, Tiwanakoid sites in Chile with a bag full of coca leavesLlullallaco, Argentina, Inca period child sacrifices exhibited coca consumption prior to death Sources: Bussmann R, Sharon D, Vandebroek I, Jones A, and Revene Z. 2007. Health for Sale: The Medicinal Plant Markets in Trujillo and Chiclayo, Northern Peru. Journal of Ethnobiology and Ethnomedicine 3(1):37.Cartmell LW, Aufderheide AC, Springfield A, Weems C, and Arriaza B. 1991. The Frequency and Antiquity of Prehistoric Coca-Leaf-Chewing Practices in Northern Chile: Radioimmunoassay of a Cocaine Metabolite in Human-Mummy Hair. Latin American Antiquity 2(3):260-268.Dillehay TD, Rossen J, Ugent D, Karathanasis A, Và ¡squez V, and Netherly PJ. 2010. Early Holocene coca chewing in northern Peru. Antiquity 84(326):939-953.Gade DW. 1979. Inca and colonial settlement, coca cultivation and endemic disease in the tropical forest. Journal of Historical Geography 5(3):263-279.Ogalde JP, Arriaza BT, and Soto EC. 2009. Identification of Psychoactive Alkaloids in Ancient Andean Human Hair by Gas Chromatography/Mass Spectrometry. Journal of Archaeological Science 36(2):467-472.Plowman T. 1981 Amazonia n coca. Journal of Ethnopharmacology 3(2-3):195-225.Springfield AC, Cartmell LW, Aufderheide AC, Buikstra J, and Ho J. 1993. Cocaine and Metabolites in the Hair of Ancient Peruvian Coca Leaf Chewers. Forensic Science International 63(1-3):269-275.Ubelaker DH, and Stothert KE. 2006. Elemental Analysis of Alkalis and Dental Deposits Associated with Coca Chewing in Ecuador. Latin American Antiquity 17(1):77-89.Wilson AS, Brown EL, Villa C, Lynnerup N, Healey A, Ceruti MC, Reinhard J, Previgliano CH, Araoz FA, Gonzalez Diez J et al.  2013. Archaeological, radiological, and biological evidence offer insight into Inca child sacrifice. Proceedings of the National Academy of Sciences 110(33):13322-13327.