HUMAN OCUPATIONS AND ENVIRONMENT AT LAST PLEISTOCENE IN THE NORTH OF SOUTH AMERICA

Volume 5, Issue 5, October 2021     |     PP. 355-374      |     PDF (472 K)    |     Pub. Date: October 28, 2021
DOI: 10.54647/sociology84636    86 Downloads     5347 Views  

Author(s)

Mario Alonso Bermúdez Restrepo, Professor / researcher in Archeology area in the Department of Anthropology and Sociology of the University of Caldas. Student of the Master’s degree in Sciences of the earth in the University of Caldas and student of the Doctorate in FACSO National University of the Center of the province of Buenos Aires. Coordinator of the laboratory of archeology of the Caldas University. Colombia

Abstract
The environmental context at the end of the Pleistocene has been the focus of anthropological research on the population movement that resulted in settlement of the American continent. We present an analysis of environmental conditions that could have affected the movement of humans and the subsequent population expansion into Central America and northern South America. Our research integrates Archaeological a palaeoecological literature and the regional physiographic characteristics during the end of the Pleistocene through the beginning of the Holocene (Last Glacial Maximum to the first part of the Holocene Hipstemal). We further evaluate question the models of dispersion and adaption of the ancient communities to the environmental challenges that faced the first settlers of the New World.

Keywords
Pleistocene, LGM, Human Dispersion, Sud America

Cite this paper
Mario Alonso Bermúdez Restrepo, HUMAN OCUPATIONS AND ENVIRONMENT AT LAST PLEISTOCENE IN THE NORTH OF SOUTH AMERICA , SCIREA Journal of Sociology. Volume 5, Issue 5, October 2021 | PP. 355-374. 10.54647/sociology84636

References

[ 1 ] Alley, R. Clark, P, Huybrechts, P and Joughin I. (2005) Ice-Sheet and Sea-Level Changes. Science Vol 310
[ 2 ] Anderson, D. Bissett, T. and Yerka, S. (2013) Cap. 11 The Late-Pleistocene Human Settlement of Interior North America: The Role of Physiography and Sea-Level Change. In Paleoamerican Odyssey. Center for the Study of the First Americans, Texas A&M University, Editors: Kelly E. Graf, Caroline V. Ketron, Michael R. Waters, pp.183-203
[ 3 ] Araujo, A. Neves, W and Kipnis, R. (2012) Lagoa Santa revisited: an overview of the chronology, subsistence, and material culture of paleoindian sites in eastern central Brazil. Latin American Antiquity 23(4), 2012, pp. 533-550
[ 4 ] Balsillie, J. H., and J. F. Donoghue 2004 High Resolution Sealevel History for the Gulf of Mexico since the Last Glacial Maximum. Florida Geological Survey Report of Investigations 103. Tallahassee, Florida.
[ 5 ] Bermúdez, M. 2010. Dinámicas geomorfológicas de piedemonte y procesos de transformación de sitios arqueológicos en el Magdalena Medio caldense. En RevistaVirajes. Nª 12. Manizales.
[ 6 ] Bermúdez, M. (2017) Medioambiente pleistocénico y ocupaciones humanas en el valle medio del río Magdalena, Colombia. En Bermúdez, M. (comp.) Arqueología y Medioambiente en el Magdalena Medio. Universidad de Caldas. Manizales.
[ 7 ] Behling, H. y Hooghiemstra, H (1999) Environmental history of the Colombian savannas of the Llanos Orientales since the Last Glacial Maximum from lake records El Pinal and Carimagua. Journal of Paleolimnology. 21
[ 8 ] Berrío, J. Hooghiemstra, H. Marchant, R y Rangel, O. (2002) Late-glacial and Holocene history of the dry forest area in the south Colombian Cauca Valley. Journal of Quaternary Science. Vol. 17
[ 9 ] Boeda, E., Clemente-Conte, I., Fontugne, M. y Lahaye, C. (2014). A new late Pleistocene archaeological sequence in South America: The Vale da Pedra Furada (Piauí, Brazil). Antiquity Vol 88.
[ 10 ] Borrero L.A. (2015) Moving: Hunter-gatherers and the cultural geography of South America. Quaternary International 363. 126–133
[ 11 ] Bourgeon L, Burke A, Higham T (2017) Earliest Human Presence in North America Dated to the Last Glacial Maximum: New Radiocarbon Dates from Bluefish Caves, Canada. PLoS ONE 12 (1): e0169486. doi:10.1371/journal.pone.0169486
[ 12 ] Bracco R. Inda, H., García-Rodríguez, F y Panario, D. (2011). Niveles relativos del mar durante el Pleistoceno Final– Holoceno en la costa del Uruguay. En El Holoceno en la zona costera de Uruguay por Felipe García Rodríguez (ed). CSIC, Universidad de la República. Montevideo
[ 13 ] Bradley, R (1999) Paleoclimatology. Reconstructing Climates of the Quaternary. Second Edition. Academic Press, an imprint of Elsevier. San Diego, CA
[ 14 ] Brook, G, Mancini V, Franco N, Bamonte F y Ambrústolo P. (2013) An examination of possible relationships between paleoenvironmental conditions during the PleistoceneeHolocene transition and human occupation of southern Patagonia (Argentina) east of the Andes, between 46º and 52º S Quaternary International 305
[ 15 ] Bush, M; Correa-Metrio, A; Hodell, D; Brenner, M; Anselmetti, F; Ariztegui, D; Mueller, A; Curtis, J; Grzesik, D; Burton, C and Gilli, A (2009) Re-evaluation of Climate Change in Lowland Central America During the Last Glacial Maximum Using New Sediment Cores from Lake Petén Itzá, Guatemala. In F. Vimeux et al. (eds.), Past Climate Variability in South America and Surrounding Regions, Developments in Paleoenvironmental Research 14
[ 16 ] Butzer, K (1989) Arqueología. Una Ecología del Hombre. EdicionesBellaterra. Barcelona.
[ 17 ] Clark, P, Marshall, A, Mix, A and Weaver, A (2004) Rapid Rise of Sea Level 19,000 Years Ago and Its Global Implications. Science Vol 304
[ 18 ] Correal y Van der Hammen (2001) Mastodontes en un humedal pleistocénico en el valle del Magdalena (Colombia) con evidencias de la presencia del hombre en el pleniglacial. Boletín de Arqueología. Volumen 16 Nº 1. Bogotá
[ 19 ] Dillehay T. (2002) Climate and Human Migrations. Science Vol 298
[ 20 ] Dillehay T, Ramírez C, Pino M, Collins M, Rossen J and Pino-Navarro J. (2008) Monte Verde Seaweed, Food, Medicine, and the Peopling of South America. Science Vol 320
[ 21 ] Dillehay TD, Ocampo C, Saavedra J, Sawakuchi AO, Vega RM, Pino M, et al. (2015) New Archaeological Evidence for an Early Human Presence at Monte Verde, Chile. PLoS ONE 10(11): e0141923. doi:10.1371/journal.pone.0141923
[ 22 ] Flantua, S. Hooghiemstra, H. Van Boxel, J. Cabrera, M. González-Carranza, Z y González-Arango, C 2014 Connectivity dynamics since the last glacial maximum in the northern Andes a pollen-driven framework to assess potential migration. En Paleobotany and Biogeography.
[ 23 ] Fiedel, S (1996). Prehistoria de América. Crítica Editorial. Barcelona.
[ 24 ] Fiedel, S (2000). The Peopling of the New World: Present Evidence, New Theories, and Future Directions. Journal of Archaeological Research, Vol. 8, No. 1,
[ 25 ] Goebel T, Waters M and O’Rourk D, (2008). The Late Pleistocene Dispersal of Modern Humans in the Americas Science Vol 319
[ 26 ] González, C., Urrego L., y Martínez, J. (2006) Late Quaternary vegetation and climate change in the Panama Basin: Palynological evidence from marine cores ODP 677B and TR 163-38. Palaeogeography, Palaeoclimatology, Palaeoecology 234.
[ 27 ] Grobe, H, Huybrechts, P and Fûterer, D. (1993) Late Quaternary record of sea levels changes in the Antartic. GeolRundsch.
[ 28 ] Halligan, J. Waters, M. Perrotti, A. Owens, I. Feinberg, J. Bourne, M. Fenerty, B. Winsborough, B. Carlson, D. Fisher, D. Stafford Jr., T and Dunbar, J. (2016) Pre-Clovis occupation 14,550 years ago at the Page-Ladson site, Florida, and the peopling of the Americas. Science Advances.
[ 29 ] He, F. Shakun, J. Clark, P. Carlson, A. Liu, Z. Otto-Bliesner, B and Kutzbach, J. (2013) Northern Hemisphere forcing of Southern Hemisphere climate during the last deglaciation. Nature. Vol. 497
[ 30 ] Hohmann, G and Fruth, B (2003) Culture in Bonobos? Between-Species and Within-Species Variation in Behavior. Current Anthropology. Volume 44, Number 4.
[ 31 ] Hemming, S. (2004) Heinrich events massive late Pleistocene detritus layers of the north atlantic and their global climate imprint. Review of Geophysics, Nº 42.
[ 32 ] Herrera, L., Sarmiento, G., Romero, F., Botero, P. y BERRIO, J. (2001): Evolución ambiental de la depresión momposina (Colombia) desde el Pleistoceno Tardio a los Paisajes actuales. GeologíaColombiana, 26, Bogota
[ 33 ] Hodell, D., Anselmetti, F., Ariztegui, D., Brenner, M., Curtis J., Gilli, A., Grzesik, D., Guilderson, T., Mûller, A, Bush, M., Correa-Metrio, A., Escobar, J. and Kutterolf, S. (2008). An 85-ka record of climate change in lowland Central America. Quaternary Science Reviews 27. 1152– 1165.
[ 34 ] Hooghiemstra, H., and Ran, E. (1994). Upper and Middle Pleistocene climatic change and forest development in Colombia: pollen record Funza II (2-158 m core interval). Palaeogeography, Palaeoclimatology, Palaeoecology, 109,
[ 35 ] Hooghiemstra, H. and Rahn, E. (1998) Upper and Middle Pleistocene climatic change and forest development in Colombia. pollen record Funza II (2-158 m core interval) Palaeogeography, Palaeoclimatology, Palaeoecology 109
[ 36 ] Ingólfsson, O. (2004). Quaternary glacial and climatic history of Antarctica. In Developments in Quaternary Science. Volume 2: Quaternary Glaciations: Extent and Chronology (edited by J. Ehlers, P.L. Gibbard). Elsevier, Amsterdam.
[ 37 ] Johnson, A. y Earle, T. (2003) La Evolución de las Sociedades Humanas. Desde los grupos cazadores – recolectores al Estado agrario. Ariel Prehistoria. Barcelona
[ 38 ] Kelly, R (1995) TheForanging Spectrum. Diversity of hunter – gatherer lifeways. Smithsonianinstitutionpress. Washington.
[ 39 ] Laland, K. and Brown, G. (2006) Niche contruction human behavior and the adaptive lag hypothesis. Evolutionary Anthropology 15.
[ 40 ] Lanata, J., Martino, L., Osella, A. y García-Herbst, A. (2008) Ambiente y Demografía durante la Dispersión Humana Inicial en Sudamérica. En López C y Ospina G. Compiladores Ecología Histórica. Interacciones Sociedad - Ambiente a distintas escalas socio – temporales. UTP. Pereira
[ 41 ] Lee, R. (1979) The ¡Kung San. Cambridge University Press. Cambridge.
[ 42 ] López, C. (2008) Landscape development and the evidence for early human occupation in the Inter-Andean tropical lowlands of Magdalena river, Colombia. Syllaba Pres. E-Book.
[ 43 ] López, C. (2019) Arqueología del Bajo y Medio río Magdalena: apuntes sobre procesos de poblamiento prehispánico de las Tierras Bajas tropicales interandinas de Colombia. Revista del Museo de La Plata. 4(2), pp. 275-304. https://doi.org/10.24215/25456377e078
[ 44 ] López, Carlos. E., & Cano, Martha. C. (2011). En Torno a los Primeros Poblamientos en el Noroccidente de Suramérica: Acercamientos desde El Valle Interandino del Magdalena. Boletín de Arqueología Pontificia Universidad Católica de lPerú, 15, 43-79.
[ 45 ] Masson-Delmotte, V., Stenni, B., Pol, K., et al. (2010). Epica Dome C record of glacial and interglacial intensities. Quaternary Science Reviews 29, 113–128.
[ 46 ] McGee, D., Donohoe, A., Marshall, J. and Ferreira, D. (2014). Changes in ITCZ location and cross-equatorial heat transport at the Last Glacial Maximum, Heinrich Stadial 1, and the mid-Holocene. Earth and Planetary Science Letters 390. 69–79.
[ 47 ] Marchant, R., Behling, H., Berrio, J.-C., Cleef, A., Duivenvoorden, J., Hooghiemstra, H., Kuhry, P., Melief, B., Schreve-Brinkman, E., Van Geel, B., Van der Hammen, T., Van Reenen, G. and Wille, M. (2002). Pollen-based biome reconstructions for Colombia at 3000, 6000, 9000, 12 000, 15 000 and 18 000 14C yr ago: Late Quaternary tropical vegetation dynamics. J. Quaternary Sci., Vol. 17
[ 48 ] Mithen, S. (1996) Arqueología de la mente. Orígenes del arte, de la religión y de la ciencia. Crítica. Barcelona.
[ 49 ] Muñoz-García, M., Martín-Chivelet J., Rossi C., Ford, D andSchwarcz, H. (2007) Chronology of Termination II and the Last Interglacial Period in North Spain based on stable isotope records of stalagmites from CuevadelCobre (Palencia). Journal of Iberian Geology 33 (1).
[ 50 ] Petit, J., Jouzel, J., Raynaud, D., Barkov, N., Barnola, J., Basile, I., Bender, M., Chappellaz, J., Davisk, M., Delaygue, G., Delmotte M., Kotlyakov, V., Legrand, M., Lipenkov, V., Lorius, C., Pépin, L., Ritz, C., Riouala, P. and Mackay, A. (2005) Diatom record of centennial resolution for the Kazantsevo Interglacial stage in Lake Baikal (Siberia). Global and Planetary Change Nº 46
[ 51 ] Reichel-Dolmatoff, Gerardo (1986). Arqueología de Colombia: un texto Introductorio. Fundación Segunda Expedición Botánica. Litografía Arco. Bogotá.
[ 52 ] Richter, D., Grün, R., Joannes-Boyau, R., Steele, T., Amani, F., Rué, M., Fernandes, P., Raynal, J.P., Geraads, D., Ben-Ncer, A., Hublin, J. J., and McPherron, S. (2017) The age of the hominin fossils from Jebel Irhoud, Morocco, and the origins of the Middle Stone Age. Nature 546. On line doi:10.1038/nature22335
[ 53 ] Saltzmank, E. and Stievenard, M. (1999). Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica Nature Vol 399
[ 54 ] Sapolsky, R. (2006) Social Cultures among Nonhuman Primates.Current Anthropology Volume 47, Number 4.
[ 55 ] Sheinsohn, V. (2003). Hunter–Gatherer archaeology in South America. Annual Review of Anthropology.
[ 56 ] Stewart, J. and Stringer, C. (2012) Human Evolution Out of Africa: The Role of Refugia and Climate Change. Science Vol 335
[ 57 ] TarbuksE y Lutgens F (2008) Ciencias de la Tierra 8ª ed. Pearson Educación. Madrid
[ 58 ] Thomas, M. (2008) Understanding the impacts of Late Quaternary climate change in tropical and sub-tropical regions. Geomorphology 101
[ 59 ] Toro, G. y Hermelin, M. (1995). Estudio comparativo de los paleoclimas en Colombia, Ecuador y Venezuela. En, Cambios cuaternarios en América del Sur. Por Argollo y Mourguiart (ed.)
[ 60 ] Urrego, D. H., Hooghiemstra, H., Rama-Corredor, O., Martrat, B., Grimalt, J. O., Thompson, L., Bush, M. B., González-Carranza, Z., Hanselman, J., Valencia, B., and Velásquez-Ruiz, C.: (2016). Millennial-scale vegetation changes in the tropical Andes using ecological grouping and ordination methods, Climate of the Past, 12, 697-711
[ 61 ] Van der Hammen, T. y Absy, M. (1994) Amazonia during the last glacial. Palaeogeography, Palaeoclimatology, Palaeoecology 109.
[ 62 ] Van derHammen, T. y Hooghiemstra, H. (1995) The El AbraStadial, a Younger Dryas Equivalent in Colombia. Quaternary Science Reviews, Vol. 14
[ 63 ] Velásquez, C and Hooghiemstra, H. (2013) Pollen-based 17-kyr forest dynamics and climate change from the Western Cordillera of Colombia; no-analogue associations and temporarily lost biomes. Review of Palaeobotany and Palynology 194
[ 64 ] Waters M. and Stafford, T. W. (2013) The First Americans: A review of the evidence for the Late-Pleistocene peopling of the Americas. researchgate.net/publication/268149509
[ 65 ] Williams, S.J., 2009, Chapter C. Past, present, and future sea level rise and effects on coasts under changing global climate, in Lavoie, D., ed., Sand resources, regional geology, and coastal processes of the Chandeleur Islands coastal system—an evaluation of the Breton National Wildlife Refuge: U.S. Geological Survey Scientific Investigations Report 2009–5252, p. 37–46.