Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-19T10:00:02.603Z Has data issue: false hasContentIssue false

EXAMINING CHRONOLOGICAL TRENDS IN ANCIENT MAYA DIET AT MINANHA, BELIZE, USING THE STABLE ISOTOPES OF CARBON AND NITROGEN

Published online by Cambridge University Press:  21 July 2017

Jocelyn S. Williams
Affiliation:
Department of Anthropology, Trent University, Peterborough, ON, K9L 0G2, Canada ([email protected])
Shannen M. Stronge
Affiliation:
Golder Associates Ltd., London, ON, N6L 1C1, Canada
Gyles Iannone
Affiliation:
Department of Anthropology, Trent University, Peterborough, ON, K9L 0G2, Canada ([email protected])
Fred J. Longstaffe
Affiliation:
Department of Earth Sciences, University of Western Ontario, London, ON, N6A 5B7, Canada

Abstract

We present the results of stable carbon and nitrogen isotope analyses of bone collagen and bone bioapatite from the ancient Maya center of Minanha, Belize (ca. 100 B.C. to A.D. 1260). The purpose of this research was to reconstruct diet and investigate the influence of sociopolitical and environmental factors. Overall, diet was relatively stable over time, with maize being a staple in all periods. Maize consumption reached its peak in the transitional Early to Middle Classic periods and decreased over time. When isotope data from dry periods were compared to normal periods, there were no significant differences, although comparisons of isotope data by burial location and type suggest that the apical or ruling elite consumed a more diverse diet, with more animal protein, relative to the lesser elites. The temporal variability in maize consumption seems best explained by sociopolitical factors documented at Minanha and within the Vaca Plateau. This study demonstrates the resilience of ancient subsistence practices in the face of climatic instability and highlights the impact that social and political factors can have on diet and subsistence economy.

Este trabajo presenta los resultados del análisis de isótopos estables de carbono y nitrógeno de colágeno y bioapatita óseos del antiguo centro maya de Minanha, Belice (aprox. 100 a.C. hasta 1260 d.C.). El propósito de esta investigación fue reconstruir la dieta de la población e investigar la influencia de factores sociopolíticos y ambientales. En general, la dieta fue relativamente estable a través del tiempo. El consumo de maíz alcanzó su pico durante la transición entre el Clásico Temprano y el Clásico Medio y disminuyó con el tiempo; sin embargo, se mantuvo como alimento básico a lo largo de la historia del asentamiento. No se registraron diferencias significativas entre los datos de isótopos de períodos secos y normales. Comparaciones de los datos de isótopos con base en la ubicación y el tipo de entierro sugieren que los individuos pertenecientes a las altas élites consumieron una dieta más diversa y con más proteínas de origen animal que las élites menores. La variabilidad temporal en el consumo de maíz parece estar relacionada con factores sociopolíticos documentados en Minanha y en la Meseta de Vaca. Este estudio demuestra la capacidad de recuperación de las antiguas prácticas de subsistencia frente a la inestabilidad climática y destaca el impacto que pueden tener los factores sociales y políticos sobre la dieta y la economía de subsistencia.

Type
Articles
Copyright
Copyright © 2017 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

Akers, Pete D., Brook, George, Railsback, L. Bruce, Liang, Fuyuan, Iannone, Gyles, Webster, James W., Reeder, Philip P., Cheng, Hai, and Lawrence Edwards, R. 2016 Extended and Higher-Resolution Record of Climate and Land Use from Stalagmite MC01 from Macal Chasm, Belize: Connections between Major Dry Events, Overall Climate Variability, and Maya Sociopolitical Changes. Paleogeography, Palaeoclimatology, Palaeo-ecology 459:268288.CrossRefGoogle Scholar
Ambrose, Stanley H. 1990 Preparation and Characterization of Bone and Tooth Collagen for Isotopic Analysis. Journal of Archaeological Science 17 (4):431451.CrossRefGoogle Scholar
Ambrose, Stanley H., Butler, Brian M., Hanson, Douglas B., Hunter-Anderson, Rosalind L., and Krueger, Harold W. 1997 Stable Isotopic Analysis of Human Diet in the Marianas Archipelago, Western Pacific. American Journal of Physical Anthropology 104 (3):343361.3.0.CO;2-W>CrossRefGoogle ScholarPubMed
Barnett, Jon 2009 The Prize of Peace (Is Eternal Vigilance): A Cautionary Editorial Essay on Climate Geopolitics. Climatic Change 96:16.CrossRefGoogle Scholar
Beach, Timothy, Luzzadder-Beach, Sheryl, Dunning, Nicholas, Hagerman, Jon, and Lohse, Jon 2002 Upland Agriculture in the Maya Lowlands: Ancient Maya Soil Conservation in Northwestern Belize. Geographical Review 92:372397.CrossRefGoogle Scholar
Bhattacharya, Tripti, Byrne, Roger, Böhnel, Harald, Wogau, Kurt, Kienel, Ulrike, Lynn Ingram, B., and Zimmerman, Susan 2015 Cultural Implications of Late Holocene Climate Change in the Cuenca Oriental, Mexico. Proceedings of the National Academy of Sciences 112 (6):16931698.CrossRefGoogle ScholarPubMed
Chase, Arlen F. 1992 Elites and the Changing Organization of Classic Maya Society. In Mesoamerican Elites: An Archaeological Assessment, edited by Chase, Diane Z. and Chase, Arlen F., pp. 3149. University of Oklahoma Press, Oklahoma City.Google Scholar
Chase, Arlen F., Chase, Diane Z., and White, Christine D. 2001 Paisaje urbano maya: La integración de los espacios construidos y la estructura social en Caracol, Belice. Reconstruyendo la ciudad maya: El urbanismo en las sociedades antiguas, edited by Andrés Ciudad Ruiz, María Josefa Iglesias Ponce de León, and María del Carmen Martínez Martínez, pp. 95122. Sociedad Española de Estudios Mayas, Madrid.Google Scholar
Conroy, Jessica L., Overpeck, Jonathan T., Cole, Julia E., Shanahan, Timothy M., and Steinitz-Kannan, Miriam 2008 Holocene Changes in Eastern Tropical Pacific Climate Inferred from a Galápagos Lake Sediment Record. Quaternary Science Reviews 27 (11):11661180.CrossRefGoogle Scholar
Coyston, Shannon, White, Christine D., and Schwarcz, Henry P. 1999 Dietary Carbonate Analysis of Bone and Enamel for Two Sites in Belize. In Reconstructing Ancient Maya Diet, edited by White, Christine D., pp. 221244. University of Utah Press, Salt Lake City.Google Scholar
Dahlin, Bruce H., and Chase, Arlen F. 2014 A Tale of Three Cities: Effects of the AD 536 Event in the Lowland Maya Heartland. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 127156. University Press of Colorado, Boulder.Google Scholar
Deines, Peter 1980 The Isotopic Composition of Reduced Organic Carbon. In Handbook of Environmental Isotope Geochemistry, edited by Fritz, Peter and Fontes, Jean-Charles, pp. 329406. Elsevier, Amsterdam.Google Scholar
Demarest, Arthur A., Rice, Prudence, and Rice, Don C. (editors) 2004 The Terminal Classic in the Maya Lowlands: Collapse, Transition, and Transformation. Westview Press, Boulder, Colorado. Google Scholar
Emery, Kitty F. 2002 The Noble Beast: Status and Differential Access to Animals in the Maya World. World Archaeology 34:498515.CrossRefGoogle Scholar
Emery, Kitty F., and Kennedy Thornton, Erin 2008 A Regional Perspective on Biotic Change during the Classic Maya Occupation Using Zooarchaeological Isotope Chemistry. Quaternary International 191 (1):131143.CrossRefGoogle Scholar
Emery, Kitty F., and Kennedy Thornton, Erin 2014 Tracking Climate Change in the Ancient Maya World through Zooarchaeological Habitat Analyses. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 301–002. University Press of Colorado, Boulder.Google Scholar
Emery, Kitty F., Wright, Lori E., and Schwarcz, Henry P. 2000 Isotopic Analysis of Ancient Deer Bone: Biotic Stability in Collapse Period Maya Land-Use. Journal of Archaeological Science 27 (6):537550.CrossRefGoogle Scholar
Freiwald, Carolyn 2011 Maya Migration Networks: Reconstructing Population Movement in the Belize River Valley during the Late and Terminal Classic. Ph.D. dissertation, Department of Anthropology, University of Wisconsin-Madison, Madison.Google Scholar
Froehle, Andrew W., Kellner, Corina M., and Schoeninger, Margaret J. 2010 FOCUS: Effect of Diet and Protein Source on Carbon Stable Isotope Ratios in Collagen: Follow-up to Warinner and Tuross (2009). Journal of Archaeological Science 37 (10):26622670.CrossRefGoogle Scholar
Froehle, Andrew W., Kellner, Corina M., and Schoeninger, Margaret J. 2012 Multivariate Carbon and Nitrogen Stable Isotope Model for the Reconstruction of Prehistoric Human Diet. American Journal of Physical Anthropology 147:352369.CrossRefGoogle ScholarPubMed
Garvie-Lok, Sandra J., Varney, Tamara L., and Katzenberg, M. Anne 2004 Preparation of Bone Carbonate for Stable Isotope Analysis: The Effects of Treatment Time and Acid Concentration. Journal of Archaeological Science 31 (6):763776.CrossRefGoogle Scholar
Gerry, John 1997 Bone Isotope Ratios and Their Bearing on Elite Privilege among the Classic Maya. Geoarchaeology 12:4169.3.0.CO;2-9>CrossRefGoogle Scholar
Gerry, John P., and Krueger, Harold W. 1997 Regional Diversity in Classic Maya Diet. In Bones of the Maya: Studies of Ancient Skeletons, edited by Whittington, Stephen L. and Reed, David M., pp. 196207. Smithsonian Institution Press, Washington, DC.Google Scholar
Gill, Richardson B. 2000 The Great Maya Droughts: Water, Life, and Death. University of New Mexico Press, Albuquerque.Google Scholar
Gumerman, George, IV 1997 Food and Complex Societies. Journal of Archaeological Method and Theory 4:105139.CrossRefGoogle Scholar
Haug, Gerald H., Hughen, Konrad A., Sigman, Daniel M., Peterson, Larry C., and Röhl, Ursula 2001 Southward Migration of the Intertropical Conver- gence Zone through the Holocene. Science 293 (5533):13041308.CrossRefGoogle Scholar
Hedges, R. E. M., and Reynard, Linda M. 2007 Nitrogen Isotopes and the Trophic Level of Humans in Archaeology. Journal of Archaeological Science 34 (8):12401251.CrossRefGoogle Scholar
Hodell, David A., Brenner, Mark, and Curtis, Jason H. 2005 Terminal Classic Drought in the Northern Maya Lowlands Inferred from Multiple Sediment Cores in Lake Chichancanab (Mexico). Quaternary Science Reviews 24 (12):14131427.CrossRefGoogle Scholar
Hodell, David A., Brenner, Mark, and Curtis, Jason H. 2007 Climate and Cultural History of the Northeastern Yucatan Peninsula, Quintana Roo, Mexico. Climatic Change 83 (1):215240.CrossRefGoogle Scholar
Iannone, Gyles 1999 Archaeological Investigations at Minanha, Belize: A Research Proposal. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the First (1999) Field Season, edited by Iannone, Gyles, Seibert, Jeffrey, and Gray, Nadine, pp. 127. Department of Anthropology, Trent University, Peterborough.Google Scholar
Iannone, Gyles 2005 The Rise and Fall of an Ancient Maya Petty Royal Court. Latin American Antiquity 16:2644.CrossRefGoogle Scholar
Iannone, Gyles, Awe, Jaime J., Bevan, Andrew, Brook, George, Conolly, James, Downey, Sean, Longstaffe, Fred J., Moyes, Holley, Polk, Jason, Reeder, Philip P., Van Beynen, P., Webster, James W., and Williams, Jocelyn S. 2010 Socio-Environmental Dynamics in the North Vaca Plateau, Belize: A Long Term Perspective. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Twelfth (2010) Field Season, edited by Iannone, Gyles, Awe, Jaime J., Lamoureux-St-Hilaire, Maxime, and Longstaffe, Matthew, pp. 121. Department of Anthropology, Trent University, Peterborough.Google Scholar
Iannone, Gyles, Chase, Arlen F., Chase, Diane Z., Awe, Jaime J., Moyes, Holley, Brook, George, Polk, Jason, Webster, James, and Conolly, James 2014 An Archaeological Consideration of Long-Term Socio-Ecological Dynamics on the Vaca Plateau, Belize. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 271300. University Press of Colorado, Boulder.Google Scholar
Iannone, Gyles, Prufer, Keith, and Chase, Diane Z. 2014 Resilience and Vulnerability in the Maya Hinterlands. Archeological Papers of the American Anthropological Association 24:155170.CrossRefGoogle Scholar
Iannone, Gyles, Yaeger, Jason, and Hodell, David A. 2014 Assessing the Great Maya Droughts: Some Critical Issues. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 5170. University Press of Colorado, Boulder.Google Scholar
Jim, Susan, Ambrose, Stanley H., and Evershed, Richard P. 2004 Stable Carbon Isotopic Evidence for Differences in the Dietary Origin of Bone Cholestrol, Collagen and Apatite: Implications for their Use in Palaeodietary Reconstruction. Geochimica et Cosmochimca Acta 68:6172.CrossRefGoogle Scholar
Katzenberg, M. Anne 2008 Stable Isotope Analysis: A Tool for Studying Past Diet, Demography and Life History. In Biological Anthropology of the Human Skeleton, 2nd ed., edited by Anne Katzenberg, M. and Saunders, Shelley R., pp. 413442. John Wiley and Sons, New Jersey.CrossRefGoogle Scholar
Kellner, Corina M., and Schoeninger, Margaret J. 2007 A Simple Carbon Isotope Model for Reconstructing Prehistoric Human Diet. American Journal of Physical Anthropology 133:11121127.CrossRefGoogle ScholarPubMed
Kennett, Douglas J., Breitenbach, Sebastian F. M., Aquino, Valorie V., Asmerom, Yemane, Awe, Jaime, Baldini, James U. L., Bartlein, Patrick, Culleton, Brendan J., Ebert, Claire, and Jazwa, Christopher 2012 Development and Disintegration of Maya Political Systems in Response to Climate Change. Science 338 (6108):788791.CrossRefGoogle ScholarPubMed
Lamoureux-St-Hilaire, Maxime, and Iannone, Gyles 2012 The Last Waltz and Minanha: Exploring Gradual Abandonment in the North Vaca Plateau. Research Reports in Belizean Archaeology 9: 207220.Google Scholar
Lamoureux-St-Hilaire, Maxime, Macrae, Scott, McCane, Carmen A., Parker, Evan A., and Iannone, Gyles 2015 The Last Groups Standing: Living Abandonment at the Ancient Maya Center of Minanha, Belize. Latin American Antiquity 26:550569.CrossRefGoogle Scholar
Lee-Thorp, Julia A., van der Merwe, Nikolaas J., and Sealy, Judith C. 1989 Stable Carbon Isotope Ratio Differences between Bone Collagen and Bone Apatite, and Their Relationship to Diet. Journal of Archaeological Science 16 (6):585599.CrossRefGoogle Scholar
Longstaffe, Matthew, and Iannone, Gyles 2011 Households and Social Trajectories: The Site Core Community at Minanha, Belize. Research Reports in Belizean Archaeology 8:4559.Google Scholar
McCane, Carmen A., Macrae, Scott A., and Iannone, Gyles 2010 A Consideration of the Spatial Arrangment of Settlement Groups and Terraces in Contreras Minanha, Belize. Research Reports in Belizean Archaeology 7:141151.Google Scholar
Macrae, Scott 2010 A Comparative Approach to the Socio-political and Socio-economic Organization of the Intensive Terrace Farming at the Ancient Maya Centre of Minanha, Belize. Master's thesis, Department of Anthropology, Trent University, Peterborough.Google Scholar
Macrae, Scott A., and Iannone, Gyles 2011 Investigations of the Agricultural Terracing Surrounding the Ancient Maya Centre of Minanha, Belize. Research Reports in Belizean Archaeology 8: 183197.Google Scholar
Me-Bar, Yoav, and Valdez, Fred 2003 Droughts as Random Events in the Maya Lowlands. Journal of Archaeological Science 30 (12):15991606.CrossRefGoogle Scholar
Medina-Elizalde, Martín, Burns, Stephen J., Lea, David W., Asmerom, Yemane, von Gunten, Lucien, Polyak, Victor, Vuille, Mathias, and Karmalkar, Ambarish 2010 High Resolution Stalagmite Climate Record from the Yucatán Peninsula Spanning the Maya Terminal Classic Period. Earth and Planetary Science Letters 298 (1):255262.CrossRefGoogle Scholar
Medina-Elizalde, Martín, Burns, Stephen J., Polanco-Martínez, Josué M., Beach, Timothy, Lases-Hernández, Fernanda, Shen, Chuan-Chou, and Wang, Hao-Cheng 2016 High-Resolution Speleothem Record of Precipitation from the Yucatan Peninsula Spanning the Maya Preclassic Period. Global and Planetary Change 138:93102.CrossRefGoogle Scholar
Metcalfe, Jessica Z., White, Christine D., Longstaffe, Fred J., Wrobel, Gabriel, Collins Cook, Della, and Anne Pyburn, K. 2009 Isotopic Evidence for Diet at Chau Hiix, Belize: Testing Regional Models of Hierarchy and Heterarchy. Latin American Antiquity 20:1536.CrossRefGoogle Scholar
Pohl, Mary 1985 The Privileges of Maya Elites: Prehistoric Vertebrate Fauna from Seibal. In Prehistoric Lowland Maya Environmental and Subsistence Economy, edited by Pohl, Mary, pp. 133145. Harvard University Press, Cambridge, Massachusetts.Google Scholar
Powis, Terry G., Stanchly, Norbert, White, Christine D., Healy, Paul F., Awe, Jaime J., and Longstaffe, Fred J. 1999 A Reconstruction of Middle Preclassic Maya Subsistence Economy at Cahal Pech, Belize. Antiquity 73:364376.CrossRefGoogle Scholar
Primrose, James Ryan 2003 The Ancient Maya Water Management System at Minanha, West Central Belize. Master's thesis, Department of Anthropology, Trent University, Peterborough.Google Scholar
Rand, Asta, Healy, Paul, and Awe, Jaime 2015 Stable Isotopic Evidence of Ancient Maya Diet at Caledonia, Cayo District, Belize. International Journal of Osteoarchaeology 25:401413.CrossRefGoogle Scholar
Reeder, Philip P., Brinkmann, Robert, and Alt, Edward 1996 Karstification on the Northern Vaca Platea, Belize. Journal of Cave and Karst Studies 58:121130.Google Scholar
Repussard, Antoine, Schwarcz, Henry, Emery, Kitty F., and Kennedy Thornton, Erin 2014 Oxygen Isotopes from Maya Archaeological Deer Remains: Experiments in Tracing Droughts Using Bones. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 231254. University Press of Colorado, Boulder.Google Scholar
Scherer, Andrew K., Wright, Lori E., and Yoder, Cassady J. 2007 Bioarchaeological Evidence for Social and Temporal Differences in Diet at Piedras Negras, Guatemala. Latin American Antiquity 18:85104.CrossRefGoogle Scholar
Schoeninger, Margaret J., and DeNiro, Michael J. 1984 Nitrogen and Carbon Isotopic Composition of Bone Collagen from Marine and Terrestrial Animals. Geochimica et Cosmochimca Acta 48:625639.CrossRefGoogle Scholar
Schwake, Sonja 2008 The Social Implications of Ritual Behavior in the Maya Lowlands: A Perspective from Minanha, Belize. Ph.D. dissertation, Department of Anthropology, University of California, San Diego.Google Scholar
Schwake, Sonja A., and Iannone, Gyles 2010 Ritual Remains and Collective Memory: Maya Examples from West Central Belize. Ancient Mesoamerica 21 (2):331339.CrossRefGoogle Scholar
Schwake, Sonja A., and Iannone, Gyles 2016 Destruction Events and Political Truncation at the Little Kingdom of Minanha, Belize. In Ritual, Violence, and the Fall of the Classic Maya Kings, edited by Iannone, Gyles, Houk, Brett, and Schwake, Sonja, pp. 134158. University Press of Florida, Gainsville.Google Scholar
Schwarcz, Henry P. 2000 Some Biochemical Aspects of Carbon Isotopic Paleodiet Studies. In Biogeochemical Approaches to Paleodietary Analysis, edited by Ambrose, Stanley H. and Katzenberg, M. Anne, pp. 189209. Kluwer Academic/Plenum Publishers, New York.Google Scholar
Sealy, Judith, Johnson, Malia, Richards, Michael, and Nehlich, Olaf 2014 Comparison of Two Methods of Extracting Bone Collagen for Stable Carbon and Nitrogen Isotope Analysis: Comparing Whole Bone Demineralization with Gelatinization and Ultrafiltration. Journal of Archaeological Science 47:6469.CrossRefGoogle Scholar
Sharpe, Ashley E., and Emery, Kitty F. 2015 Differential Animal Use within Three Late Classic Maya States: Implications for Politics and Trade. Journal of Anthropological Archaeology 40:280301.CrossRefGoogle Scholar
Sheets, Payson, Dixon, Christine, Guerre, Monica, and Blanford, Adam 2011 Manioc Cultivation at Cerén, El Salvador: Occasional Kitchen Garden Plant or Stable Crop? Ancient Mesoamerica 22 (1):111.CrossRefGoogle Scholar
Snetsinger, Andrew K. 2013 Burials and Mortuary Behaviour of the Ancient Maya at Minanha, Belize. Master's thesis, Department of Anthropology, Trent University, Peterborough.Google Scholar
Somerville, Andrew D., Fauvelle, Mikael, and Froehle, Andrew W. 2013 Applying New Approaches to Modeling Diet and Status: Isotopic Evidence for Commoner Resiliency and Elite Variability in the Classic Maya Lowlands. Journal of Archaeological Science 40 (3):15391553.CrossRefGoogle Scholar
Somerville, Andrew D., Schoeninger, Margaret J., and Braswell, Geoffrey E. 2016 Political Alliance, Residential Mobility, and Diet at the Ancient Maya City of Pusilha, Belize. Journal of Anthropological Archaeology 41:147158.CrossRefGoogle Scholar
Stanchly, Norbert, Solis, W., and Iannone, Gyles 2008 Zooarchaeology Investigations at Minanha, Belize: Research Goals, Methods and Preliminary Results. In Archaeological Investigations in the North Vaca Platea, Belize: Progress Report of the Tenth (2008) Field Season, edited by Iannone, Gyles and Macrae, Scott, pp. 112126. Department of Anthropology, Trent University, Peterborough.Google Scholar
Stronge, Shannen 2012 Examining Chronological Trends in Ancient Maya Diet at Minanha, Belize Using the Stable Isotopes of Carbon and Nitrogen. Master's thesis, Department of Anthropology, Trent University, Peterborough.Google Scholar
Sutinen, Jessica 2014 Identifying Non-Local Individuals at the Ancient Maya Centre of Minanha, Belize, through the Use of Strontium Isotope Analysis. Master's thesis, Department of Anthropology, Trent University, Peterborough.Google Scholar
Tykot, Robert H. 2002 Contributions of Stable Isotope Analysis to Understanding Dietary Variation Among the Maya. In Archaeological Chemistry: Material, Methods, and Meaning, edited by Jakes, Kathryn, pp. 214230. Oxford University Press, Oxford.CrossRefGoogle Scholar
Tykot, Robert H., van der Merwe, Nikolaas J., and Hammond, Nancy 1996 Stable Isotope Analysis of Bone Collagen, Bone Apatite, and Tooth Enamel in the Reconstruction of Human Diet: A Case Study from Cuello, Belize. In Archaeological Chemistry, edited by Mark Pollard, A. and Heron, Carl, pp. 355365. ACS Symposium Series No. 625. Royal Society of Chemistry, Cambridge.CrossRefGoogle Scholar
Van de Noort, Robert 2011 Conceptualising Climate Change Archaeology. Antiquity 85:10391048.CrossRefGoogle Scholar
Vanderklift, Matthew A., and Ponsard, Sergine 2003 Sources of Variation in Consumer-Diet δ15N Enrichment: A Meta-Analysis. Oecologia 136:169182.CrossRefGoogle ScholarPubMed
Van Klinken, Gert J. 1999 Bone Collagen Quality Indicators for Palaeodietary and Radiocarbon Measurements. Journal of Archaeological Science 26 (6):687695.CrossRefGoogle Scholar
Virginia, Ross A., and Colin Delwiche, Constant 1982 Natural 15N Abundance of Presumed N2-fixing and Non N2-fixing Plants from Selected Ecosystems. Oecologia 54:317325.CrossRefGoogle Scholar
Wahl, David, Byrne, Roger, and Anderson, Lysanna 2014 An 8700 Year Paleoclimate Reconstruction from the Southern Maya Lowlands. Quaternary Science Reviews 103:1925.CrossRefGoogle Scholar
Walker, Brian, and Salt, David 2012 Resilience Practice: Building Capacity to Absorb Disturbance and Maintain Function. Island Press, Washington, DC. CrossRefGoogle Scholar
Webster, David 2014 Maya Drought and Niche Inheritence. In The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, edited by Iannone, Gyles, pp. 333358. University Press of Colorado, Boulder.Google Scholar
Webster, James, Brook, George A., Bruce Railsback, L., Cheng, Hai, Lawrence Edwards, R., Alexander, Clark, and Reeder, Philip P. 2007 Stalagmite Evidence from Belize Indicating Significant Droughts at the Time of Preclassic Abandonment, the Maya Hiatus, and the Classic Maya Collapse. Palaeogeography, Palaeoclimatology, Palaeo-ecology 250:117.CrossRefGoogle Scholar
Welsh, W. B. M. 1988 An Analysis of Classic Lowland Maya Burials. BAR International Series 409. BAR, Oxford.CrossRefGoogle Scholar
White, Christine D., Healey, Paul F., and Schwarcz, Henry P. 1993 Intensive Agriculture, Social Status, and Maya Diet at Pacbitun, Belize. Journal of Anthropological Research 49:347375.CrossRefGoogle Scholar
White, Christine D., Pendergast, David M., Longstaffe, Fred J., and Law, Kimberley R. 2001 Social Complexity and Food Systems at Altun Ha, Belize: The Isotopic Evidence. Latin American Antiquity 12:371393.CrossRefGoogle Scholar
White, Christine D., and Schwarcz, Henry P. 1989 Ancient Maya Diet: As Inferred from Isotopic and Elemental Analysis of Human Bone. Journal of Archaeological Science 16 (5):451474.CrossRefGoogle Scholar
Whittington, Stephen L., and Reed, David M. 1997 Commoner Diet at Copán: Insights from Stable Isotopes and Porotic Hyperostosis. In Bones of the Maya: Studies of Ancient Skeletons, edited by Whittington, Stephen L. and Reed, David M., pp. 157170. Smithsonian Institution Press, Washington, DC. Google Scholar
Wilhite, Donald A., and Glantz, Michael H. 1985 Understanding the Drought Phenomenon: The Role of Definitions. Water International 10 (3):111120.CrossRefGoogle Scholar
Williams, Jocelyn S., White, Christine D., and Longstaffe, Fred J. 2009 Maya Marine Subsistence: Isotopic Evidence from Marco Gonzalez and San Pedro, Belize. Latin American Antiquity 20:3756.CrossRefGoogle Scholar
Wright, Lori E. 1994 The Sacrifice of the Earth? Diet, Health, and Inequality in the Pasión Maya Lowlands. Unpublished Ph.D. dissertation, Department of Anthropology, University of Chicago, Chicago, Illinois.Google Scholar
Wright, Lori E. 2003 La muerte y estatus económico: Investigando el simbolismo mortuorio y el acceso a los recursos alimenticios entre los mayas. In Antropología de la eternidad: La muerte en la cultura maya, edited by Ciudad Ruiz, Andrés, Ruz Soza, Mario Humberto, and Iglesias Ponce de Leon, María Josefa, pp. 175193. Sociedad Española de Estudios Mayas, Madrid.Google Scholar
Wright, Lori E. 2006 Diet, Health, and Status among the Pasión Maya: A Reappraisal of the Collapse. Vanderbilt Institute of Mesoamerican Archaeology Series, Vol. 2. Vanderbilt University Press, Nashville.Google Scholar
Yaeger, Jason, and Hodell, David A. 2008 The Collapase of Maya Civilization: Assessing the Interaction of Culture, Climate, and Environment. In El Niño, Catastrophism, and Culture Change, edited by Sandweiss, Daniel H. and Quilter, Jeffrey, pp. 187242. Dumbarton Oaks, Washington, DC.Google Scholar
Supplementary material: File

Williams supplementary material

Table S1

Download Williams supplementary material(File)
File 516.7 KB
Supplementary material: File

Williams supplementary material

Table S2

Download Williams supplementary material(File)
File 16.4 KB
Supplementary material: File

Williams supplementary material

Table S3

Download Williams supplementary material(File)
File 20 KB
Supplementary material: File

Williams supplementary material

Table S4

Download Williams supplementary material(File)
File 25.6 KB
Supplementary material: File

Williams supplementary material

Table S5

Download Williams supplementary material(File)
File 19.3 KB
Supplementary material: File

Williams supplementary material

Table S6

Download Williams supplementary material(File)
File 18.1 KB
Supplementary material: File

Williams supplementary material

Williams supplementary material 1

Download Williams supplementary material(File)
File 14.8 KB