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Combining Survey, Soil Coring, and GIS Methods to Improve Reservoir Capacity Estimates in the Maya Lowlands

Published online by Cambridge University Press:  10 May 2022

Damien B. Marken*
Affiliation:
Department of Anthropology, Bloomsburg University of Pennsylvania, Bloomsburg, PA, USA
Matthew C. Ricker
Affiliation:
Department of Crop and Soil Sciences, North Carolina State University, Raleigh, NC, USA ([email protected], [email protected])
Robert Austin
Affiliation:
Department of Crop and Soil Sciences, North Carolina State University, Raleigh, NC, USA ([email protected], [email protected])
*
([email protected], corresponding author)

Abstract

This study reports water capacity estimates for four reservoirs within the Classic Maya city of El Perú-Waka’, Guatemala. Combining field survey, soil analysis, and a variety of GIS interpolation methods, it illustrates ways to more fully quantify a challenging resource—water—and its availability using an interdisciplinary approach. This is accomplished by comparing surface interpolation methods for estimating reservoir capacities to demonstrate that most provide reliable estimates. Reported estimates are further enhanced by analyzing internal reservoir soil morphology to better understand and quantify formation processes and refine estimates from field survey. These analyses document a multiscalar organization to water management within the Waka’ urban core that likely ran the gamut from individuals up to civic and state institutions. Although intricacies remain to be fully elucidated, this example offers an alternate path to theorizing about water management practices from traditional binary approaches.

Este estudio reporta estimaciones de capacidad de agua para cuatro reservorios dentro de la ciudad del Clásico Maya de El Perú-Waka’, Guatemala. Combinando datos topográficos, análisis de suelos y una variedad de métodos de interpolación GIS, intenta cuantificar más completamente un recurso desafiante, el agua, y su disponibilidad utilizando un enfoque multiescalar e interdisciplinario. Esto se logra mediante la comparación de métodos de interpolación de superficie para estimar las capacidades del yacimiento y demostrar que la mayoría proporciona estimaciones confiables. Las estimaciones informadas se mejoran aún más mediante el análisis de la morfología del suelo del yacimiento interno para comprender y cuantificar mejor los procesos de formación y agudizar las estimaciones de la prospección de campo. Estos análisis documentan una organización multiescalar para la gestión del agua dentro del núcleo urbano de Perú-Waka’ que probablemente abarcó desde individuos hasta instituciones cívicas y estatales. Aunque sus complejidades aún no se han aclarado por completo, este ejemplo ofrece un camino alternativo para teorizar sobre las prácticas de gestión del agua a partir de enfoques binarios tradicionales.

Type
Article
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of Society for American Archaeology

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References

REFERENCES CITED

Aiuvalasit, Michael J. 2017 Common Goods in Uncommon Times: Water, Droughts, and the Sustainability of Ancestral Pueblo Communities in the Jemez Mountains, New Mexico, AD 1100–1700. PhD dissertation, Department of Anthropology, Southern Methodist University, Dallas.CrossRefGoogle Scholar
Akpinar Ferrand, Ezgi, Dunning, Nicholas P., Lentz, David L., and Jones, John G. 2012 Use of Aguadas as Water Management Sources in Two Southern Maya Lowland Sites. Ancient Mesoamerica 23:85101.CrossRefGoogle Scholar
Beach, Timothy, Luzzadder-Beach, Sheryl, Flood, Jonathan, Houston, Stephen, Garrison, Thomas, Román, Edwin, Bozarth, Stephen, and Doyle, James 2015 A Neighborly View: Water and Environmental History of the El Zotz Region. In Tikal: Paleoecology of an Ancient Maya City, edited by Lentz, David L., Dunning, Nicholas P., and Scarborough, Vernon L., pp. 258279. Cambridge University Press, New York.CrossRefGoogle Scholar
Becquelin, Pierre, and Michelet, Dominique D. 1994 Demografía en la Zona Puuc: El Recurso del Método. Latin American Antiquity 5:103111.CrossRefGoogle Scholar
Benson, Larry V., Griffin, Eleanor R., Stein, John R., Friedman, Richard A., and Andrae, S. W. 2014 Mummy Lake: An Unroofed Ceremonial Structure within a Large-Scale Ritual Landscape. Journal of Archaeological Science 44:164179.CrossRefGoogle Scholar
Brewer, Jeffrey L. 2018 Householders as Water Managers: A Comparison of Domestic-Scale Water Management Practices from Two Central Maya Lowlands Sites. Ancient Mesoamerica 29:197217.CrossRefGoogle Scholar
Brewer, Jeffery L., Carr, Christopher, Dunning, Nicholas P., Walker, Debra S., Hernández, Armando Anaya, Peuramki-Brown, Meaghan, and Reese-Taylor, Kathryn 2017 Employing Airborne Lidar and Archaeological Testing to Determine the Role of Small Depressions in Water Management at the Ancient Maya Site of Yaxnohcah, Campeche, Mexico. Journal of Archaeological Science: Reports 13:291302.Google Scholar
Canuto, Marcello A., Estrada-Belli, Francisco, Garrison, Thomas, Houston, Stephen D., Acuña, Mary Jane, Kováč, Milan, Marken, Damien, et al. 2018 Ancient Lowland Maya Complexity as Revealed by Airborne Laser Scanning of Northern Guatemala. Science 361:eaau0137. DOI:10.1126/science.aau0137.CrossRefGoogle ScholarPubMed
Chase, Adrian S. Z. 2016 Beyond Elite Control: Residential Reservoirs at Caracol, Belize. WIREs Water 3:885897.CrossRefGoogle Scholar
Dunning, Nicholas P., Luzzadder-Beach, Sheryl, Beach, Timothy, Jones, John G., Scarborough, Vernon, and Patrick Culbert, T. 2002 Arising from the Bajos: The Evolution of a Neotropical Landscape and the Rise of Maya Civilization. Annals of the Association of American Geographers 92:267283.CrossRefGoogle Scholar
Eppich, E. Keith, Freidel, David A., Guenter, Stanley, Lee, David, Marken, Damien B., Navarro-Farr, Olivia, and Rich, Michelle 2012 The Flag Follows Trade? Material Correlates from El Perú-Waka’ Indicating Political and Economic Interaction in Classic-Era Western Petén. Paper presented at the 77th Annual Meeting of the Society for American Archaeology, Memphis, Tennessee.Google Scholar
Ersten, Maurits Willem 2010 Structuring Properties of Irrigation Systems: Understanding Relations between Humans and Hydraulics through Modeling. Water History 2:165183.Google Scholar
Evans, Daniel L., Vis, Benjamin N., Dunning, Nicholas P., Graham, Elizabeth, and Isendahl, Christian 2021 Buried Solutions: How Maya Urban Life Substantiates Soil Connectivity. Geoderma 387. DOI:10.1016/j.geoderma.2020.114925.CrossRefGoogle Scholar
Fedick, Scott L. (editor) 1996 The Managed Mosaic: Ancient Maya Agriculture and Resource Use. University of Utah Press, Salt Lake City.Google Scholar
Fletcher, Roland 2012 Low-Density, Agrarian-Based Urbanism: Scale, Power, and Ecology. In The Comparative Archaeology of Complex Societies, edited by Smith, Michael E., pp. 285320. Cambridge University Press, Cambridge.Google Scholar
Fletcher, Roland, Penny, Dan, Evans, Damien, Pottier, Christophe, Barbetti, Mike, Kummu, Matti, Lustig, Terry 2008 The Water Management Network of Angkor, Cambodia. Antiquity 82:658670.CrossRefGoogle Scholar
Fowler, Veronica Lorson 2013 Backyard Water Gardens: How to Build, Plant and Maintain Ponds, Streams and Fountains. Cool Springs Press, Minneapolis.Google Scholar
Freidel, David A., and Escobedo, Héctor L. 2014 Stelae, Buildings, and People: Reflections on Ritual in the Archaeological Record at El Perú-Waka’. In Archaeology at El Perú-Waka’: Performances of Ritual, Memory and Power, edited by Navarro-Farr, Olivia and Rich, Michelle, pp. 1833. University of Arizona Press, Tucson.Google Scholar
Freidel, David A., Escobedo, Héctor L., and Guenter, Stanley 2007 A Crossroads of Conquerors. In Gordon R. Willey and American Archaeology: Contemporary Perspectives, edited by Sabloff, Jeremy A. and Fash, William L., pp. 187208. University of Oklahoma Press, Norman.Google Scholar
Huckleberry, Gary, Ferguson, T. J., Rittenour, Tammy, Banet, Christopher, and Mahan, Shannon 2016 Identification and Dating of Indigenous Water Storage Reservoirs along the Rio San José at Laguna Pueblo, Western New Mexico, USA. Journal of Arid Environments 127:171186.CrossRefGoogle Scholar
Isendahl, Christian, and Smith, Michael E. 2013 Sustainable Agrarian Urbanism: The Low-Density Cities of the Mayas and Aztecs. Cities 31:132143.CrossRefGoogle Scholar
Krige, Daniel Gerhardus 1951 A Statistical Approach to Some Mine Valuations and Allied Problems at the Witwatersrand. Master's thesis, Faculty of Engineering, University of Witwatersrand, Johannesburg.Google Scholar
Lentz, David L., Hamilton, Trinity L., Dunning, Nicholas P., Scarborough, Vernon L., Luxton, Todd P., Vonderheide, Anne, Tepe, Eric J., et al. 2020 Molecular Genetic and Geochemical Assays Reveal Severe Contamination of Drinking Water at the Ancient Maya City of Tikal. Nature: Scientific Reports 10:10316. DOI:10.1038/s41598-020-67044-z.Google ScholarPubMed
Lucero, Lisa J. 1999 Water Control and Maya Politics in the Southern Lowlands. In Complex Polities in the Ancient Tropical World, edited by Bacus, Elizabeth A. and Lucero, Lisa J., pp. 3449. American Anthropological Association, Arlington, Texas.Google Scholar
Lucero, Lisa J. 2006 Water and Ritual: The Rise and Fall of Classic Maya Rulers. University of Texas Press, Austin.CrossRefGoogle Scholar
Marken, Damien B. 2011 City and State: Urbanism, Rural Settlement, and Polity in the Classic Maya Lowlands. PhD dissertation, Department of Anthropology, Southern Methodist University, Dallas.Google Scholar
Marken, Damien B. 2015 Conceptualizing the Spatial Dimensions of Classic Maya States: Polity and Urbanism at El Perú-Waka’, Petén. In Classic Maya Polities of the Southern Lowlands, edited by Marken, Damien B. and Fitzsimmons, James, pp. 123166. University of Colorado Press, Boulder.Google Scholar
Marken, Damien B., Austin, Haley N., Bauer, Hannah, and Ricker, Matthew C. 2019 WK24: Excavaciones de Rasgos de Manejo de Agua y Estructuras Residenciales en el Sector Noreste de El Perú-Waka’. In Proyecto Arqueológico El Perú-Waka’: Informe No. 16, Temporada 2018, edited by Pérez, Juan Carlos, Pérez, Griselda, and Marken, Damien B., pp.185248. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Marken, Damien B., and Cooper, Zachary 2018 WK22: Excavaciones en estructuras residenciales asociadas con rasgos de manejo del agua en el Barrio Ical. In Proyecto Arqueológico El Perú-Waka’: Informe No. 15, Temporada 2017, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David, pp. 196254. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Marken, Damien B., Cooper, Zachary J., Gemberling, Bailey, Pérez, Dúglas, and Austin, Robert 2020 Reconocimiento Regional de El Perú-Waka’, 2019: Verificación y Análisis del Suelo del DEM de LiDAR de PAW, Meseta Este y Área de Influencia al norte del Núcleo Urbano. In Proyecto Arqueológico El Perú-Waka’: Informe No. 17, Temporada 2019, edited by Pérez, Juan Carlos, Robles, Griselda Pérez, and Marken, Damien B., pp. 161270. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Marken, Damien B., and Maxson, Erika 2017 Rellenadno los Agujeros: Mapeo Topográfico del Núcleo Urbano de El Perú-Waka’, 2016. In Proyecto Arqueológico El Perú-Waka’: Informe No. 14, Temporada 2016, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David A., pp. 249264. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Marken, Damien B., and Pérez, Dúglas 2018 LiDAR en El Perú (Polígono 12): Análisis preliminar y comprobación sobre el terreno 2017. In Proyecto Arqueológico El Perú-Waka’: Informe No. 15, Temporada 2017, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David, pp. 273317. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Marken, Damien B., and Ricker, Matthew C. 2018 Living with Water: Classic Maya Pond Management at El Perú-Waka’, Petén, Guatemala. National Geographic Society Research Council Grant #HJ-100R-17, Final Report.Google Scholar
Marken, Damien B., and Ricker, Matthew C. 2023 Fire, Earth, and Water: Settlement, Soils, and Hydrology at El Perú-Waka’. In Kingdom of the Centipede: New Archaeological Perspectives on the Classic Maya Center of El Perú-Waka’, edited by Eppich, Keith, Marken, Damien B., and Freidel, David. University Press of Florida, Gainesville, in press.Google Scholar
Marken, Damien B., Ricker, Matthew, Rivas, Alex, and Maxson, Erika 2019 Urbanismo de Bajo Densidad en las Tierras Bajas Maya: El Caso de El Perú-Waka’, Petén, Guatemala. Estudios de Cultura Maya 54:1142. DOI:10.19130/iifl.ecm.2019.54.970.CrossRefGoogle Scholar
Maxson, Erika, and Marken, Damien B. 2018 Análisis preliminar con SIG de la hidrología superficial en el núcleo urbano del sitio El Perú. In Proyecto Arqueológico El Perú-Waka’: Informe No. 15, Temporada 2017, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David, pp. 316329. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Murrell, Monica L., and Shelley, Phillip H. 2009 Geoarchaeology of a Late Prehistoric Water Storage Feature at Pueblo Oso Negro, Chupadera Basin, New Mexico. Kiva 75:1133.CrossRefGoogle Scholar
Neely, James A., Aiuvalasit, Michael J., and Clause, Vincent A. 2015 New Light on the Prehistoric Purrón Dam Complex: Small Corporate Group Collaboration in the Tehuacán Valley, Puebla, México. Journal of Field Archaeology 40:347364.CrossRefGoogle Scholar
Numerical Terradynamic Simulation Group 2021 Global Evapotranspiration. Electronic document, https://www.ntsg.umt.edu/project/global-et.php, accessed September 12, 2021.Google Scholar
Ricker, Matthew C., Marken, Damien B., Bauer, Hannah, and Austin, Haley N. 2019 WK21: Gestión del Agua en el Repertorio Conectado a Xucub y en los Sistemas Hidrológicos del Tanque Noreste. In Proyecto Arqueológico El Perú-Waka’: Informe No. 16, Temporada 2018, edited by Pérez, Juan Carlos, Pérez, Griselda, and B. Marken, Damien, pp. 127184. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Ricker, Matthew C., Marken, Damien B., and Cooper, Zachary 2018 Uso de Descripciones de Suelos para Evaluar la Gestión de Aguas Superficiales en el Noroeste del Centro Urbano de El Perú-Waka’. In Proyecto Arqueológico El Perú-Waka’: Informe No. 15, Temporada 2017, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David, pp. 130195. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Ricker, Matthew C., Marken, Damien B., and Rivas, Alexander 2017 Transectos de Bases de Suelo en Rasgos Hidrologícos de la Superficie: Los Reservorios Xucub, Plaza 1, y el Tanque Noreste. In Proyecto Arqueológico El Perú-Waka’: Informe No. 14, Temporada 2016, edited by Pérez, Juan Carlos, Pérez, Griselda, and Freidel, David A., pp. 161221. Fundación de Investigación Arqueológica Waka’, Guatemala City.Google Scholar
Scarborough, Vernon 2003 Flow of Water: Ancient Water Systems and Landscapes. School of American Research, Santa Fe, New Mexico.Google Scholar
Scarborough, Vernon 2015 Human Niches, Abandonment Cycling, and Climates. Water History 7:381396.CrossRefGoogle Scholar
Scarborough, Vernon L., Dunning, Nicholas P., Tankersley, Kenneth B., Carr, Christopher, Weaver, Eric, Grazioso, Liwy, Lane, Brian, et al. 2012 Water and Sustainable Land-Use at the Ancient Tropical City of Tikal, Guatemala. PNAS 109:1240812413.CrossRefGoogle ScholarPubMed
Schoeneberger, Philip J., Wysocki, Doug A., Benham, Ellis C., and Staff, Soil Survey 2012 Field Book for Describing and Sampling Soils, Version 3.0. Natural Resources Conservation Service, National Soil Survey Center, Lincoln, Nebraska.Google Scholar
Shepard, Donald 1968 A Two-Dimensional Interpolation Function for Irregularly Spaced Data. Proceedings of the 1968 23rd ACM National Conference, pp. 517524. ACM, New York.CrossRefGoogle Scholar
Talmi, Amos, and Gilat, Gideon 1977 Method for Smooth Approximation of Data. Journal of Computational Physics 23(2):93123. DOI: DOI:10.1016/0021-9991(77)90115-2.CrossRefGoogle Scholar
Watson, G. Alistair, Amos, Talmi, and Gilat, Gideon 1980 Approximation Theory and Numerical Methods. John Wiley, New York.Google Scholar
Webster, David 2018 The Population of Tikal: Implications for Maya Demography. Paris Monographs in American Archaeology 49. Archaeopress Access Archaeology, Paris.Google Scholar
Webster, David, and Murtha, Timothy 2015 Fractious Farmers at Tikal. In Tikal: Paleoecology of an Ancient Maya City, edited by Lentz, David L., Dunning, Nicholas P., and Scarborough, Vernon L., pp. 212237. Cambridge University Press, New York.CrossRefGoogle Scholar
Wittfogel, Karl A. 1957 Oriental Despotism: A Comparative Study of Total Power. Yale University Press, New Haven, Connecticut.Google Scholar
Wright, Kenneth R. 2006 The Water Mysteries of Mesa Verde. Big Earth Publishing, Boulder, Colorado.Google Scholar
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