Metallurgy in pre-Columbian America

Metallurgy in pre-Columbian America is the extraction, purification and alloying of metals and metal crafting by Indigenous peoples of the Americas prior to European contact in the late 15th century. Indigenous Americans have been using native metals from ancient times, with recent finds of gold artifacts in the Andean region dated to 21551936 BCE,[1] and North American copper finds dated to approximately 5000 BCE.[2] The metal would have been found in nature without need for smelting techniques and shaped into the desired form using heat and cold hammering techniques without chemically altering it by alloying it. To date "no one has found evidence that points to the use of melting, smelting and casting in prehistoric eastern North America."[3] In South America the case is quite different. Indigenous South Americans had full metallurgy with smelting and various metals being purposely alloyed. Metallurgy in Mesoamerica and Western Mexico may have developed following contact with South America through Ecuadorian marine traders.[4]

Sican tumi, or ceremonial knife, Peru, 850–1500 CE

South America

South American metal working seems to have developed in the Andean region of modern Peru, Bolivia, Ecuador, Chile, and Argentina with gold and copper being hammered and shaped into intricate objects, particularly ornaments.[1][5] Recent finds date the earliest gold work to 21551936 BCE.[1] and the earliest copper work to 14321132 BCE.[5][6][7] Ice core studies in Bolivia however suggest copper smelting may have begun as early as 2000 BCE.[8] Further evidence for this type of metal work comes from the sites at Waywaka (near es:Andahuaylas, Lugares de interés, southern Peru), Chavín and Kotosh,[9] and it seems to have been spread throughout Andean societies by the Early horizon (1000200 BCE).

Unlike in other metallurgy traditions where metals gain importance due to their widespread use in fields ranging from weaponry to everyday utensils, metals in South America (and later in Central America) were mainly valued as adornments and objects representative of a high status (though some more functional objects might have been produced). During the Early horizon, advancements in metal working result in spectacular and characteristically Andean gold objects made by the joining of smaller metal sheets, and also gold-silver alloy appears.

Two traditions seem to have developed alongside each other one in northern Peru and Ecuador, and another in the Altiplano region of southern Peru, Bolivia and Chile. There is evidence for smelting of copper sulphide in the Altiplano region around the Early horizon. Evidence for this comes from copper slag recovered at several sites,[10] with the ore itself possibly coming from the south Chilean-Bolivian border. Extensive use of "portable" smelting kilns in the vicinity of Puma Punku, Bolivia and at three additional sites in Peru and Bolivia to manufacture, in situ, "I" beams as connectors to large stone blocks during the construction process represent a seemingly anomalous function for metal smelting. The reported chemical analysis of these metal pours is 95.15% copper, 2.05% arsenic, 1.70% nickel, .84% silicon and .26% iron. The estimated date of these pours lies between 800 500 BCE.

Evidence for fully developed smelting, however, only appears with the Moche culture (northern coast, 200 BCE600 CE).[11] The ores were extracted at shallow deposits in the Andean foothills. The ores are believed to have been smelted at nearby locations, evidenced in the actual metal artifacts and from ceramic vessels depicting the process, which is believed to have occurred in adobe brick furnaces with at least three blow pipes to provide the air flow needed to reach the high temperatures. The resulting ingots would then have been moved to coastal centers where shaping of the object would occur in specialised workshops.[12] Both of the workshops found and studied were located near the administrative sections of the respective towns again indicative of the high value placed upon metal.

The objects themselves were still mainly adornments, now often being attached to beads. Some functional objects were fashioned but they were elaborately decorated and often found within high-status burial contexts. For this reason, it is believed that they were still being used more for symbolic purposes. The appearance of gold or silver seems to have been important, with a high number of gilded or silvered objects as well as the appearance of Tumbaga, a copper/gold and sometimes also silver alloy. Arsenic bronze [13] was also being smelted from sulphidic ores, a practice either independently developed or learned from the southern tradition. The earliest known powder metallurgy, and earliest working of platinum in the world, was apparently developed by the cultures of Esmeraldas (NW Ecuador)at some point before the Spanish Conquest [14] Beginning with the La Tolita culture (600 bc - 200 ad), Ecuadorian cultures mastered the soldering of platinum grains through alloying with copper, gold and silver, producing platinum-surfaced rings, handles, ornaments and utensils. This technology was eventually noticed and adopted by the Spanish c.1730 (Donald McDonald, 'The Platinum of New Granada: Mining and Metallurgy in the Spanish Colonial Empire,' Platinum Metals Review, Vol. 3 (4), 1959, p. 140) https://www.technology.matthey.com/article/3/4/140-145/

This technology gradually spread north into Colombia, Panama and Costa Rica, reaching Guatemala and Belize by 800 CE. By c.100-700 CE, 'depletion gilding' was developed by the Nahuange culture of Colombia to produce ornamental variations such as 'rose gold'.[15]

Only with the Incas did metals really come into more utilitarian use. Nonetheless, they remained materials through which to display wealth and status. The characteristic importance placed on colour, which had led to some of the earlier developments, was still present (sun/moon association with gold/silver). Metals other than gold also had an intrinsic value, with axe pieces being of particular note in this regard. With the spread of metal tools being carried out by the Incas, it is thought possible that a more Old World use of metals would have become more common. In any case, as Bruhns notes, "Bronze can be seen as an expensive substitute for the equally efficient stone".[9]:183

Central America and Caribbean

Gold, copper and tumbaga objects started being produced in Panama and Costa Rica between 300500 CE. Open-molded casting with oxidation gilding and cast filigrees were in use. By 700800 CE, small metal sculptures were common and an extensive range of gold and tumbaga ornaments comprised the usual regalia of persons of high status in Panama and Costa Rica.[16]

The earliest specimen of metalwork from the Caribbean is a gold-alloy sheet carbon dated to 70-374 CE. Most Caribbean metallurgy has been dated to between 1200 and 1500 CE and consists of simple, small pieces such as sheets, pendants, beads and bells. These are mostly gold or a gold alloy (with copper or silver) and have been found to be largely cold hammered and sand-polished alluvial nuggets, although a few items seem to have been produced by lost wax casting. It is presumed that at least some of these items were acquired by trade from Colombia [17]

Mesoamerica

Copper alloy bells and tool, Tarascan state (1300 to 1530)

Metallurgy only appears in Mesoamerica in 800 CE with the best evidence from West Mexico. Much like in South America, fine metals were seen as a material for the elite. Metal's special qualities of colour and resonance seemed to have appealed most and then led to the particular technological developments seen in the region.[18]

Exchange of ideas and goods with peoples from the Ecuador and Colombia region (likely via a maritime route) seems to have fueled early interest and development. Similar metal artifact types are found in West Mexico and the two regions: copper rings, needles and tweezers being fabricated in the same ways as in Ecuador and also found in similar archaeological contexts. A multitude of bells were also found, but in this case they were cast using the same lost-wax casting method as seen in Colombia.[18] During this period, copper was being used almost exclusively.

Continual contact kept the flow of ideas from that same region and later, coinciding with the development of Andean long distance maritime trade, influence from further south seems to have reached the region and led to a second period (12001300 CE to the Spanish arrival).[18] By this time, copper alloys were being explored by West Mexican metallurgists, partly because the different mechanical properties were needed to fashion specific artifacts, particularly axe-monies further evidence for contact with the Andean region. However, in general the new properties such alloys introduced were developed to meet regional needs, especially wirework bells, which at times had such high tin content in the bronze that it was irrelevant for its mechanical properties but gave the bells a golden colour.

The actual artifacts and then techniques were imported from the south, but west Mexican metallurgists worked ores from the abundant local deposits; the metal was not being imported. Even when the technology spread from West into north-eastern, central and southern Mexico, artifacts that can be traced back to West Mexican ores are abundant, if not exclusive. It is not always clear if the metal reached its final destination as an ingot, an ore or a finished artifact. Provenance studies on metal artifacts from southern Mesoamerica cast with the lost-wax technique and dissimilar to west Mexican artifacts have shown that there might have been a second point of emergence of metallurgy into Mesoamerica there since no known source could be identified.[19]

The Aztecs did not initially adopt metal working, even though they had acquired metal objects from other peoples. However, as conquest gained them metal working regions, the technology started to spread. By the time of the Spanish conquest, a bronze-smelting technology seemed to be nascent.

Northern America

Hopewell copper falcon, ca. 200 BCE1 CE, Ohio[20]
Plates from Malden, Etowah and Spiro
Mace shaped copper headdress ornaments from Moundville

Archaeological evidence has not revealed metal smelting or alloying of metals by pre-Columbian native peoples north of the Rio Grande; however, they did use native copper extensively.[21]

As widely accepted as this statement might be it should not be considered synonymous with a lack of metal objects, as it points out native copper was abundant particularly in the Great Lakes region and "overlooks the simple fact that there was really very little to be gained by smelting..."[22] The latest glacial period had resulted in the scouring of copper bearing rocks. Once the ice retreated, these were readily available for use in a variety of sizes.[22] Copper was shaped via cold hammering into objects from very early dates (Archaic period in the Great Lakes region: 80001000 BCE). There is also evidence of actual mining of copper veins (Old Copper Complex), but disagreement exists as to the dates.[22]

Extraction would have been extremely difficult. Hammerstones may have been used to break off pieces small enough to be worked. This labor-intensive process might have been eased by building a fire on top of the deposit, then quickly dousing the hot rock with water, creating small cracks. This process could be repeated to create more small cracks.

The copper could then be cold-hammered into shape, which would make it brittle, or hammered and heated in an annealing process to avoid this. The final object would then have to be ground and sharpened using local sandstone. Numerous bars have also been found, possibly indicative of trade for which their shaping into a bar would also serve as proof of quality.

Great Lake artifacts found in the Eastern Woodlands of North America seem to indicate there were widespread trading networks by 1000 BCE. Progressively the usage of copper for tools decreases with more jewelry and adornments being found. This is believed to be indicative of social changes to a more hierarchical society.[22] Thousands of copper mining pits have been found along the lake shore of Lake Superior, and on Isle Royale. These pits may have been in use as far back as 8,000 years ago. This copper was mined and then made into objects such as heavy spear points and tools of all kinds. It was also made into mysterious crescent objects that some archaeologists believe were religious or ceremonial items. The crescents were too fragile for utilitarian use, and many have 28 or 29 notches along the inner edge, the approximate number of days in a lunar month.[23]

However this Great Lake model as a unique source of copper and of copper technologies remaining somewhat static for over 6,000 years has recently come into some level of criticism, particularly since other deposits seem to have been available to ancient North Americans, even if a lot smaller.[24][25]

The Old Copper Culture mainly flourished in Ontario and Minnesota. However at least 50 Old Copper items, including spear points and ceremonial crescents have been discovered in Manitoba. A few more in Saskatchewan, and at least one, a crescent, has turned up in Alberta, 2,000 kilometres from its homeland in Ontario. It is most likely that these copper items arrived in the plains as trade goods rather than people of the Old Copper Culture moving into these new places. However from one excavated site in eastern Manitoba we can see that at least some people were moving northwest. At a site near Bissett archaeologists have found copper tools, weapons, and waste material of manufacture, along with a large nugget of raw copper. This site however was dated to around 4,000 years ago, a time of cooler climate when the boreal forest's treeline moved much further south. Though if these migrants moved with their metallurgy up the Winnipeg River at this time they may have continued onward, into Lake Winnipeg, and the Saskatchewan River system.[23]

This Old Copper Culture never became particularity advanced, and never discovered the principal of creating alloys. This means that many, though they could make metal objects and weapons, continued to use their flint tools, which could maintain a sharper edge for much longer. The unalloyed copper could simply not compete, and in the later days of the Old Copper Culture the metal was almost exclusively used for ceremonial items.[23]

During the Mississippian period (8001600 CE, varying locally), elites at major political and religious centers throughout the midwestern and southeastern United States used copper ornamentation as a sign of their status by crafting the sacred material into representations connected with the Chiefly Warrior cult of the Southeastern Ceremonial Complex (S.E.C.C.).[26] This ornamentation includes Mississippian copper plates, repousséd plates of beaten copper now found as far afield as Alabama, Florida, Georgia, Illinois, Mississippi, Oklahoma, and Tennessee. Some of the more famous of the plates are of raptorial birds and avian-themed dancing warriors. These plates, such as the Rogan plates from Etowah, the Spiro plates from the Spiro in Oklahoma, and the Wulfing cache from southeast Missouri, were instrumental in the development of the archaeological concept known as the S.E.C.C.[26]

The only Mississippian culture site where a copper workshop has been located by archaeologists is Cahokia in western Illinois, where a copper workshop dating to the Moorehead Phase (c. 1200 CE) was identified at Mound 34. Gregory Perino identified the site in 1956 and archaeologists subsequently excavated it.[27] Numerous copper fragments were found at the site; metallographic analysis indicated that Mississippian copper workers worked copper into thin sheet through repeated hammering and annealing, a process that could be successful over open-pit wood fires.[27]

After the collapse of the Mississippian way of life in the 1500s with the advent of European colonization, copper still retained a place in Native American religious life as a special material. Copper was traditionally regarded as sacred by many historic period Eastern tribes. Copper nuggets are included in medicine bundles among Great Lakes tribes. Among 19th century Muscogee Creeks, a group of copper plates carried along the Trail of Tears are regarded as some of the tribe's most sacred items.[28]

Iron in the Pacific Northwest

Native ironwork in the Northwest Coast has been found in places like the Ozette Indian Village Archeological Site, where iron chisels and knives were discovered. These artifacts seem to have been crafted around 1613, based on the dendrochronological analysis of associated pieces of wood in the site, and were made out of drift iron from Asian (specifically Japanese) shipwrecks, which were swept by the Kuroshio Current towards the coast of North America.[29]

The tradition of working with Asian drift iron was well-developed in the Northwest before European contact, and was present among several native peoples from the region, including the Chinookan peoples and the Tlingit, who seem to have had their own specific word for the metallic material, which was transcribed by Frederica De Laguna as gayES.[29] The wrecking of Japanese vessels in the North Pacific basin was fairly common, and the iron tools and weaponry they carried provided the necessary materials for the development of the local ironwork traditions among the Northwestern Pacific Coast peoples,[30] although there were also other sources of iron, like that from meteorites, which was occasionally worked using stone anvils.[29]

gollark: Perfect, obviously.
gollark: The bee processing plant is *not* well hidden, it has a clear sign on it saying "APIARY SITE 620085006" in 1.7e26 languages.
gollark: I can see you haven't understood the implications of the Lesnikov-Welles theorem then.
gollark: Can confirm.
gollark: Wow, "no bees"? This is hilarious.

See also

Notes

  1. Mark Aldenderfer; Nathan M. Craig; Robert J. Speakman; Rachel Popelka-Filcoff (2008). "Four-thousand-year-old gold artifacts from the Lake Titicaca basin, southern Peru". PNAS. 105 (13): 5002–5005. doi:10.1073/pnas.0710937105. PMC 2278197. PMID 18378903.
  2. Beukens, R.P., Pavlish, L.A., Hancock, R.G.V., Farquhar, R.M., Wilson, G.C., Julig, P.J. (1992). "Radiocarbon dating of copper-preserved organics". Radiocarbon. 34 (3): 890–897. doi:10.1017/S0033822200064213.CS1 maint: multiple names: authors list (link)
  3. Martin, S.R. (1999). Wonderful Power: The Story of Ancient Copper Working in the Lake Superior Basin. Great Lakes Books Series. Wayne State University Press. p. 136.
  4. Anawalt, Patricia Rieff. "Ancient Cultural Contacts between Ecuador, West Mexico, and the American Southwest: Clothing Similarities." Latin American Antiquity 3, no. 2 (1992): 121.
  5. Scattolin, M. Cristina, M. Fabiana Bugliani, Leticia Cortés, Lucas Pereyra Domingorena y C. Marilin Calo (2010). "Una máscara de cobre de 3000 años. Estudios arqueometalúrgicos y comparaciones regionales". Boletín del Museo Chileno de Arte Precolombino, Santiago de Chile (in Spanish). 15: 25–46. doi:10.4067/s0718-68942010000100003.CS1 maint: multiple names: authors list (link)
  6. Boletín del Museo Chileno de Arte Precolombino. Volumen 15, Nº 1, 2010 - more articles in Spanish in regard to ancient metalwork from the same period
  7. Powell, Eric A. (Sep–Oct 2017). "Andean Copper Age" (PDF). Archaeology. 70 (5): 20. ISSN 0003-8113. Retrieved 31 August 2017  via EBSCO's Master File Complete (subscription required)
  8. A. Eichler, G. Gramlich, T. Kellerhals, L. Tobler, Th. Rehren & M. Schwikowski (2017). "Ice-core evidence of earliest extensive copper metallurgy in the Andes 2700 years ago". Nature. 7: 41855. doi:10.1038/srep41855. PMC 5282569. PMID 28139760.CS1 maint: multiple names: authors list (link)
  9. Bruhns, K.O. (1994). Ancient South America. Cambridge University Press.
  10. Keatinge, R.W. (1988). Peruvian Prehistory: An Overview of Pre-Inca and Inca Society. Cambridge University Press.
  11. G. Horz, M.K. (2000). "The treasure of gold and silver artifacts from the Royal Tombs of Sipan, Peru - a study on the Moche metalworking techniques". Materials Characterization. 45 (4–5): 391–420. doi:10.1016/s1044-5803(00)00093-0.
  12. Lechtman, H. (1991). "The Production of Copper-Arsenic Alloys in the Central Andes: Highland Ores and Coastal Smelters?". Journal of Field Archaeology. 18: 43–76. doi:10.1179/009346991791548780.
  13. Lechtman, H. & Klein, S. (1999). "The Production of Copper–Arsenic Alloys (Arsenic Bronze) by Cosmelting: Modern Experiment, Ancient Practice". Journal of Archaeological Science. 26 (5): 497–526. doi:10.1006/jasc.1998.0324.
  14. J. C. Chaston. "The Powder Metallurgy of Platinum : An Historical Account of its Origins and Growth".
  15. Megan Gannon. "Rose Gold Jewelry Was All the Rage with Ancient Colombians". Livescience.
  16. Jeffrey Quiltes & John W Hoopes (2003). Gold and Power in Ancient Columbia, Panama and Costa Rica. Harvard: Dumhurton Oakes. pp. 220–223.
  17. Marcos Martinon-Torres et al, 'Metallic Encounters in Cuba: the technology, exchange and meaning of metals before and after Columbus,' Journal of Anthropological Archaeology Vol.31: 4, December 2012, pp. 439-454
  18. Hosler, D. (1988). "Ancient West Mexican Metallurgy: South and Central American Origins and West Mexican Transformations". American Anthropologist. 90 (4): 832–855. doi:10.1525/aa.1988.90.4.02a00040.
  19. Hosler, D. (1999). "Recent insights into the metallurgical technologies of ancient mesoamerica". JOM Journal of the Minerals. 51 (5): 11–14. doi:10.1007/s11837-999-0034-6.
  20. "Falcon-shaped Cut-Out." Archived 2010-12-30 at the Wayback Machine Ohio Pix. (retrieved 12 July 2011)
  21. George Rapp Jr, Guy Gibbon & Kenneth Ames (1998). Archaeology of Prehistoric Native America: an Encyclopedia. New York: Taylor & Francis. p. 26.
  22. Martin, S.R. (1999). Wonderful Power: The Story of Ancient Copper Working in the Lake Superior Basin. Great Lakes Books Series. Wayne State University Press.
  23. Bryan, Liz (2005). The Buffalo People: Pre-contact Archaeology on the Canadian Plains. Surrey: Heritage House Publishing Company Ltd. pp. 108–109. ISBN 1-894384-91-1.
  24. Levine, M.A. (2007). "Overcoming Disciplinary Solitude: The Archaeology and Geology of Native Copper in Eastern North America". Geoarchaeology. 22: 49–66. doi:10.1002/gea.20146.
  25. Levine, M.A. (2007). "Determining the Provenance of native copper artifacts from Northeastern North America: evidence from instrumental neutron activation analysis". Journal of Archaeological Science. 34 (4): 572–587. doi:10.1016/j.jas.2006.06.015.
  26. Robb, Matthew H. (March 2010). "Mildred Lane Kemper Art Museum-Spotlight Series March 2010" (PDF). Saint Louis Art Museum. Retrieved 2012-04-19.
  27. Matthew L. Chastain, Alix C. Deymier-Black, John E. Kelly, James A. Brown & David C. Dunand (July 2011). "Metallurgical analysis of copper artifacts from Cahokia" (PDF). Journal of Archaeological Science. 38 (7): 1727–1736.CS1 maint: uses authors parameter (link)
  28. Brose, David S.; James A. Brown; David W. Penney (1985). Ancient Art of the American Woodlands Indians. New York: Harry N. Abrams. p. 149. ISBN 978-0-89558-105-1.
  29. Coupland, G., Mackie, Q. & Matson, R.G. (2003) Emerging from the Mist: Studies in Northwest Coast Culture History. Vancouver: UBC Press.
  30. Quimby, G.I. (1985) Japanese Wrecks, Iron Tools, and Prehistoric Indians of the Northwest Coast. Arctic Anthropology, 22 (2), pp. 7-15.

Further reading

  • Leibsohn, Dana, and Barbara E. Mundy, “The Mechanics of the Art World,” Vistas: Visual Culture in Spanish America, 1520-1820 (2015). http://www.fordham.edu/vistas.
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