Techno-morphological characterization of pseudoartifacts produced by human trampling: experimental assessment on different lithic raw materials

Authors

DOI:

https://doi.org/10.31048/1852.4826.v17.n2.44651

Keywords:

Lithic technology, Lithic taphonomy, Actualism, Pseudotool, Clasificación

Abstract

The action of taphonomic processes on rock fragments or on lithic artifacts may generate stone tool pseudomorphs. This is particularly the case if postdepositional processes acting upon lithics include percussion and/or pressure mechanisms. Trampling is one of the most ubiquitous taphonomic processes in archaeological contexts, in particular surface loci. In this paper, we present a techno-morphological characterization of experimental lithic pseudotools produced by human treadage in order to contribute to the identification of the taphonomic background noise within different regions. Experimental artifacts were analyzed using the main classification methodology applied by lithic analysts in Argentina, to maximize the comparability of the outcomes of this research. Edge damage, stone tool type, flake scar size, flaking pattern, etc., are described. Trampling experiences included several raw materials represented within Pampa and Patagonia archaeological assemblages. It allowed us to explore variations within trampling effects on different rocks and substrates as well as to generate expectations on the contribution of pseudotools to the archaeological assemblages.

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Author Biographies

  • Karen Borrazzo, CONICET

    Adjunct researcher at CONICET. Professor of Ergology and Technology (Department of Anthropological Sciences, Faculty of Philosophy and Letters, University of Buenos Aires).

  • Franco Pazzi, CONICET

    tecnología lítica, arqueología pampeana, arqueología experimental

References

Andrefsky, W. (1998). Lithics: Macroscopic Approach to Analysis. Cambridge: Cambridge University Press.

Aschero, C. (1975). Ensayo para una Clasificación Morfológica de Artefactos Líticos Aplicada Estudios Tipológicos Comparativos. Informe presentado al CONICET. Manuscrito inédito.

Aschero, C. (1983). Ensayo para una Clasificación Morfológica de Artefactos Líticos Aplicada Estudios Tipológicos Comparativos. Apéndices A-C. Revisión. Cátedra de Ergología y Tecnología. Manuscrito inédito.

Balirán, C. (2014). Trampling, Taphonomy, and Experiments with lithic artifacts in the southeastern Baguales Range (Santa Cruz, Argentina). Intersecciones en Antropología, 15(3), 85-95. http://www.scielo.org.ar/scielo.php?script=sci_arttext&pid=S1850-373X2014000300008

Balirán, C. (2021). El Pasado Pisado. Investigaciones Arqueológicas en Tecnología y Tafonomía Líticas de los Cazadores Recolectores de sierra Baguales, Sudoeste de Santa Cruz, Argentina. Buenos Aires: IMHICIHU-CONICET. http://www.imhicihu-conicet.gob.ar/wp-content/uploads/2021/03/El_pasado_pisado_Ebook.pdf

Belardi, J. B., Carballo Marina, F, y Campan, P. (2022). Distribuciones de artefactos líticos, cronología y el modelo de pisoteo (Borrero 1988): los médanos de la costa norte del lago Viedma (Santa Cruz, Patagonia argentina). Chungara, 54, 521-534. http://dx.doi.org/10.4067/s0717-73562021005001803

Bordes, F. (1961). Typologie du Paléolithique Ancien et Moyen. Bourdeaux: Institut de Préhistoire de l’université de Bordeaux.

Borrazzo, K. (2004). Hacia una Tafonomía Lítica. Tesis de licenciatura, Universidad de Buenos Aires.

Borrazzo, K. (2020). Expanding the Scope of Actualistic Taphonomy in Archaeological Research. En S. Martínez, A. Rojas, y F. Cabrera (Eds.), Actualistic Taphonomy in South America (pp. 221-242). Nueva York: Springer. https://link.springer.com/chapter/10.1007/978-3-030-20625-3_12

Borrazzo, K. (2022). Estimating the Contribution of Lithic Pseudo Artifacts to the Archaeological Record: Actualistic Taphonomic Research at Casa de Piedra de Roselló 1 (Chubut, Argentina). Ethnoarchaeology, 14(2), 136-159. http://dx.doi.org/10.1080/19442890.2022.2113086.

Borrazzo, K., Weitzel, C. y Ceraso, A. (2020). Exploración experimental de los efectos del pisoteo sobre artefactos de obsidiana. Revista del Museo de Antropología, 13(1), 341-346. https://revistas.unc.edu.ar/index.php/antropologia/article/view/23826

Borrero, L. A. (1988). Tafonomía Regional. En N. R. Ratto y A. F. Haber (Eds.), De Procesos, Contextos y otros Huesos, (pp. 9-15). Buenos Aires: Facultad de Filosofía y Letras Universidad de Buenos Aires.

Carranza Elola, J. y Mendez, C. (2020). Tafonomía Lítica del Sitio Quebrada de Quereo: Abordando el Problema de la Ambigüedad Antropogénica en Contextos del Final del Pleistoceno. Estudios Atacameños, 65, 217-245. http://dx.doi.org/10.22199/issn.0718-1043-2020-0026

Civalero de Biset, M. T. (1991). Modificaciones en los filos de artefactos líticos a partir de una experiencia de pisoteo. Shincal, 3(3), 200-205.

Cotterell, B. y Kamminga, J. (1987). The Formation of Flakes. American Antiquity, 52(4), 675-708. https://www.jstor.org/stable/281378

de la Peña, P. y Witelson, D. (2018). Trampling vs. Retouch in a Lithic Assemblage: A Case Study from a Middle Stone Age Site, Steenbokfontein 9KR (Limpopo, South Africa). Journal of Field Archaeology, 43(7), 522-537. https://www.tandfonline.com/doi/abs/10.1080/00934690.2018.1524219

Domínguez-Solera, S., Maíllo-Fernández, J., Baquedano, E., y Domínguez-Rodrigo, M. (2021). Equids can also make stone artefacts. Journal of Archaeological Science: Reports, 40, 103260. https://doi.org/10.1016/j.jasrep.2021.103260

Douglass, M. y Wandsnider, L. A. (2012). Fragmentation Resistant Measures of Chipped Stone Abundance and Size: Results of an Experimental Investigation of the Impact of Cattle Trampling on Surface Chipped Stone Scatters. Plains Anthropologist, 57(224), 353-365. https://www.jstor.org/stable/43700773

Duvall, J. G. y Venner, W. T. (1979). A Statistical Analysis of the Lithics from the Calico Site (SBCM 1500A), California. Journal of Field Archaeology, 6(4), 455-462. https://doi.org/10.2307/529427

Eren, M.I., Durant, A., Neudorf, C., Haslam, M., Shipton, C., Bora, J., Korisettar, R., y Petraglia, M. (2010). Experimental examination of animal trampling effects on artifact movement in dry and water saturated substrates: a test case from South India. Journal of Archaeological Science, 37(12), 3010–3021. https://doi.org/10.1016/j.jas.2010.06.024

Flegenheimer N. y Weitzel, C. (2007). Caminar sobre piedras: los artefactos fracturados de Cerro El Sombrero. XVI Congreso Nacional de Arqueología Argentina, Tomo III, pp 263-267. Universidad Nacional de Jujuy, San Salvador de Jujuy.

Flenniken, J. J. y Haggarty, J.C. (1980). Trampling as an agency in the formation of edge damage: An experiment in lithic technology. Northwest Anthropological Research Notes, 13(2), 208-214.

Garvey, R. y Mena, F. (2016). Confronting complexities of artifact-geofact debates: re-analysis of a coarse volcanic rock assemblage from Chilean Patagonia. Lithic Technology, 41, 114-129. https://doi.org/10.1080/01977261.2016.1152023

Gifford-Gonzalez, D. P., Damrosch, D. B. Damrosch, Pryor, J. y Thunen, R. L. (1985). The third dimension in site structure: an experiment in trampling and vertical dispersal. American Antiquity, 50(4), 803-818. https://doi.org/10.2307/280169

Hammer, Ø., Harper, D. A. T. y Ryan, P. D. (2001). PAST: PAleontological Statistics Software Package for Education and Data Analysis. Palaeontología Electrónica, 4(1), 9. https://palaeo-electronica.org/2001_1/past/issue1_01.htm

Jackson, D. (1990). El complejo andino de los buriles: evidencia empírica y fundamento teórico. Revista Chilena de Antropología, 9, 87-194.

Lopinot, N. y Ray, J. (2007). Trampling Experiments in the Search for the Earliest Americans. American Antiquity, 72(4), 771-782. https://doi.org/10.2307/25470445

Lubinski, P. M., Terry, K. y McCutcheon, P. T. (2014). Comparative Methods for Distinguishing Flakes from Geofacts: A Case Study from the Wenas Creek Mamooth Site. Journal of Archaeological Science, 52, 308-320. https://doi.org/10.1016/j.jas.2014.09.006

Martindale, A. y Jurakic, I. (2006). Identifying expedient glass tools in a post-contact Tsimshian village. Journal of Archaeological Science, 33(3), 414–427. https://doi.org/10.1016/j.jas.2005.08.007

Martindale, A. y Jurakic, I. (2015). Glass Tools in Archaeology: Material and Technological

Change. The Oxford Handbook of Topics in Archaeology https://doi.org/10.1093/oxfordhb/9780199935413.013.4 (Acceso 10 septiembre, 2023).

Méndez Muñoz, V. (2015). Historias Depositacionales de Conjuntos líticos en la Transición Pleistoceno-Holoceno en el Sitio Valiente, Provincia del Choapa. Tesis para optar por el título Profesional de Arqueólogo, Universidad de Chile.

McBrearty, S., Bishop, L., Plummer, T., Dewar, R. y Conard, N. (1998). Tools underfoot: human trampling as an agent of lithic artifact edge modification. American Antiquity, 63(1), 108-122. https://doi.org/10.2307/2694779

McPherron, S., Braun, D. Dogandzic, T., Archer, W., Desta, D. y Lin, S. C. (2014). An experimental assessment of the influences on edge damage to lithic artifacts: a consideration of edge angle, substrate grain size, raw material properties, and exposed face. Journal of Archaeological Science, 49, 70-82. https://doi.org/10.1016/j.jas.2014.04.003.

Merenzon, J. (1988). Perturbaciones en un Conjunto Lítico Depositado sobre valvas: un caso Experimental. Buenos Aires: Asociación de Investigaciones Antropológicas.

Nielsen, A. E. (1991). Trampling the Archaeological Record: An Experimental Study. American Antiquity, 56(3), 483-503. https://doi.org/10.2307/280897

Pevny, C. D. (2012). Distinguishing taphonomic processes from stone tool use at the Gault site, Texas. En P. J. Carr, A. P. Bradbury y S. E. Price (Eds.), Contemporary lithic analysis in the southeast: problems, solutions, and interpretations, (pp. 55-78). Tuscaloosa: University of Alabama Press.

Pintar, E. (1987). Controles Experimentales de Desplazamientos y Alteraciones de Artefactos Líticos en Sedimentos Arenosos: Aplicaciones Arqueológicas. Tesis de licenciatura, Universidad de Buenos Aires.

Pryor, J. H. (1988). The Effects of Human Trample Damage on Lithics: A Consideration of Crucial Variables. Lithic Technology, 17(1), 45-50. https://doi.org/10.1080/01977261.1988.11754525

Sellers, G. E. (1885). Observations on Stone Chipping. Annual Report of the Board of Regents of the Smithsonian Institution, Part 1, 871-891.

Thiébaut, C. (2010). Denticulate Mousterian: myth or reality? Acta Universitatis Wratislaviensis 3207, Studia Archeologiczne, XLI, 345-385.

Vargas Gariglio, J. y Hermo, D. (2018). Análisis de la incidencia del pisoteo en la alteración de filos en fragmentos de vidrio: resultados de una experiencia. Mundo de Antes, 12,135-159. http://www.mundodeantes.org.ar//pdf/revista12-1/04-Gariglio.pdf

Warren, S. H. (1905). On the Origin of Eoliths. Man, 5:179-183.

Warren, S. H. (1914). The Experimental Investigation of Flint Fracture and its Application to Problems of Human Implements. Journal of the Royal Anthropological Institute of Great Britain and Ireland, 44, 412-450. https://doi.org/10.2307/2843364

Weitzel, C. (2012). Cuentan los fragmentos. Clasificación y causas de fractura de artefactos formatizados por talla. Intersecciones en Antropología, 13(1), 43-55. http://www.scielo.org.ar/scielo.php?script=sci_arttext&pid=S1850-373X2012000100003

Weitzel, C., Borrazzo, K., Ceraso, A. y Balirán, C. (2014). Trampling fragmentation potential of lithic artifacts: an experimental approach. Intersecciones en Antropología, 15(3), 97-110. http://www.scielo.org.ar/scielo.php?pid=S1850373X2014000300009&script=sci_arttext&tlng=pt

Weitzel, C. y Sánchez, A. (2021). A Trampling Experiment to Assess Fractures and Edge Damage in Quarry’s Lithic Assemblages. Lithic Technology, 46(4), 286-301. https://doi.org/10.1080/01977261.2021.1926702

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Published

2024-08-28

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Section

Archaeology

How to Cite

Borrazzo, K., Balirán, C., Pazzi, F., & Weitzel, C. (2024). Techno-morphological characterization of pseudoartifacts produced by human trampling: experimental assessment on different lithic raw materials. Revista Del Museo De Antropología, 17(2), 105-118. https://doi.org/10.31048/1852.4826.v17.n2.44651

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