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Understanding Ancient Maya Agricultural Terrace Systems through Lidar and Hydrological Mapping

Published online by Cambridge University Press:  16 January 2017

Scott Macrae  and
Gyles Iannone
Scott Macrae
Affiliation:
Department of Anthropology, University of Florida, Turlington Hall, PO Box 117305, Gainesville, FL 32611-7305smacrae@ufl.edu
Gyles Iannone
Affiliation:
Department of Anthropology, Trent University, West Bank Drive, Peterborough, ON K9L-0G2
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Abstract

Lidar has been revolutionary to the understanding of ancient Maya anthropogenic landscapes. This is no more apparent than in western Belize, where the scale and resolution of these images have identified vast networks of agricultural terrace systems, revealing their true extent and density. This paper moves beyond the initial identification of terrace distribution to use lidar imagery in combination with digital elevation models (DEM) and hydrological mapping programs (Arc Hydro) to explore the drainage catchments associated with agricultural terraces at the ancient Maya site Waybil, a minor center within the Minanha polity in the North Vaca Plateau. We specifically address how the builders of these relic agricultural features worked with the natural topography to manipulate and create more effective catchments and drainage routes. Results from hydrological modeling describe how terraces created smaller drainage catchments by increasing lower levels of flow accumulation and redirecting routes laterally across the topography. Over a decade of research within this sub-region provides the necessary survey, excavations, and chronological datasets to accurately assess the efficacy of the combined methods for relic terrace drainage analysis.

Lidar ha sido revolucionario para la comprensión de los paisajes antropogénicos de la Antigua Maya. Esto ha sido evidente en el oeste de Belice, donde la escala y la resolución de estas imágenes han identificado enormes redes de sistemas de terrazas agrícolas, revelando su verdadero alcance y densidad. Este estudio va más allá de la identificación inicial de la distribución de terrazas utilizando imágenes lidar en combinación con los modelos digitales de elevación (DEM) y programas de mapas hidrológicos (Arco Hydro) para explorar las cuencas de drenaje asociadas con terrazas agrícolas en el antiguo sitio maya Waybil, un centro menor dentro del sistema Minaha en la Meseta Vaca Norte. Específicamente explicamos cómo los constructores de estas reliquias agrícolas trabajaron con la topografía natural para manipular y crear más eficaces, rutas de captación y el drenaje. Resultados de modelación hidrológica describen cómo terrazas crearon pequeñas cuencas de drenaje por aumento de niveles de acumulación de flujo y redirigir rutas lateralmente a través de la topografía. Más de una década de investigación dentro de esta sub-región nos provee los estudios, las excavaciones y los conjuntos de datos cronológicos para evaluar con precisión la eficacia de esta combinación de métodos al analizar el drenaje de terrazas de reliquia.

Type
Research Article
Information
Advances in Archaeological Practice , Volume 4 , Issue 3: Special Issue: Progression and Issues in the Mesoamerican Geospatial Revolution , August 2016 , pp. 371 - 392
Copyright
Copyright © Society for American Archaeology 2016

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References

References Cited

Ackermann, Friedrich 1996 Airborne Laser Scanning for Elevation Models. GIM, Geomatics Info Magazine 10(10):2425 Google Scholar
Arun Pattathal, Vijayakumar 2013 A Comparative Approach to Different DEM Interpolation Methods. The Egyptian Journal of Remote Sensing and Space Science 16:133139.CrossRefGoogle Scholar
Ashmore, Wendy, Connell, Samuel V., Ehret, Jennifer J., Gifford, Chad H., Neff, L. Theodore, and Vandenbosh, Jon C. 1994 The Xunantunich Settlement Survey. In Xunantunich Archaeological Project: 1994 Field Season, edited by Leventhal, Richard M. and Ashmore, Wendy, pp. 248290. Report submitted to the Institute of Archaeology, Belmopan, Belize.Google Scholar
Axelsson, Peter 1999 Processing of Laser Scanner Data: Algorithms and Applications. Journal of Photogrammetry & Remote Sensing 54:138147.Google Scholar
Band, Lawrence E. 1986 Topographic Partition of Watersheds with Digital Elevation Models. Water Resources Research 22(1):1524.CrossRefGoogle Scholar
Barnhart, Edwin Lawrence 2001 The Palenque Mapping Project: Settlement and Urbanism at the Ancient Maya City. Unpublished Ph.D. Dissertation, Department of Anthropology, University of Texas, Austin.Google Scholar
Beach, Timothy 1998a Soil Constraints on Northwest Yucatan, Mexico: Pedoarchaeology and Maya Subsistence at Chunchucmil. Geoarchaeology 13(8):759791.Google Scholar
Beach, Timothy 1998b Soil Catenas, Tropical Deforestation, and Ancient and Contemporary Soil Erosion in the Petén, Guatemala. Physical Geography 19(5):378405.Google Scholar
Beach, Timothy, and Dunning, Nicholas P. 1995 Ancient Maya Terracing and Modern Conservation in the Peten Rain Forest of Guatemala. Journal of Soil and Water Conservation 50(2):138145.Google Scholar
Beach, Timothy, Dunning, Nicholas P., Luzzadder-Beach, Sheryl, Cook, Duncan, and Lohse, Jon C. 2006 Impacts of the Ancient Maya on Soils and Soil Erosion in the Central Maya Lowlands. Catena 65(2):166178.Google Scholar
Beach, Timothy, Luzzadder-Beach, Sheryl, Dunning, Nicholas P., and Cook, Duncan 2008 Human and Natural Impacts on Fluvial and Karst Depressions of the Maya Lowlands. Geomorphology 101(1–2):308331.CrossRefGoogle Scholar
Beach, Timothy, Luzzadder-Beach, Sheryl, Dunning, Nicholas P., Hageman, Jon, and Lohse, Jon C. 2002 Upland Agriculture in the Maya Lowlands: Ancient Maya Soil Conservation in Northwestern Belize. Geographical Review 92(3):372397.CrossRefGoogle Scholar
Beach, Timothy, Luzzadder-Beach, Sheryl, Dunning, Nicholas P., Jones, John, Lohse, Jon, Guderjan, Thomas, Bozarth, Steve, Millspaugh, Sarah, and Bhattacharya, Tripti 2009 A Review of Human and Natural Changes in Maya Lowland Wetlands over the Holocene. Quaternary Science Reviews 28(17):17101724.Google Scholar
Berking, Jonas, Beckers, Brian, and Schutt, Brigitta 2010 Runoff in Two Semi-Arid Watersheds in a Geoarchaeology Context: A Case Study of Naga, Sudan, and Resafa, Syria. Geoarchaeology: An International Journal 25(6):815836.Google Scholar
Bolton, Andreas, Bubenzer, Olaf, and Darius, Frank 2006 A Digital Elevation Models a Base for the Reconstruction of Holocene Land-Use Potential in Arid Regions Geoarchaeology: An International Journal 21(7):751762 Google Scholar
Brady, Nyle C., and Weil, Ray R. 2007 The Nature and Properties of Soils, 14th ed. Prentice Hall, New Jersey.Google Scholar
Brook, George A., and Akers, Pete 2010 Report on Stalagmite Work Completed in 2010. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Twelfth (2010) Field Season, edited by Iannone, Gyles, Awe, Jaime J., St-Hilaire, Maxime Lamoureux, and Longstaffe, Matthew, pp. 186190. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Brooks, Sarah Osgood 1998 Prehistoric Agricultural Terraces in the Rio Japo Basin, Colca Valley, Peru. Unpublished Ph.D. dissertation, Department of Geography, University of Wisconsin-Madison, Madison.Google Scholar
Chase, Arlen F., and Chase, Diane Z. 1998 Scale and Intensity in Classic Period Maya Agriculture: Terracing and Settlement at the “Garden City” of Caracol, Belize. Culture & Agriculture 20(2–3):6077.Google Scholar
Chase, Arlen F., Chase, Diane Z., Awe, Jaime J., Weishampel, John F., Iannone, Gyles, Moyes, Holley, Yaeger, Jason, and Brown, Kathryn 2014 The Use of LiDAR in Understanding the Ancient Maya Landscape. Advances in Archaeological Practice 2(3):208221.CrossRefGoogle Scholar
Chase, Arlen F., Chase, Diane Z., Awe, Jaime J., Weishampel, John F., Iannone, Gyles, Moyes, Holley, Yaeger, Jason, Brown, Kathryn, Shrestha, Ramesh L., Carter, William E., and Fernandez-Diaz, Juan 2014 Ancient Maya Regional Settlement and Inter-Site Analysis: The 2013 West-Central Belize LiDAR Survey. Remote Sensing 6:86718695.CrossRefGoogle Scholar
Chase, Arlen F., Chase, Diane Z., Fisher, Christopher T., Leisz, Stephen J., and Weishampel, John F. 2012 Geospatial Revolution and Remote Sensing LiDAR in Mesoamerican Archaeology. Proceedings of the National Academy of Sciences 109(32):1291612921.CrossRefGoogle ScholarPubMed
Chase, Arlen F., Chase, Diane Z., Weishampel, John F., Drake, Jason B., Shrestha, Ramesh L., Slatton, K. Clint, Awe, Jamie J., Carter, William E. 2011 Airborne LiDAR, Archaeology, and the Ancient Maya Landscape at Caracol, Belize. Journal of Archaeological Science 38:387398.CrossRefGoogle Scholar
Childs, Colin 2004 Interpolating Surfaces in ArcGIS Spatial Analyst. ArcUser 3235.Google Scholar
Conolly, James, and Lake, Mark 2006 Geographical Information Systems in Archaeology. Cambridge University Press, Cambridge, United Kingdom.Google Scholar
Demarte, Pete, and Alfano, Aaron 2013 Results of the 2013 Waybil Reconnaissance and Survey Study. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Fifteenth (2013) Field Season, edited by Iannone, Gyles, Schwake, Sonja A., and Hills, Kendall B., pp. 4755. Social Archaeological Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Demarte, Pete, Schwake, Sonja A., Hills, Kendall B., Clarke, Megan, Duignan, Sarah, Kawell, Steven L., Schlegl, Emma, and Iannone, Gyles 2013 Ancient Lowland Maya Middle-Level Settlement Investigations: Results of the 2013 Settlement Excavations at the site of Waybil. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Fifteenth (2013) Field Season, edited by Iannone, Gyles, Awe, Jaime J., Schwake, Sonja A., and Hills, Kendall B., pp. 56108. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Denevan, William M. 2001 Cultivated Landscapes of Native Amazonia and the Andes. Oxford University Press, New York, New York.Google Scholar
Deursen, Winfried P. A. 1995 Geographical Information Systems and Dynamic Models: Development and Application of a Prototype Spatial Modelling Language. Unpublished Ph.D. dissertation, Faculty of Spatial Sciences, Utrecht University, Rotterdam, Netherlands.Google Scholar
Doneus, Michael, Briese, Christian, Fera, Martin, and Janner, Martin 2008 Archaeological Prospection of Forested Areas using Full-Waveform Airborne Laser Scanning. Journal of Archaeological Science 35:882893.Google Scholar
Donkin, Robin. A. 1979 Agricultural Terracing in the Aboriginal New World. University of Arizona Press, Tucson.Google Scholar
Dorshow, Wetherbee Bryan 2012 Modeling Agricultural Potential in Chaco Canyon during the Bonito Phase: A Predictive Geospatial Approach. Journal of Archaeological Science 39:20982115.CrossRefGoogle Scholar
Dunning, Nicholas P., and Beach, Timothy 1994 Soil Erosion, Slope Management, and Ancient Terracing in the Maya Lowlands. Latin American Antiquity 5(1):5169.Google Scholar
ESRI 2014 ArcGIS Desktop: Release 10.2 [Computer Software]. Environmental Systems Research Institute, Redlands, California.Google Scholar
Fedick, Scott L. 1994 Ancient Maya Agricultural Terracing in the Upper Belize River Area: Computer Aided Modeling and the Results of Initial Field Investigations. Ancient Mesoamerica 5(1):107127.Google Scholar
Fernandez, Fabián G., Johnson, Kristofer D., Terry, Richard E., Nelson, Sheldon, and Webster, David 2005 Soil Resources of the Ancient Maya at Piedras Negras, Guatemala. Soil Science Society of America Journal 69(6):20202032.Google Scholar
Fernandez-Diaz, Juan Carlos, Carter, William E., Shrestha, Ramesh L., and Glennie, Craig L. 2014 Now You See It … Now You Don’t: Understanding Airborne Mapping LiDAR Collection and Data Product Generation for Archaeological Research in Mesoamerica. Remote Sensing 6:995110001.CrossRefGoogle Scholar
Field, Chris 1966 A Reconnaissance of Southern Andean Agricultural Terracing. Unpublished Ph.D. dissertation, Department of Geography, University of California, Los Angeles.Google Scholar
Fischbeck, Shelly L. 2001 Agricultural Terrace Productivity in the Maya Lowlands of Belize. University of Wisconsin-La Crosse: Journal of Undergraduate Research 3:105112.Google Scholar
Floater, Michael S., and Iske, Armin 1996 Multistep Scattered Data Interpolation Using Compactly Supported Radial Basis Functions. Journal of Computational and Applied Mathematics 73(1–2):6578.CrossRefGoogle Scholar
Foias, Antonia E., and Emery, Kitty F. (editors) 2012 Motul de San Jose: Politics, History, and Economy in a Classic Maya Polity. University of Florida Press, Gainesville.CrossRefGoogle Scholar
Franke, Richard 1982 Smooth Interpolation of Scattered Data by Local Thin Plate Splines. Computer & Mathematics with Applications 8(4):273281.Google Scholar
Frederick, Charles D., and Krahtopoulou, Athanasia 2000 Deconstructing Agricultural Terraces: Examining the Influence of Construction Method on Stratigraphy, Dating and Archaeological Visibility. In Landscape and Land Use in Postglacial Greece, edited by Halstead, Paul and Frederick, Charles, pp. 7994. Sheffield Academic Press, Sheffield, United Kingdom.Google Scholar
Gillings, Mark 1995 Flood Dynamics and Settlement in the Tisza Valley of North-East Hungary: GIS and the Upper Tisza Project. In Archaeology and Geographic Information Systems: A European Perspective, edited by Lock, Gary and Stancic, Zoran, pp. 6784. Taylor & Francis, Bristol, Pennsylvania.Google Scholar
Greenlee, David D. 1987 Raster and Vector Processing for Scanned Linework. Photogrammetric Engineering and Remote Sensing 53:13831387.Google Scholar
Hansen, Richard D., Bozarth, Steven, Jacob, John, Wahl, David, and Schreiner, Thomas 2002 Climatic and Environmental Variability in the Rise of Maya Civilization: A Preliminary Perspective from Northern Peten. Ancient Mesoamerica 13(2):273295.CrossRefGoogle Scholar
Harrower, Michael J. 2010 Geographic Information Systems (GIS) Hydrological Modeling in Archaeology: An Example from the Origins of Irrigation in Southwest Arabia (Yemen). Journal of Archaeological Science, 37:14471452.Google Scholar
Harrower, Michael J., Oches, Eric A., and McCorriston, Joy 2012 Hydro-Geospatial Analysis of Ancient Pastoral/Agro-Pastoral Landscapes along Wadi Sana (Yemen). Journal of Arid Environments, 86:131138.CrossRefGoogle Scholar
Healy, Paul F., Lambert, John D. H., Arnason, John T., and Hebda, Richard J. 1983 Caracol, Belize: Evidence of Ancient Maya Agricultural Terraces. Journal of Field Archaeology 10(4):397410.Google Scholar
Hightower, Jessica N., Butterfield, A. Christina, and Weishampel, John F. 2014 Quantifying Ancient Maya Land Use Legacy Effects on Contemporary Rainforest Canopy Structure. Remote Sensing 6:1071610732.Google Scholar
Hills, Kendall B., Clarke, Megan, and Iannone, Gyles 2013 From East Side to West Side: Results from the 2013 Excavations in Group B of the Royal Acropolis. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Fifteenth (2013) Field Season, edited by Iannone, Gyles, Awe, Jaime J., Schwake, Sonja A., and Hills, Kendall B., pp. 2746. Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Hudson, Norman 1992 Land Husbandry. Cornell University Press, Ithaca, New York.Google Scholar
Iannone, Gyles (editor) 2014 The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability. University Press of Colorado, Boulder, Colorado.Google Scholar
Iannone, Gyles 2008 Archaeological Research at Minanha: Summary of the 2008 Investigations. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Tenth (2008) Field Season, edited by Iannone, Gyles and Macrae, Scott, pp. 113, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Iannone, Gyles 2006 Archaeological Research at Minanha: Summary of the 2006 Investigations. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Eighth (2006) Field Season, edited by Iannone, Gyles, Seibert, Jeffery, Seguin, Jason, and McRae, Laura, pp. 111. Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Iannone, Gyles, and Schwake, Sonja A. 2013 Alternative Approaches to Socio-Ecological Crisis: Perspectives from Belize's North Vaca Plateau. Research Reports in Belizean Archaeology 10:311.Google Scholar
Iannone, Gyles, Macrae, Scott, St-Hilaire, Maxime Lamoureux, Snetsinger, Andrew, Moddie, Morgan, Berry, Jack, Cheong, Kong, Demarte, Pete, and Reader, Phillip P. 2011 Minor Center Investigations in the Eastern Maya Lowlands: The 2011 Excavations at Waybil. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Thirteenth (2011) Field Season, edited by Iannone, Gyles, Schwake, Sonja A., Awe, Jaime J., and Reader, Phillip P., pp. 2567. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Iannone, Gyles, McCormick, Carmen, and Conolly, James 2008 Community Archaeology at Minanha: Some Preliminary Insights from the Phase II Settlement Study. Research Reports in Belizean Archaeology 5:149158.Google Scholar
Jenson, Susan K. 1985 Automated Derivation of Hydrologic Basin Characteristics from Digital Elevation Model Data. Proceedings of Auto-Carto VII 7:301310. Washington, D.C.Google Scholar
Jenson, Susan K., and Domingue, Julia O. 1988 Extracting Topographic Structure from Digital Elevation Data for Geographic Information System Analysis. Photogrammetric Engineering and Remote Sensing 54(11):15931600.Google Scholar
Johnson, Kristofer D., Terry, Richard E., Jackson, Mark W., and Golden, Charles 2007 Ancient Soil Resources of the Usumacinta River Region, Guatemala. Journal of Archaeological Science 34:11171129.Google Scholar
Jones, Krista L., Poole, Geoffrey C., O’Daniel, Scott J., Mertes, Leal A. K., and Stanford, Jack A. 2008 Surface Hydrology of Low-Relief Landscapes: Assessing Surface Water Flow Impedance using LIDAR-Derived Digital Elevation Models. Remote Sensing of Environment 112(11):41484158.CrossRefGoogle Scholar
Joseph, Vengazhiyil R., and Kang, Lulu 2011 Regression-Based Inverse Distance Weighting with Applications to Computer Experiments. Technometrics 53(3):254265.Google Scholar
Kunen, Julie L. 2001 Ancient Maya Agricultural Installations and the Development of Intensive Agriculture in NW Belize. Journal of Field Archaeology 28(3–4):325346.Google Scholar
Kurashima, Natalie, and Kirch, Patrick V. 2012 Geospatial Modeling of Pre-Contact Hawaiian Production Systems on Molokai Island, Hawaiian Islands. Journal of Archaeological Science 38:36623674.Google Scholar
Lentz, David L., Dunning, Nicholas P., and Scarborough, Vernon L. (editors) 2015 Tikal: Paleoecology of an Ancient Maya City. Cambridge University Press, New York.Google Scholar
Liendo Rodrigo Ruben Gregorio, Stuardo 1999 The Organization of Agricultural Production at a Classic Maya Center Settlement Patterns in the Palenque Region, Chiapas, Mexico. Unpublished Ph.D. dissertation Department of Anthropology, University of Pittsburgh, Pennsylvania.Google Scholar
Liendo Rodrigo Ruben Gregorio, Stuardo, Solleiro-Rebolledo, Elizabeth, Solis-Castillo, Berenice, Sedov, Sergei, and Ortiz-Perez, Arturo 2014 Population Dynamics and Its Relation to Ancient Landscapes in the Northwestern Maya Lowlands: Evaluating Resilience and Vulnerability. Archaeological Papers of the American Anthropological Association 24:84–100.Google Scholar
Liu, Xiaoye 2008 Airborne LiDAR for DEM Generation: Some Critical Issues. Progress in Physical Geography 32(1):3149.Google Scholar
Luzzadder-Beach, Sheryl, Beach, Timothy P., and Dunning, Nicholas P. 2012 Wetland Fields as Mirrors of Drought and the Maya Abandonment. Proceedings of the National Academy of Sciences 109(10):36463651.Google Scholar
Macrae, Scott 2016 Exploring the Agricultural Strategy at the Minor Center of Waybil, Belize. Unpublished Ph.D. dissertation, Department of Anthropology, University of Florida, Gainesville.Google Scholar
Macrae, Scott 2013 Waybil Agricultural Terrace Excavations. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Fifteenth (2013) Field Season, edited by Iannone, Gyles, Awe, Jaime J., Schwake, Sonja A., and Hills, Kendall B., pp. 109126. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Macrae, Scott, and Demarte, Pete 2012 The 2012 Waybil Settlement and Agricultural Terrace Study. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Fourteenth (2012) Field Season, edited by Iannone, Gyles, Schwake, Sonja A., and Awe, Jaime J., pp. 8597. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Maidment, David R. 2002 Arc Hydro: GIS for Water Resources. No. 1. ESRI Press, Redlands, California.Google Scholar
Maidment, David R., Morehouse, Scott, and Grise, Steve 2002 Arc Hydro Framework. In Arc Hydro: GIS for Water Resources, edited by Maidment, David R., pp. 1332. No. 1. ESRI Press, Redlands, California.Google Scholar
Marks, Danny G., Dozier, Jeff, and Frew, James 1984 Automated Basin Delineation from Digital Elevation Data. Geo-processing 2(3):299311.Google Scholar
Moody, Jennifer, and Grove, Arthur T. 1990 Terraces and Enclosure Walls in the Cretan Landscape. In Man's Role in the Shaping of the Eastern Mediterranean Landscape, edited by Bottema, S., Entjes-Nieborg, G., and Van Zeist, W., pp. 183194. A. A. Balkema Publishers, Rotterdam, Netherlands.Google Scholar
Morgan, Roy P. C. 1995 Soil Erosion and Conservation. 2nd ed. Longman Group Limited, Essex, United Kingdom.Google Scholar
Morris, David G., and Heerdegen, Richard G. 1988 Automatically Derived Catchment Boundaries and Channel Networks and Their Hydrological Applications. Geomorphology 1(2):131141.Google Scholar
Neff, L. Theodore 2008 A Study of Agricultural Intensification: Ancient Maya Agricultural Terracing in the Xunantunich Hinterland, Belize, Central America. Unpublished Ph.D. dissertation, Department of Anthropology, University of Pennsylvania. Philadelphia, Pennsylvania.Google Scholar
O’Callaghan, John F., and Mark, David M. 1984 The Extraction of Drainage Networks from Digital Elevation Data. Computer Vision, Graphics, and Image Processing 28(3):323344.Google Scholar
Olivera, Francisco, Furnans, Jordan, Maidment, David R., Djokic, Dean, and Ye, Zichuan 2002 Drainage System. In Arc Hydro: GIS for Water Resources, edited by Maidment, David R., pp. 5586. No. 1. ESRI Press, Redlands, California.Google Scholar
Polat, Nizar, Uysal, Murat, and Toprak, Ahmet Suad 2015 An Investigation of DEM Generation Process based on LiDAR Data Filtering, Decimation, and Interpolation Methods for an Urban Area. Measurement 75:5056.Google Scholar
Polk, Jason 2010 Paleoenviromental Research at Minanha, Vaca Plateau, Belize: Summary of the 2010 Investigations. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Twelfth (2010) Field Season, edited by Iannone, Gyles, Awe, Jaime J., St-Hilaire, Maxime Lamoureux, and Longstaffe, Matthew, pp. 191197. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Polk, Jason, Van Beynen, Philip, and Reeder, Philip 2007 Late Holocene Environmental Reconstruction Using Cave Sediments from Belize. Quaternary Research 68(1):5363.Google Scholar
Pollock, Adam J. 2007 Investigating the Socio-Economic and Socio-Political Organization of Intensive Agricultural Production at the Ancient Maya Community of Minanha, Belize. Unpublished Master's thesis, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Rackham, Oliver, and Moody, Jennifer 1996 The Making of the Cretan Landscape. Manchester University Press, Manchester, United Kingdom.Google Scholar
Reeder, Philip 2010 Background Information from “Phase One” of Geoarchaeological, Paleoclimate, and Paleoenvironment Research on the Vaca Plateau in the Vicinity of the Ix Chel Archaeological Site. In Archaeological Investigations in the North Vaca Plateau, Belize: Progress Report of the Twelfth (2010) Field Season, edited by Iannone, Gyles, Awe, Jaime J., St-Hilaire, Maxime Lamoureux, and Longstaffe, Matthew, pp. 176185. Social Archaeology Research Program, Trent University, Peterborough, Ontario.Google Scholar
Robin, Cynthia 2015 Of Earth and Stone: The Materiality of Maya Farmers’ Everyday Lives at Chan, Belize Archaeological Papers of the American Anthropological Association 26(4):4052.Google Scholar
Ruane, Jonathan Donald 2015 Hydrology and Classic Maya Urban Planning: A Geospatial Analysis of Settlement and Water Management at Xultun, Guatemala. Unpublished Ph.D. dissertation, Department of Anthropology, Harvard University, Cambridge, Massachusetts.Google Scholar
Schwake, Sonja A., Hills, Kendall B., Iannone, Gyles, Clarke, Megan, Duignan, Sarah, Kawell, Spencer, Lebrun, Steve, and Schlegl, Emma 2013 Investigations in the Waybil Epicenter: Results from the 2013 Excavations in Group A. In Archaeological Investigations in the North Vaca Plateeau, Belize: Progress Report of the Fifteenth (2013) Field Season, edited by Iannone, Gyles, Awe, Jaime J., Schwake, Sonja A., and Hills, Kendall B., pp. 127144. Social Archaeology Research Program, Department of Anthropology, Trent University, Peterborough, Ontario.Google Scholar
Shamsi, Uzair 2008 Arc Hydro: A Framework for Integrating GIS and Hydrology. Journal of Water Management Modeling: 165181.Google Scholar
Shepard, Donald 1968 A Two-Dimensional Interpolation Function for Irregularly-Spaced Data. Proceedings of the 1968 23rd ACM National Conference: 517524.Google Scholar
Soper, Robert 2002 Nyanga: Ancient Fields, Settlements and Agricultural History in Zimbabwe. Memoirs No. 16. British Institute in Eastern Africa, The British Institute in Eastern Africa, London, United Kingdom.Google Scholar
Soper, Robert 2006 The Terrace Builders of Nyanga. Weaver Press, Avondale, Harare.Google Scholar
Spencer, Joseph E., and Hale, Gary A. 1961 The Origin, Nature, and Distribution of Agricultural Terracing. Pacific Viewpoint 2(1):140.Google Scholar
Strahler, Arthur N. 1964 Quantitative Geomorphology of Drainage Basins and Channel Networks. In Handbook of Applied Hydrology, edited by Chow, Ven Te, section 4, pp. 3976. McGraw Hill Book Company, New York.Google Scholar
Strassberg, Gill, Jones, Norman L., and Maidment, David R. 2011 Arc Hydro Groundwater: GIS for Hydrogeology. ESRI Press, New York.Google Scholar
Tarboton, David G., Bras, Rafael L., and Rodriguez-Iturbe, Ignacio 1991 On the Extraction of Channel Networks from Digital Elevation Data. Hydrological Processes 5(1):81100.Google Scholar
Terrasolid 2014 TerraScan [Computer Software]. Terrasolid Ltd., Helsinki, Finland.Google Scholar
Thompson, John E. S. 1939 Excavations at San Jose, British Honduras. Carnegie Institution of Washington, Washington, D.C. Google Scholar
Treacy, John M. 1989 The Fields of Coporaque: Agricultural Terracing and Water Management in the Colca Valley, Arequipa, Peru. Unpublished Ph.D. dissertation, Department of Geography, University of Wisconsin-Madison, Madison, Wisconsin.Google Scholar
Treacy, John M., and Denevan, William M. 1994 The Creation of Cultivable Land through Terracing. In The Archaeology of Garden and Field, edited by Miller, N. F. and Gleason, K. L., pp. 91110. University of Pennsylvania Press, Philadelphia.Google Scholar
Turner, Billie L. II 1974 Prehistoric Intensive Agriculture in the Mayan lowlands. Science 185:118124.Google Scholar
Turner, Billie L. II 1983 Once Beneath the Forest: Prehistoric Terracing in the Rio Bec Region of the Maya Lowlands. Westview Press, Boulder, Colorado.Google Scholar
Uysal, Cihan, Akar, Irfan, Ince, Gizem, Maktav, Derya, and Crow, James 2010 Determination and Comparison of Hydrological Properties of Basins from Topographic Maps, DTM and SRTM DEM: A Case Study of Part of the Roman Water Supply System (Thrace, Turkey). Paper presented at the 30th EARSel Symposium of Remote Sensing for Science, Education, and Natural and Cultural Heritage, Paris.Google Scholar
Wang, Lei, and Liu, Hongxing 2006 An Efficient Method for Identifying and Filling Surface Depressions in Digital Elevation Models for Hydrologic Analysis and Modelling. International Journal of Geographical Information Science 20(2):193213.Google Scholar
Weaver, Eric, Carr, Christopher, Dunning, Nicholas P., Florea, Lee, and Scarborough, Vernon L. 2015 Examining Landscape Modifications for Water Management at Tikal Using Three-Dimensional Modeling with ArcGIS. In Tikal: Paleoecology of an Ancient Maya City edited by Lentz, David L., Dunning, Nicholas P., and Scarborough, Vernon L., pp. 8794 Cambridge University Press, New York.Google Scholar
Webster, James W. 2000 Speleothem Evidence of Late Holocene Climate Variation in the Maya lowlands of Belize Central American and Archaeological Implications. Unpublished Ph.D. dissertation, Department of Geography, University of Georgia. Athens.Google Scholar
Wehr, Aloysius, and Lohr, Uwe 1999 Airborne Laser Scanning: An Introduction and Overview. Journal of Photogrammetry & Remote Sensing 54:6882.Google Scholar
Wienhold, Michelle L. 2013 Prehistoric Land Use and Hydrology: A Multi-Scalar Spatial Analysis in Central Arizona. Journal of Archaeological Science, 40:850859 Google Scholar
Wyatt, Andrew R. 2008 Gardens on Hills: Ancient Maya Terracing and Agricultural Production at Chan, Belize. Unpublished Ph.D. dissertation, Department of Anthropology, University of Illinois at Chicago, Illinois.Google Scholar