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“Fishing Down the Food Web”: A Case Study from St. Augustine, Florida, USA

Published online by Cambridge University Press:  20 January 2017

Elizabeth J. Reitz
Elizabeth J. Reitz*
Affiliation:
Georgia Museum of Natural History, University of Georgia, Athens, GA 30602-1882
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Abstract

Comparing zooarchaeological data for Native American, Spanish, and British occupations with modern fisheries data from St. Johns County, Florida (USA) shows differences in the use of marine resources from 1450 B.C. through A.D. 2000. Changes in biomass contribution, diversity, types of fishes used, and trophic levels of sharks, rays, and bony fishes suggest that the pattern described as “fishing down marine food webs” (Pauly et al. 1998) may have been present in the St. Johns County area as early as the eighteenth century. A change in the size and growth habits of Atlantic croaker (Sciaenidae: Micropogonias undulatus) occurred early in this sequence, indicating an impact on this specific fish. However, overharvesting of fishes is not the only explanation for these observations. Climate and cultural changes are additional explanations for the patterns observed that should receive closer attention. Exploring these alternative explanations is made possible by a zooarchaeological record that permits us to study fishing habits and fish behavior before large-scale industrial fishing began.

Resumen

Resumen

Un análisis comparativo realizado con datos zooarqueológicos y recientes de pesquerías del condado de St. Johns (Florida, USA), ha detectado diferencias en el uso de los recursos marinos durante el periodo comprendido entre el 1450 A.C. y el 2000 D. C. Cambios tanto en los aportes de las biomasas, como de las especies de peces implicadas, su diversidad y niveles troficos apuntan a que el modelo denominado “fishing down marine food webs” podria haber entrado en acción en las comunidades marinas del condado de St. Johns County a partir del siglo dieciocho. Cambios en el tamaño y en el patrón de crecimiento de la corvina Micropogonias undulatus (Pisces, Sciaenidae) se detectan en el inicio de la secuencia, lo cual indicaría un temprano impacto del esfuerzo pesquero sobre esta especie. A pesar de ello, la sobrepesca podría no ser la única explicación de tales patrones los cuales también pudieron haber sido debidos a fenómenos de tipo cultural o a cambios climáticos que deberian recibir más atención por parte de los investigadores en el futuro. Explorar tales alternativas resulta cada vez más factible gracias a que el registro zooarqueológico proporciona ahora información precisa acerca de los peces y de las pesquerías anteriores al inicio de la pesca industrial a gran escala.

Type
Articles
Information
American Antiquity , Volume 69 , Issue 1 , January 2004 , pp. 63 - 83
Copyright
Copyright © The Society for American Archaeology 2004

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References

References Cited

Amorosi, Thomas, James, Woollett, Sophia, Perdikaris, and Thomas, McGovern 1996 Regional Zooarchaeology and Global Change: Problems and Potentials. World Archaeology 28:16157.Google Scholar
Attrill, Martin J., and Michael, Power 2002 Climate Influence on a Marine Fish Assemblage. Nature 417:275278.CrossRefGoogle ScholarPubMed
Barbieri, Luiz R., Mark, E. Chittenden Jr., and Cynthia, M. Jones 1993 Age, Growth, and Mortality of Atlantic Croaker, Micropogonias undulatus, in the Chesapeake Bay Region, with a Discussion of Apparent Geographic Changes in Population Dynamics. Fishery Bulletin 92:112.Google Scholar
Basgall, Mark E. 1999 Comments on “Environmental Imperatives Reconsidered.” Current Anthropology 40:157158.Google Scholar
Baum, Julia K., Ransom, A. Myers, Daniel, G. Kehler, Boris, Worm, Shelton, J. Harley, and Penny, A. Doherty 2003 Collapse and Conservation of Shark Populations in the Northwest Atlantic. Science 299:389392.Google Scholar
Bond, Gerard, Bernd, Kromer, Juerg, Beer, Raimund, Muscheler, Michael, N. Evans, William, Showers, Sharon, Hoffmann, Rusty, Lotti-Bond, Irka, Hajdas, and Georges, Bonani 2001 Persistent Solar Influence on North Atlantic Climate During the Holocene. Science 294:21302136.Google Scholar
Broecker, Wallace S. 2001 Was the Medieval Warm Period Global? Science 291:14971499.CrossRefGoogle ScholarPubMed
Castro, José L. 1983 The Sharks of North American Waters. Texas A & M University Press, College Station.Google Scholar
Cato, James C., and Fred J., Prochaska 1977 Landings, Values, and Prices in Commercial Fisheries for the Florida East Coast. Florida Cooperative Extension Service Marine Advisory Bulletin, SUSF-SG-77-003, Gainesville.Google Scholar
Chavez, Francisco P., John, Ryan, Salvador, E. Lluch-Cota, and Miguel, Ñiquen C. 2003 From Anchovies to Sardines and Back: Multidecadal Change in the Pacific Ocean. Science 299:217221.Google Scholar
Conover, David O., and Stephen B., Munch 2002 Sustaining Fisheries Yields over Evolutionary Time Scales. Science 297:9496.CrossRefGoogle ScholarPubMed
Cooke, Richard 1992 Prehistoric Nearshore and Littoral Fishing in the Eastern Tropical Pacific: An Ichthyological Evaluation. Journal of World Prehistory 6(1): 149.CrossRefGoogle Scholar
Dahlberg, Michael D. 1975 Guide to Coastal Fishes of Georgia and Nearby States. University of Georgia Press, Athens. Google Scholar
Deagan, Kathleen A. 1983 History and Archaeology in Spanish St. Augustine. In Spanish St. Augustine: The Archaeology of a Colonial Creole Community, edited by Deagan, K. A., pp. 927. Academic Press, New York.Google Scholar
Erickson, Clarke L. 2000 An Artificial Landscape-scale Fishery in the Bolivian Amazon. Nature 408:190193.Google Scholar
Ewen, Charles R. 1984 Final Report on the 1982-1983 Excavations at the Ximenez-Fatio House, St. Augustine, Florida. Report on file, Florida Museum of Natural History, University of Florida, Gainesville. Google Scholar
Florida Fish and Wildlife Conservation Commission (FFWCC) 1978-2000 Commercial Fisheries Statistics. Florida Marine Research Institute, St. Petersburg.Google Scholar
Fowler, Catherine S. 1996 Historical Perspectives on Timbisha Shoshone Land Management Practices, Death Valley, California. In Case Studies in Environmental Archaeology, edited by Reitz, E. J., Newsom, L. A., and Scudder, S. J., pp. 87101. Plenum Press, New York.Google Scholar
Froese, Rainer, and Daniel, Pauly (editors) 1998 FishBase98: Concepts, Design and Data Sources. The International Center for Living Resources Management, Kakati City, Philippines.Google Scholar
Grayson, Donald K. 1981 A Critical View of the Use of Archaeological Vertebrates in Paleoenvironmental Reconstruction. Journal of Ethnobiology 1 (1):2838.Google Scholar
Grayson, Donald K. 1984 Quantitative Zooarchaeology: Topics in the Analysis of Archaeological Faunas. Academic Press, Orlando.Google Scholar
Greene, Katie 2002 Coastal Cool Down. Science 295:1823.Google Scholar
Hales, L. Stanton Jr., and Elizabeth, J. Reitz 1992 Historical Changes in Age and Growth of Atlantic Croaker, Micropogonias undulatus (Perciformes: Sciaenidae). Journal of Archaeological Science 19:7399. BoutronGoogle Scholar
Hong, Sungmin, Jean-Pierre, Candelone, Claire, C. Patterson, and Claude, F. 1994 Greenland Ice Evidence of Hemispheric Lead Pollution Two Millennia Ago by Greek and Roman Civilizations. Science 265:18411843. BoutronGoogle Scholar
Hong, Sungmin, Jean-Pierre, Candelone, Claire, C. Patterson, and Claude, F. 1996 History of Ancient Copper Smelting Pollution During Roman and Medieval Times Recorded in Greenland Ice. Science 272:246249 Google Scholar
Jackson, Jeremy B. C., Michael, X. Kirby, Wolfgang, H. Berger. Karen, A. Bjorndal, Louis, W. Botsford, Bruce, J. Bourque, Roger, H. Bradbury, Richard, Cooke, Jon, Erlandson, James, A. Estes, Terence, P. Hughes, Susan, Kidwell, Carina, B. Lange, Hunter, S. Lenihan, John, M. Pandolfi, Charles, H. Peterson, Robert, S. Steneck, Mia, J. Tegner, and Robert, R. Warner 2001 Historical Overfishing and the Recent Collapse of Coastal Ecosystems. Science 293:629638.Google Scholar
Kerr, Richard A. 1999 The Little Ice Age–Only the Latest Big Chill. Science 284:2069.Google Scholar
Lyman, R. Lee 1996 Applied Zooarchaeology: The Relevance of Faunal Analysis to Wildlife Management. World Archaeology 28:110125.CrossRefGoogle Scholar
Lyon, Eugene 1976 The Enterprise of Florida: Pedro Menéndez de Avilés and the Spanish Conquest of 1565-1568. University Presses of Florida, Gainesville. Google Scholar
McEwan, Bonnie G. 1980 Faunal Remains from the Ximenez-Fatio House (SA 34-2), St. Augustine, Florida. Manuscript on file, Florida Museum of Natural History, University of Florida, Gainesville.Google Scholar
Myers, Ransom A., and Boris, Worm 2003 Rapid Worldwide Depletion of Predatory Fish Communities. Nature 423:280283.CrossRefGoogle ScholarPubMed
Nicholson, R. A., and O’Connor, T. P. (editors) 2000 People as an Agent of Environmental Change. Oxbow Books, Oxford. Google Scholar
Orr, Kelly L. 2001 Vertebrate Fauna from Nombre de Dios: An Analysis of Subsistence Patterns Through Time. Manuscript on file, Georgia Museum of Natural History, University of Georgia, Athens.Google Scholar
Pauly, Daniel, and Villy, Christensen 1995 Primary Production Required to Sustain Global Fisheries. Nature 374:255257. Francisco Torres, Jr.Google Scholar
Pauly, Daniel, Villy, Christensen, Johanne, Dalsgaard, Rainer, Froese, and 1998 Fishing Down Marine Food Webs. Science 279:860863.Google Scholar
Pauly, Daniel, Villy, Christensen, Rainer, Froese, and Maria, L. Palomares 2000 Fishing Down Aquatic Food Webs. American Scientist 88:4651.Google Scholar
Redman, Charles L. 1999 Human Impact on Ancient Environments. The University of Arizona Press, Tucson.Google Scholar
Reed, Charles A. 1963 Osteoarchaeology. In Science in Archaeology, edited by Brothwell, D. and Higgs, S., pp. 204216. 1st edition. Basic Books, New York.Google Scholar
Reitz, Elizabeth J. 1979 Spanish and British Subsistence Strategies at St. Augustine, Florida, and Frederica, Georgia, between 1565 and 1733. Ph.D. dissertation, University of Florida. University Microfilms, Ann Arbor.Google Scholar
Reitz, Elizabeth J. 1985 A Comparison of Spanish and Aboriginal Subsistence on the Atlantic Coastal Plain. Southeastern Archaeology 4:4150.Google Scholar
Reitz, Elizabeth J. 1991 Animal Use and Culture Change in Spanish Florida. In Animal Use and Culture Change, edited by Crabtree, P. J. and Ryan, K., pp. 62-77 . University of Pennsylvania Museum of Archaeology and Anthropology MASCA 8, Supplement. Philadelphia.Google Scholar
Watkins, Joe E. 1992a Vertebrate Fauna from Seventeenth Century St. Augustine. Southeastern Archaeology 11:7994.Google Scholar
Watkins, Joe E. 1992b Vertebrate Fauna from the St. Francis Barracks Site (SA-42A), St. Augustine, Florida. Manuscript on file, Georgia Museum of Natural History, University of Georgia, Athens.Google Scholar
Reitz, Elizabeth J. 1994 Zooarchaeological Analysis of a Free African Community: Gracia Real de Santa Teresa de Mose. Historical Archaeology 28(1):2340.Google Scholar
Reitz, Elizabeth J., and Catherine Brown, H. 1984 Three Hundred Years of Faunal Use at SA 34-2, St. Augustine, Florida. In Final Report on the 1982-1983 Excavations at the Ximenez-Fatio House, St. Augustine, Florida, edited by Ewen, C. R., pp. 98177. Report on file, Florida Museum of Natural History, University of Florida, Gainesville.Google Scholar
Reitz, Elizabeth J., and Stephen L., Cumbaa 1983 Diet and Foodways of Eighteenth Century Spanish St. Augustine. In Spanish St. Augustine: The Archaeology of a Colonial Creole Community, edited by Kathleen, A. Deagan, pp. 147181. Academic Press, New York.Google Scholar
Reitz, Elizabeth J., and Irvy R., Quitmyer 2003 Marine Trophic Levels Targeted During the Swift Creek and Savannah Periods, Coastal Georgia and Florida. Paper presented at the 60th Annual Meeting of the Southeastern Archaeological Conference, Charlotte, North Carolina.Google Scholar
Reitz, Elizabeth J., Irvy, R. Quitmyer, Stephen Hale, H., Sylvia, J. Scudder, and Elizabeth, S. Wing 1987 Application of Allometry to Zooarchaeology. American Antiquity 52:304317.Google Scholar
Reitz, Elizabeth J., and Margaret Scarry, C. 1985 Reconstructing Historic Subsistence with an Example from Sixteenth Century Spanish Florida. The Society for Historical Archaeology Special Publication No.3. Ann Arbor, Michigan. Google Scholar
Reitz, Elizabeth J., and Elizabeth S., Wing 1999 Zooarchaeology. Cambridge University Press, Cambridge. Atmospheric Lead Contamination Detected in Swedish Lake Sediments. Nature 368:323326.Google Scholar
Roberts, Callum M., James, A. Bohnsack, Fiona, Gell, Julie, P. Hawkins, Renata, Goodridge 2001 Effects of Marine Reserves on Adjacent Fisheries. Science 294:19201923.Google Scholar
Shannon, Claude E., and Warren, Weaver 1949 The Mathematical Theory of Communication. University of Illinois Press, Urbana.Google Scholar
Sheldon, Andrew L. 1969 Equitability Indices: Dependence on the Species Count. Ecology 50:466467.Google Scholar
Shindell, Drew T., Gavin, A. Schmidt, Michael, E. Mann, David, Rind, and Anne, Waple 2001 Solar Forcing of Regional Climate Change during the Maunder Minimum. Science 294:21492152.Google Scholar
Stahle, David W., and Malcolm K., Cleaveland 1994 Tree-Ring Reconstructed Rainfall over the Southeastern U.S.A. during the Medieval Warm Period and Little Ice Age. Climatic Change 26:199212. SwartGoogle Scholar
Thorrold, Simon R., Steven, E. Campana, Cynthia, M. Jones, and Peter, K. 1997 Factors Determining 13C and l8O Fractionation in Aragonitic Otoliths of Marine Fish. Geochimica et Cosmochimica Acta 61:29092919. Response of Otolith Microchemistry to Environmental Variations Experienced by Larval and Juvenile Atlantic Croaker (Micropogonias undulatus). Limnology and Oceanography 42:102111.Google Scholar
Wing, Elizabeth S., and Elizabeth J., Reitz 1982 Prehistoric Fishing Economies of the Caribbean. Journal of New World Archaeology 5(2): 1333.Google Scholar