Paleomobility in Iberia: 12 years of strontium isotope research
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Pedro Díaz-del-Río | Antonio Uriarte | Juan M. Vicent | P. Becerra | Alberto Pérez-Villa | Marta Díaz-Zorita
[1] A. Valera,et al. A large-scale environmental strontium isotope baseline map of Portugal for archaeological and paleoecological provenance studies , 2022, Journal of Archaeological Science.
[2] D. Hamilton,et al. The tempo of the Iberian megalithic rituals in the European context: The cemetery of Panoría , 2022, Journal of Archaeological Science.
[3] Domingo C. Salazar-García,et al. Genomic transformation and social organization during the Copper Age–Bronze Age transition in southern Iberia , 2021, Science advances.
[4] K. Kristiansen,et al. The geographic distribution of bioavailable strontium isotopes in Greece - A base for provenance studies in archaeology. , 2021, The Science of the total environment.
[5] R. Fernandes,et al. “Invisible Burials” and Fragmentation Practices in Iron Age Europe: Excavations at the Monte Bernorio Necropolis (Northern Spain) , 2021, Journal of Field Archaeology.
[6] D. Bosch,et al. Caprine Mobility on the Balearic Islands During the Middle and Late Bronze Age (ca. 1600–850 BC): First Results Based on Strontium Isotopes (87Sr/86Sr) , 2021, Environmental Archaeology.
[7] Emily Holt,et al. Strontium (87Sr/86Sr) mapping: A critical review of methods and approaches , 2021 .
[8] W. Haak,et al. Emblems and spaces of power during the Argaric Bronze Age at La Almoloya, Murcia , 2021, Antiquity.
[9] K. Knudson,et al. Neolithic networking and mobility during the 5th and 4th millennia BC in north-eastern Iberia , 2021 .
[10] Michael D. Frachetti,et al. The Impact of Ancient Genome Studies in Archaeology , 2020 .
[11] K. Lillios. Mobility and Alterity in Iberian Late Prehistoric Archaeology: Current Research on the Neolithic–Early Bronze Age (6000–1500 BCE) , 2020 .
[12] Marta Cintas-Peña,et al. Missing prehistoric women? Sex ratio as an indicator for analyzing the population of Iberia from the 8th to the 3rd millennia B.C. , 2020, Archaeological and Anthropological Sciences.
[13] J. Pérez-González,et al. The exceptional finding of Locus 2 at Dehesilla Cave and the Middle Neolithic ritual funerary practices of the Iberian Peninsula , 2020, PloS one.
[14] P. Ditchfield,et al. The life-history of a late Mesolithic woman in Iberia: A sequential multi-isotope approach , 2020 .
[15] G. Manzi,et al. Strontium and oxygen isotopes as indicators of Longobards mobility in Italy: an investigation at Povegliano Veronese , 2020, Scientific Reports.
[16] Domingo C. Salazar-García,et al. Mobility across the pre-Pyrenean mountain ranges during the Chalcolithic through strontium isotopes in human enamel: La Cueva de los Cristales (Sarsa de Surta, Huesca, Spain) , 2020, Journal of Archaeological Science: Reports.
[17] K. Knudson,et al. An archaeological strontium isoscape for the prehistoric Andes: Understanding population mobility through a geostatistical meta-analysis of archaeological 87Sr/86Sr values from humans, animals, and artifacts , 2020 .
[18] V. Grimes,et al. Addressing human mobility in Iberian Neolithic and Chalcolithic ditched enclosures: The case of Perdigões (South Portugal) , 2020 .
[19] B. Schöne,et al. Diet and mobility during the Christian conquest of Iberia: The multi-isotopic investigation of a 12th–13th century military order in Évora, Portugal , 2020, Journal of Archaeological Science: Reports.
[20] K. Alt,et al. Reconstructing Bronze Age diets and farming strategies at the early Bronze Age sites of La Bastida and Gatas (southeast Iberia) using stable isotope analysis , 2020, PloS one.
[21] C. Snoeck,et al. Multi-isotope evidence for the emergence of cultural alterity in Late Neolithic Europe , 2020, Science Advances.
[22] D. Griffith. Spatial Autocorrelation , 2020, Spatial Analysis Methods and Practice.
[23] M. J. Valente,et al. Multi-isotope approaches to the Neolithic cemetery-cave of Bom Santo (Lisbon): new data and comparisons with fourth millennium BC populations from central–southern Portugal , 2019, Archaeological and Anthropological Sciences.
[24] D. Bosch,et al. Equid use and provision during the Early Iron Age in Can Roqueta (NE Iberian Peninsula). Zooarchaeological study and first strontium isotope result (87Sr/86Sr) , 2019, Journal of Archaeological Science: Reports.
[25] Ángel Esparza Arroyo,et al. Conectividad en la Edad del Bronce del occidente de la península ibérica. Examinando la relación entre sitios y vías pecuarias mediante SIG , 2019, Trabajos de Prehistoria.
[26] Michael Kunst,et al. Animal mobility in Chalcolithic Portugal: Isotopic analyses of cattle from the sites of Zambujal and Leceia , 2019, Journal of Archaeological Science: Reports.
[27] H. Bocherens,et al. Multi-isotopic diet analysis of south-eastern Iberian megalithic populations: the cemeteries of El Barranquete and Panoría , 2019, Archaeological and Anthropological Sciences.
[28] Salvador Rovira Lloréns,et al. Proyecto “Arqueometalurgia de la Península Ibérica” (1982-2017) , 2018 .
[29] H. Orengo,et al. Shipping amphorae and shipping sheep? Livestock mobility in the north-east Iberian peninsula during the Iron Age based on strontium isotopic analyses of sheep and goat tooth enamel , 2018, PloS one.
[30] K. Knudson,et al. Residential Mobility and Dental Decoration in Early Medieval Spain: Results from the Eighth Century Site of Plaza del Castillo, Pamplona , 2018, Dental Anthropology Journal.
[31] Domingo C. Salazar-García,et al. Anthropic resource exploitation and use of the territory at the onset of social complexity in the Neolithic-Chalcolithic Western Pyrenees: a multi-isotope approach , 2018, Archaeological and Anthropological Sciences.
[32] H. Bocherens,et al. Isotopic evidence for mobility at large-scale human aggregations in Copper Age Iberia: the mega-site of Marroquíes , 2018, Antiquity.
[33] V. Grimes,et al. Diet and mobility of fauna from Late Neolithic–Chalcolithic site of Perdigões, Portugal , 2018, Journal of Archaeological Science: Reports.
[34] C. Larsen. Bioarchaeology in perspective: From classifications of the dead to conditions of the living. , 2018, American journal of physical anthropology.
[35] C. Bataille,et al. Mapping of bioavailable strontium isotope ratios in France for archaeological provenance studies , 2018 .
[36] K. Veeramah,et al. Understanding 6th-century barbarian social organization and migration through paleogenomics , 2018, Nature Communications.
[37] Domingo C. Salazar-García,et al. Territorial mobility and subsistence strategies during the Ebro Basin Late Neolithic-Chalcolithic: A multi-isotope approach from San Juan cave (Loarre, Spain) , 2017, Quaternary International.
[38] Domingo C. Salazar-García,et al. Late Neolithic-Chalcolithic socio-economical dynamics in Northern Iberia. A multi-isotope study on diet and provenance from Santimamiñe and Pico Ramos archaeological sites (Basque Country, Spain) , 2017, Quaternary International.
[39] Susana Consuegra,et al. Un enterramiento colectivo en cueva del III milenio AC en el centro de la Península Ibérica: el Rebollosillo (Torrelaguna, Madrid) , 2017 .
[40] P. Iacumin,et al. Isotope analyses to explore diet and mobility in a medieval Muslim population at Tauste (NE Spain) , 2017, PloS one.
[41] Jonathan T. Thomas,et al. Diet and mobility patterns in the Late Prehistory of central Iberia (4000–1400 cal bc): the evidence of radiogenic (87Sr/86Sr) and stable (δ18O, δ13C) isotope ratios , 2017, Archaeological and Anthropological Sciences.
[42] J. Santos,et al. Stable isotope and multi-analytical investigation of Monte da Cegonha: A Late Antiquity population in southern Portugal , 2016 .
[43] Isabel Del Bosque González,et al. IDEARQ. Infraestructura de Datos Espaciales de Investigación Arqueológica , 2016 .
[44] Francisca Alves Cardoso,et al. The Bom Santo Cave (Lisbon, Portugal): Catchment, Diet, and Patterns of Mobility of a Middle Neolithic Population , 2016, European Journal of Archaeology.
[45] J. Evans,et al. Analysis of seasonal mobility of sheep in Iron Age Catalonia (north-eastern Spain) based on strontium and oxygen isotope analysis from tooth enamel: First results , 2016 .
[46] M. Deguilloux,et al. Early Medieval Muslim Graves in France: First Archaeological, Anthropological and Palaeogenomic Evidence , 2016, PloS one.
[47] K. Alt,et al. A Community in Life and Death: The Late Neolithic Megalithic Tomb at Alto de Reinoso (Burgos, Spain) , 2016, PloS one.
[48] A. Silva,et al. In search of homelands: using strontium isotopes to identify biological markers of mobility in late prehistoric Portugal , 2014 .
[49] William K. Michener,et al. Grand challenges for archaeology , 2014, Proceedings of the National Academy of Sciences.
[50] X. Murelaga,et al. Strontium isotopes of human remains from the San Martín de Dulantzi graveyard (Alegría-Dulantzi, Álava) and population mobility in the Early Middle Ages , 2013 .
[51] María Cruz Berrocal,et al. Martín Almagro Basch, Fernando Gil Carles y el Corpus de Arte Rupestre Levantino , 2005 .
[52] J. Zilhão. Radiocarbon evidence for maritime pioneer colonization at the origins of farming in west Mediterranean Europe , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[53] V. Lull. Argaric society: death at home , 2000, Antiquity.
[54] B. Chapman. Transhumance and megalithic tombs in Iberia , 1979, Antiquity.
[55] Beatrice Blance. Early Bronze Age Colonists in Iberia , 1961, Antiquity.