Hostname: page-component-745bb68f8f-f46jp Total loading time: 0 Render date: 2025-01-11T22:11:45.387Z Has data issue: false hasContentIssue false
  • English
  • Français

Verification of an Archaic Age Occupation on Barbados, Southern Lesser Antilles

Published online by Cambridge University Press:  18 July 2016

Scott M Fitzpatrick
Scott M Fitzpatrick*
Affiliation:
Department of Sociology and Anthropology, NC State University, Raleigh, North Carolina, USA. Email: [email protected].
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The Caribbean Archaic Age (about 3000–500 BC) is thought to represent the earliest migration of humans from South America into the Lesser Antilles. However, there is a conspicuous absence of these early sites on islands south of the Guadeloupe Passage. To date, only a single radiocarbon date derived from a Queen conch (Strombus [Eustrombus] gigas) shell at the Heywoods site on Barbados was indicative of an Archaic occupation in the southern Antilles apart from a scattering of poorly reported (and mostly undated) sites. Given a number of issues associated with reliance on a single date to establish a cultural horizon, along with other problems derived from possible carbonate cement contamination and dating marine shells of a longer-lived species such as Queen conch, 2 additional samples were taken from the same unit and context at Heywoods to confirm whether the site is truly representative of an occupation during the Archaic Age. Results from a Queen conch shell adze in Context 7 dated to 2530–2200 BC (2 σ) and overlaps with the only other Archaic date from the site dating to 2320–1750 cal BC, while a juvenile specimen of the same species from Context 8 at 3280–2940 BC (2 σ) indicates that Barbados may have been settled even earlier. This suggests that Heywoods may be the oldest site between Trinidad and Puerto Rico. While further confirmation is required, these new dates have implications for understanding the nature of migratory ventures in the Caribbean, such as whether the “Southward Route” hypothesis—which postulates that earlier migration events from South America during the Ceramic Age (beginning ∼500 BC) initially bypassed the southern Lesser Antilles—also applies to the Archaic, and if other phenomena such as active volcanism may have played a role in structuring settlement patterns. Questions also remain as to why Heywoods does not exhibit the typical lithic Archaic tool kit.

Type
Articles
Information
Radiocarbon , Volume 53 , Issue 4 , 2011 , pp. 595 - 604
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

References

Allaire, L, Mattioni, M. 1983. Boutbois et Le Godinot: Deux gisements acéramiques de la Martinique. In: Allaire, L, Mayer, F-M, editors. Proceedings of the IX International Congress for the Study of the Pre-Columbian Cultures of the Lesser Antilles. Santo Domingo, Dominican Republic. Montreal: Centre de Recherches Caraibes. p 2738.Google Scholar
Armstrong, D. 1980. Shellfish gatherers of St. Kitts: a study of Archaic subsistence and settlement patterns. In: Lewenstein, S, editor. Proceedings of the Eighth International Congress for the Study of the Pre-Columbian Cultures of the Lesser Antilles. Anthropological Research Papers 22. Tempe: Arizona State University. p 152–67.Google Scholar
Ascough, P, Cook, GT, Dugmore, AJ. 2005a. Methodological approaches to determining the marine radiocarbon reservoir effect. Progress in Physical Geography 29(4):532–47.Google Scholar
Ascough, P, Cook, GT, Dugmore, AJ, Scott, M, Freeman, S. 2005b. Influence of mollusk species on marine ΔR determinations. Radiocarbon 47(3):433–40.CrossRefGoogle Scholar
Bonnissent, D. 2008. Archéologie précolombienne de l'île de Saint-Martin, Petites Antilles (3300 BC – 1600 AD) [PhD thesis]. Universite Aix-Marseille I, Université de Provence.Google Scholar
Bonnissent, D, Bertran, P, Serrand, N. 2004. Le gisement précéramique de la Baie orientale à Saint-Martin (Petites Antilles). In: Demoule, J-P, editor. La France archéologique: vingt ans d'aménagements et de découvertes. Vanves: Hazan. p 236–7.Google Scholar
Boomert, A. 2000. Trinidad, Tobago, and the Lower Orinoco Interaction Sphere: An Archaeological/Ethnohistorical Study. Alkmaar: Plantijn Casparie Heerhugowaard B.V. Google Scholar
Broecker, WS, Olson, EA. 1961. Lamont radiocarbon measurements VIII. Radiocarbon 3:176204.Google Scholar
Burney, DA, Burney, LP. 1994. Holocene charcoal stratigraphy from Laguna Tortugeuro, Puerto Rico, and the timing of human arrival on the island. Journal of Archaeological Science 21(2):273–81.Google Scholar
Callaghan, R. 2001. Ceramic age seafaring and interaction potential in the Antilles: a computer simulation. Current Anthropology 42:308–13.Google Scholar
Callaghan, R. 2003. Comments on the mainland origins of the preceramic cultures of the Greater Antilles. Latin American Antiquity 14:323–38.Google Scholar
Callaghan, R. 2010. Crossing the Guadeloupe passage in the Archaic Age. In: Fitzpatrick, SM, Ross, A, editors. Island Shores, Distant Pasts: Archaeological and Biological Perspectives on the Pre-Columbian Settlement of the Caribbean. Gainesville: University Press of Florida. p 127–47.Google Scholar
Crock, JG, Petersen, JB, Douglas, N. 1995. Preceramic Anguilla: a view from the Whitehead's Bluff site. In: Alegría, R, Rodríguez, M, editors. Proceedings of the XVth International Congress of Caribbean Archaeology. San Juan: Centro de Estudios Avanzados de Puerto Rico y el Caribe. p 283–94.Google Scholar
Davis, DD. 1993. Archaic blade production on Antigua, West Indies. American Antiquity 58:688–97.Google Scholar
Davis, DD. 2000. Jolly Beach and the Preceramic Occupation of Antigua, West Indies. Yale University Publications in Anthropology 84. New Haven: Yale University Press.Google Scholar
Donovan, K, Harper, DAT. 2009. Geological entities explained 2: Barbados. Geology Today 25:151–8.Google Scholar
Drewett, P. 1991. Prehistoric Barbados. London: Archetype Publications.Google Scholar
Drewett, P. 1993. Excavations at Heywoods, Barbados, and the economic basis of the Suazoid period in the Lesser Antilles. Proceedings of the Prehistoric Society 59:113–37.Google Scholar
Drewett, P, editor. 2000. Prehistoric Settlements in the Caribbean: Fieldwork in Barbados, Tortola, and the Cayman Islands. London: Archetype Publications.Google Scholar
Drewett, P. 2006. Dating the prehistoric settlement of Barbados. Journal of the Barbados Museum and Historical Society LII:202–14.Google Scholar
Drewett, PL. 2007. Above Sweet Waters: Cultural and Natural Change at Port St Charles, Barbados, c. 1750 BC – AD 1850. London: Archetype Publications.Google Scholar
Figueredo, AE. 1976. Caño Hondo, un residuario preceramico en la isla de Vieques. In: Proceedings of the Sixth International Congress for the Study of Pre-Columbian Cultures of the Lesser Antilles (Guadeloupe 1975). Société d'Histoire de la Guadeloupe, Pointe-à-Pitre. p 247–52.Google Scholar
Fitzpatrick, SM. 2006. A critical approach to 14C dating in the Caribbean: using chronometric hygiene to evaluate chronological control and prehistoric settlement. Latin American Antiquity 17:389–418.Google Scholar
Fitzpatrick, SM, Giovas, C. 2011. New radiocarbon dates for the Grenadine Islands, West Indies. Radiocarbon 53(3):451–60.Google Scholar
Fitzpatrick, SM, Kappers, M, Kaye, Q, Giovas, C, LeFebvre, M, Harris, MH, Burnett, S, Pavia, JA, Marsaglia, K, Feathers, J. 2009. Precolumbian settlements on Carriacou, West Indies. Journal of Field Archaeology 34:247–66.CrossRefGoogle Scholar
Fitzpatrick, SM, Kappers, M, Giovas, C. 2010. The southward route hypothesis: examining Carriacou's chronological position in Antillean prehistory. In: Fitzpatrick, SM, Ross, AH, editors. Island Shores, Distant Pasts: Archaeological and Biological Approaches to the Pre-Columbian Settlement of the Caribbean. Gainesville: University Press of Florida. p 163–76.Google Scholar
Hackenberger, S. 1991. Archaeological test excavation of Buccament Valley Rockshelter, St. Vincent: preceramic stone tools in the Windward Islands, and the early peopling of the eastern Caribbean. In: Pantel, TA, Vargas, AI, Sanoja, OM, editors. Proceedings of the XIII International Congress for Caribbean Archaeology. Curaçao: International Association for Caribbean Archaeology. p 8691.Google Scholar
Hofman, CL, Hoogland, MLP. 1999. Archaeological investigations on St. Martin (Lesser Antilles). Leiden: Faculty of Archaeology, Leiden University.Google Scholar
Hofman, CL, Hoogland, MLP. 2003. Plum piece: evidence for Archaic seasonal occupation on Saba, northern Lesser Antilles, around 3300 BP. Journal of Caribbean Archaeology 4:116.Google Scholar
Hofman, CL, Bright, AJ, Hoogland, MLP. 2006. Archipelagic resource procurement and mobility in the northern Lesser Antilles: the view from a 3000-year-old tropical forest campsite on Saba. Journal of Island and Coastal Archaeology 1:145–64.Google Scholar
Hughen, KA, Overpeck, JT, Peterson, LC, Anderson, RF. 1996. The nature of varved sedimentation in the Cariaco Basin, Venezuela, and its palacoclimatic significance. In: Kemp, AES, editor. Palaeoclimatology and Palaeoceanography from Laminated Sediments. London: Geological Society Special Publication No. 116. p 171–83.Google Scholar
Humphrey, J. 1997. Geology and hydrogeology of Barbados. In: Vacher, HL, Quinn, T, editors. Geology and Hydrology of Carbonate Islands. Developments in Sedimentology 54. Amsterdam: Elsevier.Google Scholar
Keegan, WF. 1994. West Indian archaeology 1. Overview and foragers. Journal of Archaeological Research 2:255–84.Google Scholar
Keegan, WF. 1995. Modeling dispersal in the prehistoric West Indies. World Archaeology 26:400–20.Google Scholar
Keegan, WF. 2000. West Indian archaeology 2. Ceramic Age. Journal of Archaeological Research 8:135–67.Google Scholar
Kilbourne, KH, Quinn, TM, Guilderson, TP, Webb, RS, Taylor, FW. 2007. Decadal- to interannual-scale source water variations in the Caribbean Sea recorded by Puerto Rican coral radiocarbon. Climate Dynamics 29:5162.Google Scholar
Knippenberg, S. 1995. Norman Estate and Anse des Peres: two Precolumbian sites on St. Martin [unpublished Master's thesis]. Leiden: Leiden University.Google Scholar
Lalucza-Fox, C, Gilbert, MTP, Martínez-Fuentez, AJ, Calafell, F, Bertanpetit, J. 2003. Mitochondrial DNA from Pre-Columbian Ciboneys from Cuba and the prehistoric colonization of the Caribbean. American Journal of Physical Anthropology 121:97108.Google Scholar
Lundberg, ER. 1989. Preceramic procurement patterns at Krum Bay, Virgin Islands [unpublished PhD dissertation]. University of Illinois, Urbana-Champagne. Ann Arbor: University Microfilms.Google Scholar
Nodine, BK. 1990. Aceramic interactions in the Lesser Antilles: evidence from Antigua, West Indies. Paper presented at the 55th Annual Meeting of the Society for American Archaeology, Las Vegas.Google Scholar
Petersen, JB, Hofman, CL, Curet, AL. 2004. Time and culture: chronology and taxonomy in the eastern Caribbean and the Guianas. In: Delpuech, A, Hofman, CL, editors. Late Ceramic Age Societies in the Eastern Caribbean. Oxford: British Archaeological Reports Series 1273. p 1732.Google Scholar
Reimer, PJ, Baillie, MGL, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Burr, GS, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Hajdas, I, Heaton, TJ, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, McCormac, FG, Manning, SW, Reimer, RW, Richards, DA, Southon, JR, Talamo, S, Turney, CSM, van der Plicht, J, Weyhenmeyer, CE. 2009. IntCal09 and Marine09 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon 51(4):1111–50.Google Scholar
Richard, G. 1994. Premier indice d'une occupation précéramique en Guadeloupe continentale. Journal de la Société des Américanistes 80:241–2.CrossRefGoogle Scholar
Rick, T, Vellanoweth, R, Erlandson, JM. 2005. Radiocarbon dating and the “old shell” problem: direct dating of artifacts and cultural chronologies in coastal and other aquatic regions. Journal of Archaeological Science 32(11):1641–8.Google Scholar
Rodríguez Ramos, R. 2001. Lithic reduction trajectories at La Hueca and Punta Candelero sites, Puerto Rico [unpublished Master's thesis]. College Station: Department of Anthropology, Texas A&M University.Google Scholar
Rodríguez Ramos, R, Babilonia, E, Curet, LA, Ulloa, J. 2008. The pre-Arawak pottery horizon in the Antilles: a new approximation. Latin American Antiquity 19:4763.Google Scholar
Rodríguez Ramos, R, Pagán Jiménez, J, Hofman, C. Forthcoming. Chapter 9: The Humanization of the Insular Caribbean. Handbook of Caribbean Archaeology. Oxford: Oxford University Press.Google Scholar
Rouse, I. 1986. Migrations in Prehistory: Inferring Population Movement from Cultural Remains. New Haven: Yale University Press.Google Scholar
Rouse, I. 1992. The Tainos: Rise and Decline of the People Who Greeted Columbus. New Haven: Yale University Press.Google Scholar
Steadman, DW, Stokes, A. 2002. Changing exploitation of terrestrial vertebrates during the past 3000 years on Tobago, West Indies. Human Ecology 30:339–67.Google Scholar
Watters, DR, Donahue, J, Stuckenrath, R. 1992. Paleoshorelines and the prehistory of Barbuda, West Indies. In: Johnson, L, Stright, M, editors. Paleoshorelines and Prehistory. Boca Raton: CRC Press. p 1552.Google Scholar
Wilson, S. 1989. The prehistoric settlement pattern of Nevis, West Indies. Journal of Field Archaeology 16:427–50.Google Scholar
Wilson, S. 2007. The Archaeology of the Caribbean. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Wilson, S, Iceland, HB, Hester, TR. 1998. Preceramic connections between Yucatan and the Caribbean. Latin American Antiquity 9:342–52.Google Scholar