Chalcolithic

The Chalcolithic (/ˈkælkoʊˌlɪθɪk/ cal-co-LI-thik) (also called the Copper Age and Eneolithic)[a] was an archaeological period characterized by the increasing use of smelted copper. It followed the Neolithic and preceded the Bronze Age. It occurred at different periods in different areas, but was absent in some parts of the world, such as Russia, where there was no well-defined Copper Age between the Stone and Bronze Ages.[1] Stone tools were still predominantly used during this period.[2]

The Chalcolithic covers both the early cold working (hammering) of near pure copper ores, as exhibited by the likes of North American Great Lakes Old Copper complex, from around 6,500 BC,[3] through the later copper smelting cultures. The archaeological site of Belovode, on Rudnik mountain in Serbia, has the world's oldest securely dated evidence of copper smelting at high temperature, from c. 5,000 BC.[4] The transition from Copper Age to Bronze Age in Europe occurred between the late 5th and the late 3rd millennium BC. In the Ancient Near East the Copper Age covered about the same period, beginning in the late 5th millennium BC and lasting for about a millennium before it gave rise to the Early Bronze Age.[5]

A study in the journal Antiquity from 2013 reporting the discovery of a tin bronze foil from the Pločnik archaeological site dated to c. 4,650 BC, as well as 14 other artefacts from Bulgaria and Serbia dated to before 4,000 BC, showed that early tin bronze was more common than previously thought and developed independently in Europe 1,500 years before the first tin bronze alloys in the Near East.[5] In Britain, the Chalcolithic is a short period between about 2,500 and 2,200 BC, characterized by the first appearance of objects of copper and gold, a new ceramic culture and the immigration of Beaker culture people, heralding the end of the local late Neolithic.[1]

Terminology

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The multiple names result from multiple definitions of the period. Originally, the term Bronze Age meant that either copper or bronze was being used as the chief hard substance for the manufacture of tools and weapons. Ancient writers, who provided the essential cultural references for educated people during the 19th century, used the same name for both copper- and bronze-using ages.[6]

The concept of the Copper Age was put forward by Hungarian scientist Ferenc Pulszky in the 1870s, when, on the basis of the significant number of large copper objects unearthed within the Carpathian Basin, he suggested that the previous threefold division of the Prehistoric Age – the Stone, Bronze and Iron Ages – should be further divided with the introduction of the Copper Age.

In 1881, John Evans recognized that use of copper often preceded the use of bronze, and distinguished between a transitional Copper Age and the Bronze Age proper. He did not include the transitional period in the Bronze Age, but described it separately from the customary stone / bronze / iron system, at the Bronze Age's beginning. He did not, however, present it as a fourth age but chose to retain the tripartite system.[6]

In 1884, Gaetano Chierici, perhaps following the lead of Evans, renamed it in Italian as the eneo-litica, or "bronze–stone" transition. The phrase was never intended to mean that the period was the only one in which both bronze and stone were used. The Copper Age features the use of copper, excluding bronze; moreover, stone continued to be used throughout both the Bronze Age and the Iron Age. The part -litica simply names the Stone Age as the point from which the transition began and is not another -lithic age.[6]

Subsequently, British scholars used either Evans's "Copper Age" or the term "Eneolithic" (or Æneolithic), a translation of Chierici's eneo-litica. After several years, a number of complaints appeared in the literature that "Eneolithic" seemed to the untrained eye to be produced from e-neolithic, "outside the Neolithic", clearly not a definitive characterization of the Copper Age. Around 1900, many writers began to substitute Chalcolithic for Eneolithic, to avoid the false segmentation. The term chalcolithic is a combination of two words- Chalco+Lithic, derived from the Greek words "khalkos" meaning "copper", and "líthos" meaning "stone".

But "chalcolithic" could also mislead: For readers unfamiliar with the Italian language, chalcolithic seemed to suggest another -lithic age, paradoxically part of the Stone Age despite the use of copper. Today, Copper Age, Eneolithic, and Chalcolithic are used synonymously[b] to mean Evans's original definition of Copper Age.[citation needed]

Regions

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Near East

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Chalcolithic copper mine in Timna Valley, Negev Desert, Israel

The emergence of metallurgy may have occurred first in the Fertile Crescent.

Lead may have been the first ore that humans smelted, since it can be easily obtained by heating galena.[8]

Possible early examples of lead smelting, supported by the extreme rarity of native lead,[9] include: lead beads, found on Level IX of Chatal/Çatal Hüyük in central Anatolia, though they might be made of galena, cerussite, or metallic lead, and accordingly might or might not be evidence of early smelting;[10][9] a lead bead, found in a GK59 group test square in the 4th level of Jarmo, dated to the 7th millennium BCE, though it is small enough that its human usage is doubtful;[11] a lead bracelet, found in level XII of Yarim Tepe I, dated to the 6th millennium BC;[12][13] a small cone-shaped piece of lead, found in the "Burnt House" in TT6 at Arpachiyah, dated to the Halaf period or slightly later than the Yarim Tepe bracelet;[13] and more.[8]

Copper smelting is also documented at this site at about the same time period (soon after 6000 BC). However, the use of lead seems to precede copper smelting.[13] Early metallurgy is also documented at the nearby site of Tell Maghzaliyah, which seems to be dated even earlier, and completely lacks pottery.

The Timna Valley contains evidence of copper mining in 7000–5000 BC. The process of transition from Neolithic to Chalcolithic in the Middle East is characterized in archaeological stone tool assemblages by a decline in high quality raw material procurement and use. This dramatic shift is seen throughout the region, including the Tehran Plain, Iran. Here, analysis of six archaeological sites determined a marked downward trend in not only material quality, but also in aesthetic variation in the lithic artefacts. Fazeli & Coningham[14] use these results as evidence of the loss of craft specialisation caused by increased use of copper tools.[14]

The Tehran Plain findings illustrate the effects of the introduction of copper working technologies on the in-place systems of lithic craft specialists and raw materials. Networks of exchange and specialized processing and production that had evolved during the Neolithic seem to have collapsed by the Middle Chalcolithic (c. 4500–3500 BC) and been replaced by the use of local materials by a primarily household-based production of stone tools.[14]

Arsenical copper or bronze was produced in eastern Turkey (Malatya Province) at two ancient sites, Norşuntepe and Değirmentepe, around 4200 BC. According to Boscher (2016), hearths or natural draft furnaces, slag, ore, and pigment had been recovered throughout these sites. This was in the context of Ubaid period architectural complexes typical of southern Mesopotamian architecture. Norşuntepe site demonstrates that some form of arsenic alloying was indeed taking place by the 4th millennium BC. Since the slag identified at Norşuntepe contains no arsenic, this means that arsenic in some form was added separately.[15]

Europe

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A copper axe found at Prokuplje, Serbia contains the oldest securely dated evidence of copper-making, c. 5500 BC (7,500 years ago).[16] The find in June 2010 extends the known record of copper smelting by about 800 years, and suggests that copper smelting may have been invented in separate parts of Asia and Europe at that time rather than spreading from a single source.[4]

Knowledge of the use of copper was far more widespread than the metal itself. The European Battle Axe culture used stone axes modeled on copper axes, even with moulding carved in the stone.[17] Ötzi the Iceman, who was found in the Ötztal Alps in 1991 and whose remains have been dated to about 3300 BC, was found with a Mondsee copper axe.

A painting of a Copper Age walled settlement, Los Millares, Spain

Examples of Chalcolithic cultures in Europe include Vila Nova de São Pedro and Los Millares on the Iberian Peninsula.[18] Pottery of the Beaker people has been found at both sites, dating to several centuries after copper-working began there. The Beaker culture appears to have spread copper and bronze technologies in Europe, along with Indo-European languages.[19] In Britain, copper was used between the 25th and 22nd centuries BC, but some archaeologists do not recognise a British Chalcolithic because production and use was on a small scale.[20]

South Asia

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Ceramic similarities between the Indus Valley civilisation, southern Turkmenistan, and northern Iran during 4300–3300 BC of the Chalcolithic period suggest considerable mobility and trade.[21]

The term "Chalcolithic" has also been used in the context of the South Asian Stone Age.[22]

In Bhirrana, the earliest Indus civilization site, copper bangles and arrowheads were found. The inhabitants of Mehrgarh in present-day Pakistan fashioned tools with local copper ore between 7000 and 3300 BC.[23]

The Nausharo site was a pottery workshop in province of Balochistan, Pakistan, that dates to 4,500 years ago; 12 blades and blade fragments were excavated there. These blades are 12–18 cm (5–7 in) long, 1.2–2.0 cm (0.5–0.8 in) wide, and relatively thin. Archaeological experiments show that these blades were made with a copper indenter and functioned as a potter's tool to trim and shape unfired pottery. Petrographic analysis indicates local pottery manufacturing, but also reveals the existence of a few exotic black-slipped pottery items from the Indus Valley.[24]

In India, Chalcolithic culture flourished in mainly four farming communities – Ahar or Banas, Kayatha, Malwa, and Jorwe. These communities had some common traits like painted pottery and use of copper, but they had a distinct ceramic design tradition. Banas culture (2000–1600 BC) had ceramics with red, white, and black design. Kayatha culture (2450–1700 BC) had ceramics painted with brown colored design. Malwa culture (1900–1400 BC) had profusely decorated pottery with red or black colored design. Jorwe culture (1500–900 BC) had ceramics with matte surface and black-on-red design.[25][26]

Pandu Rajar Dhibi (2000–1600 BC) is a Chalcolithic site in the eastern part of the Indian subcontinent. It is located on the south bank of Ajay River in West Bengal. Blackware, painted Koshi ware, pottery, various ornaments made of pearl and copper, various types of tools, pieces of fabric woven from Shimul cotton thread, human and various animal skeletons, burnt clay fragments have been found at the site.[27]

In March 2018, archaeologists had discovered three carts and copper artifacts including weapons dating to 1800 BC in Sanauli village of Uttar Pradesh. The artifacts belongs to Ochre Coloured Pottery culture.[28]

Pre-Columbian Americas

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Andean civilizations in South America appear to have independently invented copper smelting.[29]

The term "Chalcolithic" is also applied to American civilizations that already used copper and copper alloys thousands of years before Europeans immigrated. Besides cultures in the Andes and Mesoamerica, the Old Copper complex mined and fabricated copper as tools, weapons, and personal ornaments in an area centered in the upper Great Lakes region (present-day Michigan and Wisconsin).[30]

The evidence of smelting or alloying that has been found in North America is subject to some dispute and a common assumption by archaeologists is that objects were cold-worked into shape. Artifacts from some of these sites have been dated to 6500–1000 BC, making them some of the oldest Chalcolithic sites in the world.[31] Some archaeologists find artifactual and structural evidence of casting by Hopewellian and Mississippian peoples to be demonstrated in the archaeological record.[32]

East Asia

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In the 5th millennium BC copper artifacts start to appear in East Asia, such as in the Jiangzhai and Hongshan cultures, but those metal artifacts were not widely used during this early stage.[33]

Copper manufacturing gradually appeared in the Yangshao period (5000–3000 BC). Jiangzhai is the only site where copper artifacts were found in the Banpo culture. Archaeologists have found remains of copper metallurgy in various cultures from the late fourth to the early third millennia BC. These include the copper-smelting remains and copper artifacts of the Hongshan culture (4700–2900) and copper slag at the Yuanwozhen site. This indicates that inhabitants of the Yellow River valley had already learned how to make copper artifacts by the later Yangshao period.[34]

Sub-Saharan Africa

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In the region of the Aïr Mountains, Niger, independent copper smelting developed between 3000 and 2500 BC. The process was not in a developed state, indicating smelting was not foreign. It became mature about 1500 BC.[35]

See also

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Notes

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  1. ^ Chalcolithic (English: /ˌkælkəˈlɪθɪk/; from ‹See Tfd›Greek: χαλκός khalkós, "copper" and λίθος líthos, "stone"); Eneolithic, from Latin aeneus "of copper"
  2. ^ Middle Eastern archaeologists use "Chalcolithic" regularly, whereas the literature of European archaeology generally avoids the use of "Chalcolithic": The term "Copper Age" is preferred for Western Europe, "Eneolithic" for Eastern Europe. "Chalcolithic" is not generally used by British prehistorians, who disagree as to whether it is appropriate in the British context.[7]

References

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  1. ^ a b "Chalcolithic". British Museum. Retrieved 12 August 2023.
  2. ^ Pearsall, Judy (1998). "Chalcolithic". The New Oxford Dictionary of English. Clarendon Press. p. 301. ISBN 0-19-861263-X.
  3. ^ Pompeani, David P.; Steinman, Byron A.; Abbott, Mark B.; Pompeani, Katherine M.; Reardon, William; DePasqual, Seth; Mueller, Robin H. (April 2021). "On the Timing of the Old Copper Complex in North America: A Comparison of Radiocarbon Dates from Different Archaeological Contexts". Radiocarbon. 63 (2): 513–531. Bibcode:2021Radcb..63..513P. doi:10.1017/RDC.2021.7. ISSN 0033-8222.
  4. ^ a b Radivojević, Miljana; Rehren, Thilo; Pernicka, Ernst; Šljivar, Dušan; Brauns, Michael; Borić, Dušan (1 November 2010). "On the origins of extractive metallurgy: New evidence from Europe". Journal of Archaeological Science. 37 (11): 2775–2787. Bibcode:2010JArSc..37.2775R. doi:10.1016/j.jas.2010.06.012. ISSN 0305-4403. Archived from the original on 25 December 2015. Retrieved 6 September 2022.
  5. ^ a b Radivojević, Miljana; Rehren, Thilo; Kuzmanović-Cvetković, Julka; Jovanović, Marija; Northover, J. Peter (2015). "Tainted ores and the rise of tin bronzes in Eurasia, c. 6500 years ago" (PDF). Antiquity. 87 (338): 1030–1045. doi:10.1017/S0003598X0004984X. Archived (PDF) from the original on 19 November 2018. Retrieved 11 June 2019.
  6. ^ a b c Pearce, Mark (1 September 2019). "The 'Copper Age' – a history of the concept". Journal of World Prehistory. 32 (3): 229–250. doi:10.1007/s10963-019-09134-z. ISSN 1573-7802.
  7. ^ Allen, Michael J.; Gardiner, Julie; Sheridan, Alison, eds. (2012). Is There a British Chalcolithic?: People, place, and polity in the later third millennium. Prehistoric Society Research Papers. Vol. 4. Oxbow books. ISBN 9781842174968."Abstracted". Oxbow books website. Archived from the original on 21 May 2013.
  8. ^ a b Moorey, Peter Roger Stuart (1994). Ancient Mesopotamian Materials and Industries: The Archaeological Evidence. Oxford University Press. p. 294. ISBN 0-19-814921-2. LCCN 93-40752. OCLC 29255664.
  9. ^ a b Craddock, Paul T. (1995). Early Metal Mining and Production. Smithsonian Institution Press (USA) and Edinburgh University Press (GB). p. 125. ISBN 1-56098-535-6. LCCN 94-61412. OCLC 32769136.
  10. ^ Mellaart, James (1967). Çatal Hüyük: A Neolithic Town in Anatolia. New Aspects of Archaeology. New York: McGraw-Hill / Thames and Hudson. pp. 217–218. LCCN 67-14150. OCLC 306918.
  11. ^ Braidwood, Linda S.; Braidwood, Robert J.; Howe, Bruce; Reed, Charles A.; Watson, Patty Jo, eds. (1983). Prehistoric Archeology Along the Zagros Flanks (PDF). Oriental Institute Publications. Vol. 105. Chicago, Illinois: The Oriental Institute of the University of Chicago. p. 542. ISBN 0-918986-36-2. ISSN 0069-3367. LCCN 81-85896 – via Institute for the Study of Ancient Cultures, University of Chicago.
  12. ^ Merpert, N. I.; Munchaev, R. M.; Bader, N. O. (1977). "The Investigations of Soviet Expedition in Iraq 1974". Sumer: A Journal of Archaeology & History in Arab World. XXXIII (1). Baghdad: The State Organization of Antiquities, Ministry of Culture and Arts: 84, 103. PL. XII
  13. ^ a b c Potts, Daniel T., ed. (15 August 2012). "Northern Mesopotamia". A Companion to the Archaeology of the Ancient Near East. Vol. 1. John Wiley & Sons. pp. 302–303. ISBN 978-1-4443-6077-6 – via Google Books.
  14. ^ a b c Fazeli, H.; Donahue, R.E.; Coningham, R.A.E. (2002). "Stone tool production, distribution, and use during the Late Neolithic and Chalcolithic on the Tehran plain, Iran". Iran: Journal of the British Institute of Persian Studies. 40: 1–14. doi:10.2307/4300616. JSTOR 4300616.
  15. ^ Loïc C. Boscher (2016), Reconstructing the Arsenical Copper Production Process in Early Bronze Age Southwest Asia. Archived 14 May 2023 at the Wayback Machine Ph.D. Thesis. University College London. pp.75-77
  16. ^ "Ancient axe find suggests Copper Age began earlier than believed". Thaindian News. ANI. 9 October 2008. Archived from the original on 14 October 2008.
  17. ^ Evans (1897).
  18. ^ Hogan (2007).
  19. ^ Anthony, D.W. (2007). The Horse, the Wheel and Language: How Bronze-Age riders from the Eurasian steppes shaped the modern world. Princeton University Press. ISBN 978-0-691-14818-2.
  20. ^ Miles (2016), pp. 363, 423, note 15.
  21. ^ Parpola (2005).
  22. ^ Shinde, Vasant; Deshpande, Shweta Sinha (2015). "Crafts and technologies of the Chalcolithic people of South Asia: An overview". Indian Journal of History of Science. 50 (1): 42–54. doi:10.16943/ijhs/2015/v50i1/48111.
  23. ^ Possehl (1996).
  24. ^ Méry, S.; Anderson, P.; Inizan, M.L.; Lechavallier, M.; Pelegrin, J. (2007). "A pottery workshop with flint tools on blades knapped with copper at Nausharo (Indus civilisation ca. 2500 BC)". Journal of Archaeological Science. 34 (7): 1098–1116. doi:10.1016/j.jas.2006.10.002.
  25. ^ Singh, Vipul (2008) [2006]. The Pearson Indian History Manual for the UPSC Civil Services Preliminary Examination (2nd ed.). New Delhi, IN: Pearson Education India. ISBN 978-81-317-1753-0.
  26. ^ Peregrine, Peter N.; Ember, Melvin (31 March 2003). Encyclopedia of Prehistory. Vol. 8: South and Southwest Asia. Springer Science & Business Media. ISBN 978-0-306-46262-7.
  27. ^ "The Excavations at Pandu Rajar Dhibi". indianculture.gov.in. Retrieved 3 July 2023.
  28. ^ Parpola, Asko (2020). "Royal "chariot" burials of Sanauli near Delhi and archaeological correlates of prehistoric Indo-Iranian languages". Studia Orientalia Electronica. 8: 176. doi:10.23993/store.98032.
  29. ^ Cooke, Colin A.; Abbott, Mark B.; Wolfe, Alexander P.; Kittleson, John L. (1 May 2007). "A millennium of metallurgy recorded by lake sediments from Morococha, Peruvian Andes". Environmental Science & Technology. 41 (10): 3469–3474. Bibcode:2007EnST...41.3469C. doi:10.1021/es062930+. ISSN 0013-936X. PMID 17547165.
  30. ^ Birmingham, R.A.; Eisenberg, L.E. (2000). Indian Mounds of Wisconsin. Madison, WI: University of Wisconsin Press. pp. 75–77.
  31. ^ Pompeani, David P.; Steinman, Byron A.; Abbott, Mark B.; Pompeani, Katherine M.; Reardon, William; DePasqual, Seth; Mueller, Robin H. (April 2021). "On the Timing of the Old Copper Complex in North America: A Comparison of Radiocarbon Dates from Different Archaeological Contexts". Radiocarbon. 63 (2): 513–531. Bibcode:2021Radcb..63..513P. doi:10.1017/RDC.2021.7. ISSN 0033-8222. S2CID 233029733. Archived from the original on 11 February 2023. Retrieved 11 February 2023.
  32. ^ Neiburger, E.J. (1987). "Did Midwest pre-Columbia[n] Indians cast metal? A new look". Central States Archaeological Journal. 34 (2): 60–74.
  33. ^ Peterson, Christian E.; Shelach, Gideon (September 2012). "Jiangzhai: Social and economic organization of a Middle Neolithic Chinese village". Journal of Anthropological Archaeology. 31 (3): 241–422. doi:10.1016/j.jaa.2012.01.007.
  34. ^ Chang, Kwang-Chih; Xu, Pingfang; Lu, Liancheng (2005). The Formation of Chinese Civilization: An archaeological perspective. Yale University Press. p. 66.
  35. ^ Ehret, Christopher (2002). The Civilizations of Africa. Charlottesville, VA: University of Virginia. pp. 136, 137. ISBN 0-8139-2085-X.

Bibliography

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  • Parpola, Asko (2005). "Study of the Indus script" (PDF). Transactions. 50th International Conference of Eastern Studies. Tokyo, Japan: The Tôhô Gakkai. pp. 28–66. Archived (PDF) from the original on 21 June 2006.
  • Bogucki, Peter (2007). "Copper Age of Eastern Europe". The Atlas of World Archaeology. London, UK: Sandcastle Books. p. 66.
  • Evans, John (1897). The Ancient Stone Implements, Weapons and Ornaments of Great Britain. London, UK: Longmans, Green, and Company. p. 197.
  • Hogan, C. Michael (2007). Burnham, A. (ed.). "Los Silillos". The Megalithic Portal. Archived from the original on 1 October 2017. Retrieved 3 June 2008.
  • Miles, David (2016). The Tale of the Axe: How the Neolithic revolution transformed Britain. London, UK: Thames & Hudson. ISBN 978-0-500-05186-3.
  • Pleger, T.C. (2002). A brief introduction to the Old Copper Complex of the western Great Lakes: 4000-1000 BC. Twenty-seventh Annual Meeting of Forest History Association of Wisconsin. Oconto, WI: Forest History Association of Wisconsin.
  • Possehl, Gregory L. (1996). "Mehrgarh". In Fagan, Brian (ed.). Oxford Companion to Archaeology. Oxford, UK: Oxford University Press.
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