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Interpreting Past Human Mobility Patterns: A Model

Published online by Cambridge University Press:  28 June 2019

Samantha S. Reiter Open the ORCID record for Samantha S. Reiter [Opens in a new window]  and
Karin M. Frei Open the ORCID record for Karin M. Frei [Opens in a new window]
Samantha S. Reiter
Affiliation:
Department of Environmental Archaeology and Material Science, The National Museum of Denmark, Kongens Lyngby, Denmark
Karin M. Frei
Affiliation:
Department of Environmental Archaeology and Material Science, The National Museum of Denmark, Kongens Lyngby, Denmark
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Abstract

In the last decade, the exponential increase in migration studies focusing on the mobility of groups and single individuals—mostly based on aDNA and strontium isotope analyses—has provided an important extra layer of information regarding past social dynamics. The current relatively large quantity of data and their constant increase provide an opportunity to examine human mobility in unprecedented detail. In short, the course of academic dialogue is changing from producing evidence for movement to examining differences or similarities in human mobilities across temporal and geographical barriers. Moreover, the amount and type of new data are beginning to provide new kinds of information that can help us grasp why that movement first came about. We present the first potential mobility model focusing on single individuals during different life stages based on in vivo movement patterns. We draw on previous studies in recent mobility research that provide a variety of case studies to illustrate the model. We hope that this model will prove valuable for future discussions regarding human mobility by integrating the present archaeological contextual discourse with the increasing body of data being produced.

Au cours de la dernière décennie, la croissance exponentielle des études concernant la migration mettant l'accent sur la mobilité de groupes ou d'individus—la plupart basées sur des analyses de l'ADN ancien et des isotopes du strontium—a fourni une série supplémentaire de données sur les dynamiques sociales du passé. Aujourd'hui, la quantité de ces données, un nombre qui augmente constamment, permet d'examiner la mobilité des humains avec un degré de précision inédit. La teneur du débat scientifique est en train de changer, passant d'une présentation des indicateurs de mouvement vers un examen des différences ou ressemblances entre la mobilité des gens, au travers des barrières temporelles et géographiques. De plus, la quantité et le caractère de ces données commencent à fournir de nouvelles informations sur l'origine de ces mouvements. Nous présentons ici un premier modèle de mobilité potentielle focalisé sur des individus dans différentes phases de leur vie et fondé sur des schémas de mouvement in vivo. Nous nous basons sur des études récentes sur la mobilité qui fournissent divers exemples illustrant notre modèle. Nous espérons que ce modèle s'avèrera utile dans de futures discussions sur la mobilité humaine en combinant le discours actuel basé sur le contexte archéologique avec les nouvelles données toujours plus abondantes. Translation by Madeleine Hummler

Im letzten Jahrzehnt zeigte sich eine exponentiell zunehmende Entwicklung innerhalb der Migrationsforschung in der Archäologie, welche die Mobilität von Menschengruppen oder Individuen betreffen und vor allem auf Analysen von alt-DNA (aDNA) und Strontium Isotop-Analysen beruhen. Diese Forschungen sind heute eine wichtige zusätzliche Informationsquelle innerhalb der Diskussion zu den Dynamiken vor- und frühgeschichtlicher Gesellschaften. Die zurzeit recht große und stetig zunehmende Menge von Daten bietet die Gelegenheit, menschliche Mobilität mit bisher unerreichter Genauigkeit zu untersuchen. Fokussierte die Forschung noch vor wenigen Jahren auf den einfachen Beweis für Mobilität, so ermöglicht die steigende Menge Daten heute die Untersuchung von Unterschieden und Gemeinsamkeiten innerhalb der menschlichen Mobilität, in Zeit und Raum. Darüber hinaus erlauben die neuen Daten bereits neue Angaben zu den Ursachen vor- und frühgeschichtlicher Möbilität In diesem Artikel stellen wir erstmals ein Modell zur Bestimmung potenzieller Mobilitätsmuster vor. Das Modell basiert auf in vivo Bewegungsmustern einzelner Individuen in verschiedenen Lebensphasen. Neueste Forschungsergebnisse verschiedener Projekte werden als Beispiele herangezogen um das hier vorgestellte Modell illustrieren. Das hier vorgestellte Modell wird hoffentlich zukünftige Diskussionen zur menschlichen Mobilität durch die Verbindung des aktuellen kontextuellen Diskurses in der Archäologie mit der zunehmenden Menge neu erzeugter Daten anregen. Translation by Madeleine Hummler

Keywords

mobilitymigration causesmodelmovementmobilitécauses de la migrationmodèlemouvementMobilitätUrsachen der MigrationModell(Bevölkerungs)Bewegung
Type
Article
Information
European Journal of Archaeology , Volume 22 , Issue 4 , November 2019 , pp. 454 - 469
Copyright
Copyright © European Association of Archaeologists 2019 

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References

Adey, P., Bissell, D., Hannam, K., Merriman, P. & Sheller, M. eds. 2014. The Routledge Handbook of Mobilities. Abingdon & New York: Routledge.Google Scholar
Allentoft, M.E., Sikora, M., Sjögren, K.G., Rasmussen, S., Rasmussen, M., Stenderup, J. et al. 2015. Population Genomics of Bronze Age Eurasia. Nature, 522: 167–72. https://doi.org/10.1038/nature14507Google Scholar
Andrushko, V.A., Buzon, M.R., Gibaja, A.M., McEwan, G.F., Simonetti, A. & Creaser, R.A. 2011. Investigating a Child Sacrifice Event from the Inca Heartland. Journal of Archaeological Science, 38: 323–33. https://doi.org/10.1016/j.jas.2010.09.009Google Scholar
Anthony, D.W. 1990. Migration in Archaeology: The Baby and the Bathwater. American Anthropologist, 92: 895914.Google Scholar
Beardsley, R., Holder, P., Krieger, A., Meggers, B., Rinaldo, J. & Kutsche, P. 1955. Functional and Evolutionary Implications of Community Patterning. Memoirs of the Society for American Archaeology, 11: 130–57. https://doi.org/10.1017/S0081130000001477Google Scholar
Bergerbrant, S. 2007. Bronze Age Identities: Costume, Conflict and Contact in Northern Europe 1600–1300 BC. Lindome: Bricoleur Press.Google Scholar
Binford, L. 1980. Willow Smoke and Dogs’ Tails: Hunter-Gatherer Settlement Systems and Archaeological Site Formation. American Antiquity, 45: 420.Google Scholar
Bollig, M. 1987. Ethnic Relations and Spatial Mobility in Africa: A Review of the Peripatetic Niche. In: Rao, A., ed. The Other Nomads: Peripatetic Minorities in Cross-cultural Perspective. Cologne: Böhlau, pp. 179228.Google Scholar
Broholm, H.C. & Hald, M. 1939. Skrydstrupfundet. Copenhagen: Nordisk Forlag.Google Scholar
Cabana, G.S. & Clark, J.J. 2011. Migration in Anthropology: Where We Stand. In: Cabana, G.S. & Clark, J.J., eds. Rethinking Anthropological Perspectives on Migration. Gainesville (FL): University Press of Florida, pp 315.Google Scholar
Ceruti, M.C. 2004. Human Bodies as Objects of Dedication at Inca Mountain Shrines (north-western Argentina). World Archaeology, 36: 103–22.Google Scholar
Cresswell, T. 2012. Mobilities II: Still. Progress in Human Geography, 36(5): 645653. https://doi.org/10.1177/0309132511423349Google Scholar
Eerkens, J.W., Barford, G.H., Jorgenson, G.A. & Peake, C. 2014. Tracing the Mobility of Individuals Using Stable Isotope Signatures in Biological Tissues: ‘Locals’ and ‘Non-locals’ in an Ancient Case of Violent Death from Central California. Journal of Archaeological Science, 41: 474–81. https://doi.org/10.1016/j.jas.2013.09.014Google Scholar
Evans, J.A., Chenery, C.A. & Fitzpatrick, A.P. 2006. Bronze Age Childhood Migration of Individuals Near Stonehenge, Revealed by Strontium and Oxygen Isotope Tooth Enamel Analysis. Archaeometry, 48: 309–21. https://doi.org/10.1111/j.1475-4754.2006.00258.xGoogle Scholar
Evans, J.A., Montgomery, J., Wildman, G. & Boulton, N. 2010. Spatial Variations in Biosphere 87Sr/86Sr in Britain. Journal of the Geological Society, 167: 14. https://doi.org/10.1144/0016-76492009-090Google Scholar
Font, L., van der Peijl, G., van Wetten, I., Vroon, P., van der Wagt, B. & Davies, G. 2012. Strontium and Lead Isotope Ratios in Human Hair: Investigating a Potential Tool for Determining Recent Human Geographical Movements. Journal of Analytical Atomic Spectrometry, 27: 719–32. http://dx.doi.org/10.1039/C2JA10361CGoogle Scholar
Frankopan, P. 2015. The Silk Roads: A New History of the World. London: Bloomsbury.Google Scholar
Frei, K.M. 2013. Exploring the Potential of the Strontium Isotope Tracing System in Denmark. Danish Journal of Archaeology, 2: 113–22.Google Scholar
Frei, K.M., Kristiansen, K., Allentoft, M.E., Wilson, A.S., Skals, I. et al. 2015a. Tracing the Dynamic Life Story of a Bronze Age Female. Scientific Reports, 5: 10431. https://doi.org/10.1038/srep10431Google Scholar
Frei, K.M., Mannering, U., Douglas Price, T. & Birch Iversen, R. 2015b. Strontium Isotope Investigations of the Haraldskær Woman: A Complex Record of Various Tissues. ArchaeoSciences, 39: 93101.Google Scholar
Frei, K.M., Villa, C., Jørkov, M.L., Allentoft, M.E., Kaul, F., Ethelberg, P. et al. 2017. A Matter of Months: High Precision Migration Chronology of a Bronze Age Female. PlosOne, 12(6): e0178834. https://doi.org/10.137/journal.pone.0178834Google Scholar
Frobenius, L. 1898. Der Ursprung der Kultur. Berlin: Gebrüder Bornträger.Google Scholar
Frobenius, L. 1899. Die Naturwissenschaftliche Culturlehre. Berlin: Ferdinand Dümmler.Google Scholar
Garnett, A. 1945. The Loess Regions of Central Europe in Prehistoric Times. The Geographic Journal, 106(3/4): 132–43.Google Scholar
Gleirscher, P. 2004. Some Remarks on the Iceman: His Death and his Social Rank. Prähistorische Zeitschrift, 89(1): 4054. https://doi.org/10.1515/pz-2014-0004Google Scholar
Glob, P.V. 1969. The Bog People: Iron Age Man Preserved. London: Faber & Faber.Google Scholar
Goffmann, E. 1959. The Presentation of Self in Everyday Life. New York: Doubleday.Google Scholar
Greenblatt, S. 2010. Cultural Mobility: An Introduction. In: Greenblatt, S., Cultural Mobility: A Manifesto. Cambridge: Cambridge University Press, pp. 123.Google Scholar
Gronenborn, D. 1999. A Variation on a Basic Theme: The Transition to Farming in Southern Central Europe. Journal of World Prehistory, 13: 123210.Google Scholar
Haak, W., Brandt, G., de Jong, H.N., Meyer, C., Ganslmeier, R., Heyd, V. et al. 2008. Ancient DNA, Strontium Isotopes and Osteological Analyses Shed Light on Social and Kinship Organization of the Later Stone Age. Proceedings of the National Academy of Sciences, 105: 18226–31. https://doi.org/10.1073/pnas.0807592105Google Scholar
Heberle, R. 1938. The Causes of Rural-Urban Migration: A Survey of German Theories. American Journal of Sociology, 43: 932–50.Google Scholar
Helms, M.W. 1994. Essay on Objects: Interpretations of Distance Made Tangible. In: Schwartz, S.B., ed. Implicit Understandings: Observing, Reporting and Reflecting on the Encounters between Europeans and Other Peoples in the Early Modern Era. Cambridge: Cambridge University Press, pp. 355–77.Google Scholar
Hoogewerff, J.A., Reimann, C., Ueckermann, H., Frei, R., Frei, K.M., van Aswegen, T. et al. 2019. Bioavailable 87Sr/86Sr in European Soils: A Baseline for Provenancing Studies. Science of the Total Environment, 672: 1033–44. https://doi.org/10.1016/j.scitotenv.2019.03.387Google Scholar
Hermes, T.R., Frachetti, M.D., Bullion, E.A., Maksudov, F., Mustafokulov, S. & Makarewicz, C.A. 2018. Urban and Nomadic Isotopic Niches Reveal Dietary Connectivities Along Central Asia's Silk Roads. Scientific Reports, 8: 5177. https://doi.org/10.1038/s41598-018-22995-2Google Scholar
Huntington, S.P. 1996. The Clash of Civilizations and the Remaking of the World Order. New York: Touchstone Publishing.Google Scholar
Jockenhövel, A. 1980. Die Rasiermesser in Westeuropa (Prähistorische Bronzefunde VIII, Band 3). München: C.H. Beck.Google Scholar
Jockenhövel, A. 1991. Räumliche Mobilität von Personen in der Mittleren Bronzezeit des Westlichen Mitteleuropa. Germania, 69: 4962.Google Scholar
Jockenhövel, A. 1995. Zur Ausstattung von Frauen in Nordwestdeutschland und in der Deutschen Mittelgebirgszone Während der Spätbronzezeit und Älteren Eisenzeit. In: Jockenhövel, A., ed. Festschrift für Hermann Müller-Karpe zum 70. Geburtstag. Bonn: Rudolf Habelt, pp. 195212.Google Scholar
Jockenhövel, A. & Kurbach, W. eds. 1994. Bronzezeit in Deutschland. Stuttgart: Theiss.Google Scholar
Kaufmann, V., Bergman, M. & Joye, D. 2004. Motility. Mobility as Capital. International Journal of Urban and Regional Research, 28(4): 745–56. https://doi.org/10.1111/j.0309-1317.2004.00549.xGoogle Scholar
Kelly, R.L. 1992. Mobility/Sedentism: Concepts, Archaeological Measures and Effects. Annual Review of Anthropology, 21: 4366.Google Scholar
Kelly, R.L. 1995. The Lifeways of Hunter-Gatherers: The Foraging Spectrum. Cambridge: Cambridge University Press.Google Scholar
Kimmig, W. 1958. Ein Gräberfeld der Bronze- und Eisenzeit von Singen am Hohentiel. In: Krämer, W., ed. Neue Ausgrabungen in Deutschland. Berlin: Gebrüder Mann, pp. 107–20.Google Scholar
Knipper, C., Meyer, C., Jacobi, F., Roth, C., Fecher, M., Stephan, E. et al. 2014. Social Differentiation and Land Use at an Early Iron Age ‘Princely Seat’: Bioarchaeological Investigations at the Glauberg (Germany). Journal of Archaeological Science, 41: 818–35. https://doi.org/10.1016/j.jas.2013.09.019Google Scholar
Knipper, C., Mittnik, A., Massy, K., Kociumaka, C., Kucukkalipci, I., Maus, M. et al. 2017. Female Exogamy and Gene Pool Diversification at the Transition from the Final Neolithic to the Early Bronze Age in Central Europe. Proceedings of the National Academy of Sciences of the United States of America, 114: 10,083–88. https://doi.org/10.1073/pnas.1706355114Google Scholar
Kootker, L.M., van Lanen, R.J., Kars, H. & Davies, G.R. 2016. Strontium Isoscapes in the Netherlands. Spatial Variations in 87Sr/86Sr as a Proxy for Palaeomobility. Journal of Archaeological Science: Reports, 6: 113. https://doi.org/10.1016/j.jasrep.2016.01.015Google Scholar
Krause, R. 1988. Die endneolithischen und frühbronzezeitlichen Grabfunde auf der Nordstadtterrasse von Singen am Hohentwiel (Forschungen und Berichte zur Vor- und Frühgeschichte in Baden-Württemberg 32). Stuttgart: Theiss.Google Scholar
Kristiansen, K., Allentoft, M., Frei, K., Iversen, R., Johannsen, N., Kroonen, G. et al. 2017. Re-theorizing Mobility and the Formation of Culture and Language Among the Corded Ware in Europe. Antiquity, 91: 334–47. https://doi.org/10.15184/aqy.2017.17Google Scholar
Lee, E.S. 1966. A Theory of Migration. Demography, 3: 4757.Google Scholar
Ling, J., Hjärthner-Holdar, E., Grandin, L., Billström, K. & Persson, P.O. 2013. Moving Metals or Indigenous Mining? Provenancing Scandinavian Bronze Age Artefacts by Lead Isotopes and Trace Elements. Journal of Archaeological Science, 40: 291304. https://doi.org/10.1016/j.jas.2012.05.040Google Scholar
Ling, J., Stos-Gale, Z., Grandin, L., Billström, K., Hjärthner-Holdar, E. & Persson, P.O. 2014. Moving Metals II: Provenancing Scandinavian Bronze Age Artefacts by Lead Isotope and Elemental Analyses. Journal of Archaeological Science, 41: 106–32. https://doi.org/10.1016/j.jas.2013.07.018Google Scholar
Lippert, A., Gostner, P., Egarter-Vigl, E. & Pernter, P. 2007. Vom Leben und Sterben des Ötztaler Gletschermannes: neue medizinische und archäologische Erkentnisse. Germania, 85(1): 121.Google Scholar
Maixner, F., Overath, T., Linke, D., Janko, M., Guerriero, G., van den Berg, B. H. J. et al. 2013. Paleoproteomic Study of the Iceman's Brain Tissue. Cellular and Molecular Life Sciences, 70(19): 3709–722. https://doi.org/10.1007/s00018-013-1360-yGoogle Scholar
Marshall, T. 2015. Prisoners of Geography. London: Elliott and Thompson.Google Scholar
Mead, G. 1934. Mind, Self and Society. Chicago: University of Chicago Press.Google Scholar
Melheim, A.L., Grandin, L., Persson, P.O., Billström, K., Stos-Gale, Z., Ling, A. et al. 2018. Moving Metals III: Possible Origins for Copper in Bronze Age Denmark Based on Lead Isotopes and Geochemistry. Journal of Archaeological Science, 96: 85105. https://doi.org/10.1016/j.jas.2018.04.003Google Scholar
Müldner, G., Chenery, C. & Eckardt, H. 2011. The ‘Headless Romans’: Multi-Isotope Investigations of an Unusual Burial Ground from Roman Britain. Journal of Archaeological Science, 38: 280–90. https://doi.org/10.1016/j.jas.2010.09.003Google Scholar
Müller, W., Fricke, H., Halliday, A.N., McCulloch, M.T. & Wartho, J.A. 2003. Origin and Migration of the Alpine Iceman. Science, 302: 862–66. https://doi.org/10.1126/science.1089837Google Scholar
Murdock, G.P. 1967. Ethnographic Atlas: A Summary. Ethnology, 6: 109236.Google Scholar
Neaher, N.C. 1979. Awaka Who Travel: Itinerant Metalsmiths of Southern Nigeria. Africa: Journal of the International African Institute, 49: 352–66.Google Scholar
Nehlich, O., Montgomery, J., Evans, J., Schade-Lindig, S., Pichler, S., Mike, P. et al. 2009. Mobility or Migration: A Case Study from the Neolithic Settlement of Nieder Mörlen (Hessen, Germany). Journal of Archaeological Science, 36: 1791–99. https://doi.org/10.1016/j.jas.2009.04.008Google Scholar
Neipert, M. 2006. Der Wanderhandwerker: archäologisch-ethnographische Untersuchungen. Rahden: Marie Leidorf.Google Scholar
Nerlich, A.G., Peschel, O. & Ergarter-Vigl, E. 2009. New Evidence for Ötzi's Final Trauma. Journal of Intensive Care Medicine, 35: 1138–39. https://doi.org/10.1007/s00134-009-1409-4Google Scholar
Oelze, V.M., Nehlich, O. & Richards, M.P. 2011. ‘There's No Place Like Home’: No Isotopic Evidence for Mobility at the Early Bronze Age Cemetery of Singen, Germany. Archaeometry, 54: 752–78. https://doi.org/10.1111/j.1475-4754.2011.00644.xGoogle Scholar
Pernter, P., Gostner, P., Egarter-Vigl, E. & Ruhli, F.J. 2007. Radiologic Proof for the Iceman's Cause of Death (c 5300 BP). Journal of Archaeological Science, 34: 1784–86. https://doi.org/10.1016/j.jas.2006.12.019Google Scholar
Plomp, E., von Holstein, I.C.C., Koornneef, J.M., Smeets, R.J., Font, L., Baart, J.A. et al. 2017. TIMS Analysis of Neodymium Isotopes in Human Tooth Enamel Using 1013 Ω Amplifiers. Journal of Analytical Atomic Spectrometry, 32: 2391–400. https://doi.org/10.1039/C7JA00312AGoogle Scholar
Podolny, J. 2005. Status Signals. Princeton (NJ): Princeton University Press.Google Scholar
Price, T.D., Frei, K.M., Dobat, A.S., Lynnerup, N. & Bennike, P. 2011. Who Was in Harald Bluetooth's Army? Strontium Isotope Investigation of the Cemetery at the Viking Age Fortress at Trelleborg, Denmark. Antiquity, 85: 476–89. https://doi.org/10.1017/S0003598X00067880Google Scholar
Price, T.D., Frei, R., Brinker, U., Lidke, G., Terberger, T., Frei, K.M. et al. 2019. Multi-isotope Proveniencing of Human Remains from a Bronze Age Battlefield in the Tollense Valley in Northeast Germany. Archaeological and Anthropological Sciences, 11: 3349. https://doi.org/10.1007/s12520-017-0529-yGoogle Scholar
Reinhard, J. & Ceruti, M.C. 2015. Sacred Mountains, Ceremonial Sites, and Human Sacrifice Among the Incas. Archaeoastronomy, 19: 143.Google Scholar
Reiter, S.S. 2014. Identity Lies in the Eye of the Beholder: A Consideration of Identity in Archaeological Contexts. In: Ginn, V., Enlander, R. & Crozier, R., eds. Exploring Prehistoric Identity in Europe: Our Construct or Theirs? Oxford: Oxbow, pp. 1421.Google Scholar
Reiter, S.S. & Frei, K.M. 2015. Migration and Identity at the Early Bronze Age Cemetery of Jelsovce, Southwest Slovakia: The Strontium Evidence. In: Suchowska-Ducke, P., Reiter, S.S. & Vandkilde, H., eds. Forging Identities: Mobility of Culture in Bronze Age Europe. Oxford: Archaeopress, pp. 121–30.Google Scholar
Schade-Lindig, S. & Schmitt, A. 2003. Aussergewöhnliche Funde aus der bandkeramischen Siedlung Bad Nauheim-Nieder-Mörlen ‘Auf dem Hempler’. Germania, 81: 124.Google Scholar
Scharlotta, I. 2018. Differentiating Mobility and Migration in Middle Holocene Cis-Baikal, Siberia. Journal of Archaeological Science: Reports, 17: 919–31. https://doi.org/10.1016/j.jasrep.2016.05.045Google Scholar
Scheeres, M., Knipper, C., Hauschild, M., Schönfelder, M., Siebel, W., Pare, C. et al. 2014. ‘Celtic Migration’: Fact or Fiction? Strontium and Oxygen Isotope Analysis of the Czech Cemeteries of Radovesice and Kutná Hora in Bohemia. American Journal of Physical Anthropology, 155: 496512. https://doi.org/10.1002/ajpa.22597Google Scholar
Shellar, M. 2011. Mobility. Sociopedia.isa [online] [accessed 11 April 2019]. Available at: <http://www.sagepub.net/isa/resources/pdf/Mobility.pdf>>Google Scholar
Shellar, M. 2018. Mobility Justice: The Politics of Movement in an Age of Extremes. London and Brooklyn (NY): Verso: 645653.Google Scholar
Sjastaad, L.A. 1962. The Costs and Returns of Human Migration. Journal of Political Economy, 37: 615–28.Google Scholar
Stewart, N.A., Gerlach, R.F., Gowland, R.K., Gron, K.J. & Montgomery, J. 2017. Sex Determination Using Peptides from Tooth Enamel. Proceedings of the National Academy of Sciences, 114(52): 13,649–54. https://doi.org/10.1073/pnas.1714926115Google Scholar
Tipple, B.J., Chau, T., Chesson, L.A., Diego, P., Fernandez, D.P. & Ehleringer, J.R. 2013. Isolation of Strontium Pools and Isotope Ratios in Modern Human Hair. Analytica Chimica Acta, 798: 6473. https://doi.org/10.1016/j.aca.2013.08.054Google Scholar
Tordorov, T. 1992. Nous et les Autres. Paris: Seuil.Google Scholar
Urry, J. 2007. Mobilities. Cambridge: Polity Press.Google Scholar
van der Sanden, W. 1996. Through Nature into Eternity: The Bog Bodies of Northwest Europe. Amsterdam: Batavian Lion International.Google Scholar
Vandkilde, H. 2007. Culture and Change in Central European Prehistory: 6th to 1st Millennium bc. Aarhus: Aarhus University Press.Google Scholar
Veblen, T. 1899. The Theory of the Leisure Class. New York: Macmillan.Google Scholar
Wels-Weyrauch, U. 1989. Mittelbronzezeitliche Frauentrachten in Süddeutschland. Dynamique du Bronze Moyen en Europe Occidentale, Actes du 113e Congrès National des Sociétés Savantes. Strasbourg 1988. Paris: Comité des travaux historiques et scientifiques, pp. 117–34.Google Scholar
Wendrich, W. & Barnard, H. 2008. The Archaeology of Mobility: Definitions and Research Approaches. In: Barnard, H. & Wendrich, W., eds. The Archaeology of Mobility Old World and New World Nomadism. Los Angeles (CA): Cotsen Institute of Archaeology, University of California, pp 121.Google Scholar
White, C.W. & Beaudry, M.C. 2009. Artifacts and Personal Identity. In: Majewski, T. & Gaimster, T., eds. International Handbook of Historical Archaeology. New York: Springer, pp. 209–25.Google Scholar
Wilson, A.S., Taylor, T., Ceruti, M.C., Chavez, J.A., Reinhard, J., Grimes, V. et al. 2007. Stable Isotope and DNA Evidence for Ritual Sequences of Inca Child Sacrifice. Proceedings of the National Academy of Sciences, 104(42): 16,45661. https://doi.org/10.1073/pnas.0704276104Google Scholar