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Consumo de fauna y funcionalidad de sitios: Testeando hipótesis en los Andes meridionales

Published online by Cambridge University Press:  27 February 2020

Gustavo A. Neme
Affiliation:
Instituto de Evolución, Ecología Histórica y Ambiente - Consejo Nacional de Investigaciones Científicas y Técnicas (IDEVEA - CONICET), Universidad Tecnológica Nacional, Facultad Regional San Rafael, Centro Tecnológico Regional Los Reyunos, San Rafael, Mendoza, Argentina
Clara Otaola*
Affiliation:
Instituto de Evolución, Ecología Histórica y Ambiente - Consejo Nacional de Investigaciones Científicas y Técnicas (IDEVEA - CONICET), Universidad Tecnológica Nacional, Facultad Regional San Rafael, Centro Tecnológico Regional Los Reyunos, San Rafael, Mendoza, Argentina
Miguel A. Giardina
Affiliation:
Instituto de Evolución, Ecología Histórica y Ambiente - Consejo Nacional de Investigaciones Científicas y Técnicas (IDEVEA - CONICET), Universidad Tecnológica Nacional, Facultad Regional San Rafael, Centro Tecnológico Regional Los Reyunos, San Rafael, Mendoza, Argentina
Adolfo F. Gil
Affiliation:
Instituto de Evolución, Ecología Histórica y Ambiente - Consejo Nacional de Investigaciones Científicas y Técnicas (IDEVEA - CONICET), Universidad Tecnológica Nacional, Facultad Regional San Rafael, Centro Tecnológico Regional Los Reyunos, San Rafael, Mendoza, Argentina
Fernando R. Franchetti
Affiliation:
Universidad Nacional de Cuyo, Facultad de Filosofía y Letras, Mendoza, Argentina
*
([email protected], autor de contacto)

Abstract

El registro arqueológico de cazadores-recolectores localizado en ambientes de altura ha sido ampliamente debatido en la literatura mundial. Las discusiones se han centrado en su funcionalidad, cronología, complementariedad con ambientes bajos y significado en los procesos de poblamiento de distintas regiones. Los Andes meridionales cuentan con un amplio espacio cordillerano dentro del cual se emplazan una serie de sitios arqueológicos localizados a aproximadamente 3.000 m snm. Las duras condiciones climáticas de estos ambientes, así como la presencia de estructuras habitacionales, despertó el interés de los investigadores en relación con su funcionalidad, tiempo de permanencia y manejo de los recursos locales. En este trabajo se presenta la información zooarqueológica de cuatro sitios de altura localizados en un sector de los Andes meridionales, en el sur de la provincia de Mendoza, Argentina: El Indígeno, Los Peuquenes, Laguna del Diamante S-4 y Risco de los Indios. El material arqueofaunístico analizado es evaluado a la luz de las características ambientales, los costos de transporte y la funcionalidad de estas locaciones en relación con los circuitos de explotación anual. Los resultados muestran un uso de taxones restringido, con un fuerte énfasis en el guanaco, y un escaso transporte de fauna desde y hacia pisos ecológicos localizados a menor altitud. Todo esto sugiere el uso de los sitios de manera residencial y no como lugares de obtención de presas para su procesamiento y traslado hacia localizaciones más bajas.

The archaeological record of hunter-gatherers located in high-altitude environments has been widely debated in the world literature. Regarding the Andes, these discussions have focused on the accuracy of the chronologies of particular regions and their compatability with those of lower environments and how highland archaeology can shed light on to the processes of settlement of different regions. The southern Andes have a wide cordilleran area to the west, within which a series of archaeological sites are located at approximately 3,000 m asl. Despite the harsh climatic conditions of this region, it exhibits evidence of housing structures. This aroused our interest regarding the function of these structures, when they were occupied, and how the inhabitants of the region managed local resources. In this article, we present the zooarchaeological data from four high-altitude sites located in southern Andes, in southern Mendoza Province (Argentina). These sites are El Indígeno, Los Peuquenes, Laguna el Diamante S-4, and Risco de los Indios. We analyzed zooarchaeological material in light of the environmental characteristics, prey transport costs, and the functionality of these locations in relation to the annual mobility organization. The results show a restricted use of taxa, with a strong emphasis on guanaco consumption and a limited transport of fauna to and from ecological floors located at lower altitudes. All this suggests that the sites were permanent residences rather than temporary camps from which to obtain prey for processing and transfer to lower locations.

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Article
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Copyright © 2020 by the Society for American Archaeology

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References

Referencias Citadas

Abraham, María Elena 2000 Geomorfología de la provincia de Mendoza. En Recursos y problemas ambientales de zona árida, tomo I, editado por Abraham, María E. y Rodríguez Martínez, F., pp. 2948. IDIAZA, Mendoza, Argentina.Google Scholar
Aldenderfer, Mark 1998 Montane Foragers: Asana and the South-Central Andean Archaic. University of Iowa Press, Iowa City.CrossRefGoogle Scholar
Aldenderfer, Mark 2006 Modelling Plateau Peoples: The Early Human Use of the World's High Plateaux. World Archaeology 38:357370.CrossRefGoogle Scholar
Bárcena, Roberto 2001 Prehistoria del centro-oeste argentino. En Historia argentina prehispánica II, editado por Berberián, Eduardo y Nielsen, Axel, pp. 561634. Editorial Brujas, Córdoba.Google Scholar
Bayham, Frank 1986 Effects of a Sedentary Lifestyle on the Utilization of Animals in the Prehistoric Southwest. En Agriculture: Origins and Impacts of a Technological Revolution, editado por Cameron, Constance y Mershon-Spraker, Susan, pp. 5478. Occasional Papers of the Archaeological Research Facility 5. California State University, Fullerton.Google Scholar
Behrensmeyer, Anna K. 1978 Taphonomic and Ecological Information from Bone Weathering. Paleobiology 4:150162.CrossRefGoogle Scholar
Bender, Susan y Wright, Gary 1988 High-Altitude Occupations, Cultural Process, and High Plains Prehistory: Retrospect and Prospect. American Anthropologist 90:619639.CrossRefGoogle Scholar
Bettinger, Robert L. 1991 Aboriginal Occupation at High Altitude: Alpine Villages in the White Mountains of Eastern California. American Anthropologist 93:657679.CrossRefGoogle Scholar
Binford, Lewis R. 1978 Nunamiut Ethnoarchaeology. Academic Press, Nueva York.Google Scholar
Binford, Lewis R. 1980 Willow Smoke and Dogs’ Tails: Hunter-Gatherer Settlement Systems and Archaeological Site Formation. American Antiquity 45:420.CrossRefGoogle Scholar
Binford, Lewis R. 1982 The Archaeology of Place. Journal of Anthropological Archaeology 1:531.CrossRefGoogle Scholar
Borrero, Luis A. 1990 Fuego-Patagonian Bone Assemblages and the Problem of Communal Guanaco Hunting. En Hunters of the Recent Past, editado por Davis, Lewis B. y Reeves, Brian O. K., pp. 373399. Unwin Hyman, Londres.Google Scholar
Bronk Ramsey, Christopher 2009 Bayesian Analysis of Radiocarbon Dates. Radiocarbon 51:337360.CrossRefGoogle Scholar
Capriles, José M., Santoro, Calogero M. y Dillehay, Tom D. 2016 Harsh Environments and the Terminal Pleistocene Peopling of the Andean Highlands. Current Anthropology 57:99100.CrossRefGoogle Scholar
Cornejo, Luis 2017 Cazadores recolectores tardíos en Chile central: Una historia de continuidad y cambio. Tesis doctoral inédita, Facultad de Filosofía y Letras, Universidad Nacional de Cuyo, Mendoza, Argentina.Google Scholar
Cornejo, Luis y Sanhueza, Lorena 2003 Coexistencia de cazadores recolectores y horticultores tempranos en la cordillera andina de Chile central. Latin American Antiquity 14:389407CrossRefGoogle Scholar
Cornejo, Luis y Sanhueza, Lorena 2011 Caminos que cruzan la cordillera: El rol del paso del Maipo en la ocupación de la cordillera en Chile central. Revista Chilena de Antropología 23:101122.Google Scholar
Corte, Arturo 1977 El paleoclima de Cuyo: La situación actual y posibilidades climáticas. Memoria anual del Instituto Argentino de Nivología y Glaciología 3:103130.Google Scholar
De Nigris, Mariana E. y Goñalons, Guillermo M. Mengoni 2004 El guanaco como fuente de carne y grasas en Patagonia. En Contra viento y marea: Arqueología de la Patagonia, editado por Civalero, María T., Fernández, Pablo M. y Guráieb, Ana G., pp. 467476. Sociedad Argentina de Antropología, Buenos Aires.Google Scholar
Driver, Johnathan C. 1992 Identification, Classification and Zooarchaeology. Circaea 9:3547.Google Scholar
Durán, Victor, Cortegoso, Valeria, Barberena, Ramiro, Frigolé, Cecilia, Novellino, Paula, Lucero, Gustavo, Yebra, Lucia, Gasco, Aalejandra, Winocur, Diego, Benítez, Anahi y Knudson, Kelly 2018 “To and fro” the Southern Andean Highlands (Argentina and Chile): Archaeometric Insights on Geographic Vectors of Mobility. Journal of Archaeological Science: Reports 18:668678.CrossRefGoogle Scholar
Durán, Víctor, Gustavo, Neme, Valeria, Cortegoso y Gil, Adolfo 2006 Arqueología del Área Natural Protegida Laguna Diamante (Mendoza, Argentina). Anales de Arqueología y Etnología 61:91143.Google Scholar
Falabella, Fernanda, Cornejo, Luis, Sanhueza, Lorena e Correa, Itaci 2015 Trends in Thermoluminescence Date Distributions for the Angostura Micro Region in Central Chile. Quaternary International 356:2738.CrossRefGoogle Scholar
Fisher, Jacob y Goshen, Shannon 2018 Alpine Hunting and Selective Transportation of Bighorn Sheep in the White Mountains, California. Journal of California and Great Basin Anthropology 38:8799.Google Scholar
Gambier, Mariano 1988 La fase cultural Punta del Barro. Instituto de Investigaciones Arqueológicas y Museo, Universidad Nacional de San Juan, San Juan, Argentina.Google Scholar
Gasco, Alejandra 2018 Cazadores y pastores desde el 2000 aP en el límite sur del área andina: Estado de la cuestión y perspectivas futuras. Cuadernos del Instituto Nacional de Antropología y Pensamiento Latinoamericano 6(2):1538.Google Scholar
Giardina, Miguel A. 2010 El aprovechamiento de la avifauna entre las sociedades cazadoras-recolectoras del sur de Mendoza, un enfoque arqueozoológico. Tesis doctoral inédita, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, La Plata, Argentina.Google Scholar
Grayson, Donald 1991 Alpine Faunas from the White Mountains, California: Adaptive Change in the Late Prehistoric Great Basin? Journal of Archaeological Science 18:483506.CrossRefGoogle Scholar
Grayson, Donald 2014 Quantitative Zooarchaeology: Topics in the Analysis of Archaeological Faunas. Elsevier, Orlando, Florida.Google Scholar
Haas, Randall, Stefanescu, Ioana C., Garcia-Putnam, Alexander, Aldenderfer, Mark S., Clementz, Mark T., Murphy, Melissa S., Llave, Carlos Viviano y Watson, James T. 2017 Humans Permanently Occupied the Andean Highlands by at Least 7 ka. Royal Society Open Science 4:170331.CrossRefGoogle ScholarPubMed
Hogg, Alan G., Hua, Quan, Blackwell, Paul G., Niu, Mu, Buck, Caitlin E., Guilderson, Thomas P., Heaton, Timothy J., Palmer, Jonathan G., Reimer, Paula J., Reimer, Ron W., Turney, Christian S. M. y Zimmerman, Susan R. H. 2013 SHCal13 Southern Hemisphere Calibration, 0–50,000 Years cal BP. Radiocarbon 55:18891903.CrossRefGoogle Scholar
James, Steven 1990 Monitoring Archaeofaunal Changes During the Transition to Agriculture in the American Southwest. Kiva 56:2543.CrossRefGoogle Scholar
Kintingh, Keith 1989 Sample Size, Significance, and Measures of Diversity. En Quantifying Diversity in Archaeology, editado por Leonard, Robert D. y Jones, George T., pp. 2537. Cambridge University Press, Cambridge.Google Scholar
Lagiglia, Humberto 1997 Arqueología de cazadores-recolectores cordilleranos de altura. Ediciones Ciencia y Arte, San Rafael, Mendoza, Argentina.Google Scholar
Lagiglia, Humberto, Neme, Gustavo y Gil, Adolfo 1994 Informe de los trabajos de campo en el sitio “El Indígeno” (3ra campaña arqueológica, febrero de 1994). Actas del XI Congreso Nacional de Arqueología Argentina, tomo I, pp. 116118. San Rafael, Mendoza, Argentina.Google Scholar
L'Heureux, Gabriela Lorena 2010 Morfometría de camélidos sudamericanos modernos: La variabilidad morfológica y la diversidad taxonómica. En Zooarqueología a principios del siglo XXI: Aportes teóricos, metodológicos y casos de estudio, editado por Gutiérrez, María, Nigris, Mariana De, Fernández, Pablo M., Giardina, Miguel, Gil, Adolfo, Izeta, Andrés, Neme, Gustavo y Yacobaccio, Hugo, pp. 3949. Ediciones del Espinillo, Buenos Aires.Google Scholar
Lupo, Karen 2001 On the Archaeological Resolution of Body Part Transport Patterns: An Ethnoarchaeological Example from East African Hunter-gatherers. Journal of Anthropological Archaeology 20:361378.CrossRefGoogle Scholar
Lupo, Karen 2007 Evolutionary Foraging Models in Zooarchaeological Analysis: Recent Applications and Future Challenges. Journal of Archaeological Research 15:143189.CrossRefGoogle Scholar
Lyman, Robert Lee 1984 Bone Density and Differential Survivorship of Fossil Classes. Journal of Anthropological Archaeology 3:259299.CrossRefGoogle Scholar
Lyman, Robert Lee 1991 Taphonomic Problems with Archaeological Analyses of Animal Carcass Utilization and Transport. En Beamers, Bobwhites, and Blue-Points: Tributes to the Career of Paul W. Parmalee, editado por Purdue, James R. y Woodburn, Paul Parmalee, pp. 125138. Scientific Papers 23. Illinois State Museum, Springfield.Google Scholar
Lyman, Robert Lee 1994 Vertebrate Taphonomy. Cambridge University Press, Cambridge.CrossRefGoogle Scholar
Lyman, Robert Lee 2008 Quantitative Paleozoology. Cambridge Manuals in Archaeology. Cambridge University Press, Nueva York.CrossRefGoogle Scholar
Madsen, David, Scott, Thomas R. y Loosle, Byron 2000 Differential Transport Cost and High-Altitude Occupation Patterns in the Uinta Mountains, Northeastern Utah. En Intermountain Archaeology, editado por Madsen, David B. y Metcalf, Michael D., pp. 1524. University of Utah Press, Salt Lake City.Google Scholar
Marean, Curtis W. y Cleghorn, Naomi 2003 Large Mammal Skeletal Element Transport: Applying Foraging Theory in a Complex Taphonomic System. Journal of Taphonomy 1(1):1542.Google Scholar
Marean, Curtis W. y Frey, Carol 1997 Animal Bones from Caves to Cities: Reverse Utility Curves as Methodological Artifact. American Antiquity 62:698716.CrossRefGoogle Scholar
Mengoni Goñalons, Guillermo L. 1996 La domesticación de los camélidos sudamericanos y su anatomía económica. Zooarqueología de Camélidos 2:3345.Google Scholar
Mengoni Goñalons, Guillermo y Yacobaccio, Hugo D. 2006 The Domestication of South American Camelids: A View from the South-Central Andes. En Documenting Domestication: New Genetic and Archaeological Paradigms, editado por Zeder, Melinda A., Bradley, Daniel G., Emshwiller, Eve y Smith, Bruce D., pp 228244. University of California Press, Berkeley.Google Scholar
Metcalfe, Duncan y Jones, Kevin T. 1988 A Reconsideration of Animal Body-Part Utility Indices. American Antiquity 53:486504.CrossRefGoogle Scholar
Monahan, Christopher 1998 The Hadza Carcass Transport Debate Revisited and its Archaeological Implications. Journal of Archaeological Science 25:405424.CrossRefGoogle Scholar
Morgan, Christopher 2012 Modeling Modes of Hunter-Gatherer Food Storage. American Antiquity 77:714736.CrossRefGoogle Scholar
Morgan, Christopher, Fisher, John y Pomerleau, Monique 2012 High-Altitude Intensification and Settlement in Utah's Pahvant Range. Journal of California and Great Basin Anthropology 32:2745.Google Scholar
Morgan, Christopher, Neme, Gustavo, Sugrañes, Nuria, Salgan, Laura, Gil, Adolfo, Otaola, Clara, Giardina, Miguel y Llano, Carina 2017 Late Prehistoric High-Altitude Hunter-Gatherer Residential Occupations in the Argentine Southern Andes. Journal of Field Archaeology 42:214227.CrossRefGoogle Scholar
Morgan, Christopher, Webb, Dallin, Sprengeler, Kari, Black, Marielle (Pedro) y George, Nicole D. 2018 Experimental Construction of Hunter-Gatherer Residential Features, Mobility, and the Costs of Occupying “Persistent Places.” Journal of Archaeological Science 91:6576.CrossRefGoogle Scholar
Neme, Gustavo 2007 Cazadores-recolectores de altura en los Andes meridionales: El alto valle del Río Atuel, Argentina. BAR International Series 1591. Archaeopress, Oxford.Google Scholar
Neme, Gustavo 2016 El Indígeno and High-Altitude Human Occupation in the Southern Andes. Latin American Antiquity 27:96114.CrossRefGoogle Scholar
Neme, Gustavo y Gil, Adolfo 2002 La explotación faunística y la frecuencia de partes esqueletarias en el registro arqueológico del sur mendocino. En Entre montañas y desiertos: Arqueología del sur de Mendoza, editado por Gil, Adolfo y Neme, Gustavo, pp. 101118. Sociedad Argentina de Antropología, Buenos Aires.Google Scholar
Neme, Gustavo y Gil, Adolfo 2008 Faunal Exploitation and Agricultural Transitions in the South American Agricultural Limit. International Journal of Osteoarchaeology 18:293306.CrossRefGoogle Scholar
Neme, Gustavo, Gil, Adolfo, Otaola, Clara y Giardina, Miguel 2015 Resource Exploitation and Human Mobility: Trends in the Archaeofaunal and Isotopic Record from Central Western Argentina. International Journal of Osteoarchaeology 25:866876.CrossRefGoogle Scholar
Neme, Gustavo, Morgan, Christopher, Sugrañez, Nuria, Salgán, Laura, Gil, Adolfo, Otaola, Clara, Giardina, Miguel y Llano, Carina 2016 Risco de los Indios: Ocupaciones humanas de altura en la cuenca del Río Diamante. Relaciones de la Sociedad Argentina de Antropología 41(1):101130.Google Scholar
Novillo, Agustina y Ojeda, Ricardo A. 2014 Elevation Patterns in Rodent Diversity in the Dry Andes: Disentangling the Role of Environmental Factors. Journal of Mammalogy 95:99107.CrossRefGoogle Scholar
O'Connell, James, Hawkes, Kristen y Jones, Nicholas Blurton 1990 Reanalysis of Large Animal Body Part Transport among the Hadza. Journal of Archaeological Science 17:301316.CrossRefGoogle Scholar
Orians, Gordon y Pearson, Nolan 1979 On the Theory of Central Place Foraging. En Analysis of Ecological Systems, editado por Horn, David J., Stairs, Gordon R., Mitchell, Roger David, pp. 154177. Ohio State University Press, Columbus.Google Scholar
Osorio, Daniela, Capriles, José M., Ugalde, Paula C., Herrera, Katherine A., Sepúlveda, Marcela, Gayo, Eugenia M., Latorre, Claudio, Jackson, Donald, De Pol-Holz, Ricardo y Santoro, Calogero M. 2017 Hunter-Gatherer Mobility Strategies in the High Andes of Northern Chile during the Late Pleistocene-Early Holocene Transition (ca. 11,500–9500 cal BP). Journal of Field Archaeology 42:228240.CrossRefGoogle Scholar
Otaola, Clara 2013 Zooarqueología en la cordillera del sur de Mendoza: Un enfoque tafonómico. Tesis doctoral inédita, Facultad de Filosofía y Letras, Universidad de Buenos Aires, Buenos Aires.CrossRefGoogle Scholar
Otaola, Clara, Wolverton, Steve, Giardina, Miguel A. y Neme, Gustavo 2015 Geographic Scale and Zooarchaeological Analysis of Late Holocene Foraging Adaptations in Western Argentina. Journal of Archaeological Science 55:1625.CrossRefGoogle Scholar
Pianka, Erik 1982 Ecología evolutiva. Omega, Barcelona.Google Scholar
Planella, M. Teresa, Scherson, Rosa y McRostie, Virginia 2011 New Evidence on the Use of Initial Cultigens by the Hunter-Gatherer Groups of the Archaic IV Period at el Plomo, Alto Maipo, Central Chile. Chungara 43:189202.Google Scholar
Puig, Silvia, Rosia, María I., Videla, Fernando y Mendez, Eduardo 2011 Summer and Winter Diet of the Guanaco and Food Availability for a High Andean Migratory Population (Mendoza, Argentina). Mammalian Biology 76:727734.CrossRefGoogle Scholar
Puig, Silvia y Videla, Fernando 1995 Comportamiento y organización social del guanaco. En Técnicas para el manejo del guanaco, editado por Puig, Silvina, pp. 97118. UICN, Gland, Suiza.Google Scholar
Rademaker, Kurt, Hodgins, Gregory, Moore, Katherine, Zarrillo, Sonia, Miller, Christopher, Bromley, Gordon R. M., Leach, Peter, Reid, David, Álvarez, Willy Yépez y Sandweiss, Daniel H. 2014 Paleoindian Settlement of the High-Altitude Peruvian Andes. Science 346(6208):466469CrossRefGoogle ScholarPubMed
Rademaker, Kurt, Hodgins, Gregory, Moore, Katherine, Zarrillo, Sonia, Miller, Christopher, Bromley, Gordon R. M., Leach, Peter, Reid, David, Álvarez, Willy Yépez y Sandweiss, Daniel H. 2016 Cuncaicha Rockshelter, a Key Site for Understanding Colonization of the High Andes: Reply to Capriles et al. Current Anthropology 57:101103.CrossRefGoogle Scholar
Roig, Virgilio 1972 Esbozo general del poblamiento animal de la provincia de Mendoza. En Geología, geomorfología, climatología, fitogeografía y zoogeografía de la provincia de Mendoza, editado por Sociedad Argentina de Botánica, pp. 8188. Suplemento del volumen XIII de la Sociedad Argentina de Botánica, Mendoza, Argentina.Google Scholar
Sanhueza, Lorena, Vásquez, Mario y Falabella, Fernanda 2003 Las sociedades alfareras tempranas de la cuenca de Santiago. Chungara 35:2350.Google Scholar
Scharf, Elisabeth A. 2009 Foraging and Prehistoric Use of High Elevations in the Western Great Basin: Evidence from Seed Assemblages at Midway (CA-MNO-2196), California. Journal of California and Great Basin Anthropology 29:1128.Google Scholar
Stahl, Peter W. 1999 Structural Density of Domesticated South America Camelid Skeletal Elements and the Archaeological Investigation of Prehistoric Andean Ch´arki. Journal of Archaeological Science 26:13471368.CrossRefGoogle Scholar
Stuiver, Minze y Polach, Henry 1977 Discussion Reporting of 14 C data. Radiocarbon 19:355363.CrossRefGoogle Scholar
Volkheimer, Wolfgang 1978 Descripción geológica de la hoja 27b, Cerro El Sosneado. Carta geológico-económica de la República Argentina. Escala 1:200.000. Servicio Geológico Nacional, Ministerio de Economía, Buenos Aires.Google Scholar
Walsh, Kevin, Richer, Suzi y de Beaulieu, Jacques-Louis 2006 Attitudes to Altitude: Changing Meanings and Perceptions within a “Marginal” Alpine Landscape—The Integration of Paleoecological and Archaeological Data in a High-Altitude Landscape in the French Alps. World Archaeology 38:436454.CrossRefGoogle Scholar
Wolverton, Steve 2008 Harvest Pressure and Environmental Carrying Capacity: An Ordinal-Scale Model of Effects on Ungulate Prey. American Antiquity 73:179199.CrossRefGoogle Scholar
Wolverton, Steve 2013 Data Quality in Zooarchaeological Faunal Identification. Journal of Archaeological Method and Theory 20:381396.CrossRefGoogle Scholar
Wolverton, Steve, Otaola, Clara, Neme, Gustavo, Giardina, Miguel y Gil, Adolfo 2015 Patch Choice, Landscape Ecology, and Foraging Efficiency: The Zooarchaeology of Late Holocene Foragers in Western Argentina. Journal of Ethnobiology 35:499518.CrossRefGoogle Scholar
Yacobaccio, Hugo 2010 Osteometría de llamas (Lama glama L.) y sus consecuencias arqueológicas. En Zooarqueología del siglo XXI, editado por Gutiérrez, María, Nigris, Mariana De, Fernández, Pablo M., Giardina, Miguel, Gil, Adolfo, Izeta, Andrés, Neme, Gustavo y Yacobaccio, Hugo, pp. 3949.Ediciones del Espinillo, Buenos Aires.Google Scholar
Yacobaccio, Hugo 2017 Peopling of the High Andes of Northwestern Argentina. Quaternary International 461:3440.CrossRefGoogle Scholar
Zeanah, David W. 2000 Transport Costs, Central Place Foraging, and Hunter-Gatherer Alpine Land Use Strategies. En Intermountain Archaeology, editado por Madsen, David B. y Metcalfe, Michael D., pp. 114. University of Utah Anthropological Papers No. 122. University of Utah Press, Salt Lake City.Google Scholar
Zeder, Melinda 2006 Archaeological Approaches to Documenting Animal Domestication. En Documenting Domestication: New Genetic and Archaeological Paradigms, editado por Zeder, Melinda, Bradley, Daniel G., Emshwiller, Eve y Smith, Bruce D., pp. 171180. University of California Press, Berkley.Google Scholar
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