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Human presence in the Salapunku area (Machu Picchu, Cusco, Peru) based on recent radiocarbon evidence
Published online by Cambridge University Press: 19 November 2025
Abstract
The Salapunku archaeological site is located within the Historic Sanctuary – National Archaeological Park of Machu Picchu (HS-NAPM) in the Cusco area of Peru. Although Salapunku is related to the Inca settlements of the HS-NAPM, during archaeological excavations, we distinguished different moments of cultural occupation from the earliest human presence to complex pre-Hispanic societies such as the Inca and finally to the colonial period. Previous research on the site’s chronology was based on typological analyses of pottery and other artifacts found during archaeological research. This radiocarbon analysis, the first of its kind in this area, establishes a chronology of the cultural history of this significant settlement, considered the gateway to the Cordillera of Vilcabamba.
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- © The Author(s), 2025. Published by Cambridge University Press on behalf of University of Arizona
Footnotes
Selected Papers from the 2nd Latin American Radiocarbon Conference, Mexico City, 4–8 Sept. 2023
References
Aldenderfer, M and Flores-Blanco, L (2011) Refexiones para avanzar en los estudios del Período Arcaico en los Andes Centro-Sur. Chungará 43(1), 531–550.10.4067/S0717-73562011000300011CrossRefGoogle Scholar
Ancapichún, S, Pawlyta, J, Rakowski, AZ and Sieczkowska, D (2022) Influence of air parcels from northern and southern hemispheres on radiocarbon-based Inca chronology. Radiocarbon 64(6), 1431–1446.10.1017/RDC.2022.87CrossRefGoogle Scholar
Bastante, JM (2018) Informe Final. Programa de Investigaciones Arqueológicas e Interdisciplinarias En El Santuario Histórico de Machupicchu (PIAISHM) 2014–2017. Cusco.Google Scholar
Bastante, JM, Astete, F, Fernandez Flores, A and Usca, A (2020) Estado de La Cuestión: Historia y Arqueología de La Llaqta de Machupicchu. In Astete, F and Bastante, JM (eds), Machupicchu Investigaciones Interdisciplinarias. Cusco: Dirección Desconcentrada de Cultura. Cusco (DDC-Cusco).Google Scholar
Bastante, JM and Echevarría, GT (2020) Las Quilcas del Santuario Histórico-Parque Arqueológico Nacional de Machupicchu: Evaluación y Secuencia Arqueológica Preliminar. In Astete, F and Bastante, JM (eds), Machupicchu Investigaciones Interdisciplinarias. Cusco: Dirección Desconcentrada de Cultura. Cusco (DDC-Cusco).Google Scholar
Bastante, JM and Fernandez Flores, A (2018) Avances de Las Investigaciones Interdisciplinarias En Machupicchu. Revista Haucaypata. Investigaciones Arqueológicas Del Tahuantinsuyo 13, 34–59.Google Scholar
Bauer, B (2008) Cuzco Antiguo: Tierra Natal de Los Incas. Cusco: Centro Bartolomé de la Casas.Google Scholar
Bauer, BS (2007) Kasapata and the Archaic Period of the Cuzco Valley. Los Angeles: Cotsen Institute of Archaeology, University of California.10.2307/j.ctvdjrqrkCrossRefGoogle Scholar
Briceño Rosario, JG and Millones, M (1999) Los restos humanos mas tempranos del norte del Peru: Balance y proyecciones. Boletin de Arqueologia PUCP 3, 55–67.10.18800/boletindearqueologiapucp.199901.004CrossRefGoogle Scholar
Bronk Ramsey, C (2009) Bayesian analysis of radiocarbon dates. Radiocarbon 51(1), 337–360.10.1017/S0033822200033865CrossRefGoogle Scholar
Bronk Ramsey, C and Lee, S (2013) Recent and planned developments of the program OxCal. Radiocarbon 55(2), 720–730.10.1017/S0033822200057878CrossRefGoogle Scholar
Bronk Ramsey, C, Pettitt, PB, Hedges, REM, Hodgins, GWL and Owen, DC (2000) Radiocarbon Dates from the Oxford AMS system: Archaeometry Datelist 29. Archaeometry 42(1), 243–254.10.1111/j.1475-4754.2000.tb00880.xCrossRefGoogle Scholar
Capcha, JY and Nami, HG (2022) A new view on the Late Pleistocene lithic remains from Pikimachay Cave, south central Peru. Archaeological Discovery 10(04), 282–334.10.4236/ad.2022.104010CrossRefGoogle Scholar
Chauchat, C and Demars, P-Y (2006) Capítulo III. Pampa de Los Fósiles 14. Prehistoria de La Costa Norte Del Perú, 269–297.10.4000/books.ifea.5156CrossRefGoogle Scholar
Chauchat, C and Wing, E (2006) Prehistoria de La Costa Norte Del Perú.10.4000/books.ifea.5137CrossRefGoogle Scholar
Chauchat, C, Wing, E, Lacombe, J-P, Demars, P-Y, Uceda, S and Deza, C (2006) Prehistoria de La Costa Norte del Perú: El Paijanense de Cupisnique.10.4000/books.ifea.5137CrossRefGoogle Scholar
Cherkinsky, A, Culp, RA, Dvoracek, DK and Noakes, JE (2010) Status of the AMS facility at the University of Georgia. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 268(7–8), 867–870.10.1016/j.nimb.2009.10.051CrossRefGoogle Scholar
Contreras, DA (2010) Landscape and environment: Insights from the Prehispanic Central Andes. Journal of Archaeological Research 18(3), 241–288.10.1007/s10814-010-9038-6CrossRefGoogle Scholar
Covey, AR (2014) Regional Archaeology in the Inca Heartland. Hanan Cuzco Surveys. Ann Arbor, Michigan: University of Michigan.10.3998/mpub.11395593CrossRefGoogle Scholar
Covey, AR and Griffis, N (2014) The Preceramic occupation of the Hanan Cuzco region. In Covey, AR (ed), Regional Archaeology in the Inca Heartland: The Hanan Cuzco Surveys. Ann Arbor, Michigan: University of Michigan, 45–55.10.3998/mpub.11395593CrossRefGoogle Scholar
Echevarría López, GT and Bastante, JM (2022) Quillcas in the Historic Sanctuary-National Archaeological Park of Machu Picchu: A new line of evidence for the earliest occupancy of the Middle Vilcanota Basin. In Ziółkowski, M, Masini N and BJM (eds), Machu Picchu in Context: Interdisciplinary Approaches to the Study of Human Past. Cham: Springer International Publishing, 473–499. doi: 10.1007/978-3-030-92766-0_14.CrossRefGoogle Scholar
Fehir, A (2014) In a Bind: Artificial Cranial Deformation in the Americas. Laurier Undergraduate Journal of the Arts 1, 29–37.Google Scholar
Haas, R, Stefanescu, IC, Garcia-Putnam, A, Aldenderfer, MS, Clementz, MT, Murphy, MS, Llave, CV and Watson, JT (2017) Humans permanently occupied the Andean Highlands by at least 7 Ka. Royal Society Open Science 4(6).10.1098/rsos.170331CrossRefGoogle ScholarPubMed
Haas, WR, Klink, CJ, Maggard, GJ and Aldenderfer, MS (2015) Settlement-size scaling among prehistoric hunter-gatherer settlement systems in the New World. PLoS ONE 10(11).10.1371/journal.pone.0140127CrossRefGoogle ScholarPubMed
Hey, GM (1999) Continuity and Change in the Formative Period of the Cusichaca Valley, Department of Cuzco, Peru. London: University College London.Google Scholar
Hogg, AG, Heaton, TJ, Hua, Q, Palmer, JG, Turney, CS, Southon, J, Bayliss, A, Blackwell, PG, Boswijk, G, Bronk Ramsey, C, Pearson, C, Petchey, F, Reimer, P, Reimer, R and Wacker, L (2020) SHCal20 Southern Hemisphere calibration, 0–55,000 years cal BP. Radiocarbon 62(4), 759–778.10.1017/RDC.2020.59CrossRefGoogle Scholar
Jull, AJT, Burr, GS, Beck, JW, Hodgins, GWL, Biddulph, DL, Gann, J, Hatheway, AL, Lange, TE and Lifton, NA (2006) Application of accelerator mass spectrometry to environmental and paleoclimate studies at the University of Arizona. Radioactivity in the Environment 8(C), 3–23.10.1016/S1569-4860(05)08001-0CrossRefGoogle Scholar
Kendall, A (1984) Current Archaeological Projects in the Central Andes: Some Approaches and Results. BAR International Series 210.Google Scholar
Krąpiec, M, Rakowski, A, Huels, M, Wiktorowski, D and Hamann, C (2018) A new graphitization system for radiocarbon dating with AMS in the dendrochronological laboratory at AGH-UST Kraków. Radiocarbon 60(4), 1091–1100.10.1017/RDC.2018.60CrossRefGoogle Scholar
Le Neün, M, Dufour, E, Zazzo, A, Tombret, O, Thil, F, Wheeler, JC, Cucchi, T and Goepfert, N (2023) Holocene occupation of the Andean highlands: A new radiocarbon chronology for the Telarmachay rockshelter (Central Andes, Peru). Quaternary Science Reviews 312, 108146. doi: 10.1016/j.quascirev.2023.108146.CrossRefGoogle Scholar
Lynch, TF (1992) La Realidad Del Concepto Paleoindio En Contra de Las Protestas de Macneish, Bryan y Gruhn. Revista de Arqueología Americana (5), 253–261.Google Scholar
Macneish, R (1992) Pikimachay, Perú: Algunas correcciones al análisis de Lynch. Revista de Arqueología Americana (5), 243–247.Google Scholar
MacNeish, R (1970) Megafauna and Man from Ayacucho, Highland Peru. Science 168, 975–977.10.1126/science.168.3934.975CrossRefGoogle ScholarPubMed
MacNeish, R (1971) Early Man in the Andes. Scientific American 224(4), 36–47.10.1038/scientificamerican0471-36CrossRefGoogle Scholar
MacNeish, R (1976) Early Man in the New World: A survey of the archaeological evidence suggests that a number of specialized tool complexes were widely distributed in the Americas before 12,000 years ago. American Scientist 64(3), 316–327.Google Scholar
Meinekat, SA, Miller, CE and Rademaker, K (2022) A site formation model for Cuncaicha Rock Shelter: Depositional and postdepositional processes at the high-altitude keysite in the Peruvian Andes. Geoarchaeology 37(2), 304–331.10.1002/gea.21889CrossRefGoogle Scholar
Moore, K (1998) Measures of Mobility and Occupational Intensity in Highland Peru. In Rocek, T and Bar-Yosef, O (eds), Seasonality and Sedentism Archaeological Perspectives from Old and New World Sites. Harvard University
Google Scholar
Mosblech, NA, Chepstow-Lusty, A, Valencia, BG and Bush, MB (2012) Anthropogenic control of Late-Holocene landscapes in the Cuzco region, Peru. Holocene 22(12), 1361–1372.10.1177/0959683612449760CrossRefGoogle Scholar
Murra, JV (1972) El “Control Vertical” de Un Máximo de Pisos Ecológicos En La Economía de Las Sociedades Andinas. Universidad Hermilo Valdizán.Google Scholar
Rademaker, K and Hodgins, G (2018) Exploring the chronology of occupations and burials at Cuncaicha Rockshelter, Peru. In Harvati, K, Jäger, G and Reyes-Centeno, H (eds), New Perspectives on the Peopling of the Americas, 223.Google Scholar
Rademaker, K, Hodgins, G, Moore, K, Zarrillo, S, Miller, C, Bromley, GRM, Leach, P, Reid, DA, Álvarez, WY and Sandweiss, DH (2014) Paleoindian settlement of the high-altitude Peruvian Andes. Science 346(6208), 466–469.10.1126/science.1258260CrossRefGoogle ScholarPubMed
Rademaker, K and Moore, K (2019) Variation in the occupation intensity of early forager sites of the Andean Puna. Foraging in the Past. University Press of Colorado, 76–118.10.5876/9781607327745.c004CrossRefGoogle Scholar
Reimer, PJ, Austin, WEN, Bard, E, Bayliss, A, Blackwell, PG, Bronk Ramsey, C, Butzin, M, Cheng, H, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Hajdas, I, Heaton, TJ, Hogg, AG, Hughen, KA, Kromer, B, Manning, SW, Muscheler, R, Palmer, JG, Pearson, C, van der Plicht, J, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Turney, CSM, Wacker, L, Adolphi, F, Büntgen, U, Capano, M, Fahrni, SM, Fogtmann-Schulz, A, Friedrich, R, Köhler, P, Kudsk, S, Miyake, F, Olsen, J, Reinig, F, Sakamoto, M, Sookdeo, A and Talamo, S (2020) The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0–55 cal kBP). Radiocarbon 62(4), 725–757.10.1017/RDC.2020.41CrossRefGoogle Scholar
Rick, JW (1988) The character and context of Highland Preceramic society. Peruvian Prehistory: An Overview of Pre-Inca and Inca Society. Cambridge, 319–355.Google Scholar
Roosevelt, AC, Lima Da Costa, M, Lopes Machado, C, Michab, M, Mercier, N, Valladas, H, Feathers, J, Barnett, W, Imazio Da Silveira, M, Henderson, A, Silva, J, Chernoff, B, Reese, DS, Holman, JA, Toth, N and Schick, K (1996) Paleoindian Cave Dwellers in the Amazon: The Peopling of the Americas. Vol. 272.10.1126/science.272.5260.373CrossRefGoogle Scholar
Rowe, JH (1944) An introduction to the archaeology of Cuzco. Peabody Museum Expeditions to Southern Peru 107.Google Scholar
Sandweiss, DH and Wing, ES (1997) Ritual Rodents: The guinea pigs of Chincha, Peru. Journal of Field Archaeology 24(1), 47–58.10.1179/jfa.1997.24.1.47CrossRefGoogle Scholar
Santoro, CM, Standen, VG, Arriaza, BT and Dillehay, TD (2005) Archaic funerary pattern or postdepositional alteration? The Patapatane burial in the highlands of South Central Andes. Latin American Antiquity 16(3), 329–346.10.2307/30042497CrossRefGoogle Scholar
Schijman, E (2005). Artificial cranial deformation in newborns in the pre-Columbian Andes. Child’s nervous system: ChNS: official journal of the International Society for Pediatric Neurosurgery, 21(11), 945–950. doi: 10.1007/s00381-004-1127-8.Google Scholar
Stuiver, M and Polach, HA (1977) Discussion: Reporting of 14C data. Radiocarbon 19(3), 355–363.10.1017/S0033822200003672CrossRefGoogle Scholar
Sutter, RC (2021) The Pre-Columbian peopling and population dispersals of South America. Journal of Archaeological Research 29(1), 93–151.10.1007/s10814-020-09146-wCrossRefGoogle Scholar
Torres, E (2017) Informe de Resultados del Analisis Bioarqueológico de Los Contextos Funerarios Hallados en el PIAISHM C.A. Salapunku Sector Chamnqhata. Cusco.Google Scholar
Vranich, A and Sillar, W (2016) Recent advances and future directions for research in Inca Cusco. Paper at 35th Northeast Conference on Andean and Amazonian Archaeology and Ethnohistory. Harvard University, Cambridge, MA.Google Scholar
Yataco, JJ (2011) Revisión de las evidencias de Pikimachay, Ayacucho, ocupación del Pleistoceno Final en Los Andes Centrales. Boletín de Arqueología PUCP (15), 247–274.10.18800/boletindearqueologiapucp.201101.009CrossRefGoogle Scholar
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