Bioavailable Strontium in the Southern Andes (Argentina and Chile): A Tool for Tracking Human and Animal Movement

ABSTRACT Strontium isotopes allow tracking the scale and pattern of movements of people and animals. With the ultimate goal of reconstructing human mobility in the southern Andes (Argentina and Chile), we present isotopic values for rodent samples selected from the main geological units, thus contributing to building a macro-regional framework of bioavailable strontium. The results show an important variation between geological units with little isotopic overlap between the young western Principal Cordillera (0.70393 ± 0.0005), Eastern Principal Cordillera (0.70563 ± 0.0001), Frontal Cordillera (0.70670 ± 0.00087), and the old Precordillera (0.70946 ± 0.00073) east of the Andes. This substantiates the potential of this approach for archaeological and paleoecological analyses in the southern Andes. We also present the first set of isotopic results for wild and domesticated camelids from the southern Andes, suggesting that home ranges were similar. We reconsider published results for human samples from the last 2000 years in Mendoza Province (Argentina), a period characterised by intense socio-economic change. The observed pattern suggests little systematic human mobility between geological regions across the Andes. While this may not necessarily indicate low mobility, it clearly goes against scenarios of high residential mobility, as suggested on the basis of other isotope systems.

[1]  E. Thomsen,et al.  Agricultural lime disturbs natural strontium isotope variations: Implications for provenance and migration studies , 2019, Science Advances.

[2]  A. Zazzo,et al.  New Bioarchaeological Evidence and Radiocarbon Dates from the Lambayeque/Sicán Culture Camelids from the El Brujo Complex (Northern Coast of Peru): Implications for Funerary and Herd Management Practices , 2018, Environmental Archaeology.

[3]  A. Gasco CAZADORES Y PASTORES DESDE EL 2000 AP EN EL LÍMITE SUR DEL ÁREA ANDINA: ESTADO DE LA CUESTIÓN Y PERSPECTIVAS FUTURAS , 2018 .

[4]  H. Panarello,et al.  Assessing Prehispanic Herding Strategies through Stable Isotope Analysis: A Case Study from the Dry Puna of Argentina , 2018, Environmental Archaeology.

[5]  A. Clark,et al.  Uranium and Vanadium Concentrations as a Trace Element Method for Identifying Diagenetically Altered Bone in the Inorganic Phase , 2018 .

[6]  A. Zazzo,et al.  Strontium isotope analysis on cremated human remains from Stonehenge support links with west Wales , 2018, Scientific Reports.

[7]  C. Mader,et al.  The llama's share: Highland origins of camelids during the Late Paracas period (370 to 200 BCE) in south Peru demonstrated by strontium isotope analysis , 2018, Journal of Archaeological Science: Reports.

[8]  M. Collins,et al.  Diagenesis of archaeological bone and tooth , 2018 .

[9]  A. Pacheco,et al.  Movilidad y dieta en el valle de el mauro (31° 57’ S. - 71° 01’ W.), norte semiárido de Chile, entre 8350-929 cal. ap. , 2017 .

[10]  Erik J. Marsh La fecha de la cerámica más temprana en los Andes sur. Una perspectiva macrorregional mediante modelos bayesianos , 2017 .

[11]  K. Knudson,et al.  Scale of human mobility in the southern Andes (Argentina and Chile): A new framework based on strontium isotopes. , 2017, American journal of physical anthropology.

[12]  K. Knudson,et al.  'To and fro' the southern Andean highlands (Argentina and Chile): Archaeometric insights on geographic vectors of mobility , 2017 .

[13]  Diego Winocur,et al.  GEOLOGÍA Y ESTRUCTURA DE LA ALTA CORDILLERA DE SAN JUAN (30ºLS): CONTRIBUCIONES DE GROEBER A SU CONOCIMIENTO , 2017 .

[14]  R. Kidd,et al.  Dating the Expansion of the Inca Empire: Bayesian Models from Ecuador and Argentina , 2017, Radiocarbon.

[15]  Alejandra Gasco,et al.  Potters and herders at the southern edge of the Andean world: Risk management and mobility in Northwestern Mendoza, Argentina , 2016 .

[16]  R. Cowling,et al.  Strontium isotope investigation of ungulate movement patterns on the Pleistocene Paleo-Agulhas Plain of the Greater Cape Floristic Region, South Africa , 2016 .

[17]  L. Menéndez,et al.  Variation in camelid δ13C and δ15N values in relation to geography and climate: Holocene patterns and archaeological implications in central western Argentina , 2016 .

[18]  Hugo D. Yacobaccio PASTOREO, MOVILIDAD Y SEQUÍAS , 2014 .

[19]  Víctor Durán,et al.  Sitios de entierro de la localidad arqueológica Barrancas, Maipú (Mendoza, Argentina) , 2013 .

[20]  J. Coltrain,et al.  Geographic variation in bone carbonate and water δ18O values in Mendoza, Argentina and their relationship to prehistoric economy and settlement , 2012 .

[21]  Erik J. Marsh,et al.  ACTIVIDADES DOMÉSTICAS DURANTE LOS SIGLOS III -VIII D.C. EN EL VALLE DE POTRERILLOS (SAN IGNACIO-MENDOZA). UN ACERCAMIENTO DESDE LA OSTEOMETRÍA Y LA TECNOLOGÍA CERÁMICA Y LÍTICA / Domestic activities during the III-VIII centuries AD in Potrerillos Valley , 2011 .

[22]  Virginia McRostie,et al.  SITIO EL PLOMO Y NUEVOS REGISTROS DE CULTÍGENOS INICIALES EN CAZADORES DEL ARCAICO IV EN ALTO MAIPO, CHILE CENTRAL , 2011 .

[23]  E. Cornejo,et al.  North and South: Hunter-Gatherer Communities in the Andes Mountains in Central Chile , 2011 .

[24]  Luis E. Cornejo B.,et al.  North and South: Hunter-Gatherer Communities in the Andes Mountains in Central Chile , 2011, Latin American Antiquity.

[25]  E. Méndez,et al.  Summer and winter diet of the guanaco and food availability for a High Andean migratory population (Mendoza, Argentina) , 2011 .

[26]  J. Hublin,et al.  Strontium isotope evidence for migration in late Pleistocene Rangifer: implications for Neanderthal hunting strategies at the Middle Palaeolithic site of Jonzac, France. , 2011, Journal of human evolution.

[27]  F. Falabella,et al.  Analysis of Stable Isotopes: From the Archaic to the Horticultural Communities in Central Chile , 2010, Current Anthropology.

[28]  L. Giambiagi,et al.  THE HIGH ANDEAN CORDILLERA OF CENTRAL ARGENTINA AND CHILE ALONG THE PIUQUENES PASS-CORDON DEL PORTILLO TRANSECT: DARWIN'S PIONEERING OBSERVATIONS COMPARED WITH MODERN GEOLOGY , 2009 .

[29]  A. Paytan,et al.  Determining landscape use of Holocene mammals using strontium isotopes , 2007, Oecologia.

[30]  Valeria Cortegoso Comunidades agrícolas en el Valle de Potrerillos (NO de Mendoza) durante el Holoceno tardío: organización de la tecnología y vivienda , 2006 .

[31]  R. Bentley Strontium Isotopes from the Earth to the Archaeological Skeleton: A Review , 2006 .

[32]  T. Price,et al.  The Use of Strontium Isotope Analysis to Investigate Tiwanaku Migration and Mortuary Ritual in Bolivia and Peru , 2004 .

[33]  L. Giambiagi,et al.  The control of pre-existing extensional structures on the evolution of the southern sector of the Aconcagua fold and thrust belt, southern Andes , 2003 .

[34]  S. Kay,et al.  Evidence for Cenozoic extensional basin development and tectonic inversion south of the flat-slab segment, southern Central Andes, Chile (33°–36°S.L.) , 2002 .

[35]  T. Price,et al.  The Characterization of Biologically Available Strontium Isotope Ratios for the Study of Prehistoric Migration , 2002 .

[36]  S. H. Richardson,et al.  87Sr/86Sr ratios in modern and fossil food-webs of the Sterkfontein Valley: implications for early hominid habitat preference , 1998 .

[37]  S. Kay,et al.  Geochronology of Miocene plutons and exhumation history of the El Teniente region, Central Chile (34-35°8) , 1997 .

[38]  T. Price,et al.  Diagenesis in prehistoric bone: Problems and solutions , 1992 .

[39]  Ricardo G. Capitanelli Climatología de Mendoza , 1967 .

[40]  V. Ramos,et al.  Andean flat-slab subduction through time , 2009 .

[41]  R. Alexander Bentley Strontium Isotopes from the Earth to the Archaeological Skeleton: A Review , 2006 .

[42]  Alejandro García La ocupación temprana de los Andes Centrales argentinos (ca. 11.000-8.000 años C14 AP) , 2003 .

[43]  K. Biddle,et al.  Mesozoic Extension and the Formation of Argentine Sedimentary Basins: Chapter 39: Analogs , 1989 .

[44]  G. Furque,et al.  Precordillera de La Rioja, San Juan y Mendoza , 1979 .

[45]  C. Rusconi Poblaciones pre y posthispanicas de Mendoza , 1961 .