Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-15T22:57:19.427Z Has data issue: false hasContentIssue false
  • English
  • Français

Long-Term Trends in Prehistoric Fishing and Hunting on Tobago, West Indies

Published online by Cambridge University Press:  20 January 2017

David W. Steadman  and
Sharyn Jones
David W. Steadman
Affiliation:
Florida Museum of Natural History, University of Florida, Gainesville, FL 32611. (dws@flmnh.ufl.edu)
Sharyn Jones
Affiliation:
Department of Anthropology, University of Alabama, Birmingham, Birmingham, AL 35924.
Get access Rights & Permissions [Opens in a new window]

Abstract

We compare the bone assemblages of Milford 1 (TOB-3) and Golden Grove (TOB-13) in Tobago, West Indies. Milford 1 is a small preceramic occupation (ca. 3000-2800 cal B.P.), whereas Golden Grove is a large ceramic-period village (ca. 1700-900 cal B.P.). Species richness at TOB-13 is greater than at TOB-3, both in marine (67 vs. 39 fishes) and terrestrial (32 vs. 9) taxa. Major shifts in marine exploitation from the preceramic to ceramic periods can be seen in relative abundance of tuna, toadfishes, and in fishes inhabiting mangrove and brackish water environments, and decreases in relative abundance of parrotfish, carnivorous reef fishes, and sea turtles. The abundance of tuna bones at TOB-13 is uniquely high among West Indian archaeological sites. For terrestrial taxa, the difference in species richness exceeds the expected, including decreased specialization on big game (peccaries) at TOB-13, with a greater tendency to hunt reptiles, birds, and mammals of all sizes at TOB-3. Factors underlying the shifts in fishing and hunting may include different collection methods and food preferences of non-Arawakan (preceramic) vs. Arawakan (ceramic) peoples, as well as human-induced declines in populations of peccaries, sea turtles, and selected fish species. Another possible factor is site setting, with the inhabitants of TOB-13 having enhanced access to mangrove habitats.

Comparamos los conjuntos óseos de Milford 1 (TOB–3) y Golden Grove (TOB-13) en Tobago, Antillas Occidentales. TOB-3 es una pequeña ocupación precerámica (ca. 3000–2800 cal AP) mientras que TOB-13 es una gran villa del período cerámico (ca. 1700–900 cal AP). La riqueza de especies en TOB-13 es mayor que en TOB–3, ya sean marinas (67 vs. 39 peces) o terrestres (32 vs. 9). Los cambios en la explotación de recursos marinos del precerámico al cerámico se ven en la mayor abundancia relativa de atún, pez sapo, y de otros peces que habitan los mangles y ambientes de aguas salobres, y en la menor abundancia relativa de pez loro, peces carnívoros de arrecifes, y tortugas marinas. La abundancia de atún en TOB-13, con seis especies de mar adentro, es única en sitios arqueológicos de las Antillas Occidentales. Para los taxa terrestres, sorprende la diferencia en la riqueza de especies; los cambios incluyen una disminución en los animales de caza mayor (pecaríes) en TOB-13, con un aumento en la caza de reptiles, aves, y mamíferos de diferentes tamaños en TOB-3. Factores que inciden en los cambios pudieron ser la implementación de diferentes métodos de recolección-caza y en las preferencias alimenticias entre los grupos no-Arawak (precerámicos) versus los Arawak (cerámicos), así como por disminuciones inducidas por humanos en las poblaciones de pecaríes, tortugas marinas, y algunas especies de peces. Además los habitantes de TOB–13 pudieron haber tenido mejor acceso a los hábitats de los manglares.

Type
Reports
Information
Latin American Antiquity , Volume 17 , Issue 3 , September 2006 , pp. 316 - 334
Copyright
Copyright © 2006 by the Society for American Archaeology.

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References Cited

Allen, Melinda S. 2002 Resolving Long-term Change in Polynesian Marine Fisheries. Asian Perspectives 41:195212.Google Scholar
Beard, James S. 1944 The Natural Vegetation of the Island of Tobago, British West Indies. Ecological Monographs 14:135163.Google Scholar
Boomert, Arie 1996 The Prehistoric Sites of Tobago: A Catalogue and Evaluation. Alkmaar, The Netherlands. 2000 Trinidad, Tobago and the Lower Orinoco Interaction Sphere. An Archaeological/Ethnohistorical Study. Cairi Publications, Alkmaar, The Netherlands.Google Scholar
Broughton, John M. 1994 Late Holocene Resource Intensification in the Sacramento Valley, California: The Vertebrate Evidence. Journal of Archaeological Science 21:501514.Google Scholar
Broughton, John M. 1997 Widening Nitch Breadth, Declining Foraging Efficiency, and Prehistoric Harvest Pressure: Ichthyofaunal Evidence from the Emeryville Shellmound, California. Antiquity 71:845862.Google Scholar
Brown, H. H. 1945 The Fisheries of the Windward and Leeward Islands. Bulletin No. 20, Development and Welfare in the West Indies.Google Scholar
Butler, Virginia L. 2001 Changing Fish use on Mangaia, Southern Cook Islands: Resource Depression and the Prey Choice Model. International Journal of Osteoarchaeology 11:88100.CrossRefGoogle Scholar
Carlson, Lisbeth A., and Keegan, William F. 2004 Resource Depletion in the Prehistoric Northern West Indies. In Voyages of Discovery: The Archaeology of Islands, edited by Scott M. Fitzpatrick, pp. 85110. Praeger Publishers, Westport, CT. Google Scholar
Clement, Christopher O. 2000 Remnant Amerindian groups on Eighteenth century Tobago, West Indies: A Comparison of Coarse Earthenwares from Four Sites. The Florida Anthropologist 53:1225.Google Scholar
Comeau, Paul L. 1991 Geological Events Influencing Natural Vegetation in Trinidad. Living World (Journal of the Trinidad and Tobago Field Naturalists Club) 1991–1992:2938.Google Scholar
Deagan, Kathleen 2004 Reconsidering Taino Social Dynamics after Spanish Conquest: Gender and Class in Culture Contact Studies. American Antiquity 69:597626.Google Scholar
deFrance, Susan D., Newsom, Lee A., and Keegan, William F. 1996 The Archaeobotanical, Bone Isotope, and Zooarchaeological Records from Caribbean Sites in Comparative Perspective. In Case Studies in Environmental Archaeology, edited by Elizabeth J. Reitz, Lee A. Newsom, and Sylvia J. Scudder, pp. 289304. Plenum Press, New York.Google Scholar
Drewett, Peter L. 1991 Prehistoric Barbados. Institute of Archaeology, University College London and Barbados Museum and Historical Society, London.Google Scholar
Eisenberg, John F. 1989 Mammals of the Neotropics: The Northern Neotropics, Voll. University of Chicago Press, Chicago.Google Scholar
Eshelman, Ralph E., and Morgan, Gary S. 1985 Tobagan Recent Mammals, Fossil Vertebrates, and Their Zoogeographical Implications. National Geographic Society Research Reports 21:137143.Google Scholar
ffrench, Richard 1991 A Guide to the Birds of Trinidad & Tobago. Cornell University Press, Ithaca.Google Scholar
Fischer, W. 1978 FAO Species Identification Sheets for Fishery Purposes, Western Central Atlantic (Fishing Area 31). Food and Agriculture Organization of the United Nations, Rome.Google Scholar
Frazier, Jack 2004 Marine Turtles of the Past: A Vision for the Future? In The Future From the Past: Archaeozoology in Wildlife Conservation and Heritage Management, edited by Roel C. G. M. Lauwerier and Ina Plug, pp. 103116. Oxbow Books, Oxford.Google Scholar
Froese, Ranier, and Pauly, Daniel (editors) 2004 Fishbase. Electronic document, http://www.fish-base.org/search.cfm, accessed March 25, 2004.Google Scholar
Garcia, Gary W, Young, Gail G., Amour, Kira M., Jones, Desmond, Lallo, Cicero H. O., Mollineau, William, Roopchand, Anil, Genessingh, Nórmala, Spencer, Michelle, Prosper, Marvin A., Rooplal, Raajesh, Nathai-Gyan, Nadra, Steil, Arnaud, Xande, Alain, Bemelmans, Anouk, Gamma Ngueira Filho, Sergio, Galvez, Diva, Guimaraaes, Hugo, and Mayor Aparicio, Pedro 2005 The Collared Peccary. Booklet and Producers' Manual. University of the West Indies, St. Augustine, Trinidad.Google Scholar
Graves, Gary R., and Gotelli, Nicholas J. 1983 Neotropical Land-bridge Avifaunas: New Approaches to Null Hypotheses in Biogeography. Oikos 41:322333.Google Scholar
Hardy, Jerry D. 1982 Biogeography of Tobago, West Indies, With Special Reference of Amphibians and Reptiles: A Review. Bulletin of the Maryland Herpetological Society 18:37142.Google Scholar
Harris, Peter O'B. 1991 Amerindian Trinidad and Tobago. In Proceedings of the Twelfth Congress of the International Association for Caribbean Archaeology, edited by Linda Sickler. Robinson, pp. 259269. ATAC, Cayenne.Google Scholar
Heckenberger, Michael J., Petersen, James B., and Goés Neves, Eduardo 1999 Village Size and Permanence in Amazonia: Two Archaeological Examples from Brazil. Latin American Antiquity 10:353376.Google Scholar
Heckenberger, Michael J., Kuikuro, Afukaka, Tabata Kuikuro, Urissapá, Christian Russell, J., Schmidt, Morgan, Fausto, Carlos, and Franchetto, Bruna 2003 Amazonia 1492: Pristine Forest or Cultural Parkland? Science 301:17101714.Google Scholar
Hoffman, Brian W., Czederpiltz, Jessica M. C., and Partlow, Megan A. 2000 Heads or Tails: The Zooarchaeology of Aleut Salmon Storage on Unimak Island, Alaska. Journal of Archaeological Science 27:699708.Google Scholar
Jackson, Jeremy B. C, Kirby, Michael X., Berger, Wolfgang H., Bjomdal, Karen A., Botsford, Louis W., Bourque, Bruce J., Bradbury, Roger H., Cooke, Richard, Earlandson, Jon, Estes, James A., Hughes, Terence P., Kidwell, Susan, Lange, Carina B., Lenihan, Hunter S., Pandolfi, John M., Peterson, Charles H., Steneck, Robert S., Tegner, Mia J., and Warner, Robert R. 2001 Historical Overfishing and the Recent Collapse of Coastal Ecosystems. Science 293:629638.Google Scholar
Keegan, William F. 1994 West Indian Archaeology. I. Overview and Foragers. Journal of Archaeological Research 2:255284.Google Scholar
Lieske, Ewald, and Myers, Robert 2002 Coral Reef Fishes lndo-Pacific and Caribbean, Revised Edition. Princeton University Press, Princeton.Google Scholar
Murphy, John C. 1997 Amphibians and Reptiles of Trinidad and Tobago. Kreiger Publishing Co., Malabar.Google Scholar
Newsom, Lee A., and Wing, Elizabeth S. 2004 On Land and Sea: Native American Uses of Biological Resources in the West Indies. University of Alabama Press, Tuscaloosa.Google Scholar
Niddrie, David L. 1980 Tobago. Litho Press Co., Gainesville, Florida.Google Scholar
O'Day, Sharyn J. 2001 Excavations at the Kipapa Rockshelter, Kahikinui, Maui, Hawai'i. Asian Perspectives 40:279304.Google Scholar
O'Day, Sharyn J. 2002 Late Prehistoric Lucayan Occupation and Subsistence on Middle Caicos Island, Northern West Indies. Caribbean Journal of Science 38(1–2):110.Google Scholar
Pregill, Gregory K., Steadman, David W, and Watters, David R. 1994 Late Quaternary Vertebrate Faunas of the Lesser Antilles: Historical Components of Caribbean Biogeography. Bulletin of Carnegie Museum of Natural History No. 30.Google Scholar
Reitz, Elizabeth J. 2004 “Fishing Down the Food Web”: A Case Study From St. Augustine, Florida, USA. American Antiquity 69:6383.Google Scholar
Schwartz, Albert, and Henderson, Robert W. 1991 Amphibians and Reptiles of the West Indies: Descriptions, Distributions, and Natural History. University of Florida Press, Gainesville.Google Scholar
Snoke, Arthur W., Rowe, David W., Douglas Yule, J., and Wadge, Geoffrey 2001a Geologic Map of Tobago, West Indies, with Explanatory Notes. Geological Society of America, Boulder, Colorado.Google Scholar
Snoke, Arthur W., Rowe, David W., Douglas Yule, J., and Wadge, Geoffrey 2001b Petrologic and Structural History of Tobago, West Indies: A Fragment of Accreted Mesozoic Arc of the Southern Caribbean. Geological Society of America Special Paper 354, Denver.Google Scholar
Snow, David W. 1985 Affinities and Recent History of the Avifauna of Trinidad and Tobago. Ornithological Monographs 36:238246.Google Scholar
Stafford, Thomas W Jr., Edward Hare, P., Currie, L. A., Timothy Jull, A. J., and Donahue, Douglas 1991 Accelerator Radiocarbon Dating at the Molecular Level. Journal of Archaeological Science 18:3572.CrossRefGoogle Scholar
Steadman, David W. 1995 Prehistoric Extinctions of Pacific Island Birds: Biodiversity Meets Zooarchaeology. Science 267:11231131.Google Scholar
Steadman, David W. 2006 Extinction and Biogeography of Tropical Pacific Birds. University of Chicago Press, Chicago.Google Scholar
Steadman, David W., and Stokes, Anne V. 2002 Changing Exploitation of Terrestrial Vertebrates During the Past 3000 Years on Tobago, West Indies. Human Ecology 30:339367.Google Scholar
Steadman, David W, Pregill, Gregory K., and Olson, Storrs L. 1984 Fossil Vertebrates from Antigua, Lesser Antilles: Evidence for Late Holocene Human-caused Extinctions in the West Indies. Proceedings of the National Academy of Sciences USA 81:44484451.Google Scholar
Steadman, David W, Stafford, Thomas W Jr., and Funk, Robert E. 1997 Nonassociation of Paleoindians with AMS-dated Late Pleistocene Mammals from the Dutchess Quarry Caves, New York. Quaternary Research 47:105116.Google Scholar
Stothert, Karen E., Piperno, Dolores R., and Andres, Thomas C. 2003 Terminal Pleistocene/Early Holocene Human Adaptation in Coastal Ecuador: The Dutchess Quarry Caves, New York Quaternary Research 47:105116.Google Scholar
Versteeg, Aad H., and Rostain, Stephen 1997 The Archaeology of Aruba: The Tanki Flip Site. Publications of the Archaeological Museum Aruba No. 8, Aruba, Netherlands Antilles.Google Scholar
Watters, David R. 1998 Maritime Adaptive Strategies in the Caribbean Archipelago. Revista de Arqueología Americana 15:731.Google Scholar
Wing, Elizabeth S. 2001 Native American Use of Animals in the Caribbean. In Biogeography of the West Indies: Patterns and Perspectives, edited by Charles A. Woods and Florence E. Sergile, pp. 481518. CRC Press, Boca Raton.Google Scholar
Wing, Elizabeth S., and Reitz, Elizabeth J. 1982 Prehistoric Fishing Economies of the Caribbean. Journal of New World Archaeology 5:1332.Google Scholar
Wunderle, James M. 1985 An Ecological Comparison of the Avifaunas of Grenada and Tobago, West Indies. Wilson Bulletin 97:356365.Google Scholar