Abstract
How will archaeology contribute to agricultural sustainability? To address that question, this overview reflects on the diverse and complementary ways that archaeology has advanced our understanding of sustainable agriculture. Here, I assess recent archaeological research through the lens of the five principles of sustainable agriculture used by the Food and Agriculture Organization of the United Nations. These principles—efficiency, conservation, rural livelihoods, resilience, and governance—highlight the social and environmental dimensions of agricultural sustainability. By drawing on case studies from around the world, I show how archaeology is uniquely situated to examine the interactions of these social and environmental dimensions over long periods of time. Archaeology’s strongest conceptual contributions to sustainable agriculture are (1) its capacity to demonstrate that sustainability is historically contingent and (2) its attention to outcomes. If transformed into meaningful action, these contributions have the potential to advance modern agricultural sustainability and environmental justice initiatives. This overview is an invitation to clarify a plan for future research and outreach. It is an invitation to imagine what an archaeology for sustainable agriculture will look like and what it will accomplish.
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References Cited
Abbey, E. (1968). Desert Solitaire: A Season in the Wilderness, McGraw Hill, New York.
Abbott, D. R. (ed.) (2003). Centuries of Decline during the Hohokam Classic Period at Pueblo Grande, University of Arizona Press, Tucson.
Acabado, S. (2009). A Bayesian approach to dating agricultural terraces: A case from the Philippines. Antiquity83: 801–814.
Adams, R. M., Downing, T. E., and Gibson, M. (1974). Irrigation’s Impact on Society, University of Arizona Press, Tucson.
Aimers, J. J. (2007). What Maya collapse? Terminal Classic variation in the Maya Lowlands. Journal of Archaeological Research15: 329–377.
Alexander, R. T., and Hernández Álvarez, H. (2018). Agropastoralism and household ecology in Yucatán after the Spanish invasion. Environmental Archaeology23: 69–79.
Allison, P. M. (1999). The Archaeology of Household Activities, Routledge, New York.
Altaweel, M. (2008). Investigating agricultural sustainability and strategies in northern Mesopotamia: Results produced using a socio-ecological modeling approach. Journal of Archaeological Science35: 821–835.
Altaweel, M., and Watanabe, C. E. (2012). Assessing the resilience of irrigation agriculture: Applying a social–ecological model for understanding the mitigation of salinization. Journal of Archaeological Science39: 1160–1171.
Altieri, M. A. (1995). Agroecology: The Science of Sustainable Agriculture, Westview Press, Boulder, CO.
Anderies, J. M., and Hegmon, M. (2011). Robustness and resilience across scales: Migration and resource degradation in the prehistoric US Southwest. Ecology and Society16: 22–43.
Arge, S. V., Sveinbjarnardóttir, G., Edwards, K. J., and Buckland, P. C. (2005). Viking and medieval settlement in the Faroes: People, place and environment. Human Ecology33: 597–620.
Armillas, P. (1971). Gardens on swamps. Science174: 653–661.
Arnauld, M. C. (2008). Maya urbanization: Agrarian cities in a preindustrial world. In Mastache, A. G., Cobean, R. H., García Cook, Á, and Hirth, K. G. (eds.), Urbanism in Mesoamerica, Pennsylvania State University, University Park, pp. 1–36.
Arneborg, J. (2008). The Norse settlements in Greenland. In Brink, S., and Price, N. (eds.), The Viking World, Routledge, New York, pp. 588–597.
Arneborg, J. (2012). Churches, Christianity, and magnate farmers in the Norse eastern settlement. In Gullov, H. C., Toft, P. A., and Hansgaard, C. P. (eds.), Challenges and Solutions: Northern Worlds, National Museum of Denmark, Copenhagen, pp. 167–170.
Arneborg, J., Heinemeier, J., and Lynnerup, N. (2012). Greenland Isotope Project: Diet in Norse Greenland AD 1000–AD 1450, Journal of the North Atlantic, Steuben.
Ashmore, W. (2018). Why the archaeology of political ecology matters. In Millhauser, J. K., Morehart, C. T., and Juarez, S. (eds.), Uneven Terrain: Archaeologies of Political Ecology, Archeological Papers No. 29, American Anthropological Association, Washington, DC, pp. 175–184.
Ashmore, W., and Knapp, A. B. (1999). Archaeologies of Landscape: Contemporary Perspectives, Blackwell, Malden.
Atalay, S. (2012). Community-Based Archaeology: Research With, By, and For Indigenous and Local Communities, University of California Press, Berkeley.
Balée, W. (ed.) (1998). Advances in Historical Ecology, Columbia University Press, New York.
Balée, W. (2006). The research program of historical ecology. Annual Review in Anthropology35: 75–98.
Bandy, M. S. (2005). Energetic efficiency and political expediency in Titicaca Basin raised field agriculture. Journal of Anthropological Archaeology24: 271–296.
Barthel, S., and Isendahl, C. (2013). Urban gardens, agriculture, and water management: Sources of resilience for long-term food security in cities. Ecological Economics86: 224–234.
Bayliss-Smith, T. P., and Hviding, E. (2015). Landesque capital as an alternative to food storage in Melanesia: Irrigated taro terraces in New Georgia, Solomon Islands. Environmental Archaeology20: 425–436.
Beach, T. (1998). Soil constraints on northwest Yucatán, Mexico: Pedoarchaeology and Maya subsistence at Chunchucmil. Geoarchaeology13: 759–791.
Beach, T., Luzzadder-Beach, S., Cook, D., Krause, S., Doyle, C., Eshleman, S., et al. (2018). Stability and instability on Maya Lowlands tropical hillslope soils. Geomorphology305: 185–208.
Beach, T., Luzzadder-Beach, S., Dunning, N., Jones, J., Lohse, J., Guderjan, T., et al. (2009). A review of human and natural changes in Maya lowland wetlands over the Holocene. Quaternary Science Reviews28: 1710–1724.
Beck, J., Díaz-Zorita Bonilla, M., Bocherens, H., and Díaz-del-Río, P. (2018). Feeding a third millennium BC mega-site: Bioarchaeological analyses of palaeodiet and dental disease at Marroquíes (Jaén, Spain). Journal of Anthropological Archaeology52: 23–43.
Bender, B. (1978). Gatherer‐hunter to farmer: A social perspective. World Archaeology10: 204–222.
Benson, L. V. (2010). Factors controlling pre-Columbian and early historic maize productivity in the American Southwest, part 2: The Chaco Halo, Mesa Verde, Pajarito Plateau/Bandelier, and Zuni archaeological regions. Journal of Archaeological Method and Theory18: 61–109.
Benson, L. V., Stein, J. R., and Taylor, H. E. (2009). Possible sources of archaeological maize found in Chaco Canyon and Aztec ruins, New Mexico. Journal of Archaeological Science36: 387–407.
Berry, W. (2015). The Unsettling of America: Culture & Agriculture, 3rd ed., Counterpoint, Berkeley.
Biesboer, D. D., Binford, M. W., and Kolata, A. L. (1999). Nitrogen fixation in soils and canals of rehabilitated raised-fields of the Bolivian altiplano. Biotropica31: 255–267.
Binford, M. W., Brenner, M., and Leyden, B. W. (1996). Paleoecology and Tiwanaku agroecosystems. In Kolata, A. L. (ed.), Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Smithsonian Institution Press, Washington, DC, pp. 89–108.
Blackmore, C. (2012). Recognizing difference in small-scale settings: An examination of social identity formation at the Northeast Group, Chan. In Robin, C. (ed.), Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville, pp. 173–191.
Bocinsky, R. K., and Kohler, T. A. (2014). A 2,000-year reconstruction of the rain-fed maize agricultural niche in the US Southwest. Nature Communications5: 5618.
Bogaard, A., Filipovic, D., Fairbairn, A., Laura, G., Stroud, E., Fuller, D., and Charles, M. (2017). Agricultural innovation and resilience in a long-lived early farming community: The 1,500-year sequence at Neolithic to early Chalcolithic Çatalhöyük, central Anatolia. Anatolian Studies67: 1–28.
Boserup, E. (1965). The Conditions of Agricultural Growth: The Economics of Agrarian Change Under Population Pressure, Aldine, Chicago.
Bradtmöller, M., Grimm, S., and Riel-Salvatore, J. (2017). Resilience theory in archaeological practice: An annotated review. Quaternary International446: 3–16.
Braje, T. J. (2015). Earth systems, human agency, and the Anthropocene: Planet Earth in the human age. Journal of Archaeological Research23: 369–396.
Brumfiel, E. (1980). Specialization, market exchange, and the Aztec state: A view from Huexotla. Current Anthropology21: 459–478.
Brumfiel, E. (2005). Conclusions: Production and power at Xaltocan. In Brumfiel, E. (ed.), Production and Power at Postclassic Xaltocan, Instituto Nacional de Antropología e Historia, Mexico, pp. 349–360.
Bruno, M. C. (2014). Beyond raised fields: Exploring farming practices and processes of agricultural change in the ancient Lake Titicaca basin of the Andes. American Anthropologist116: 130–145.
Buckley, B. M., Anchukaitis, K. J., Penny, D., Fletcher, R., Cook, E. R., Sano, M., et al. (2010). Climate as a contributing factor in the demise of Angkor, Cambodia. Proceedings of the National Academy of Sciences USA107: 6748–6752.
Burstein, D. (2012). How biochar will help Kenya go green and save money. Fast Company (https://www.fastcompany.com/1805296/how-biochar-will-help-kenya-go-green-and-save-money).
Bush, M. B., Correa-Metrio, A., McMichael, C. H., Sully, S., Shadik, C. R., Valencia, B. G., et al. (2016). A 6900-year history of landscape modification by humans in lowland Amazonia. Quaternary Science Reviews141: 52–64.
Bush, M. B., McMichael, C. H., Piperno, D. R., Silman, M. R., Barlow, J., Peres C. A., Mitchell, P., and Palace, M. W. (2015). Anthropogenic influence on Amazonian forests in prehistory: An ecological perspective. Journal of Biogeography42: 2277–2288.
Carney, H., Binford, M., and Kolata, A. L. (1996). Nutrient fluxes and retention in Andean raised-field agriculture: Implications for long-term sustainability. In Kolata, A. L. (ed.), Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Smithsonian Institution Press, Washington, DC, pp. 169–180.
Carney, H. J., Binford, M. W., Kolata, A. L., Marin, R. R., and Goldman, C. R. (1993). Nutrient and sediment retention in Andean raised-field agriculture. Nature364: 131–133.
Carson, R. (1962). Silent Spring, Houghton-Mifflin, Boston.
Chase, A. F., and Chase, D. Z. (1998). Scale and intensity in Classic period Maya agriculture: Terracing and settlement at the “garden city” of Caracol, Belize. Culture & Agriculture20: 60–77.
Chase, A. F., and Chase, D. Z. (2016). Urbanism and anthropogenic landscapes. Annual Review of Anthropology45: 361–376.
Chase, A. F., Chase, D. Z., Weishampel, J. F., Drake, J. B., Shrestha, R. L., Slatton, K. C., et al. (2011). Airborne LiDAR, archaeology, and the ancient Maya landscape at Caracol, Belize. Journal of Archaeological Science38: 387–398.
Chase, A. F., and Scarborough, V. L. (2014). Diversity, resilience, and IHOPE-Maya: Using the past to inform the present. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 1–10.
Chase, A. S. Z. (2016). Beyond elite control: Residential reservoirs at Caracol, Belize. Wiley Interdisciplinary Reviews: Water3: 885–897.
Chase, D. Z., and Chase, A. F. (2014). Path dependency in the rise and denouement of a Classic Maya city: The case of Caracol, Belize. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 142–154.
Church, M. J., Arge, S. V., Brewington, S., McGovern, T. H., Woollett, J. M., Perdikaris, S., et al. (2005). Puffins, pigs, cod and barley: Palaeoeconomy at Undir Junkarinsfløtti, Sandoy, Faroe Islands. Environmental Archaeology10: 179–197.
Clutton-Brock, J. (ed.) (1989). The Walking Larder: Patterns of Domestication, Pastoralism, and Predation, Unwin Hyman, London.
Colasanti, K. J. A., Hamm, M. W., and Litjens, C. M. (2012). The city as an “agricultural powerhouse”? Perspectives on expanding urban agriculture from Detroit, Michigan. Urban Geography33: 348–369.
Coningham, R., Gunawardhana, P., Manuel, M., Adikari, G., Katugampola, M., Young, R., et al. (2007). The state of theocracy: Defining an early medieval hinterland in Sri Lanka. Antiquity81: 699–719.
Cooper, J., and Sheets, P. (eds.) (2012). Surviving Sudden Environmental Change: Answers from Archaeology, University Press of Colorado, Boulder.
Crabtree, S. A., and Kohler, T. A. (2012). Modelling across millennia: Interdisciplinary paths to ancient socio-ecological systems. Ecological Modelling241: 2–4.
Crumley, C. L. (1994). Historical Ecology: Cultural Knowledge and Changing Landscapes, School of American Research Press, Santa Fe, NM.
Crumley, C. L. (2015). New paths into the Anthropocene: Applying historical ecologies to the human future. In Isendahl, C., and Stump, D. (eds.), The Oxford Handbook of Historical Ecology and Applied Archaeology, Oxford University Press, Oxford, pp. 1–19.
Culbert, T. P. (1973). The Classic Maya Collapse, University of New Mexico Press, Albuquerque.
Curwen, E. C. (1927). Prehistoric agriculture in Britain. Antiquity1: 261–289.
d’Alpoim Guedes, J., Crabtree, S. A., Bocinsky, R. K. and Kohler, T. A. (2016). 21st century approaches to ancient problems: Climate and society. Proceedings of the National Academy of Sciences USA113: 14483–14491.
Darch, J. (ed.) (1983). Drained Field Agriculture in Central and South America, BAR International Series 189, Archaeopress, Oxford.
Davies, M. I. J. (2012). Some thoughts on a “useable” African archaeology: Settlement, population and intensive farming among the Pokot of northwest Kenya. African Archaeological Review29: 319–353.
Davies, M. I. J., and Moore, H. L. (2016). Landscape, time and cultural resilience: A brief history of agriculture in Pokot and Marakwet, Kenya. Journal of Eastern African Studies10: 67–87.
De Clerck, F. A. J., and Negreros-Castillo, P. (2000). Plant species of traditional Mayan homegardens of Mexico as analogs for multistrata agroforests. Agroforestry Systems48: 303–317.
De Lucia, K. (2013). Domestic economies and regional transition: Household multicrafting and lake exploitation in pre-Aztec central Mexico. Journal of Anthropological Archaeology32: 353–367.
De Lucia, K., and Overholtzer, L. (2014). Everyday action and the rise and decline of ancient polities: Household strategy and political change in Postclassic Xaltocan, Mexico. Ancient Mesoamerica25: 441–458.
Doelle, W. H., and Wallace, H. D. (1991). The changing role of the Tucson Basin in the Hohokam regional system. In Gumerman, G. J. (ed.), Exploring the Hohokam: Prehistoric Desert Peoples of the American Southwest, University of New Mexico Press, Albuquerque, pp. 279–346.
Douglas, P. M. J., Pagani, M., Canuto, M. A., Brenner, M., Hodell, D. A., Eglinton, T. I., and Curtis, J. H. (2015). Drought, agricultural adaptation, and sociopolitical collapse in the Maya Lowlands. Proceedings of the National Academy of Sciences USA112: 5607–5612.
du Pisani, J. A. (2006). Sustainable development: Historical roots of the concept. Environmental Sciences3: 83–96.
du Pisani, J. A. (2015). Sustaining sustainable development: The shifting moral base of the concept, 1972–2002. Ekonomska i Ekohistorija11: 19–32.
Dugmore, A. J., Keller, C., and McGovern, T. H. (2007). Norse Greenland settlement: Reflections on climate change, trade, and the contrasting fates of human settlements in the North Atlantic Islands. Arctic Anthropology44: 12–36.
Dugmore, A. J., McGovern, T. H., Vésteinsson, O., Arneborg, J., Streeter, R., and Keller, C. (2012). Cultural adaptation, compounding vulnerabilities and conjunctures in Norse Greenland. Proceedings of the National Academy of Sciences USA109: 3658–3663.
Dunning, N. P., Beach, T. P., and Luzzadder-Beach, S. (2012). Kax and kol: Collapse and resilience in lowland Maya civilization. Proceedings of the National Academy of Sciences USA109: 3652–3657.
Engelhardt, R. A. (1995). Two thousand years of engineering genius on the Angkor plain. Expedition37(3): 18–26.
Erickson, C. L. (1982). Experiments in Raised Field Agriculture, Huatta, Peru, 1981–1982, University of Illinois, Champaign.
Erickson, C. L. (1985). Applications of Prehistoric Andean Technology: Experiments in Raised Field Agriculture, Huatta, Lake Titicaca, 1981 to 1982, BAR International Series 232, Archaeopress, Oxford.
Erickson, C. L. (1988a). An Archaeological Investigation of Raised Field Agriculture in the Lake Titicaca Basin of Peru, Ph.D. dissertation, Department of Anthropology, University of Illinois, Urbana-Champaign.
Erickson, C. L. (1988b). Raised field agriculture in the Lake Titicaca basin: Putting ancient agriculture back to work. Expedition30(3): 8–16.
Erickson, C. L. (1992). Applied archaeology and rural development: Archaeology’s potential contribution to the future. Journal of the Steward Anthropological Society20: 1–16.
Erickson, C. L. (1993). The social organization of prehispanic raised field agriculture in the Lake Titicaca basin. In Scarborough, V. L., and Isaac, B. L. (eds.), Economic Aspects of Water Management in the Prehispanic New World, JAI Press, Greenwich, CT, pp. 369–426.
Erickson, C. L. (1994). Methodological considerations in the study of ancient Andean field systems. In Miller, N. F., and Gleason, K. L. (eds.), The Archaeology of Garden and Field, University of Pennsylvania Press, Philadelphia, pp. 111–152.
Erickson, C. L. (1998). Applied archaeology and rural development: Archaeology’s potential contribution to the future. In Whiteford, M., and Whiteford, S. (eds.), Crossing Currents: Continuity and Change in Latin America, Prentice-Hall, Upper Saddle River, NJ, pp. 34–45.
Erickson, C. L. (2008). Amazonia: The historical ecology of a domesticated landscape. In Silverman, H., and Isbell, W. H. (eds.), Handbook of South American Archaeology, Springer, New York, pp. 157–183.
Erickson, C. L., and Candler, K. (1989). Raised fields and sustainable agriculture in the Lake Titicaca basin of Peru. In Browder, J. (ed.), Fragile Lands of Latin America: Strategies for Sustainable Development, Westview Press, Boulder, CO, pp. 230–248.
Eulich, W. (2018). Why ancient farming practices have resurged in a storied part of Mexico City. The Christian Science Monitor (https://www.csmonitor.com/World/Making-a-difference/2018/0719/Why-ancient-farming-practices-have-resurged-in-a-storied-part-of-Mexico-City).
Evans, D. (2016). Airborne laser scanning as a method for exploring long-term socio-ecological dynamics in Cambodia. Journal of Archaeological Science74: 164–175.
Evans, D., and Fletcher, R. (2015). The landscape of Angkor Wat redefined. Antiquity89: 1402–1419.
Evans, D. H., Fletcher, R., Pottier, C., Chevance, J.-B., Soutif, D., Tan, B. S., et al. (2013). Uncovering archaeological landscapes at Angkor using LiDAR. Proceedings of the National Academy of Sciences USA110: 12595–12600.
Evans, D., Pottier, C., Fletcher, R., Hensley, S., Tapley, I., Milne, A., and Barbetti, M. (2007). A comprehensive archaeological map of the world’s largest preindustrial settlement complex at Angkor, Cambodia. Proceedings of the National Academy of Sciences USA104: 14277–14282.
Evershed, R. P. (2008). Organic residue analysis in archaeology. Archaeometry50: 895–924.
Factura, H., Bettendorf, T., Buzie, C., Pieplow, H., Reckin, J., and Otterpohl, R. (2010). Terra preta sanitation: Re-discovered from an ancient Amazonian civilization, integrating sanitation, bio-waste management and agriculture. Water Science and Technology61: 2673–2679.
FAO (Food and Agriculture Organization) (1997). Report of the World Food Summit, 13–17 November 1996, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization) (2012). Voluntary Guidelines on the Responsible Governance of Tenure of Land, Fisheries and Forests in the Context of National Food Security, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization) (2014a). Building a Common Vision for Sustainable Food and Agriculture: Principles and Approaches, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization) (2014b). Sustainability Assessment of Food and Agriculture Systems Guidelines, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization) (2017). Strategic Work of FAO to Reduce Rural Poverty, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization) (2018). Globally Important Agricultural Heritage Systems, Food and Agriculture Organization of the United Nations, Rome.
FAO (Food and Agriculture Organization), IFAD, UNICEF, WFP, and WHO (2017). The State of Food Security and Nutrition in the World 2017: Building Resilience for Peace and Food Security, Food and Agriculture Organization of the United Nations, Rome.
Farahani, A., Chiou, K. L., Harkey, A., Hastorf, C. A., Lentz, D. L., and Sheets, P. (2017). Identifying “plantscapes” at the Classic Maya village of Joya de Cerén, El Salvador. Antiquity91: 980–997.
Faulseit, R. K. (ed.) (2016). Beyond Collapse: Archaeological Perspectives on Resilience, Revitalization, and Transformation in Complex Societies, Southern Illinois University Press, Carbondale.
Fedick, S. L. (ed.) (1996). The Managed Mosaic: Ancient Maya Agriculture and Resource Use, University of Utah Press, Salt Lake City.
Fedick, S. L., Flores-Delgadillo, M. D. L., Sedov, S., Solleiro-Rebolledo, E., and Palacios-Mayorga, S. (2008). Adaptation of Maya homegardens by “container gardening” in limestone bedrock cavities. Journal of Ethnobiology28: 290–304.
Feneley, M., Penny, D., and Fletcher, R. (2016). Claiming the hydraulic network of Angkor with Viṣṇu: A multidisciplinary approach including the analysis of archaeological remains, digital modelling and radiocarbon dating with evidence for a 12th century renovation of the West Mebon. Journal of Archaeological Science: Reports9: 275–292.
Ferro-Vázquez, C., Lang, C., Kaal, J., and Stump, D. (2017). When is a terrace not a terrace? The importance of understanding landscape evolution in studies of terraced agriculture. Journal of Environmental Management202: 500–513.
Fish, S. K., Fish, P. R., Miksicek, C., and Madsen, J. H. (1985). Prehistoric agave cultivation in southern Arizona. Desert Plants7: 107–112.
Fisher, C. (2014). The role of infield agriculture in Maya cities. Journal of Anthropological Archaeology36: 196–210.
Fisher, C. T., and Feinman, G. M. (eds.) (2009). The Archaeology of Environmental Change: Socionatural Legacies of Degradation and Resilience, University of Arizona Press, Tucson.
Flannery, K. V. (ed.) (1982). Maya Subsistence: Studies in Memory of Dennis E. Puleston, Academic Press, New York.
Flannery, K. V. (ed.) (1986). Guilá Naquitz: Archaic Foraging and Early Agriculture in Oaxaca, Mexico, Academic Press, Orlando, FL.
Fletcher, R. (2009). Low-density, agrarian-based urbanism: A comparative view. Insights (Institute of Advanced Study, Durham University)2: 1–19.
Fletcher, R. (2012). Low-density, agrarian-based urbanism: Scale, power, and ecology. In Smith, M. E. (ed.), The Comparative Archaeology of Complex Societies, Cambridge University Press, Cambridge, pp. 285–320.
Fletcher, R., Evans, D., Pottier, C., and Rachna, C. (2015). Angkor Wat: An introduction. Antiquity89: 1388–1401.
Fletcher, R., Penny, D., Evans, D., Pottier, C., Barbetti, M., Kummu, M., and Lustig, T. (2008). The water management network of Angkor, Cambodia. Antiquity82: 658–670.
Folke, C. (2006). Resilience: The emergence of a perspective for social-ecological systems analyses. Global Environmental Change16: 253–267.
Ford, A., and Nigh, R. (2009). Origins of the Maya forest garden: Maya resource management. Journal of Ethnobiology29: 213.
Ford, A., and Nigh, R. (2015). The Maya Forest Garden: Eight Millennia of Sustainable Cultivation in the Tropical Wetlands, Left Coast Press, Walnut Creek, CA.
Frederick, C. D. (2007). Chinampa cultivation in the Basin of Mexico: Observations on the evolution of form and function. In Thurston, T. L., and Fisher, C. T. (eds.), Seeking a Richer Harvest: The Archaeology of Subsistence Intensification, Innovation and Change, Springer, Boston, pp. 107–124.
Fredskild, B., and Humle, L. (1991). Plant remains from the Norse farm Sandnes in the western settlement, Greenland. Acta Borealia8: 69–81.
Gallagher, D. E., Dueppen, S. A., and Walsh, R. (2016). The archaeology of shea butter (Vitellaria paradoxa) in Burkina Faso, West Africa. Journal of Ethnobiology36: 150–171.
Gallagher, J. P., Boszhardt, R. F., Sasso, R. F., and Stevenson, K. (1985). Oneota ridged field agriculture in southwestern Wisconsin. American Antiquity50: 605–612.
Giovannucci, D., Scherr, S., Nierenberg, D., Hebebrand, C., Shapiro, J., Milder, J., and Wheeler, K. (2012). Food and Agriculture: The Future of Sustainability. A Strategic Input to the Sustainable Development in the 21st Century (SD21) Project, United Nations Department of Economic and Social Affairs, Division for Sustainable Development, New York.
Glaser, B. (2007). Prehistorically modified soils of central Amazonia: A model for sustainable agriculture in the twenty-first century. Philosophical Transactions of the Royal Society B: Biological Sciences362: 187–196.
Gleason, K. L., and Miller, N. F. (1994). The Archaeology of Garden and Field, University of Pennsylvania Press, Philadelphia.
Gliessman, S. (2018). Defining agroecology. Agroecology and Sustainable Food Systems42: 599–600.
Goldsmith, E., and Allen, R. (1972). A Blueprint for Survival, Houghton-Mifflin, Boston.
Goldsmith, E., Hildyard, N., Bunyard, P., and McCully, P. (eds.) (1991). The UN Food and Agriculture Organization: Promoting World Hunger, The Ecologist21.
Golson, J., Denham, T., Hughes, P., Swadling, P., and Muke, J. (eds.) (2017). Ten Thousand Years of Cultivation at Kuk Swamp in the Highlands of Papua New Guinea, Australian National University Press, Canberra.
Gómez Pompa, A., and Jiménez Osornio, J. (1989). Some reflections on intensive traditional agriculture. In Gladwin, C., and Truman, K. (eds.), Food and Farm: Current Debates and Policies, University Press of America, New York, pp. 231–253.
Goodman-Elgar, M. (2008). Evaluating soil resilience in long-term cultivation: A study of pre-Columbian terraces from the Paca Valley, Peru. Journal of Archaeological Science35: 3072–3086.
Graff, S. R. (2018). Archaeological studies of cooking and food preparation. Journal of Archaeological Research26: 305–351.
Graffam, G. (1992). Beyond state collapse: Rural history, raised fields, and pastoralism in the south Andes. American Anthropologist94: 882–904.
Groenman-van Waateringe, W., and van Geel, B. (2017). Raised bed agriculture in northwest Europe triggered by climatic change around 850 BC: A hypothesis. Environmental Archaeology22: 166–170.
Hammond, N. (1978). The myth of the milpa: Agricultural expansion in the Maya Lowlands. In Harrison, P. D., and Turner II, B. L. (eds.), Pre-Hispanic Maya Agriculture, University of New Mexico Press, Albuquerque, pp. 23–34.
Hanus, K., and Evans, D. (2015). Imaging the waters of Angkor: A method for semi‐automated pond extraction from LiDAR data. Archaeological Prospection23: 87–94.
Harrison, P. D., and Turner, B. L. (eds.) (1978). Pre-Hispanic Maya Agriculture, University of New Mexico Press, Albuquerque.
Hartman, S., Ogilvie, A. E. J., Ingimundarson, J. H., Dugmore, A. J., Hambrecht, G., and McGovern, T. H. (2017). Medieval Iceland, Greenland, and the new human condition: A case study in integrated environmental humanities. Global and Planetary Change156: 123–139.
Hastorf, C. A. (1990). The effect of the Inka state on Sausa agricultural production and crop consumption. American Antiquity55: 262–290.
Haug, G. H., Günther, D., Peterson, L. C., Sigman, D. M., Hughen, K. A., and Aeschlimann, B. (2003). Climate and the collapse of Maya civilization. Science299: 1731–1735.
Hawken, S. (2013). Designs of kings and farmers: Landscape systems of the Greater Angkor urban complex. Asian Perspectives52: 347–367.
Haynes, G. M. (2010). Cross-cultural implications for Ancestral Puebloan agriculture in the Mojave Desert. Journal of Anthropological Research66: 305–328.
Heckenberger, M. J., Kuikuro, A., Kuikuro, U. T., Russell, J. C., Schmidt, M., Fausto, C., and Franchetto, B. (2003). Amazonia 1492: Pristine forest or cultural parkland? Science301: 1710–1714.
Heckenberger, M. J., Russell, J. C., Fausto, C., Toney, J. R., Schmidt, M. J., Pereira, E., Franchetto, B., and Afukaka, K. (2008). Pre-Columbian urbanism, anthropogenic landscapes, and the future of the Amazon. Science321: 1214–1217.
Hegmon, M. (2016). Archaeology of the human experience: An introduction. In Hegmon, M. (ed.), Archaeology of the Human Experience, Archeological Papers No. 27, American Anthropological Association, Washington, DC, pp. 7–21.
Hegmon, M. (ed.) (2017). The Give and Take of Sustainability: Archaeological and Anthropological Perspectives on Tradeoffs, Cambridge University Press, Cambridge.
Hegmon, M., Ennes, M., and Nelson, M. C. (2000). Corrugated pottery, technological style, and population movement in the Mimbres region of the American Southwest. Journal of Anthropological Research56: 217–240.
Hegmon, M., Peeples, M. A., Kinzig, A. P., Kulow, S., Meegan, C. M., and Nelson, M. C. (2008). Social transformation and its human costs in the prehispanic US Southwest. American Anthropologist110: 313–324.
Herhahn, C. L., and Hill, J. B. (1998). Modeling agricultural production strategies in the northern Rio Grande Valley, New Mexico. Human Ecology26: 469–487.
Hobbs, P. R., Sayre, K., and Gupta, R. (2008). The role of conservation agriculture in sustainable agriculture. Philosophical Transactions of the Royal Society B: Biological Sciences363: 543–555.
Hoggarth, J. A., Restall, M., Wood, J. W., and Kennett, D. J. (2017). Drought and its demographic effects in the Maya Lowlands. Current Anthropology58: 82–113.
Holling, C. S. (1973). Resilience and stability of ecological systems. Annual Review of Ecology and Systematics4: 1–23.
Holling, C. S. (1986). The resilience of terrestrial ecosystems: Local surprise and global change. In Clark, W. C., and Munn, R. E. (eds.), Sustainable Development of the Biosphere, Cambridge University Press, Cambridge, pp. 292–317.
Holt, E. (2017). Experts on the past, working in the present: What archeologists can contribute to current water management. Wiley Interdisciplinary Reviews4: 1–9.
Homburg, J. A., and Sandor, J. A. (2011). Anthropogenic effects on soil quality of ancient agricultural systems of the American Southwest. CATENA85: 144–154.
Huckleberry, G. A., and Billman, B. R. (1998). Floodwater farming, discontinuous ephemeral streams, and Puebloan abandonment in southwestern Colorado. American Antiquity63: 595–616.
Iannone, G. (ed.) (2014). The Great Maya Droughts in Cultural Context: Case Studies in Resilience and Vulnerability, University Press of Colorado, Boulder.
Iannone, G., Prufer, K., and Chase, D. Z. (2014). Resilience and vulnerability in the Maya hinterlands. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 155–170.
IFAD (International Fund for Agricultural Development) (1999). Good Governance: An Overview, Food and Agriculture Organization of the United Nations, Rome.
Inglis, J. (ed.) (1993). Traditional Ecological Knowledge: Concepts and Cases, Canadian Museum of Nature, Ottawa.
Ingram, S. E. (2010). Human Vulnerability to Climatic Dry Periods in the Prehistoric U.S. Southwest, Ph.D. dissertation, Department of Anthropology, Arizona State University, Tempe.
IPCC (Intergovernmental Panel on Climate Change) (2012). Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge.
Isendahl, C. (2012). Agro-urban landscapes: The example of Maya Lowland cities. Antiquity86: 1112–1125.
Isendahl, C., and Smith, M. E. (2013). Sustainable agrarian urbanism: The low-density cities of the Mayas and Aztecs. Cities31: 132–143.
Isendahl, C., and Stump, D. (eds.) (2015) The Oxford Handbook of Historical Ecology and Applied Archaeology, Oxford University Press, Oxford.
Janusek, J. W., and Kolata, A. L. (2004). Top-down or bottom-up: Rural settlement and raised field agriculture in the Lake Titicaca basin, Bolivia. Journal of Anthropological Archaeology23: 404–430.
Jiang, Y., Li, S., Chen, W., Cai, D., and Liu, Y. (2017). The evolution of crop cultivation and paleoenvironment in the Longji terraces, southern China: Organic geochemical evidence from paleosols. Journal of Environmental Management202: 524–531.
Kealhofer, L. (ed.) (2005). The Archaeology of Midas and the Phrygians: Recent Work at Gordion, University of Pennsylvania Museum of Archaeology and Anthropology, Philadelphia.
Kennett, D. J., and Beach, T. P. (2013). Archeological and environmental lessons for the Anthropocene from the Classic Maya collapse. Anthropocene4: 88–100.
Kennett, D. J., Breitenbach, S. F. M., Aquino, V. V., Asmerom, Y., Awe, J., Baldini, J. U. L., et al. (2012). Development and disintegration of Maya political systems in response to climate change. Science338: 788–791.
Kern, D. C., Pinto Lima, H., Amorim da Costa, J., Veras de Lima, H., Browne Ribeiro, A., Marcos Moraes, B., and Kämpf, N. (2017). Terras pretas: Approaches to formation processes in a new paradigm. Geoarchaeology32: 694–706.
Kidd, C. V. (1992). The evolution of sustainability. Journal of Agricultural and Environmental Ethics5: 1–26.
Killion, T. W. (ed.) (1992). Gardens of Prehistory: The Archaeology of Settlement Agriculture in Greater Mesoamerica, University of Alabama Press, Tuscaloosa.
Kintigh, K. W. (1985). Settlement, Subsistence, and Society in Late Zuni Prehistory, University of Arizona Press, Tucson.
Kintigh, K. W. (1996). The Cibola region in the post-Chacoan era. In Adler, M. A. (ed.), The Prehistoric Pueblo World, AD 1150–1350, University of Arizona Press, Tucson, pp. 131–144.
Kintigh, K. W., Glowacki, D. M., and Huntley, D. L. (2004). Long-term settlement history and the emergence of towns in the Zuni area. American Antiquity69: 432–456.
Kintigh, K. W., and Ingram, S. E. (2018). Was the drought really responsible? Assessing statistical relationships between climate extremes and cultural transitions. Journal of Archaeological Science89: 25–31.
Kirch, P. V. (1994). The Wet and the Dry: Irrigation and Agricultural Intensification in Polynesia, University of Chicago Press, Chicago.
Kirch, P. V., Asner, G., Chadwick, O. A., Field, J., Ladefoged, T., Lee, C., et al. (2012). Building and testing models of long-term agricultural intensification and population dynamics: A case study from the Leeward Kohala Field System, Hawai’i. Ecological Modelling227: 18–28.
Klassen, S. (2018). Adaptive Capacity of the Water Management Systems of Two Medieval Khmer Cities, Angkor and Koh Ker, Ph.D. dissertation, School of Human Evolution and Social Change, Arizona State University, Tempe.
Kleinman, P. J. A., Pimentel, D., and Bryant, R. B. (1995). The ecological sustainability of slash-and-burn agriculture. Agriculture, Ecosystems & Environment52: 235–249.
Knowler, D., and Bradshaw, B. (2007). Farmers’ adoption of conservation agriculture: A review and synthesis of recent research. Food Policy32: 25–48.
Kohler, T. A., Bocinsky, R. K., Cockburn, D., Crabtree, S. A., Varien, M. D., Kolm, K. E., et al. (2012). Modelling prehispanic Pueblo societies in their ecosystems. Ecological Modelling241: 30–41.
Kohler, T. A., and Reese, K. M. (2014). Long and spatially variable Neolithic demographic transition in the North American Southwest. Proceedings of the National Academy of Sciences USA111: 10101–10106.
Kolata, A. L. (1986). The agricultural foundations of the Tiwanaku state: A view from the heartland. American Antiquity51: 748–762.
Kolata, A. L. (1991). The technology and organization of agricultural production in the Tiwanaku state. Latin American Antiquity2: 99–125.
Kolata, A. L., and Ortloff, C. (1989). Thermal analysis of Tiwanaku raised field systems in the Lake Titicaca basin of Bolivia. Journal of Archaeological Science16: 233–263.
Kolata, A. L., and Ortloff, C. (1996a). Agroecological perspectives on the decline of the Tiwanaku state. In Kolata, A. L. (ed.), Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Smithsonian Institution Press, Washington, DC, pp. 181–202.
Kolata, A. L., and Ortloff, C. (1996b). Tiwanaku raised-field agriculture in the Lake Titicaca basin of Bolivia. In Kolata, A. L. (ed.), Tiwanaku and Its Hinterland: Archaeology and Paleoecology of an Andean Civilization, Smithsonian Institution Press, Washington, DC, pp. 109–152.
Krahtopoulou, A., and Charles, F. (2008). The stratigraphic implications of long‐term terrace agriculture in dynamic landscapes: Polycyclic terracing from Kythera Island, Greece. Geoarchaeology23: 550–585.
Kuckelman, K. A., Lightfoot, R. R., and Martin, D. L. (2002). The bioarchaeology and taphonomy of violence at Castle Rock and Sand Canyon pueblos, southwestern Colorado. American Antiquity67: 486–513.
Kummu, M. (2009). Water management in Angkor: Human impacts on hydrology and sediment transportation. Journal of Environmental Management90: 1413–1421.
Kunen, J. L. (2004). Ancient Maya Life in the Far West Bajo: Social and Environmental Change in the Wetlands of Belize, University of Arizona Press, Tucson.
Lane, P. J. (2015). Archaeology in the age of the Anthropocene: A critical assessment of its scope and societal contributions. Journal of Field Archaeology40: 485–498.
Lang, C., and Stump, D. (2017). Geoarchaeological evidence for the construction, irrigation, cultivation, and resilience of 15th–18th century AD terraced landscape at Engaruka, Tanzania. Quaternary Research88: 382–399.
Laparidou, S., and Rosen, A. M. (2015). Intensification of production in medieval Islamic Jordan and its ecological impact: Towns of the Anthropocene. The Holocene25: 1685.
Leigh, D., Kowalewski, S. A., and Holdridge, G. (2013). 3400 years of agricultural engineering in Mesoamerica: Lama-bordos of the Mixteca Alta, Oaxaca, Mexico. Journal of Archaeological Science40: 4107–4111.
Lemonnier, E., and Vannière, B. (2013). Agrarian features, farmsteads, and homesteads in the Río Bec nuclear zone, Mexico. Ancient Mesoamerica24: 397–413.
Lentz, D. L., Dunning, N. P., and Scarborough, V. L. (eds.) (2015). Tikal: Paleoecology of an Ancient Maya City. Cambridge University Press, New York.
Lentz, D. L., Dunning, N. P., Scarborough, V. L. and Grazioso, L. (in press). Imperial resource management at the ancient Maya city of Tikal: A resilience model of sustainability and collapse. Journal of Anthropological Archaeology.
Lentz, D. L., Dunning, N. P., Scarborough, V. L., Magee, K. S., Thompson, K. M., Weaver, E., et al. (2014). Forests, fields, and the edge of sustainability at the ancient Maya city of Tikal. Proceedings of the National Academy of Sciences USA111: 18513–18518.
Lentz, D. L., and Hockaday, B. (2009). Tikal timbers and temples: Ancient Maya agroforestry and the end of time. Journal of Archaeological Science36: 1342–1353.
Lentz, D., Woods, S., Hood, A., and Murph, M. (2012). Agroforestry and agricultural production of the ancient Maya at Chan. In Robin, C. (ed.), Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville, pp. 89–109.
Li, Y., Storozum, M. J., Wang, X., and Guo, W. (2017). Early irrigation and agropastoralism at Mohuchahangoukou (MGK), Xinjiang, China. Archaeological Research in Asia12: 23–32.
Lightfoot, K. G., and Gonzalez, S. L. (2018). The study of sustained colonialism: An example from the Kashaya Pomo homeland in northern California. American Antiquity83: 427–443.
Logan, A. L. (2012). A History of Food Without History: Food, Trade, and Environment in West-Central Ghana in the Second Millennium AD, Ph.D. dissertation, Department of Anthropology, University of Michigan, Ann Arbor.
Logan, A. L. (2016a). An archaeology of food security in Banda, Ghana. In Hegmon, M. (ed.) Archaeology of the Human Experience, Archeological Papers No. 27, American Anthropological Association, Washington, DC, pp. 106-119.
Logan, A. L. (2016b). “Why can’t people feed themselves?”: Archaeology as alternative archive of food security in Banda, Ghana. American Anthropologist118: 508–524.
Logan, A.L. and Cruz, M. D. (2014). Gendered taskscapes: Food, farming, and craft production in Banda, Ghana in the eighteenth to twenty-first centuries. African Archaeological Review31: 203–231.
Lohse, J. C. (ed.) (2013). Classic Maya Political Ecology: Resource Management, Class Histories, and Political Change in Northwestern Belize, Cotsen Institute of Archaeology, University of California, Los Angeles.
Lombardo, U., Canal-Beeby, E., Fehr, S., and Veit, H. (2011). Raised fields in the Bolivian Amazonia: A prehistoric green revolution or a flood risk mitigation strategy? Journal of Archaeological Science38: 502–512.
Lombardo, U., Denier, S., May, J.-H., Rodrigues, L., and Veit, H. (2013). Human-environment interactions in pre-Columbian Amazonia: The case of the Llanos de Moxos, Bolivia. Quaternary International312: 109–119.
Londoño, A. C., Williams, P. R., and Hart, M. L. (2017). A change in landscape: Lessons learned from abandonment of ancient Wari agricultural terraces in southern Peru. Journal of Environmental Management202: 532–542.
Lovell, S. T. (2010). Multifunctional urban agriculture for sustainable land use planning in the United States. Sustainability2: 2499–2522.
Lucero, L. J. (2002). The collapse of the Classic Maya: A case for the role of water control. American Anthropologist104: 814–826.
Lucero, L. J. (2006). Water and Ritual: The Rise and Fall of Classic Maya Rulers, University of Texas Press, Austin.
Lucero, L. J., Fletcher, R., and Coningham, R. (2015). From “collapse” to urban diaspora: The transformation of low-density, dispersed agrarian urbanism. Antiquity89: 1139–1154.
Lucero, L. J. (2018). A cosmology of conservation in the ancient Maya world. Journal of Anthropological Research74: 327–359.
Lucero, L. J., and Fash, B. W. (eds.) (2006). Precolumbian Water Management: Ideology, Ritual, and Power, University of Arizona Press, Tucson.
Lucero, L. J., Gunn, J. D., and Scarborough, V. L. (2011). Climate change and Classic Maya water management. Water3: 479–494.
Lustig, T. (2012). Linking downstream to upstream in landscape archaeology: Two Southeast Asian examples. In Bonatz-Tjoa, M. L., Reinecke, A., and Bonatz, D. (eds.) Connecting Empires and States: Selected Papers from the 13th International Conference of the European Association of Southeast Asian Archaeologists, NUS Press, Singapore, pp. 209–225.
Lustig, T., Klassen, S., Evans, D., French, R., and Moffat, I. (2018). Evidence for the breakdown of an Angkorian hydraulic system, and its historical implications for understanding the Khmer empire. Journal of Archaeological Science: Reports17: 195–211.
Luzzadder-Beach, S., and Beach, T. (2009). Arising from the wetlands: Mechanisms and chronology of landscape aggradation in the northern coastal plain of Belize. Annals of the Association of American Geographers99: 1–26.
Luzzadder-Beach, S., Beach, T. P., and Dunning, N. P. (2012). Wetland fields as mirrors of drought and the Maya abandonment. Proceedings of the National Academy of Sciences USA109: 3646–3651.
Madsen, C. K. (2014). Pastoral Settlement, Farming, and Hierarchy in Norse Vatnahverfi, South Greenland, Ph.D. dissertation, Department of Middle Ages and Renaissance, University of Copenhagen, Copenhagen.
Mainland, I., and Halstead, P. (2005). The economics of sheep and goat husbandry in Norse Greenland. Arctic Anthropology42: 103–120.
Manuel, M., Lightfoot, D., and Fattahi, M. (2018). The sustainability of ancient water control techniques in Iran: An overview. Water History10: 13–30.
Manzanilla, L., and Barba, L. (1990). The study of activities in Classic households: Two case studies from Coba and Teotihuacan. Ancient Mesoamerica1: 41–49.
Marcus, J. (1982). The plant world of the sixteenth- and seventeenth-century Lowland Maya. In Flannery, K. V. (ed.), Maya Subsistence: Studies in Memory of Dennis E. Puleston, Academic Press, New York, pp. 239–273.
Marcus, J. (1992). Dynamic cycles of Mesoamerican states. National Geographic Research & Exploration8: 392–411.
Marcus, J. (1998). The peaks and valleys of ancient states: An extension of the dynamic model. In Feinman, G. M., and Marcus, J. (eds.), Archaic States, School of American Research Press, Santa Fe, NM, pp. 59–94.
Marcus, J., and Flannery, K. V. (1996). Zapotec Civilization: How Urban Society Evolved in Mexico’s Oaxaca Valley, Thames and Hudson, New York.
Marcus, J., and Stanish, C. (eds.) (2006). Agricultural Strategies, Cotsen Institute of Archaeology, University of California, Los Angeles.
Marston, J. M. (2010). Evaluating Risk, Sustainability, and Decision Making in Agricultural and Land-use Strategies at Ancient Gordion, Ph.D. Dissertation, Department of Archaeology, University of California, Los Angeles.
Marston, J. M. (2011). Archaeological markers of agricultural risk management. Journal of Anthropological Archaeology30: 190-205.
Marston, J. M. (2012). Agricultural strategies and political economy in ancient Anatolia. American Journal of Archaeology116: 377–403.
Marston, J. M. (2015). Modeling resilience and sustainability in ancient agricultural systems. Journal of Ethnobiology35: 585–605.
Marston, J. M. (2017). Agricultural Sustainability and Environmental Change at Ancient Gordion, University of Pennsylvania Museum of Archaeology and Anthropology, Philadelphia.
Marston, J. M., and Branting, S. (2016). Agricultural adaptation to highland climate in Iron Age Anatolia. Journal of Archaeological Science: Reports9: 25–32.
Marston, J. M., and Miller, N. F. (2014). Intensive agriculture and land use at Roman Gordion, central Turkey. Vegetation History and Archaeobotany23: 761–773.
Masson, M. A. (2012). Maya collapse cycles. Proceedings of the National Academy of Sciences USA109: 18237–18238.
Masson, M. A., and Peraza Lope, C. (2014). Kukulcan’s Realm: Urban Life at Ancient Mayapán, University Press of Colorado, Boulder.
Mays, L. W. (2017). Survey of ancient water technologies in semi-arid and arid regions: Traditional knowledge for the future. Water Science & Technology17: 1278–1286.
McAnany, P. A., and Yoffee, N. (eds.) (2010). Questioning Collapse: Human Resilience, Ecological Vulnerability, and the Aftermath of Empire, Cambridge University Press, Cambridge.
McCann, J. (2005). Maize and Grace: Africa’s Encounter with A New World Crop, 1500–2000, Harvard University Press, Cambridge, MA.
McCool, J.-P. P., Fladd, S. G., Scarborough, V. L., Plog, S., Dunning, N. P., Owen, L. A., et al. (2018). Soil analysis in discussions of agricultural feasibility for ancient civilizations: A critical review and reanalysis of the data and debate from Chaco Canyon, New Mexico. PLoS One13: 1–35.
McCoy, M. D., and Ladefoged, T. N. (2009). New developments in the use of spatial technology in archaeology. Journal of Archaeological Research17: 263–295.
McGovern, T. H., Perdikaris, S., Einarsson, Á., and Sidell, J. (2006). Coastal connections, local fishing, and sustainable egg harvesting: Patterns of Viking Age inland wild resource use in Mývatn district, northern Iceland. Environmental Archaeology11: 187–205.
McGovern, T. H., Vésteinsson, O., Fridriksson, A., Church, M., Lawson, I., Simpson, I. A., et al. (2007). Landscapes of settlement in northern Iceland: Historical ecology of human impact and climate fluctuation on the millennial scale. American Anthropologist109: 27–51.
McKey, D., Rostain, S., Iriarte, J., Glaser, B., Birk, J. J., Holst, I., Renard, D., and Linares, O. F. (2010). Pre-Columbian agricultural landscapes, ecosystem engineers, and self-organized patchiness in Amazonia. Proceedings of the National Academy of Sciences USA107: 7823–7828.
Merlin-Uribe, Y., Gonzalez-Esquivel, C. E., Contreras-Hernandez, A., Zambrano, L., Moreno-Casasola, P. and Astier, M. (2013). Environmental and socio-economic sustainability of chinampas (raised beds) in Xochimilco, Mexico City. International Journal of Agricultural Sustainability11: 216–233.
Middleton, G. D. (2012). Nothing lasts forever: Environmental discourses on the collapse of past societies. Journal of Archaeological Research20: 257–307.
Middleton, G. D. (2017). Understanding Collapse: Ancient History and Modern Myths, Cambridge University Press, Cambridge.
Miller, N. F. (2010). Botanical Aspects of Environment and Economy at Gordion, Turkey, University of Pennsylvania Museum of Archaeology and Anthropology, Philadelphia.
Miller, N. F. (2018). Historic landscape and site preservation at Gordion, Turkey: An archaeobotanist’s perspective. Vegetation History and Archaeobotany28: 1–8.
Miller, N. F., and Marston, J. M. (2012). Archaeological fuel remains as indicators of ancient west Asian agropastoral and land-use systems. Journal of Arid Environments86: 97–103.
Miller, N. F., Zeder, M. A., and Arter, S. R. (2009). From food and fuel to farms and flocks. Current Anthropology50: 915–924.
Millhauser, J. K., and Morehart, C. T. (2018). Sustainability as a relative process: A long-term perspective on sustainability in the northern Basin of Mexico. In Millhauser, J. K., Morehart, C. T., and Juarez, S. (eds.), Uneven Terrain: Archaeologies of Political Ecology, Archeological Papers No. 29, American Anthropological Association, Washington, DC, pp. 134–156.
Millhauser, J. K., Rodríguez-Alegría, E., and Glascock, M. D. (2011). Testing the accuracy of portable x-ray fluorescence to study Aztec and colonial obsidian supply at Xaltocan, Mexico. Journal of Archaeological Science38: 3141–3152.
Minnis, P. E. (1985). Social Adaptation to Food Stress: A Prehistoric Southwestern Example, University of Chicago Press, Chicago.
Minnis, P. E. (1999). Sustainability: The long view from archaeology. New Mexico Journal of Science39: 23–41.
Mitcham, C. (1995). The concept of sustainable development: Its origins and ambivalence. Technology in Society17: 311–326.
Morehart, C. T. (2011). Sustainable ecologies and unsustainable politics: Chinampa farming in ancient central Mexico. Anthropology News52: 9–10.
Morehart, C. T. (2012a). Mapping ancient chinampa landscapes in the Basin of Mexico: A remote sensing and GIS approach. Journal of Archaeological Science39: 2541–2551.
Morehart, C. T. (2012b). What if the Aztec empire never existed? The prerequisites of empire and the politics of plausible alternative histories. American Anthropologist114: 267–281.
Morehart, C. T. (2016a). Chinampa agriculture, surplus production, and political change at Xaltocan, Mexico. Ancient Mesoamerica27: 183–196.
Morehart, C. T. (2016b). Let the earth forever remain! Landscape legacies and the materiality of history in the northern Basin of Mexico. Journal of the Royal Anthropological Institute22: 939–961.
Morehart, C. T. (2018). Inherited legacies of ecological imperialism in central Mexico. Journal of Anthropological Archaeology.
Morehart, C. T., and Eisenberg, D. T. A. (2010). Prosperity, power, and change: Modeling maize at Postclassic Xaltocan, Mexico. Journal of Anthropological Archaeology29: 94–112.
Morehart, C. T., and Frederick, C. (2014). The chronology and collapse of pre-Aztec raised field (chinampa) agriculture in the northern Basin of Mexico. Antiquity88: 531–548.
Morehart, C. T., Millhauser, J. K., and Juarez, S. (2018). Archaeologies of political ecology: Genealogies, problems, and orientations. In Millhauser, J. K., Morehart, C. T., and Juarez, S. (eds.), Uneven Terrain: Archaeologies of Political Ecology, Archeological Papers No. 29, American Anthropological Association, Washington, DC, pp. 5–29.
Nelson, B. A., Chase, A. S. Z., and Hegmon, M. (2014). Transformative relocation in the U.S. Southwest and Mesoamerica. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 171–182.
Nelson, M. C. (1999). Mimbres during the Twelfth Century: Abandonment, Continuity, and Reorganization, University of Arizona Press, Tucson.
Nelson, M. C., Hegmon, M., Kintigh, K. W., Kinzig, A. P., Nelson, B. A., Anderies, J. M., et al. (2012). Long-term vulnerability and resilience: Three examples from archaeological study in the Southwestern United States and Northern Mexico. In Cooper, J., and Sheets, P. (eds.), Surviving Sudden Environmental Change: Understanding Hazards, Mitigating Impacts, Avoiding Disasters, University Press of Colorado, Boulder, pp. 197–221.
Nelson, M. C., Hegmon, M., Kulow, S., and Schollmeyer, K. G. (2006). Archaeological and ecological perspectives on reorganization: A case study from the Mimbres region of the U.S. Southwest. American Antiquity71: 403–432.
Nelson, M. C., Ingram, S. E., Dugmore, A. J., Streeter, R., Peeples, M. A., McGovern, T. H., et al. (2016). Climate challenges, vulnerabilities, and food security. Proceedings of the National Academy of Sciences USA113: 298–303.
Nelson, M. C., Kintigh, K., Abbott, D. R., and Anderies, J. M. (2010). The cross-scale interplay between social and biophysical context and the vulnerability of irrigation-dependent societies. Ecology and Society15: 31.
Netting, R. M. (1993). Smallholders, Householders: Farm Families and the Ecology of Intensive, Sustainable Agriculture, Stanford University Press, Stanford.
Nichols, D. L. (1987). Risk and agricultural intensification during the Formative period in the northern Basin of Mexico. American Anthropologist89: 596–616.
Nichols, D. L., Brumfiel, E. M., Neff, H., Hodge, M., Charlton, T. H., and Glascock, M. D. (2002). Neutrons, markets, cities, and empires: A 1000-year perspective on ceramic production and distribution in the Postclassic Basin of Mexico. Journal of Anthropological Archaeology21: 25–82.
Nichols, D. L., and Frederick, C. D. (1993). Irrigation Canals and Chinampas: Recent Research in the Northern Basin of Mexico, JAI Press, Greenwich, CT.
Nigh, R., and Diemont, S. A. (2013). The Maya milpa: Fire and the legacy of living soil. Frontiers in Ecology and the Environment11: 45–54.
Ogilvie, A. E. J., Woollett, J. M., Smiarowski, K., Arneborg, J., Troelstra, S., Kuijpers, A., Pálsdóttir, A., and McGovern, T. H. (2009). Seals and sea ice in medieval Greenland. Journal of the North Atlantic2: 60–80.
O’Reilly, D., Evans, D., and Shewan, L. (2017). Airborne LiDAR prospection at Lovea, an Iron Age moated settlement in central Cambodia. Antiquity91: 947–965.
Palm, C., Blanco-Canqui, H., DeClerck, F., Gatere, L., and Grace, P. (2014). Conservation agriculture and ecosystem services: An overview. Agriculture, Ecosystems & Environment187: 87–105.
Parsons, J. R. (1976). The role of chinampa agriculture in the food supply of Aztec Tenochtitlan. In Cleland, C. (ed.), Cultural Change and Continuity: Essays in Honor of James B. Griffin, Academic Press, New York, pp. 233–257.
Parsons, J. R. (1991). Political implications of prehispanic chinampa agriculture in the Valley of Mexico. In Harvey, H. (ed.), Land and Politics in the Valley of Mexico: A Two-Thousand Year Perspective, University of New Mexico Press, Albuquerque, pp. 17–42.
Parsons, J. R., Gorenflo, L. J., Parsons, M. H., and Wilson, D. J. (2008). Prehispanic Settlement Patterns in the Northwestern Valley of Mexico: The Zumpango Region, Memoirs No. 45, Museum of Anthropology, University of Michigan, Ann Arbor.
Paseka, R. E., Heitman, C. C., and Reinhard, K. J. (2018). New evidence of ancient parasitism among Late Archaic and Ancestral Puebloan residents of Chaco Canyon. Journal of Archaeological Science: Reports18: 51–58.
Penny, D., Pottier, C., Kummu, M., Fletcher, R., Zoppi, U., Barbetti, M., and Tous, S. (2007). Hydrological history of the West Baray, Angkor, revealed through palynological analysis of sediments from the West Mebon. Bulletin de l’École Française d’Extrême-Orient92: 497–521.
Pérez Rodríguez, V. (2006). States and households: The social organization of terrace agriculture in Postclassic Mixteca Alta, Oaxaca, Mexico. Latin American Antiquity17: 3–22.
Pérez Rodríguez, V. (2016). Terrace agriculture in the Mixteca Alta region, Oaxaca, Mexico: Ethnographic and archeological insights on terrace construction and labor organization. Culture, Agriculture, Food and Environment38: 18–27.
Pérez Rodríguez, V., and Anderson, K. C. (2013). Terracing in the Mixteca Alta, Mexico: Cycles of resilience of an ancient land-use strategy. Human Ecology41: 335–349.
Pierotti, R. (2010). Indigenous Knowledge, Ecology, and Evolutionary Biology, Routledge, New York.
Piperno, D. R. (2011). The origins of plant cultivation and domestication in the New World tropics. Current Anthropology52: S453–S470.
Piperno, D. R., and Flannery, K. V. (2001). The earliest archaeological maize (Zea mays L.) from highland Mexico: New accelerator mass spectrometry dates and their implications. Proceedings of the National Academy of Sciences USA98: 2101–2103.
Piperno, D. R., and Pearsall, D. M. (1998). The Origins of Agriculture in the Lowland Neotropics, Academic Press, San Diego.
Pittelkow, C. M., Liang, X., Linquist, B. A., van Groenigen, K. J., Lee, J., Lundy, M. E., et al. (2015). Productivity limits and potentials of the principles of conservation agriculture. Nature517: 365–368B.
Pottier, C. (2012). Beyond the temples: Angkor and its territory. In Haendel, A. (ed.), Old Myths, New Approaches: Interpreting Ancient Religious Sites in Southeast Asia, Monash University, Clayton, Australia, pp.12–27.
Pretty, J. (2008). Agricultural sustainability: concepts, principles and evidence. Philosophical Transactions of the Royal Society B: Biological Sciences363: 447–465.
Puleston, D. E. (1977). The art and archaeology of hydraulic agriculture in the Maya Lowlands. In Hammond, N. (ed.), Social Processes in Maya Prehistory: Studies in Memory of Sir Eric Thompson, Academic Press, New York, pp. 449–467.
Purdue, L. E., and Berger, J.-F. (2015). An integrated socio-environmental approach to the study of ancient water systems: The case of prehistoric Hohokam irrigation systems in semi-arid central Arizona, USA. Journal of Archaeological Science53: 586–603.
Pyburn, K. A. (1998). Smallholders in the Maya Lowlands: Homage to a garden variety ethnographer. Human Ecology26: 267–286.
Rapoport, A. (ed.) (1976). The Mutual Interaction of People and Their Built Environment, Mouton Publishers, The Hague.
Redman, C. L. (1999). Human Impact on Ancient Environments, University of Arizona Press, Tucson.
Redman, C. L. (2005). Resilience theory in archaeology. American Anthropologist107: 70–77.
Redman, C. L., and Kinzig, A. P. (2003). Resilience of past landscapes: Resilience theory, society, and the longue durée. Conservation Ecology7: 14–32.
Renard, D., Iriarte, J., Birk, J. J., Rostain, S., Glaser, B., and McKey, D. (2012). Ecological engineers ahead of their time: The functioning of pre-Columbian raised-field agriculture and its potential contributions to sustainability today. Ecological Engineering45: 30–44.
Riehl, S. (2009). Archaeobotanical evidence for the interrelationship of agricultural decision-making and climate change in the ancient Near East. Quaternary International197: 93–114.
Robin, C. (2002). Outside of houses: The practices of everyday life at Chan Nòohol, Belize. Journal of Social Archaeology2: 245–268.
Robin, C. (2006). Gender, farming, and long-term change: Maya historical and archaeological perspectives. Current Anthropology47: 409–433.
Robin, C. (ed.) (2012). Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville.
Robin, C. (2013). Everyday Life Matters: Maya Farmers at Chan, University Press of Florida, Gainesville.
Robin, C. (2016). Neither dopes nor dupes: Maya farmers and ideology. Ancient Mesoamerica27: 221–230.
Robin, C., Kosakowsky, L., Keller, A., and Meierhoff, J. (2014). Leaders, farmers, and crafters: The relationship between leading households and households across the Chan community. Ancient Mesoamerica25: 371–387.
Robin, C., Meierhoff, J., Kestle, C., Blackmore, C., Kosakowsky, L. J., and Novotny, A. C. (2012a). Ritual in a farming community. In Robin, C. (ed.), Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville, pp. 113–132.
Robin, C., Meierhoff, J., and Kosakowsky, L. J. (2012b). Nonroyal governance at Chan’s community center. In Robin, C. (ed.), Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville, pp. 133–149.
Rodrigues, L., Lombardo, U., Canal-Beeby, E., and Veit, H. (2017). Linking soil properties and pre-Columbian agricultural strategies in the Bolivian lowlands: The case of raised fields in Exaltación. Quaternary International437: 143–155.
Rodrigues, L., Lombardo, U., Fehr, S., Preusser, F., and Veit, H. (2015). Pre-Columbian agriculture in the Bolivian lowlands: Construction history and management of raised fields in Bermeo. Catena132: 126–138.
Rodrigues, L., Lombardo, U., and Veit, H. (2018). Design of pre-Columbian raised fields in the Llanos de Moxos, Bolivian Amazon: Differential adaptations to the local environment? Journal of Archaeological Science: Reports17: 366–378.
Ross, J. M., and Zutter, C. (2007). Comparing Norse animal husbandry practices: Paleoethnobotanical analyses from Iceland and Greenland. Arctic Anthropology44: 62–86.
Rostain, S. (2016). Islands in the Rainforest: Landscape Management in Pre-Columbian Amazonia, Routledge, New York.
Roys, R. L. (1972). The Indian Background of Colonial Yucatan, University of Oklahoma Press, Norman.
Sanders, W. T., Parsons, J. R., and Santley, R. S. (1979). Basin of Mexico: Ecological Processes in the Evolution of a Civilization, Academic Press, New York.
Sandor, J. A. and Homburg, J. A. (2017). Anthropogenic soil change in ancient and traditional agricultural fields in arid to semiarid regions of the Americas. Journal of Ethnobiology37: 196–218.
Sanz, M. J., de Vente, J., Chotte, J.-L., Bernoux, M., Kust, G., Ruiz, I., et al. (2017). Sustainable Land Management Contribution to Successful Land-based Climate Change Adaptation and Mitigation: A Report of the Science-Policy Interface, United Nations Convention to Combat Desertification, Bonn, Germany.
Scarborough, V. L. (2003). The Flow of Power: Ancient Water Systems and Landscapes, School of American Research Press, Santa Fe, NM.
Scarborough, V. L. and Isaac, B. L. (1993). Economic Aspects of Water Management in the Prehispanic New World, JAI Press, Greenwich, CT.
Scarborough, V. L., Becher, M. E., Baker, J. L., Harris, G., and Valdez, F. (1995). Water and land at the ancient Maya community of La Milpa. Latin American Antiquity6: 98–119.
Scarborough, V. L., Chase, A. F., and Chase, D. Z. (2012a). Low-density urbanism, sustainability, and IHOPE-Maya: Can the past provide more than history? UGEC Viewpoints (Urbanization and Global Environmental Change)8: 20–24.
Scarborough, V. L., Dunning, N. P., Tankersley, K. B., Carr, C., Weaver, E., Grazioso, L., et al. (2012b). Water and sustainable land use at the ancient tropical city of Tikal, Guatemala. Proceedings of the National Academy of Sciences USA109: 12408–12413.
Scarry, C. M., and Scarry, J. F. (2005). Native American ‘garden agriculture’ in southeastern North America. World Archaeology37: 259–274.
Schmook, B., van Vliet, N., Radel, C., Manzón-Che, M. de J., and McCandless, S. (2013). Persistence of swidden cultivation in the face of globalization: A case study from communities in Calakmul, Mexico. Human Ecology41: 93–107.
Schwindt, D. M., Bocinsky, R. K., Ortman, S. G., Glowacki, D. M., Varien, M. D., and Kohler, T. A. (2016). The social consequences of climate change in the central Mesa Verde region. American Antiquity81: 74–96.
Sheets, P. (2000). Provisioning the Ceren household: The vertical economy, village economy, and household economy in the southeastern Maya periphery. Ancient Mesoamerica11: 217–230.
Smiarowski, K., Harrison, R., Brewington, S., Hicks, M., Feeley, F. J., Dupont-Hébert, C., et al. (2017). Zooarchaeology of the Scandinavian settlements in Iceland and Greenland: Diverging pathways. In Albarella, U., Rizzetto, M., Russ, H., Vickers, K., and Viner-Daniels, S. (eds.), The Oxford Handbook of Zooarchaeology, Oxford University Press, Oxford, pp. 1–24.
Smith, A., and Miller, N. F. (2009). Reports: Integrating plant and animal data: Delving deeper into subsistence: Introduction to the special section. Current Anthropology50: 883–884.
Smith, C., Denevan, W., and Hamilton, P. (1968). Ancient ridged fields in the region of Lake Titicaca. Geographical Journal134: 353–366.
Smith, M. E., and Price, T. J. (1994). Aztec-period agricultural terraces in Morelos, Mexico: Evidence for household-level agricultural intensification. Journal of Field Archaeology21: 169–179.
Smyth, M., Dunning, N., Weaver, E., van Beynen, P., and Zapata, D. (2017). The perfect storm: Climate change and ancient Maya response in the Puuc Hills region of Yucatan. Antiquity91: 490.
Spielmann, K. A., Peeples, M. A., Glowacki, D. M., and Dugmore, A. (2016). Early warning signals of social transformation: A case study from the US Southwest. PLoS One11:1-19.
Stahl, A. (1999). The archaeology of global encounters viewed from Banda, Ghana. African Archaeological Review16: 5–81.
Stahl, A. (2001). Making History in Banda: Anthropological Visions of Africa’s Past, Cambridge University Press, Cambridge.
Stahl, A. (2007). Entangled lives: The archaeology of daily life in the Gold Coast hinterlands, AD 1400–1900. In Falola, T., and Ogundiran, A. (eds.), Archaeology of Atlantic Africa and the African Diaspora, Indiana University Press, Bloomington.
Stahl, A., Dores Cruz, M., Neff, H., Glascock, M. D., Speakman, R. J., Giles, B., and Smith, L. (2008). Ceramic production, consumption and exchange in the Banda area, Ghana: Insights from compositional analyses. Journal of Anthropological Archaeology27: 363–381.
Stahl, A., and Logan, A. (2014). Resilient villagers: Eight centuries of continuity and change in Banda village life. In Anquandah, J., Kankpeyeng, B., and Apoh, W. (eds.), Current Perspectives in the Archaeology of Ghana, Sub-Saharan, Accra, pp. 44–63.
Stahl, P. W., and Pearsall, D. M. (2012). Late pre-Columbian agroforestry in the tropical lowlands of western Ecuador. Quaternary International249: 43–52.
Stanish, C. (1994). The hydraulic hypothesis revisited: Lake Titicaca basin raised fields in theoretical perspective. Latin American Antiquity5: 312–332.
Stanish, C. (2003). Ancient Titicaca: The Evolution of Social Complexity in Southern Peru and Northern Bolivia, University of California Press, Los Angeles.
Stark, M. T., Evans, D., Rachna, C., Piphal, H., and Carter, A. (2015). Residential patterning at Angkor Wat. Antiquity89: 1439–1455.
Steward, J. H. (1955). Theory of Culture Change: The Methodology of Multilinear Evolution, University of Illinois Press, Urbana.
Stone, G. D. (1994). Agricultural intensification and perimetrics: Ethnoarchaeological evidence from Nigeria. Current Anthropology35: 317–324.
Stone, G. D., and Downum, C. E. (1999). Non-Boserupian ecology and agricultural risk: Ethnic politics and land control in the arid southwest. American Anthropologist101: 113–128.
Stone, G. D., Netting, R. M., and Stone, M. P. (1990). Seasonality, labor scheduling, and agricultural intensification in the Nigerian savanna. American Anthropologist92: 7–23.
Strawhacker, C. (2013). Sustaining Irrigation Agriculture for the Long-Term: Lessons on Maintaining Soil Quality from Ancient Agricultural Fields in the Phoenix Basin and on the North Coast of Peru, Ph. D. dissertation, School of Human Evolution and Social Change, Arizona State University, Tempe.
Stump, D. (2010). “Ancient and backward or long-lived and sustainable?” The role of the past in debates concerning rural livelihoods and resource conservation in eastern Africa. World Development38: 1251–1262.
Stump, D. (2013). On applied archaeology, indigenous knowledge, and the usable past. Current Anthropology54: 268–298.
Swartley, L. (2000). Inventing Indigenous Knowledge: Archaeology, Rural Development, and the Raised Field Rehabilitation Project in Bolivia, Ph.D. dissertation, Department of Anthropology, University of Pittsburgh, Pittsburgh.
Swartley, L. (2002). Inventing Indigenous Knowledge: Archaeology, Rural Development, and the Raised Field Rehabilitation Project in Bolivia, Routledge, London.
Tainter, J. A. (1988). The Collapse of Complex Societies, Cambridge University Press, New York.
Tainter, J. A. (2014). Collapse and sustainability: Rome, the Maya, and the modern world. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 201–214.
Tankersley, K. B., Dunning, N. P., Thress, J., Owen, L. A., Huff, W. D., Fladd, S. G., et al. (2016). Evaluating soil salinity and water management in Chaco Canyon, New Mexico. Journal of Archaeological Science: Reports9: 94–104.
Thompson, J. E. S. (1974). “Canals” of the Rio Candelaria basin, Campeche, Mexico. In Hammond, N. (ed.), Mesoamerican Archaeology: New Approaches, Duckworth, London, pp. 297–302.
Thurow, R. (2013). The Last Hunger Season: A Year in an African Farm Community on the Brink of Change, PublicAffairs, New York.
Thurston, T., and Fisher, C. T. (eds.) (2007). Seeking a Richer Harvest: The Archaeology of Subsistence Intensification, Innovation, and Change, Springer, Boston.
Tilman, D., Balzer, C., Hill, J., and Befort, B. L. (2011). Global food demand and the sustainable intensification of agriculture. Proceedings of the National Academy of Sciences USA108: 20260–20264.
Trigg, H., Bolender, D., Johnson, K. M., Patalano, M. D., and Steinberg, J. M. (2009). Note on barley found in dung in the lowest levels of the farm mound midden at Reynistaöur, Skagafjöröur, Iceland. Archaeologica Islandica7: 64–73.
Turner, B. L., and Harrison, P. D. (eds.) (1983). Pulltrouser Swamp: Ancient Maya Habitat, Agriculture, and Settlement in Northern Belize, University of Texas Press, Austin.
Turner, B. L., and Sabloff, J. A. (2012). Classic period collapse of the central Maya Lowlands: Insights about human—environment relationships for sustainability. Proceedings of the National Academy of Sciences USA109: 13908–13914.
Van de Noort, R. (2011). Conceptualising climate change archaeology. Antiquity85: 1039–1048.
van der Leeuw, S. E. (2014). Transforming lessons from the past into lessons for the future. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 215–231.
Varien, M. D., Ortman, S. G., Kohler, T. A., Glowacki, D. M., and Johnson, C. D. (2007). Historical ecology in the Mesa Verde region: Results from the Village Ecodynamics Project. American Antiquity72: 273–299.
Voigt, M. M. (2002). Gordion: The rise and fall of an Iron Age capital. In Hopkins, D. C. (ed.), Across the Anatolian Plateau: Readings in the Archaeology of Ancient Turkey, American Schools of Oriental Research, Boston, pp.187–196.
Walker, B., Holling, C. S., Carpenter, S. R., and Kinzig, A. (2004). Resilience, adaptability and transformability in social-ecological systems. Ecology and Society9: 5–13.
Walker, B., and Salt, D. (2006). Resilience Thinking: Sustaining Ecosystems and People in a Changing World, Island Press, Washington, DC.
Warner, M. S. (2015). Eating in the Side Room: Food, Archaeology, and African American Identity. University Press of Florida, Gainesville.
Watson, P. J. (1995). Explaining the transition to agriculture. In Price, D., and Gebauer, A. (eds.), Last Hunters, First Farmers: New Perspectives on the Prehistoric Transition to Agriculture, School of American Research Press, Santa Fe, NM, pp. 21–38.
Watts, M. (2012). Silent Violence: Food, Famine, and Peasantry in Northern Nigeria, University of California Press, Berkeley.
WCED (World Commission on Environment and Development) (1987). Our Common Future (The Brundtland Report), Oxford University Press for the United Nations, Oxford.
Webster, D. L. (2002). The Fall of the Ancient Maya: Solving the Mystery of the Maya Collapse, Thames & Hudson, London.
Wells, E. C. (2015). Culture, power, history: Implications for understanding global environmental change. In Isendahl, C., and Stump, D. (eds.), The Oxford Handbook of Historical Ecology and Applied Archaeology, Oxford University Press, Oxford, pp.1–21.
Wells, E. C., Pratt, S. M., Fox, G. L., Siegel, P. E., Dunning, N. P., and Murphy, A. R. (2018). Plantation soilscapes: Initial and cumulative impacts of colonial agriculture in Antigua, West Indies. Environmental Archaeology23: 23–35.
White, C. E., Chesson, M. S., and Schaub, R. T. (2014). A recipe for disaster: Emerging urbanism and unsustainable plant economies at Early Bronze Age Ras an-Numayra, Jordan. Antiquity88: 363–377.
Whitney, B. S., Dickau, R., Mayle, F. E., Walker, J. H., Soto, J. D., and Iriarte, J. (2014). Pre-Columbian raised-field agriculture and land use in the Bolivian Amazon. The Holocene24: 231.
Wilk, R. R., and Ashmore, W., (eds.) (1988). Household and Community in the Mesoamerican Past, University of New Mexico Press, Albuquerque.
Wilken, G. C. (1987). Good Farmers: Traditional Agricultural Resource Management in Mexico and Central America, University of California Press, Berkeley.
Wills, W. H., and Dorshow, W. B. (2012). Agriculture and community in Chaco Canyon: Revisiting Pueblo Alto. Journal of Anthropological Archaeology31: 138–155.
Wingard, J. D., and Hayes, S. E. (eds.) (2013) Soils, Climate, and Society: Archaeological Investigations in Ancient America, University Press of Colorado, Boulder.
Wittfogel, K. A. (1957). Oriental Despotism: A Comparative Study of Total Power, Yale University Press, New Haven, CT.
Wolf, E. (1982). Europe and the People without History, University of California Press, Berkeley.
Wyatt, A. R. (2008). Gardens on Hills: Ancient Maya Terracing and Agricultural Production at Chan, Belize, Ph.D. dissertation, Department of Anthropology, University of Illinois at Chicago, Chicago.
Wyatt, A. R. (2012). Agricultural practices at Chan: Farming and political economy in an ancient Maya community. In Robin, C. (ed.), Chan: An Ancient Maya Farming Community, University Press of Florida, Gainesville, pp. 71–88.
Wyatt, A. R. (2014). The scale and organization of ancient Maya water management. Wiley Interdisciplinary Reviews1: 449–467.
Zeder, M. A. (1991). Feeding Cities: Specialized Animal Economy in the Ancient Near East, Smithsonian Institution Press, Washington, DC.
Zeder, M. A. (2008). Domestication and early agriculture in the Mediterranean Basin: Origins, diffusion, and impact. Proceedings of the National Academy of Sciences USA105: 11597–11604.
Zeder, M. A. (2011). The origins of agriculture in the Near East. Current Anthropology52: S221–S235.
Zeder, M. A., and Arter, S. R. (1994). Changing patterns of animal utilization at ancient Gordion. Paléorient22: 105–118.
Zori, D., Byock, J., Erlendsson, E., Martin, S., Wake, T., and Edwards, K. J. (2013). Feasting in Viking Age Iceland: Sustaining a chiefly political economy in a marginal environment. Antiquity87: 150–165.
Bibliography of Recent Literature
Acabado, S. (2018). Zones of refuge: Resisting conquest in the northern Philippine highlands through environmental practice. Journal of Anthropological Archaeology52: 180–195.
Allcock, S. L. (2017). Long-term socio-environmental dynamics and adaptive cycles in Cappadocia, Turkey during the Holocene. Quaternary International446: 66–82.
Arıkan, B. (2012). Don’t abhor your neighbor for he is a pastoralist: The GIS-based modeling of the past human–environment interactions and landscape changes in the Wadi el-Hasa, west-central Jordan. Journal of Archaeological Science39: 2908–2920.
Balbo, A. L., Martinez‐Fernández, J., and Esteve‐Selma M.-A. (2017). Mediterranean wetlands: Archaeology, ecology, and sustainability. Wiley Interdisciplinary Reviews: Water4: 1-16.
Balée, W., and Erickson, C. L. (eds.) (2006). Time and Complexity in Historical Ecology: Studies in the Neotropical Lowlands, Columbia University Press, New York.
Bevan, A., Conolly, J., Colledge, S., Frederick, C., Palmer, C., Siddall, R., and Stellatou, A. (2013). The long-term ecology of agricultural terraces and enclosed fields from Antikythera, Greece. Human Ecology41: 255–272.
Bogaard, A., and Whitehouse, N. (2010). Early agriculture in uncertain climates: Themes and approaches. Environmental Archaeology15: 109–112.
Boger, R., Perdikaris, S., Potter, A. E., Mussington, J., Murphy, A. R., Thomas, L., Gore, C., and Finch, D. (2014). Water resources and the historic wells of Barbuda: Tradition, heritage and hope for a sustainable future. Island Studies Journal9: 327–342.
Borisov, A. V., Korobov, D. S., Simakova, A. N., Zanina, O. G., Bukhonov, A. V., and Demidov, V. V. (2012). Ancient agricultural terraces in the Kislovodsk Depression: History and modern state of the soils. Eurasian Soil Science45: 561–577.
Branch, N. P., Kemp, R. A., Silva, B., Meddens, F. M., Williams, A., Kendall, A., and Vivanco Pomacanchari, C. (2007). Testing the sustainability and sensitivity to climatic change of terrace agricultural systems in the Peruvian Andes: A pilot study. Journal of Archaeological Science34: 1–9.
Bravard, J., Mostafa, A., Garcier, R., Tallet, G., Ballet, P., Chevalier, Y., and Tronchère, H. (2016). Rise and fall of an Egyptian oasis: Artesian flow, irrigation soils, and historical agricultural development in El-Deir, Kharga Depression, Western Desert of Egypt. Geoarchaeology31: 467-486.
Brite, E. B., and Marston, J. M. (2013). Environmental change, agricultural innovation, and the spread of cotton agriculture in the Old World. Journal of Anthropological Archaeology32: 39-53.
Brown, A., and Walsh, K. (2017). Societal stability and environmental change: Examining the archaeology-soil erosion paradox. Geoarchaeology32: 23–35.
Carmody, S. B., Sherwood, S. C. and Hoagland, C. (2017). From the past… A more sustainable future? Prehistoric plant use in the Eastern Woodlands. The SAA Archaeological Record17: 10–16.
Catlin, K. A. (2016). Archaeology for the Anthropocene: Scale, soil, and the settlement of Iceland. Anthropocene15: 13-21.
Colledge, S., Conolly, J., and Shennan, S. (2004). Archaeobotanical evidence for the spread of farming in the eastern Mediterranean. Current Anthropology45: S35–S58.
Coughlan, M. R., and Nelson, D. R. (2018). Influences of Native American land use on the colonial Euro-American settlement of the South Carolina Piedmont. PLoS One13: 1–23.
Dahlin, B., Beach, T., Luzzader-Beach, S., Hixson, D., Hutson, S., Magnoni, A., Mansell, E., and Mazeau, D. E. (2005). Reconstructing agricultural self-sufficiency at Chunchucmil, Yucatan, Mexico. Ancient Mesoamerica16: 229–247.
Davies, M. (2010). A view from the east: An interdisciplinary “historical ecology” approach to a contemporary agricultural landscape in northwest Kenya. African Studies69: 279–297.
Davis-Salazar, K. L. (2003). Late Classic Maya water management and community organization at Copan, Honduras. Latin American Antiquity14: 275–299.
Dillehay, T. D., Quivira, M. P., Bonzani, R., Silva, C., Wallner, J., and Quesne, C. L. (2007). Cultivated wetlands and emerging complexity in south-central Chile and long distance effects of climate change. Antiquity81: 949–960.
Downey, S. S., Haas, W. R., and Shennan, S. J. (2016). European Neolithic societies showed early warning signals of population collapse. Proceedings of the National Academy of Sciences USA113: 9751–9756.
Field, J. S., and Graves, M. W. (eds.) (2015). Abundance and Resilience: Farming and Foraging in Ancient Kaua‘i, University of Hawai’i Press, Honolulu.
Field, J. S., Ladefoged, T. N., and Kirch, P. V. (2011). Household expansion linked to agricultural intensification during emergence of Hawaiian archaic states. Proceedings of the National Academy of Sciences USA108: 7327–7332.
Fisher, C. T. (2005). Demographic and landscape change in the Lake Pátzcuaro basin, Mexico: Abandoning the garden. American Anthropologist107: 87–95.
French, K. D., and Duffy, C. J. (2014). Understanding ancient Maya water resources and the implications for a more sustainable future. Wiley Interdisciplinary Reviews1: 305–313.
Fuks, D., Weiss, E., Tepper, Y., and Bar-Oz, G. (2016). Seeds of collapse? Reconstructing the ancient agricultural economy at Shivta in the Negev. Antiquity90: 1–5.
Gunn, J. D., Folan, W. J., Isendahl, C., Domínguez Carrasco, M. del R., Faust, B. B., and Volta, B. (2014). Calakmul: Agent risk and sustainability in the western Maya Lowlands. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 101–123.
Guttmann-Bond, E. (2010). Sustainability out of the past: How archaeology can save the planet. World Archaeology42: 355–366.
Gronenborn, D., Strien, H. C., Dietrich, S., and Sirocko, F. (2014). ‘Adaptive cycles’ and climate fluctuations: A case study from Linear Pottery culture in western Central Europe. Journal of Archaeological Science51: 73–83.
Harrower, M. J. (2008). Hydrology, ideology, and the origins of irrigation in ancient southwest Arabia. Current Anthropology49: 497–510.
Harrower, M.J. (2009) Is the hydraulic hypothesis dead yet? Irrigation and social change in ancient Yemen. World Archaeology41: 58–72.
Hill, J. B., Lyons, P. D., Clark, J. J., and Doelle, W. H. (2015). The “collapse” of cooperative Hohokam irrigation in the lower Salt River valley. Journal of the Southwest57: 643–674.
Hoggarth, J. A., Breitenbach, S. F. M., Culleton, B. J., Ebert, C. E., Masson, M. A., and Kennett, D. J. (2016). The political collapse of Chichén Itzá in climatic and cultural context. Global and Planetary Change138: 25–42.
Holtorf, C. (2013). The need and potential for an archaeology orientated towards the present. Archaeological Dialogues20: 12–18.
Hudson, M. J., Aoyama, M., Hoover, K. C., and Uchiyama, J. (2012). Prospects and challenges for an archaeology of global climate change. Wiley Interdisciplinary Reviews: Climate Change3: 313-328.
Ingram, S. E., and Hunt, R. C. (eds.) (2015). Traditional Arid Lands Agriculture: Understanding the Past for the Future, University of Arizona Press, Tucson.
Isendahl, C. (2011). The weight of water: A new look at pre-Hispanic Puuc Maya water reservoirs. Ancient Mesoamerica22: 185–197.
Isendahl, C. (2016). Historical ecology coming of age. Reviews in Anthropology45: 127–147.
Jackson, R. C., Dugmore, A. J., and Riede, F. (2018). Rediscovering lessons of adaptation from the past. Global Environmental Change52: 58–65.
Johnston, K. J. (2003). The intensification of pre-industrial cereal agriculture in the tropics: Boserup, cultivation lengthening, and the Classic Maya. Journal of Anthropological Archaeology22: 126-161.
Johnston, K. J. (2004). Lowland Maya water management practices: The household exploitation of rural wells. Geoarchaeology19: 265–292.
Kaptijn, E. (2018). Learning from ancient water management: Archeology’s role in modern-day climate change adaptations. Wiley Interdisciplinary Reviews5: 1–11.
Kondolf, G. M., and Farahani, A. (2018). Sustainably managing reservoir storage: Ancient roots of a modern challenge. Water10: 117–130.
Korobov, D. S., and Borisov, A. V. (2013). The origins of terraced field agriculture in the Caucasus: New discoveries in the Kislovodsk Basin. Antiquity87: 1086–1103.
Kurashima, N., and Kirch, P. V. (2011). Geospatial modeling of pre-contact Hawaiian production systems on Molokaʻi Island, Hawaiian Islands. Journal of Archaeological Science38: 3662–3674.
Langlie, B. S. (in press). Building ecological resistance: Late intermediate period farming in the south-central highland Andes (CE 1100–1450). Journal of Anthropological Archaeology.
Lesure, R. G., Wake, T. A., Borejsza, A., Carballo, J., Carballo, D. M., López, I. R., and de Ángeles Guzmán, M. (2013). Swidden agriculture, village longevity, and social relations in Formative central Tlaxcala: Towards an understanding of macroregional structure. Journal of Anthropological Archaeology32: 224–241.
Liendo, R., Solleiro-Rebolledo, E., Solis-Castillo, B., Sedov, S., and Ortiz-Pérez, A. (2014). Population dynamics and its relation to ancient landscapes in the northwestern Maya Lowlands: Evaluating resilience and vulnerability. In Chase, A. F. and Scarborough, V. L. (eds.) The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 84–100.
Lincoln, N., and Ladefoged, T. (2014). Agroecology of pre-contact Hawaiian dryland farming: The spatial extent, yield and social impact of Hawaiian breadfruit groves in Kona, Hawai’i. Journal of Archaeological Science49: 192–202.
Lucero, L. J., Fedick, S. L., Dunning, N. P., Lentz, D. L., and Scarborough, V. L. (2014). Water and landscape: Ancient Maya settlement decisions. In Chase, A. F. and Scarborough, V. L. (eds.) The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 30–42.
Macrae, S., and Iannone, G. (2016). Understanding ancient Maya agricultural terrace systems through LiDAR and hydrological mapping. Advances in Archaeological Practice4: 371–392.
Marsh, E. J. (2016). The disappearing desert and the emergence of agropastoralism: An adaptive cycle of rapid change in the mid-Holocene Lake Titicaca basin (Peru–Bolivia). Quaternary International422: 123–134.
Miller, N. F. (2013). Agropastoralism and archaeobiology: Connecting plants, animals and people in west and central Asia. Environmental Archaeology18: 247–256.
Melton, M. A. (2018). Cropping in an age of captive taking: Exploring evidence for uncertainty and food insecurity in the seventeenth-century North Carolina Piedmont. American Antiquity83: 204–223.
Morehart, C. T., and Morell-Hart, S. (2015). Beyond the ecofact: Toward a social paleoethnobotany in Mesoamerica. Journal of Archaeological Method and Theory22: 483–511.
Morell‐Hart, S. (2012). Foodways and resilience under apocalyptic conditions. Culture, Agriculture, Food and Environment34: 161–171.
Murtha, T. M. (2002). Land and Labor: Classic Maya Terraced Agriculture at Caracol, Belize, Ph.D. dissertation, Department of Anthropology, Pennsylvania State University, State College.
Naudinot, N., and Kelly, R. L. (2017). Climate change and archaeology. Quaternary International428: 1–2.
Nabhan, G. P. (2013). Growing Food in a Hotter, Drier Land: Lessons from Desert Farmers on Adapting to Climate Uncertainty, Chelsea Green Publishers, White River Junction, VT.
Paris, E. H., Peraza Lope, C., Masson, M. A., Delgado Kú, P. C., and Escamilla Ojeda, B. C. (2018). The organization of stingless beekeeping (meliponiculture) at Mayapán, Yucatan, Mexico. Journal of Anthropological Archaeology52: 1–22.
Peters, R., and Zimmermann, A. (2017). Resilience and cyclicity: Towards a macrohistory of the central European Neolithic. Quaternary International446: 43–53.
Price, S., and Nixon, L. (2005). Ancient Greek agricultural terraces: Evidence from texts and archaeological survey. American Journal of Archaeology109: 665–694.
Proebsting, E. (2016). Plowing prairies and raising stock: Historical ecology and community life on the cotton frontier of southwest Arkansas. Historical Archaeology50: 114–134.
Rau, H., Goggins, G., and Fahy, F. (2018). From invisibility to impact: Recognising the scientific and societal relevance of interdisciplinary sustainability research. Research Policy47: 266–276.
Ridder, E., Galletti, C. S., Fall, P. L., and Falconer, S. E. (2017). Economic and social activities on ancient Cypriot terraced landscapes. Journal of Environmental Management202: 514–523.
Rosenzweig, M. S., and Marston, J. M. (in press). Archaeologies of empire and environment. Journal of Anthropological Archaeology.
Scarborough, V. L., and Burnside, W. R. (2010). Complexity and sustainability: Perspectives from the ancient Maya and the modern Balinese. American Antiquity75: 327–363.
Scarborough, V. L., and Lucero, L. J. (2010). The non-hierarchical development of complexity in the semitropics: Water and cooperation. Water History2: 185–205.
Scarborough, V. L., and Valdez, F. (2014). The alternative economy: Resilience in the face of complexity from the Eastern Lowlands. In Chase, A. F., and Scarborough, V. L. (eds.), The Resilience and Vulnerability of Ancient Landscapes: Transforming Maya Archaeology through IHOPE, Archeological Papers No. 24, American Anthropological Association, Washington, DC, pp. 124–141.
Schaan, D. P. (2012). Sacred Geographies of Ancient Amazonia: Historical Ecology of Social Complexity, Left Coast Press, Walnut Creek, CA.
Sheets, P., Dixon, C., Guerra, M., and Blanford, A. (2011). Manioc cultivation at Ceren, El Salvador: Occasional kitchen garden plant or staple crop? Ancient Mesoamerica22: 1–11.
Smith, B. D. (2009). Resource resilience, human niche construction, and the long-term sustainability of pre-Columbian subsistence economies in the Mississippi River valley corridor. Journal of Ethnobiology29: 167–183.
Spengler, R. N., Miller, N. F., Neef, R., Tourtellotte, P. A., and Chang, C. (2017). Linking agriculture and exchange to social developments of the central Asian Iron Age. Journal of Anthropological Archaeology48: 295–308.
Stoner, W. D. (2017). Risk, agricultural intensification, political administration, and collapse in the Classic period Gulf Lowlands: A view from above. Journal of Archaeological Science80: 83–95.
Storey, R., and Storey, G. R., (2017). Rome and the Classic Maya: Comparing the Slow Collapse of Civilizations, Routledge, New York.
Styring, A., Rösch, M., Stephan, E., and Stika, H.-P. (2017). Centralisation and long-term change in farming regimes: Comparing agricultural practices in Neolithic and Iron Age south-west Germany. Proceedings of the Prehistoric Society83: 357–380.
Thomas, D. C., and Kidd, F. J. (2017). On the margins: Enduring pre-modern water management strategies in and around the Registan Desert, Afghanistan. Journal of Field Archaeology42: 29–42.
Thompson, V. D., and Waggoner, J. C. (eds.) (2013). The Archaeology and Historical Ecology of Small Scale Economies, University Press of Florida, Gainesville.
Trombold, C. D. (2017). Agricultural intensification on the epi-Classic northern Mesoamerican frontier: The La Quemada terraces. Journal of Anthropological Archaeology48: 309–319.
Weisskopf, A., Qin, L., Ding, J., Ding, P., Sun, G., and Fuller, D. Q. (2015). Phytoliths and rice: From wet to dry and back again in the Neolithic Lower Yangtze. Antiquity89: 1051–1063.
Wesson, C. B. (2013). Rumors of our demise have been greatly exaggerated: Archaeological perspectives on culture and sustainability. Sustainability5: 100–122.
Acknowledgments
I thank Joyce Marcus for her sustained support during the preparation of this manuscript. I first worked out many of these ideas while teaching a class on the archaeology of agricultural sustainability, so I would like to express my gratitude to the 12 students of University of Michigan, whose questions and feedback brought my thinking into unexplored directions. I would additionally like to thank Kent Flannery, Robin Beck, Henry Wright, Lisa Young, Christian Wells, Traci Ardren, Travis Stanton, and Mario Zimmermann for their collegial support. I prepared this manuscript while funded by the Mischa Titiev Fellowship from the University of Michigan Department of Anthropology. I would also like to thank the editorial board of the Journal of Archaeological Research and the six anonymous reviewers whose comments and direction improved this manuscript.
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Fisher, C. Archaeology for Sustainable Agriculture. J Archaeol Res 28, 393–441 (2020). https://doi.org/10.1007/s10814-019-09138-5
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DOI: https://doi.org/10.1007/s10814-019-09138-5