Variation in camelid d13C and d15N values in relation to geography and climate: Holocene patterns and archaeological implications in central western Argentina

GIL, A; UGAN, A.; OTAOLA, C.; NEME, G.; GIARDINA, M.; MENENDEZ, L.

JOURNAL OF ARCHAEOLOGICAL SCIENCE

ACADEMIC PRESS LTD-ELSEVIER SCIENCE LTD

Lugar: Amsterdam; Año: 2016 vol. 66 p. 7 - 20

0305-4403

Camelids are among the l most important taxa to pre-hispanic South America human populations. Stable isotope data from these animals play an important role in improving our understanding of human paleodiet, past human-animal interactions, Holocene environmental change, and modern camelid management. This paper presents d13C and d15N values taken from 91 camelid specimens distributed across western Argentina between 30 and 37 S. These samples come from three desert environments (Andean, Patagonia, and Monte) and include both modern and prehistoric samples. Camelid d13C values range between 20.3? and 10.7?,while d15N values vary between 2? and 10.2?. Mean isotope values differ by environmental context, with significant difference in d13C and d15N between Patagonian and Monte or Andean deserts. Camelid isotope values also vary with latitude, altitude and longitude, though differences in d15N are weak, andthese geographic differences are tied to climatic variables such as annual mean temperature, annual precipitation, and season of precipitation. When comparing camelid d13C values from Central-western Argentina with those from Northwest Argentina and Patagonia, we see a latitudinal trend of decreasing d13C values, with the most negative values occurring in southern Patagonia and the mostpositive values in Northwest Argentina. Variation in camelid stable isotope values and their association with particular environmental contexts shows their value as a geographic marker and possibly as a paleoecological proxy. These results highlight the need to consider the geographic origin of camelidisotope values when using them to reconstruct human diet.