The procurement and use of knappable glassy volcanic raw material from the late Pleistocene Pilauco site, Chilean Northwestern Patagonia

Navarro-Harris X.; Pino M.; Guzmán-Marín P.; Lira M.P.; Labarca R.; Corgne A.

Abstract

In this study we used a multidisciplinary approach, coupling morphological, geological, geochemical, and statistical analyses to investigate the provenance of rhyodacitic and dacitic glass knapped at the Pilauco site (40 degrees 34 ' 11" S, 73 degrees 06 ' 17" W; 13,570 +/- 70-12,540 +/- 90 C-14 year BP) in northwestern Chilean Patagonia. A morphotechnological analysis was performed on the entire lithic assemblage, which is composed of cores, retouched and unretouched unifacial flakes, and small pieces of debitage, some of them closely associated with Notiomastodon aff. N. platensis gomphothere bones. Sixty-two archeological and geological samples were analyzed by inductively coupled plasma mass spectrometry revealing a wide range of basaltic to rhyodacitic compositions. The archeological knappable dacitic and rhyodacitic glasses were recovered from pebbles deposited mainly on a beach away from the site, as deduced by the presence of minute and dense crescentic percussion marks on the cortexes. Geochemical trace element analysis suggests that the Puyehue-Cordon Caulle Volcanic Complex is the most likely source for the volcanic glass artifacts at Pilauco. The new morphotechnological and provenance record and improved stratigraphic sequences highlight the Pilauco site as an important contribution for the diversity of the South American geoarchaeological context.

Más información

Título según WOS: The procurement and use of knappable glassy volcanic raw material from the late Pleistocene Pilauco site, Chilean Northwestern Patagonia
Título según SCOPUS: The procurement and use of knappable glassy volcanic raw material from the late Pleistocene Pilauco site, Chilean Northwestern Patagonia
Título de la Revista: GEOARCHAEOLOGY-AN INTERNATIONAL JOURNAL
Volumen: 34
Número: 5
Editorial: Wiley
Fecha de publicación: 2019
Página de inicio: 592
Página final: 612
Idioma: English
DOI:

10.1002/gea.21736

Notas: ISI, SCOPUS