Isotopic Evidence for Mobility in the Copper and Bronze Age Cemetery of Humanejos (Parla, Madrid): a Diachronic Approach Using Biological and Archaeological Variables

[1]  J. Krause,et al.  Kinship practices in the early state El Argar society from Bronze Age Iberia , 2022, Scientific Reports.

[2]  Pedro Díaz-del-Río,et al.  Paleomobility in Iberia: 12 years of strontium isotope research , 2022, Journal of Archaeological Science: Reports.

[3]  R. Bentley Prehistory of Kinship , 2022, Annual Review of Anthropology.

[4]  A. Herrero-Corral,et al.  ATLANTIC HALBERDS AS BELL BEAKER WEAPONS IN IBERIA: TOMB 1 OF HUMANEJOS (PARLA, MADRID, SPAIN) , 2022, Oxford Journal of Archaeology.

[5]  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.

[6]  M. Pala,et al.  Ancient DNA at the edge of the world: Continental immigration and the persistence of Neolithic male lineages in Bronze Age Orkney , 2022, Proceedings of the National Academy of Sciences.

[7]  D. Reich,et al.  A high-resolution picture of kinship practices in an Early Neolithic tomb , 2021, Nature.

[8]  Thomas J. Booth,et al.  Large-scale migration into Britain during the Middle to Late Bronze Age , 2021, Nature.

[9]  Domingo C. Salazar-García,et al.  Genomic transformation and social organization during the Copper Age–Bronze Age transition in southern Iberia , 2021, Science advances.

[10]  Bradley E. Ensor The Not Very Patrilocal European Neolithic , 2021 .

[11]  D. Hofmann,et al.  Forum: Populism, Identity Politics, and the Archaeology of Europe , 2021, European Journal of Archaeology.

[12]  R. Bentley,et al.  Kinship and migration in prehistoric mainland Southeast Asia: An overview of isotopic evidence , 2021, Archaeological Research in Asia.

[13]  Joanna Brück Ancient DNA, kinship and relational identities in Bronze Age Britain , 2021, Antiquity.

[14]  B. Ensor,et al.  Making aDNA useful for kinship analysis , 2021, Antiquity.

[15]  Martin Furholt Mobility and Social Change: Understanding the European Neolithic Period after the Archaeogenetic Revolution , 2021, Journal of Archaeological Research.

[16]  Václav Hrnčíř,et al.  Post-marital residence patterns in LBK: Comparison of different models , 2020 .

[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]  D. Hamilton,et al.  The radiocarbon chronology and temporality of the megalithic cemetery of Los Millares (Almería, Spain) , 2020, Archaeological and Anthropological Sciences.

[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]  C. Snoeck,et al.  Multi-isotope evidence for the emergence of cultural alterity in Late Neolithic Europe , 2020, Science Advances.

[21]  D. Reich,et al.  Kinship and social organization in Copper Age Europe. A cross-disciplinary analysis of archaeology, DNA, isotopes, and anthropology from two Bell Beaker cemeteries , 2019, bioRxiv.

[22]  K. Frei,et al.  Interpreting Past Human Mobility Patterns: A Model , 2019, European Journal of Archaeology.

[23]  J. Krause,et al.  Kinship-based social inequality in Bronze Age Europe , 2019, Science.

[24]  Michael D. Frachetti,et al.  The formation of human populations in South and Central Asia , 2019, Science.

[25]  D. Hofmann,et al.  Present pasts in the archaeology of genetics, identity, and migration in Europe: a critical essay , 2019, World Archaeology.

[26]  C. Frieman,et al.  Bodies in Motion: Narratives and Counter Narratives of Gendered Mobility in European Later Prehistory , 2019, Norwegian Archaeological Review.

[27]  S. Rasmussen,et al.  Unraveling ancestry, kinship, and violence in a Late Neolithic mass grave , 2019, Proceedings of the National Academy of Sciences.

[28]  H. Bocherens,et al.  Isotopic evidence for mobility at large-scale human aggregations in Copper Age Iberia: the mega-site of Marroquíes , 2018, Antiquity.

[29]  Marie Besse,et al.  The Beaker Phenomenon and the Genomic Transformation of Northwest Europe , 2018, Nature.

[30]  Martin Furholt Massive Migrations? The Impact of Recent aDNA Studies on our View of Third Millennium Europe , 2017, European Journal of Archaeology.

[31]  J. Krause,et al.  Female exogamy and gene pool diversification at the transition from the Final Neolithic to the Early Bronze Age in central Europe , 2017, Proceedings of the National Academy of Sciences.

[32]  S. Rasmussen,et al.  Re-theorising mobility and the formation of culture and language among the Corded Ware Culture in Europe , 2017, Antiquity.

[33]  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.

[34]  K. Kristiansen,et al.  Diet and Mobility in the Corded Ware of Central Europe , 2016, PloS one.

[35]  Søren Brunak,et al.  Population genomics of Bronze Age Eurasia , 2015, Nature.

[36]  D. Reich,et al.  Massive migration from the steppe was a source for Indo-European languages in Europe , 2015, Nature.

[37]  A. Silva,et al.  In search of homelands: using strontium isotopes to identify biological markers of mobility in late prehistoric Portugal , 2014 .

[38]  D. Hofmann,et al.  Community differentiation and kinship among Europe’s first farmers , 2012, Proceedings of the National Academy of Sciences.

[39]  S. Alqahtani,et al.  Brief communication: The London atlas of human tooth development and eruption. , 2010, American journal of physical anthropology.

[40]  A. Pike,et al.  Ancient DNA, Strontium isotopes, and osteological analyses shed light on social and kinship organization of the Later Stone Age , 2008, Proceedings of the National Academy of Sciences.

[41]  C. Knipper,et al.  GEOGRAPHICAL PATTERNS IN BIOLOGICALLY AVAILABLE STRONTIUM, CARBON AND OXYGEN ISOTOPE SIGNATURES IN PREHISTORIC SW GERMANY* , 2005 .

[42]  T. Price,et al.  Prehistoric Migration in Europe: Strontium Isotope Analysis of Early Neolithic Skeletons , 2002 .

[43]  Jaroslav Bruzek,et al.  A method for visual determination of sex, using the human hip bone. , 2002, American journal of physical anthropology.

[44]  H. Bocherens,et al.  Isotopic biogeochemistry ( 13 C, 18 O) of mammalian enamel from African Pleistocene hominid sites , 1996 .

[45]  T. Price,et al.  Residential Mobility in the Prehistoric Southwest United States: A Preliminary Study using Strontium Isotope Analysis , 1994 .

[46]  L. García Sanjuán,et al.  Women, residential patterns and early social complexity. From theory to practice in Copper Age Iberia , 2022, Journal of Anthropological Archaeology.

[47]  D. Ferembach,et al.  Recommendation for Age and Sex Diagnoses of Skeletons , 1980 .