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Past human populations and landscapes in the Fuegian Archipelago, southernmost South America

Published online by Cambridge University Press:  01 April 2019

Ivana Laura Ozán  and
María Cecilia Pallo
Ivana Laura Ozán*
Affiliation:
Consejo Nacional de Investigaciones Científicas y Técnicas–Universidad de Buenos Aires, Instituto de Geociencias Básicas, Aplicadas y Ambientales de Buenos Aires, Buenos Aires, Argentina
María Cecilia Pallo
Affiliation:
Consejo Nacional de Investigaciones Científicas y Técnicas–Instituto Patagónico de Ciencias Sociales y Humanas, Centro Nacional Patagónico, Facultad de Filosofía y Letras, Universidad de Buenos Aires, Universidad de Buenos Aires, Puerto Madryn, Argentina
*
*Corresponding author e-mail address: ivanalozan@gmail.com
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Abstract

This contribution discusses possible relationships between human populations and Holocene environmental deterioration phenomena (cold/arid pulses and volcanic eruptions) in the Fuegian Archipelago (South America), based on summed probability distributions of archaeological dates, paleoenvironmental information, geospatial data, and archaeological evidence. During the first millennia after peopling, only the Hudson (ca. 7700 cal yr BP) and the first Monte Burney (ca. 8600 cal yr BP) eruptions might have played a role in human dispersion. Particularly, a more intense human occupation around the Beagle Channel and long-distance interactions are proposed as risk-buffer strategies related to the Hudson eruption. A cooling phase and a demographic growth at ca. 5500 cal yr BP might have favored more dispersed spatial occupations and a subsistence diversification in the Beagle Channel. In the northern steppes, the second Monte Burney eruption (ca. 4300 cal yr BP) and an arid episode (ca. 2600 cal yr BP) are proposed as the main triggers for changes in land-use patterns, long-network interactions, and subsistence strategies. Even though occupation changes in the Fuegian Archipelago coexist with environmental deterioration episodes after 1500 cal yr BP, demographic processes and the European colonization most likely explain this trend. Similarities between the steppe/ecotone and forest occupation curves suggest common behavioral patterns across the Holocene.

Keywords

Fuegian ArchipelagoHoloceneForestSteppe/ecotoneEnvironment deteriorationArchaeologyHunter-gatherersRisk-buffer strategies
Type
Research Article
Information
Quaternary Research , Volume 92 , Issue 2 , September 2019 , pp. 304 - 322
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2019 

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References

REFERENCES

Álvarez, M., 2004. Estrategias tecnológicas en los grupos canoeros tempranos del área fuego-patagónica. Magallania 32, 191223.Google Scholar
Álvarez, M., 2009. Tendencias y cambios en las prácticas tecnológicas de los grupos cazadores-recolectores del extremo sur sudamericano. In: Salemme, M., Santiago, F., Álvarez, M., Piana, E., Vázquez, M., Mansur, M. (Eds.), Arqueología de la Patagonia. Una mirada desde el último confín. Editorial Utopías, Ushuaia, Argentina, pp. 1933.Google Scholar
Anselmetti, F.S., Ariztegui, D., Batist, M.D., Gebhardt, A.C., Haberzettl, T., Niessen, F., Ohlendorf, C., Zolitschka, B., 2009. Environmental history of southern Patagonia unravelled by the seismic stratigraphy of Laguna Potrok Aike. Sedimentology 56, 873892.Google Scholar
Aravena, J.C., 2007. Reconstructing Climate Variability Using Tree Rings and Glacier Fluctuations in the Southern Chilean Andes. PhD thesis, University of Western Ontario, London, Canada.Google Scholar
Ariztegui, D., Anselmetti, F., Gilli, S., Waldmann, N., 2008. Late Pleistocene environmental change in Eastern Patagonia and Tierra del Fuego: a limnogeological approach. Developments in Quaternary Sciences 11, 241253.Google Scholar
Attenbrow, V., Hiscock, P., 2015. Dates and demography: are radiometric dates a robust proxy for long-term prehistoric demographic change? Archaeology in Oceania 50, 2935.Google Scholar
Bailey, G., Milner, N., 2002. Coastal hunter-gatherers and social evolution: marginal or central? Before Farming 2002 (1), 122.Google Scholar
Barberena, R., 2004. Arqueología e isótopos estables en Tierra del Fuego. In: Borrero, L.A., Barberena, R. (Eds.), Temas de Arqueología. Arqueología del Norte de la Isla Grande de Tierra del Fuego. Editorial Dunken, Buenos Aires, pp. 135169.Google Scholar
Barberena, R., 2008. Arqueología y Biogeografía Humana en Patagonia Meridional. Sociedad Argentina de Antropología, Buenos Aires.Google Scholar
Barberena, R., Méndez, C., de Porras, M.E., 2017. Zooming out from archaeological discontinuities: the meaning of mid-Holocene temporal troughs in South American deserts. Journal of Anthropological Archaeology 46, 6881.Google Scholar
Baxter, M.J., Beardah, C., 1995. Graphical Presentation of Results from Principal Components Analysis. In: Huggett, J., Ryan, N. (Eds.), Computer Applications and Quantitative Methods in Archaeology 1994. British Archaeological Reports, International Series 600, Archaeopress, Oxford, pp. 6367.Google Scholar
Baxter, M., Beardah, C., Wright, R., 1997. Some archaeological applications of KDE. Journal of Archaeological Sciences 24, 347354.Google Scholar
Bentley, M.J., Sugden, D.E., Hulton, N.R.J., McCulloch, R.D., 2005. The landforms and pattern of deglaciation in the Strait of Magellan and Bahia Inu´Til, southernmost South America. Geografiska Annaler, series A 87A, 313333.Google Scholar
Berkes, F., Folke, C., Colding, J., 2000. Linking Social and Ecological Systems: Management Practices and Social Mechanisms for Building Resilience. Cambridge University Press, Cambridge.Google Scholar
Björck, S., Rundgren, M., Ljung, K., Unkel, I., Wallin, A., 2012. Multi-proxy analysis of a peat bog on Isla de los Estados, easternmost Tierra del Fuego: a unique record of the variable Southern Hemisphere Westerlies since the last deglaciation. Quaternary Science Reviews 42, 114.Google Scholar
Borella, F., 2004. Tafonomía Regional y Estudios Arqueofaunísticos de cetáceos en Tierra del Fuego y Patagonia Meridional. BAR Reports 1257. Archeopress, Oxford.Google Scholar
Borrazzo, K., 2009. El uso prehistórico de los afloramientos terciarios en la bahía San Sebastián (Tierra del Fuego, Argentina. In: Salemme, M., Santiago, F., Álvarez, M., Piana, E., Vázquez, M., Mansur, M. (Eds.), Arqueología de la Patagonia. Una mirada desde el último confín. Editorial Utopías, Ushuaia, Argentina, pp. 291305.Google Scholar
Borrazzo, K., 2010. Arqueología de los esteparios fueguinos. Tecnología y tafonomía lítica en el norte de Tierra del Fuego, Argentina. PhD thesis, Universidad de Buenos Aires, Buenos Aires.Google Scholar
Borrazzo, K., Borrero, L.A., Pallo, M.C., 2019. Exploring lithic transport in Tierra del Fuego (Southern South America). Journal of Archaeological Science: Reports 24, 220230.Google Scholar
Borrazzo, K., Martin, F., Barberena, R., Borrero, L.A. 2008. Geografía cultural y circulación humana en el norte de Tierra del Fuego. In: Borrero, L.A., Franco, N. (Eds.), Arqueología del extremo sur del continente americano. CONICET-IMHICIHU, Buenos Aires, pp. 227249.Google Scholar
Borrazzo, K., Morello, F., Borrero, L.A., D'Orazio, M., Etchichury, M.C., Massone, M., De Ángelis, H., 2015. Caracterización y uso de las materias primas líticas de Chorrillo Miraflores en el extremo meridional de Fuego-Patagonia. Intersecciones 16, 155167.Google Scholar
Borrero, L.A., 1994/95. Arqueología de la Patagonia. Palimpsesto. Arqueología 4, 969.Google Scholar
Borrero, L.A., 1999. The prehistoric exploration and colonization of Fuego-Patagonia. Journal of World Prehistory 13, 321355.Google Scholar
Borrero, L.A., 2001. El poblamiento de la Patagonia. Toldo, milodones y volcanes. Emecé Editores, Buenos Aires.Google Scholar
Borrero, L.A., 2003. Taphonomy of the Tres Arroyos 1 Rockshelter, Tierra del Fuego, Chile. Quaternary International 109–110:8793.Google Scholar
Borrero, L.A., 2004. The Archaeozoology of Andean ‘Dead Ends’ in Patagonia: Living near the Continental Ice Cap. In: Mondini, M., Muñoz, S., Wickler, S. (Eds.), Colonisation, Migration and Marginal Areas. A Zooarchaeological approach. Oakville, Oxbow Books, pp. 5561.Google Scholar
Borrero, L.A., 2008. Early occupations in the Southern Cone. In: Silverman, H., Isbell, W. (Eds.), Handbook of South American Archaeology. Springer, New York, pp. 5977.Google Scholar
Borrero, L.A., 2013. Paisajes desconocidos, geografía cultural y tafonomía total. Anuario de Arqueología 5, 1730.Google Scholar
Borrero, L. A., Martin, F., 2012. Ground Sloths and Humans in Southern Fuego-Patagonia: Taphonomy and Archaeology. World Archaeology 44, 102117.Google Scholar
Borrero, L.A., Martin, F., Barberena, R., 2011. Visits, “Fuegians,” and information networks. In: Whallon, R., Lovis, W., Hitchcock, R. (Eds.), Information and Its Role in Hunter-Gatherer Bands. University of California Press, Los Angeles, pp. 249269.Google Scholar
Borrero, L.A., Martin, F., Horwitz, V., Franco, N., Favier Dubois, C., Carballo Marina, F., Belardi, J.B., et al. , 2008. Arqueología de la costa norte de Tierra del Fuego. In: Cruz, I., Caracotche, S., Senatore, X., Ladrón de Guevara, B. (Eds.), Arqueología de la costa patagónica. Universidad Nacional de la Patagonia Austral, Río Gallegos, pp. 250264.Google Scholar
Borromei, A.M., Candelb, M.S., Musotto, L.L., Cusminsky, G., Martínez, M.A., Coviaga, C.A., Ponceb, J.F., Coronato, A., 2018. Late Holocene wet/dry intervals from Fuegian steppe at Laguna Carmen, southern Argentina, based on a multiproxy record. Palaeogeography, Palaeoclimatology, Palaeoecology 499, 5671.Google Scholar
Borromei, A.M., Coronato, A., Franzén, L.G., Ponce, J.F., López Sáez, J.A., Maidana, N., Rabassa, J., Candel, M.A., 2010. Multiproxy record of Holocene paleoenvironmental change, Tierra del Fuego, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology 286, 116.Google Scholar
Bousman, C., 1993. Hunter-gatherer adaptations, economic risk and tool design. Lithic Technology 18, 5986.Google Scholar
Bousman, C., 2005. Coping with risk: later Stone Age technological strategies at Blydefontein Rock Shelter, South Africa. Journal of Anthropological Archaeology 24, 193226.Google Scholar
Bronk Ramsey, C., 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51, 337360.Google Scholar
Campagna, C., Le Boeuf, L., 1988. Thermoregulatory behaviour of southern sea lions and its effect on mating strategies. Behaviour 107, 7290.Google Scholar
Candel, M.S., Borromei, A.M., Louwye, S., 2018. Early to middle Holocene palaeoenvironmental reconstruction of the Beagle Channel (southernmost Argentina) based on terrestrial and marine palynomorphs. Boreas 47, 10721083.Google Scholar
Casdam, E., 1990. Risk and Uncertainty in Tribal and Peasant Economies. Westview, Boulder, CO.Google Scholar
Coronato, A., 2014. Territorios fueguinos: fisonomía, origen, evolución. In: Oría, J., Tívoli, A. (Eds.), Cazadores de mar y de tierra, Estudios recientes en arqueología fueguina. Museo del fin del mundo, Ushuaia, Argentina, pp. 4363.Google Scholar
Coronato, A., Coronato, F., Mazzoni, E., Vázquez, M., 2008. The physical geography of Patagonia and Tierra del Fuego. In: Rabassa, J. (Ed.), Late Cenozoic of Patagonia and Tierra del Fuego. Developments in Quaternary Sciences. Elsevier, Amsterdam, pp. 1355.Google Scholar
Coronato, A., Fanning, P., Salemme, M., Oría, J., Pickard, J., Ponce, J.F., 2011. Aeolian sequence and the archaeological record in the Fuegian steppe, Argentina. Quaternary International 245, 122135.Google Scholar
Coronato, A., Seppala, M., Ponce, J.F., Rabassa, J., 2009. Glacial geomorphology of the Pleistocene Lake Fagnano ice lobe, Tierra del Fuego, southern South America. Geomorphology 112, 6781.Google Scholar
Coronato, F., Bisigato, A., 1998. A temperature pattern classification in Patagonia. International Journal of Climatology 18, 765773.Google Scholar
Cressie, N.A.C., 1991. Statistics for Spatial Data. Wiley, New York.Google Scholar
Darlington, P.J., 1978. Biogeography of the Southern End of the World. Distribution and History of Far-Southern Life and Land, with an Assessment of Continental Drift. Harvard University Press, Cambridge, MA.Google Scholar
Diggle, P.J., 2003. Statistical Analysis of Spatial Point Patterns. Arnold, London.Google Scholar
Dincauze, D., 2000. Environmental Archaeology. Principles and Practices. Cambridge University Press, Cambridge.Google Scholar
Dixon, P., 2002. Ripley's K function. In: El-Shaarawi, A.H., Piegorsch, W.W. (Eds.), Encyclopedia of Environmetrics. Vol. 3. Wiley, Chichester, UK, pp. 17961803.Google Scholar
Durán, V., Winocur, D., Stern, C., Garvey, R., Barberena, R., Peña Monné, J.L., Benítez, A., 2016. Impacto del volcanismo y glaciarismo holocénicos en el poblamiento humano de la cordillera sur de Mendoza (Argentina): una perspectiva geoarqueológica. Intersecciones en antropología 17, 3346.Google Scholar
Fernández, M., 2013. Los paleoambientes de Patagonia meridional, Tierra del Fuego e Isla de los Estados en los tiempos de las primeras ocupaciones humanas. Estudio basado en el análisis de diatomeas. PhD thesis, Universidad Nacional de la Plata, La Plata, Argentina.Google Scholar
Fernández, M., Ponce, J.F., Zangrando, F.J., Borromei, A.M., Mussotto, L.L., Alunni, D., Vázquez, M., 2018. Relationships between terrestrial animal exploitation, marine hunter gatherers and palaeoenvironmental conditions during the Middle–Late Holocene in the Beagle Channel region (Tierra del Fuego). Quaternary International (in press). https://doi.org/10.1016/j.quaint.2018.05.032.Google Scholar
Foley, S.F., Gronenborn, D., Andreae, M., Kadereit, J., Esper, J., Scholz, D., Crutzen, P., 2013. The Palaeoanthropocene, the beginnings of anthropogenic environmental change. Anthropocene 3, 8388.Google Scholar
Fontijn, K., Lachowycz, S.M., Rawson, H., Pyle, D.M., Mather, T.A., Naranjo, J.A., Moreno-Roa, H., 2014. Late Quaternary tephrostratigraphy of southern Chile and Argentina. Quaternary Science Reviews 89, 7084.Google Scholar
Gamble, C., Davies, W., Pettitt, P., Hazelwood, L., Richards, M., 2005. The archaeological and genetic foundations of the European population during the Late Glacial: implications for “agricultural thinking.” Cambridge Archaeological Journal 15, 193223.Google Scholar
Garreaud, R.D., Vuille, M., Compagnucci, R., Marengoaud, J., 2009. Present-day South American climate. Palaeogeography, Palaeoclimatology, Palaeoecology 281, 180195.Google Scholar
Grosjean, M., Cartajena, I., Geyh, M., Nuñez, L., 2003. From proxy data to paleoclimate interpretation: the mid-Holocene paradox of the Atacama Desert, northern Chile From proxy data to paleoclimate interpretation: the mid-Holocene paradox of the Atacama Desert, northern Chile. Palaeogeography, Palaeoclimatology, Palaeoecology 194, 247258.Google Scholar
Grosjean, M., Santoro, C., Thompson, L., Nuñez, L., Stander, V., 2007. Mid-Holocene climate and culture change in the South Central Andes. In: Anderson, D., Maasch, K., Sandweiss, D. (Eds.), Climate Change and Cultural Dynamics: A Global Perspective on Mid-Holocene Transitions. Elsvier, Amsterdam, pp. 51115.Google Scholar
Guisinde, M. 1982. Los indios de Tierra del Fuego. Vol. 1 (2), Los Selk´nam. Centro Argentino de Etnología Americana and CONICET, Buenos Aires.Google Scholar
Haberzettl, T., Fey, M., Lucke, A., Maidana, N., Mayr, C., Ohlendorf, C., Schäbitz, F., Schleser, G., Wille, M., Zolitschka, B., 2005. Climatically induced lake level changes during the last two millennia as reflected in sediments of Laguna Potrok Aike, southern Patagonia (Santa Cruz, Argentina). Journal of Paleolimnology 33, 283302.Google Scholar
Haberzettl, T., Corbella, H., Fey, M., Janssen, S., Lücke, A., Mayr, C.; Ohlendorf, C., et al. , 2007. Lateglacial and Holocene wet–dry cycles in southern Patagonia: chronology, sedimentology and geochemistry of a lacustrine record from Laguna Potrok Aike, Argentina. The Holocene 17, 297310.Google Scholar
Haberzettl, T., Kücka, B., Wulf, S., Anselmetti, F., Ariztegui, D., Corbella, H., Fey, M., et al. , 2008. Hydrological variability in southeastern Patagonia and explosive volcanic activity in the southern Andean Cordillera during Oxygen Isotope Stage 3 and the Holocene inferred from lake sediments of Laguna Potrok Aike, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology 259, 213229.Google Scholar
Haberzettl, T., Anselmetti, F., Bowen, S., Fey, M., Mayr, C., Zolitschka, B., Ariztegui, D., et al. 2009. Late Pleistocene dust deposition in the Patagonian steppe—extending and refining the paleoenvironmental and tephrochronological record from Laguna Potrok Aike back to 55 ka. Quaternary Science Reviews 28, 29272939.Google Scholar
Hammer, Ø., 1999-2017. Paleontological Statistics v. 3.15. Reference Manual. Natural History Museum, University of Oslo, Oslo.Google Scholar
Hahn, A., Kliem, P., Ohlendorf, C., Zolitschka, B., Rosén, P., PASADO Science Team, 2013. Climate induced changes as registered in inorganic and organic sediment components from Laguna Potrok Aike (Argentina) during the past 51 ka. Quaternary Science Reviews 7, 154166.Google Scholar
Hahn, A., Kliem, P., Ohlendorf, C., Zolitschka, B., Rosén, P., PASADO Science Team, 2014. Elemental composition of the Laguna Potrok Aike sediment sequence reveals paleoclimatic changes over the past 51 ka in southern Patagonia, Argentina. Journal of Paleolimnology 52, 349366.Google Scholar
Hall, B., Porter, C., Denton, G., Lowell, T., Bromley, G., 2013. Extensive recession of Cordillera Darwin glaciers in southernmost South America during Heinrich Stadial 1. Quaternary Science Reviews 62, 4955.Google Scholar
Halstead, P., O'Shea, J. (Eds.), 1989. Bad Year Economics: Cultural Responses to Risk and Uncertainty. Cambridge University Press, Cambridge.Google Scholar
Hawkins, A.L., Stewart, S.T., Banning, E.B., 2003. Interobserver bias in enumerated data from archaeological survey. Journal of Archaeological Sciences 30, 15031512.Google Scholar
Heusser, C.J., 1993. Late Quaternary forest-steppe contact zone, Isla Grande de Tierras del Fuego, subantarctic South America. Quaternary Science Reviews 12, 169178.Google Scholar
Hogg, A., Hua, Q., Blackwell, P., Niu, M., Buck, C., Guilderson, T., Heaton, T., et al. , 2013. SHCal13 Southern Hemisphere Calibration, 0–50,000 Years cal BP. Radiocarbon 55, 18891903.Google Scholar
Holdaway, S., Fanning, P., Jones, M., Shiner, J., 2002. Variability in the chronology of late Holocene Aboriginal occupation on the arid margin of southeastern Australia. Journal of Archaeological Sciences 29, 351363.Google Scholar
Holdaway, S., Fanning, P., Rhodes, , Marx, S., Floyd, B., Douglass, M., 2010. Human response to palaeoenvironmental change and the question of temporal scale. Palaeogeography, Palaeoclimatology, Palaeoecology 292, 192200.Google Scholar
Holdaway, S., Porch, N., 1995. Cyclical patterns in the Pleistocene human occupation of southwest Tasmania. Archaeology in Oceania 30, 7482.Google Scholar
Inbar, M., Ostera, H.A., Parica, C.A., Remesal, M.B., Salani, F.M., 1995. Environmental assessment of 1991 Hudson volcano eruption ashfall effects on southern Patagonia region, Argentina. Environmental Geology 25, 119125.Google Scholar
Irurzun, M.A, Gogorza, C.S.G., Sinito, A.M, Chaparro, M.A.E., Prieto, A., Laprida, C., Lirio, J. M., Navas, A.M., Nuñez, H., 2014. A high-resolution palaeoclimate record for the last 4800 years from lake La Brava, SE Pampas plains, Argentina. Geofãsica Internacional 53, 365383.Google Scholar
Jones, T., Schwitalla, A., 2008. Archaeological perspectives on the effects of medieval drought in prehistoric California. Quaternary International 188, 4158.Google Scholar
Jouve, G., Francus, P., Lamoureux, S., Provencher-Nolet, L., Hahn, A., Haberzettl, T., Fortin, D., Nuttin, L., 2013. Microsedimentological characterization using image analysis and XRF as indicators of sedimentary processes and climate changes during Late Glacial at Laguna Potrok Aike, Santa Cruz, Argentina. Quaternary Science Reviews 71, 191204.Google Scholar
Kaplan, M., Fogwill, C., Sugden, D., Hulton, N., Kubik, P., Freeman, S., 2008. Southern Patagonian glacial chronology for the Last Glacial period and implications for Southern Ocean climate. Quaternary Science Reviews 27, 284294.Google Scholar
Kilian, R., Biester, H., Behrmann, J., Baeza, O., Fesq-Martin, M., Hohner, M., Schimpf, D., Friedmann, A., Mangini, A., 2006. Millennium-scale volcanic impact on a superhumid and pristine ecosystem. Geology 34, 609612.Google Scholar
Kilian, R., Hohner, H., Biester, C., Wallrabe-Adams, C., Stern, C., 2003. Holocene peat and lake sediment tephra record from the southernmost Andes (53°–55°S). Revista Geológica de Chile 30, 4764.Google Scholar
Kinahan, J., 2016. Human responses to climatic variation in the Namib Desert during the last 1000 years. African Archaeological Review 33, 183203.Google Scholar
Kliem, P., Buylaert, J.P., Hahn, A., Mayr, A., Ohlendorf, C., Wastegård, S., Zolitschka, B., PASADO science team, 2013. Laguna Potrok Aike: range and effects of lake level oscillations in the Patagonian steppe. Quaternary Science Reviews 71, 131146.Google Scholar
Koch, J., Kilian, R., 2005. “Little Ice Age” glacier fluctuations, Gran Campo Nevado, southernmost Chile. The Holocene 15, 2028.Google Scholar
Kuylenstierna, J., Rosqvist, G., Holmlund, P., 1996. Late-Holocene glacier variations in the Cordillera Darwin, Tierra del Fuego, Chile. The Holocene 6, 353358.Google Scholar
Labarca, R., Prieto, A., Sierpe, V., Morano, C., 2014. Ocupaciones e intercambio en las islas orientales del estrecho de Magallanes: resultados preliminares. Poster presented at the IX Jornadas de Arqueología de la Patagonia, October 21th to 25th, Coyhaique, Chile.Google Scholar
Legoupil, D., 1993/94. Prospección en el archipiélago del Cabo de Hornos y la costa sur de la isla Navarino: poblamiento y modelos económicos. Anales del Instituto de la Patagonia 22, 101121.Google Scholar
Legoupil, D., 2003. Cazadores-recolectores de Ponsonby (Patagonia austral) y su paleoambiente desde VI al III milenio A.C. Special issue, Magallania 31..Google Scholar
Legoupil, D., Christensen, M., Morello, F., 2011. Una encrucijada de caminos: el poblamiento de la isla Dawson (estrecho de Magallanes). Magallania 39, 137152.Google Scholar
Mancini, M.V., Paez, M.M., Prieto, A.R., Stutz, S., Tonello, M., Vilanova, I., 2005. Mid-Holocene climatic variability reconstruction from pollen records (32°−52°S, Argentina). Quaternary International 132, 4759.Google Scholar
Mansilla, C.A., McCulloch, R.D., Morello, F., 2016. Palaeoenvironmental change in southern Patagonia during the lateglacial and Holocene: implications for forest refugia and climate reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology 447, 111.Google Scholar
Martin, F., Borrero, L.A., 2017. Climate change, availability of territory, and Late Pleistocene human exploration of Ultima Esperanza, South Chile. Quaternary International 428, 8695.Google Scholar
Massaferro, J., Recasens, C., Larocque-Tobler, I., Maidana, N., 2013. Major lake level fluctuations and climate changes for the past 16,000 years as reflected by diatoms and chironomids preserved in the sediments of Laguna Potrok Aike, southern Patagonia. Quaternary Science Reviews 71, 167174.Google Scholar
Massone, M., 2004. Los cazadores después del hielo. Dirección de Bibliotecas, Archivos y Museos, Santiago, Chile.Google Scholar
Massone, M., Jackson, D., Prieto, A., 1993. Perspectiva Arqueológica de los Selk'nam. Centro Diego Barros Arana, Santiago, Chile.Google Scholar
Massone, M., Morello, F., 2007. Los cetáceos en el mundo Selk´nam: una evaluación arqueológica. In: Morello, M., Martinic, M., Prieto, A., Bahamonde, G. (Eds.), Arqueología de Fuego-Patagonia: levantando piedras, desenterrando huesos… y develando arcanos. Ediciones CeQua, Punta Arenas, Chile, pp. 709721.Google Scholar
Massone, M., Torres, J., 2004. Pesas, peces y restos de cetáceos en el campamento de Punta Catalina 3 (2.300 años AP). Magallania 32, 143161.Google Scholar
Mauquoy, D., Blaauw, M., van Geel, B., Borromei, A., Quattocchio, M., Chambers, F., Possnert, G., 2004. Late Holocene climatic changes in Tierra del Fuego based on multiproxy analyses of peat deposits. Quaternary Research 61, 148158.Google Scholar
McCulloch, R., Bentley, M., Tipping, R., Clapperton, C., 2005. Evidence for late-glacial ice dammed lakes in the central Strait of Magellan, southern Chile. Geografiska Annaler 87, 335362.Google Scholar
McCulloch, R., Clapperton, C., Rabassa, J., Currant, A., 1997. The natural setting. The glacial and post-glacial environmental history of Fuego-Patagonia. In: Mc Ewan, C., Borrero, L.A., Prieto, A. (Eds.), Patagonia. British Museum Press, London, pp. 1231.Google Scholar
McCulloch, R., Davies, S., 2001. Late-glacial and Holocene paleoenvironmental change in the central Strait of Magellan, southern Patagonia. Palaeogeography, Palaeoclimatology, Palaeoecology 173, 143173.Google Scholar
McCulloch, R., Morello, F., 2009. Evidencia glacial y paleoecología de ambientes tardiglaciales y del Holoceno temprano. Implicaciones para el poblamiento temprano de Tierra del Fuego. In: Salemme, M., Santiago, F., Álvarez, M., Piana, E., Vázquez, M., Mansur, M. (Eds.), Arqueología de la Patagonia. Una mirada desde el último confín. Editorial Utopías, Ushuaia, Argentina, pp. 119139.Google Scholar
Méndez, C., Gil, A., Neme, N., Nuevo Delaunay, A., Cortegoso, V., Huidobro, C., Durán, V., Maldonado, A., 2014. Mid-Holocene radiocarbon ages in the Subtropical Andes (~29°35′S), climatic change and implications for human space organization. Quaternary International 356, 112.Google Scholar
Menounos, B., Clague, J., Osborn, G., Davis, T., Ponce, F., Goehring, B., Maurer, M., Rabassa, J., Coronato, A., Marr, R., 2013. Latest Pleistocene and Holocene glacier fluctuations in southernmost Tierra del Fuego, Argentina. Quaternary Science Reviews 77, 7079.Google Scholar
Michczynski, A., Michczynska, D., 2006. The effect of PDF peaks’ height increase during calibration of radiocarbon date sets. Geochronometria 25, 14.Google Scholar
Mitchell, P.J., 2017. Discontinuities in hunter-gatherer prehistory in southern African drylands. Journal of Anthropological Archaeology 46, 4052.Google Scholar
Morales, M., Barberena, R., Belardi, J.B., Borrero, L.A., Cortegoso, V., Durán, V., Guierci, A., Goñi, R., Neme, G., Yacobaccio, H., Zárate, M., 2009. Reviewing human–environment interactions in arid regions of southern South America during the past 3000 years. Palaeogeography, Palaeoclimatology, Palaeoecology 281, 283295.Google Scholar
Moreno, P.I., Vilanova, I., Villa-Martínez, R., Garreaud, R.D., Rojas, M., De Pol-Holz, R., 2014. Southern annular mode-like changes in southwestern Patagonia at centennial timescales over the last three millennia. Nature Communications 5, 4375.Google Scholar
Morello, F., Borrero, L.A., Torres, J., Massone, M., Arroyo, M., McCulloch, R., Calás, E., Lucero, M., Martínez, I., Bahamonde, G., 2009. Evaluando el registro arqueológico de Tierra el Fuego durante el Holoceno temprano y medio: lo positivo de los balances negativos. In: Salemme, M., Santiago, F., Álvarez, M., Piana, E., Vázquez, M., Mansur, M. (Eds.), Arqueología de Patagonia: Una mirada desde el último confín. Editorial Utopías, Ushuaia, Argentina, pp. 10751092.Google Scholar
Morello, F., Borrero, L.A., Massone, M., Stern, C., Garcia-Herbst, A; McCulloch, R; Arroyo-Kalin, M., et al. , 2012. Hunter-gatherers, biogeographic barriers and the development of human settlement in Tierra del Fuego. Antiquity 86, 7187.Google Scholar
Morello, F., Massone, M., Martin, F., Alfonso-Durruty, M., San Román, M., 2015c. Archaeology of Fueguian Islands: Tierra del Fuego, Dawson and Navarino, human settlement and cultural interaction (Patagonia, Chile). Poster presented at the 80th SAA Meeting, April 15th to 19th, San Francisco, EEUU.Google Scholar
Morello, F., Massone, M., Martin, F., McCulloch, R., Borrero, L., Arroyo-Kalin, M., Reyes, O., Alfonso-Durruty, M., Christensen, M., 2015a. Archaeology of Fuegian Islands: environmental changes along the Holocene, Human Settlement and Cultural Interaction (Patagonia, Chile). Poster presented at the XIX INQUA Congress, July 26th to August 2nd, Nagoya, Japan.Google Scholar
Morello, F., Stern, C., San Román, M., 2015b. Obsidiana verde en Tierra del Fuego y Patagonia: caracterización, distribución y problemáticas culturales a lo largo del Holoceno. Intersecciones en Antropología 16, 139153.Google Scholar
Moy, C.M., Dunbar, R.B., Guilderson, T.P., Waldmann, N., Mucciarone, D.A., Recasens, C., Ariztegui, D., Austin, J.A., Anselmetti, F.S., 2011. A geochemical and sedimentary record of high southern latitude Holocene climate evolution from Lago Fagnano, Tierra del Fuego. Earth Planetary and Science Letters 302(1–2), 113.Google Scholar
Muñoz, S., 2007. La complejidad de los sistemas ecológicos en la explicación del registro arqueofaunístico de los cazadores recolectores de la Isla Grande de Tierra del Fuego. In: Corona-M, E., Arroyo-Cabrales, J. (Eds.), Survey on Human and Fauna Relationship, Human and Faunal Relationships Reviewed: An Archaeozoological Approach. BAR S1627, BAR International Series, Archaeopress, Oxford, pp. 3542.Google Scholar
Musotto, L.L., Borromei, A.M., Coronato, A., Menounos, B., Osborn, G., Marr, R., 2016. Late Pleistocene and Holocene palaeoenvironmental changes in central Tierra del Fuego (~54°S) inferred from pollen analysis. Vegetation History and Archaeobotany 25, 117130.Google Scholar
Naranjo, J.A., Stern, C.R., 1998. Holocene explosive activity of Hudson Volcano, southern Andes. Bulletin of Volcanology 59, 291306.Google Scholar
Odling-Smee, J.F., Laland, K., Feldman, M., 2003. Niche Construction. The Neglected Process in Evolution. Princeton University Press, Princeton, NJ.Google Scholar
Orgeira, M.J., Vásquez, C.A., Coronato, A., Ponce, J.F., Moreto, A., Osterrieth, M., Egli, R., Onorato, R., 2012. Magnetic properties of Holocene edaphized silty eolian sediments from Tierra del Fuego (Argentina). Revista de la Sociedad Geológica de España 25, 4556.Google Scholar
Oría, J., Salemme, M., Fernández, M. 2014. Amalia 5: rol de los paisajes lagunares en la circulacion humana en el interior de la estepa fueguina. Comechingonia 18, 137159.Google Scholar
Orquera, L., Legoupil, D., Piana, E., 2011. Littoral adaptation at the southern end of South America. Quaternary International 239, 6169.Google Scholar
Orquera, L., Piana, E., 1999. Arqueología de la Región del Canal Beagle (Tierra del Fuego, República Argentina). Sociedad Argentina de Antropología, Buenos Aires.Google Scholar
Orquera, L.A., Piana, E.L., 2005. La adaptación al litoral sudamericano sudoccidental: qué es y quiénes, cuándo y dónde se adaptaron. Relaciones de la Sociedad Argentina de Antropología 30, 1132.Google Scholar
Orquera, L.A., Piana, E.L. 2009. Sea nomads of the Beagle Channel in southernmost South America: over six thousand years of coastal adaptation and stability. Journal of Island and Coastal Archaeology 4, 6181.Google Scholar
Pallo, M.C., 2011. Condicionamiento de la dinámica ambiental en las decisiones humanas sobre asentamiento y circulación a lo largo del Estrecho de Magallanes durante el Holoceno Tardío. Magallania 39, 177192.Google Scholar
Pallo, M.C. (Ed.), 2017. SIG y análisis espacial en la arqueología de cazadores recolectores de Magallania (extremo sur de Sudamérica). Archaeopress, Oxford.Google Scholar
Pallo, M.C., Borrazzo, K., 2016. Miraflores rocks in Tierra del Fuego (southernmost South America): hunter-gatherer procurement, optimal pathway analysis and social interaction. Journal of Archaeological Sciences Report 7, 420431.Google Scholar
Pallo, M.C., Ozán, I.L., 2014. Variaciones demográficas y climáticas durante el Holoceno Tardío final en Magallania. Comechingonia Virtual 8, 2047.Google Scholar
Pavés, H., Schlatter, R., Espinoza, C., 2005. Patrones reproductivos del lobo marino común, Otaria flavescens (Shaw 1800), en el centro-sur de Chile. Revista Chilena de Historia Natural 78, 673686.Google Scholar
Pérez, S.I., Gonzalez, P., Bernal, V., 2016. Past population dynamics in northwest Patagonia: an estimation using molecular and radiocarbon data. Journal of Archaeological Sciences 65, 154160.Google Scholar
Piana, E., Orquera, L., 2009. The southern top of the world: the first peopling of Patagonia and Tierra del Fuego and the cultural endurance of the Fuegian Sea-Nomads. Arctic Anthropology 46, 103117.Google Scholar
Piana, E., Zangrando, A., Orquera, L., 2012. Early Occupations in Tierra del Fuego and the Evidence from Layer S at the Imiwaia I Site (Beagle Channel, Argentina). Southbound Late Pleistocene Peopling of Latin America. Center for the Study of the First Americans, College Station, TX, pp. 171175.Google Scholar
Ponce, F., Borromei, A., Rabassa, J., Martinez, O., 2011. Late Quaternary palaeoenvironmental change in western Staaten island (54.5 S, 64 W), Fuegian Archipelago. Quaternary International 233, 89100.Google Scholar
Ponce, J.F., Borromei, A.M., Menounos, B., Rabassa, J., 2017. Late-Holocene and Little Ice Age palaeoenvironmental change inferred from pollen analysis, Isla de los Estados, Argentina. Quaternary International 442, 2634.Google Scholar
Prates, L., Politis, G., Steele, J., 2013. Radiocarbon chronology of the early human occupation of Argentina. Quaternary International 301, 104122.Google Scholar
Prieto, A, Stern, C., Estévez, J., 2013. The peopling of the Fuego-Patagonian fjords by littoral hunter-gatherers after the mid-Holocene H1 eruption of Hudson Volcano. Quaternary International 317, 111.Google Scholar
Rabassa, J., Coronato, A., Bujalesky, G., Salemme, M., Roig, C., Meglioli, A., Heusse, C., et al. , 2000. Quaternary of Tierra del Fuego, southernmost South America: an updated review. Quaternary International 68–71, 217240.Google Scholar
Raedeke, K., 1978. El guanaco de Magallanes, Chile: Distribución y biología. Publicacion Tecnica-Corporacion Nacional Forestal, Santiago.Google Scholar
Rautman, A., 1993. Resource variability, risk, and the structure of social networks: an example from the prehistoric Southwest. American Antiquity 58, 403424.Google Scholar
Reimer, P., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P., Bronk Ramsey, C., Buck, C., et al. , 2013. IntCal13 and Marine13 Radiocarbon Age Calibration Curves 0–50,000 Years cal BP. Radiocarbon 55, 18691887.Google Scholar
Rick, J.W., 1987. Dates as data: an examination of the Peruvian preceramic radiocarbon record. American Antiquity 52, 5573.Google Scholar
Ripley, B.D., 1979. Tests of “randomness” for spatial point patterns. Journal of the Royal Statistical Society 41, 368374.Google Scholar
Ripley, B.D., 1981. Spatial Statistics. Wiley, New York.Google Scholar
San Román, M., 2014. Sea-Level Changes and Coastal Peopling in Southernmost Pacific South America: Marine Hunters from Patagonia. In: Smith, C. (Ed.), Encyclopedia of Global Archaeology. Springer-Verlag, New York, pp. 65156525.Google Scholar
San Román, M., Reyes, O., Torres, J., Morello, F., 2015. Archaeology of maritime hunter-gatherers from southernmost Patagonia, South America: discussing timing, changes and cultural traditions during the Holocene. In: Bjerck, H. (Ed.), Marine Ventures: Archaeological Perspectives on Human–Sea Relations. Equinox, Yorkshire, UK, pp. 153170Google Scholar
Santiago, F.C., 2013. La ocupación humana del norte de Tierra del Fuego durante el Holoceno medio y tardío: su vinculación con el paisaje. Editora Cultural Tierra del Fuego, Ushuaia, Argentina.Google Scholar
Schäbitz, F., Wille, M., Francois, J.P., Haberzettl, T., Quintana, F., Mayr, C., Lück, A., et al. , 2013. Reconstruction of palaeoprecipitation based on pollen transfer functions—the record of the last 16 ka from Laguna Potrok Aike, southern Patagonia. Quaternary Science Reviews 71, 175190.Google Scholar
Smith, M.A., Williams, A., Turney, C., Cupper, M.L., 2008. Human–environment interactions in Australian drylands: exploratory time series analysis of archaeological records. The Holocene 18, 389401.Google Scholar
Stern, C., 2008. Holocene tephrochronology record of large explosive eruptions in the southernmost Patagonian Andes. Bulletin of Vulcanology 70, 435454.Google Scholar
Stine, S. 1994. Extreme and persistent drought in California and Patagonia during mediaeval time. Nature 369, 546549.Google Scholar
Strelin, J., Casassa, G., Rosqvist, G., Holmlund, P., 2008. Holocene glaciations in the Ema glacier valley, Monte Sarmiento massif, Tierra del Fuego. Palaeogeography, Palaeoclimatology, Palaeoecology 260, 299314.Google Scholar
Strelin, J., Iturraspe, R., 2007. Recent evolution and mass balance of Cordon Martial glaciers, Cordillera Fueguina Oriental. Global and Planetary Change 59, 1726.Google Scholar
Suby, J., Luna, L., Aranda, C., Flensborg, G., 2017. First approximation to paleodemography through age-at-death profiles in hunter-gatherers from Southern Patagonia during middle-late Holocene. Quaternary International 438, 174188.Google Scholar
Surovell, T., Brantingham, P., 2007. A note on the use of temporal frequency distributions in studies of prehistoric demography. Journal of Archaeological Sciences 34, 18681877.Google Scholar
Surovell, T., Byrd Finley, J., Smith, G.M., Brantingham, P.J., Kelly, R., 2009 Correcting temporal frequency distributions for taphonomic bias. Journal of Archaeological Sciences 30, 110.Google Scholar
Torfing, T., 2015. Layers of assumptions: a reply to Timpson, Manning, and Shennan. Journal of Archaeological Sciences 63, 203205.Google Scholar
Tívoli, A.M., 2010. Exploitation of bird resources among prehistoric sea-nomad societies of the Beagle Channel region, southern South America. Before Farming 2(3), 112.Google Scholar
Tívoli, A.M., Zangrando, F., 2011. Subsistence variations and landscape use among maritime hunter-gatherers. A zooarchaeological analysis from the Beagle Channel (Tierra del Fuego, Argentina). Journal of Archaeological Science 38, 11481156.Google Scholar
Tuhkanen, S., Kuokka, I., Hyvoenen, J., Streenroos, S., Niermelä, J., 1989/90. Tierra del Fuego as a target for biogeographical research in the past and the present. Anales del Instituto de la Patagonia 19, 1107.Google Scholar
Turney, C.S., Hobbs, D., 2006. ENSO influence on Holocene Aboriginal populations in Queensland, Australia. Journal of Archaeological Sciences 33, 17441748.Google Scholar
Unkel, I., Fernandez, M., Björck, S., Kjung, K., Wolfarth, B., 2010. Records of environmental changes during the Holocene from Isla de los Estados (54.4°S), southeastern Tierra del Fuego. Global and Planetary Change 74, 99113.Google Scholar
Veblen, T.T., 1989. Tree regeneration responses to gaps along a transandean gradient. Ecology 70, 541543.Google Scholar
Veth, P., 2005. Cycles of aridity and human mobility risk minimization among late Pleistocene foragers of the Western Desert, Australia. In: Veth, P., Smith, M., Hiscock, P. (Eds.), Desert Peoples. Archaeological Perspectives. Blackwell, Oxford, pp. 100115.Google Scholar
Veth, P.M., 1993. Islands in the Interior. The Dynamics of Prehistoric Adaptations within the Arid Zone of Australia. Ann Arbor, International Monographs in Prehistory, Archaeological Series 3.Google Scholar
Villalba, R., Lara, A., Masiokas, M., Urrutia, R., Luckman, B., Marshall, G., Mundo, I., et al. , 2012. Unusual Southern Hemisphere tree growth patterns induced by changes in the Southern Annular Mode. Nature Geoscience 5, 793.Google Scholar
Voigt, I., Chiessi, C.M., Prange, M., Mulitza, S., Groeneveld, J., Varma, V., Henrich, R., 2015. Holocene shifts of the southern westerlies across the South Atlantic. Paleoceanography 30, 3951.Google Scholar
Waldmann, N., Ariztegui, D., Anselmetti, F.S., Austin, J.A. Jr., Moy, C.M., Stern, C., Recasens, C., Dunbar, R.B., 2010. Holocene climatic fluctuations and positioning of the Southern Hemisphere Westerlies in Tierra del Fuego (54°S), Patagonia. Journal of Quaternary Sciences 25, 10631075.Google Scholar
Waldmann, N., Borromei, A.M., Recacens, C., Olivera, D., Martinez, M.A., Maidana, N.I., Ariztegui, D., Austin, J.A. Jr., Anselmetti, F.S., Moy, C.M., 2014. Integrated reconstruction of Holocene millennial-scale environmental changes in Tierra del Fuego, southernmost South America. Palaeogeography, Palaeoclimatology, Palaeoecology 399, 294309.Google Scholar
Whittaker, R.J., 1998. Island Biogeography: Ecology, Evolution and Conservation. Oxford University Press, Oxford.Google Scholar
Wille, M., Maidana, N., Schäbitz, F., Fey, M., Haberzettl, T., Janssen, S., Lücke, A., et al. , 2007. Vegetation and climate dynamics in southern South America: the microfossil record of Laguna Potrok Aike, Santa Cruz, Argentina. Review of Palaeobotany and Palynology 146, 234246.Google Scholar
Wilson, T.M., Cole, J.W., Stewart, C., Cronin, S.J., Johnston, D.M., 2011. Ash storms: impacts of wind-remobilised volcanic ash on rural communities and agriculture following the 1991 Hudson eruption, southern Patagonia, Chile. Bulletin of Volcanology 73, 223239.Google Scholar
Williams, A.N., 2012. The use of summed radiocarbon probability distributions in archaeology: a review of methods. Journal of Archaeological Sciences 39, 578589.Google Scholar
Williams, A.N., 2013. A new population curve for prehistoric Australia. Proceedings of the Royal Society of London B 280, 20130486.Google Scholar
Williams, A.N, Veth, P., Steffen, W., Ulm, S., Turney, C., Reeves, J., Phipps, S., Smith, M., 2015. A continental narrative: human settlement patterns and Australasian climate change over the last 35,000 years. Quaternary Science Reviews 123, 91112.Google Scholar
Yellen, J.E., 1977. Long term hunter-gatherer adaptation to desert environments: a biogeographical perspective. World Archaeology 8, 262274.Google Scholar
Yesner, D., Figuerero Torres, M.J., Guichón, R.A., Borrero, L.A., 2003. Stable isotope analysis of human bone and ethnohistoric subsistence patterns in Tierra del Fuego. Journal of Anthropological Archaeology 22, 279291.Google Scholar
Zangrando, A.F., Ponce, J.F., Martinoli, M.P., Montes, A., Piana, E.L., Vanella, F., 2016a. Palaeogeographic changes drove prehistoric fishing practices in the Cambaceres Bay (Tierra del Fuego, Argentina) during the middle and late Holocene. Environmental Archaeology 21, 182192.Google Scholar
Zangrando, A.F., Riccialdelli, L., Kochi, S., Nye, J.W., Tessone, A., 2016b. Stable isotope evidence supports pelagic fishing by hunter-gatherers in southern South America during the Late Holocene. Journal of Archaeological Science Reports 8, 486491.Google Scholar
Zangrando, F., 2009. Historia evolutiva y subsistencia de cazadores-recolectores marítimos de Tierra del Fuego. Sociedad Argentina de Antropología, Buenos Aires.Google Scholar
Zangrando, F., 2014. Human predation on pinnipeds in the Beagle Channel. In: Muñoz, S., Götz, C.M., Ramos Roca, E. (Eds.), Neotropical and Caribbean Aquatic Mammals: Perspectives from Archaeology and Conservation Biology. Nova Publisher, New York, pp. 161174.Google Scholar
Zangrando, F., Tessone, A., Vázquez, M., 2009. El uso de espacios marginales en el archipiélago fueguino: implicaciones de la evidencia arqueológica de bahía Valentín. In: Salemme, M., Santiago, F., Álvarez, M., Piana, E., Vázquez, M., Mansur, M. (Eds.), Arqueología de la Patagonia. Una mirada desde el último confín. Editorial Utopías, Ushuaia, Argentina, pp. 4762.Google Scholar
Zhu, J., Lu, D., Zhang, W., 2014. Effects of gaps on regeneration of woody plants: a meta-analysis. Journal of Forest Research 25, 501510.Google Scholar
Zolitschka, B., Anselmetti, F., Ariztegui, D., Corbella, H., Francus, P., Lücke, A., Maidana, N., Ohlendorf, C., Schäbitz, F., Wastegård, S., 2013. Environment and climate of the last 51,000 years—new insights from the Potrok Aike maar lake Sediment Archive Drilling project (PASADO). Quaternary Science Reviews 71, 112.Google Scholar
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