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Ten - Wool Production and the Evidence of Strontium Isotope Analyses

Published online by Cambridge University Press:  20 November 2019

Serena Sabatini
Affiliation:
Göteborgs Universitet, Sweden
Sophie Bergerbrant
Affiliation:
Göteborgs Universitet, Sweden
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Summary

This chapter discusses the strontium isotopic tracing system and its potential application for achieving a better understanding of ancient textile production.

Type
Chapter
Information
The Textile Revolution in Bronze Age Europe
Production, Specialisation, Consumption
, pp. 239 - 254
Publisher: Cambridge University Press
Print publication year: 2019

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References

Andersson, E. (2003) Tools for Textile Production from Birka and Hedeby (Birka Studies 8), Stockholm.Google Scholar
Balasse, M. (2003) Potential biases in sampling: design and interpretation of intra-tooth isotope analysis, International Journal of Osteoarchaeology 13, 310.Google Scholar
Balasse, M., Ambrose, S. H., Amith, A. B. and Price, T. D. (2002) The seasonal mobility model for prehistoric herders in the South-western Cape of South Africa assessed by isotopic analysis of sheep tooth enamel, Journal of Archaeological Science 29, 917932.Google Scholar
Barber, E. J. W. (1991) Prehistoric Textiles, Princeton.Google Scholar
Bender Jørgensen, L. (2007) The world according to textiles, in Ancient Textiles: Production, Crafts and Society (Ancient Textiles Series 1), ed. Gillis, C. and Nosch, M.-L., Oxford.Google Scholar
Benson, L. V., Hattori, E. M., Taylor, H. E., Poulson, S. R. and Jolie, E. A. (2006) Isotope sourcing of prehistoric willow and tule textiles recovered from western Great Basin rock shelters and caves: proof of concept, Journal of Archaeological Science 33, 15881599.CrossRefGoogle Scholar
Bentley, R. A. (2006) Strontium isotopes from the Earth to the archaeological skeleton: a review, Journal of Archaeological Method and Theory 13, 135187.CrossRefGoogle Scholar
Brandt, L. Ø., Tranekjer, L. D., Mannering, U., Ringgaard, M., Frei, K. M., Willerslev, E., Gleba, M. and Gilbert, M. T. P. (2011) Characterising the potential of sheep wool for ancient DNA analyses, Archaeological and Anthropological Sciences 3, 209221.Google Scholar
Breuning-Madsen, H., Holst, M. K., Rasmussen, M. and Elberling, B. (2003) Preservation within log coffins before and after barrow construction, Journal of Archaeological Science 30, 343350.CrossRefGoogle Scholar
Broholm, H. C. and Hald, M. (1940) Costumes of the Bronze Age in Denmark: Contributions to the Archaeology and Textile History of the Bronze Age, Copenhagen.Google Scholar
Earle, T., Ling, J., Uhnér, C., Stos-Gale, Z. and Melheim, L. (2015) The political economy and metal trade in Bronze Age Europe: understanding regional variability in terms of comparative advantages and articulations, European Journal of Archaeology 18, 633657.CrossRefGoogle Scholar
Evans, J. A., Montgomery, J., Wildman, G. and Bouton, N. (2010) Spatial variations in biosphere 87Sr/86Sr in Britain, Journal of the Geological Society 167, 14.CrossRefGoogle Scholar
Faure, G. (1986) Principles of Isotope Geology, New York.Google Scholar
Frei, K. M. (2009) New constraints on the origin of the Gerum cloak’s raw material, Fornvännen 2009(4), 313315.Google Scholar
Frei, K. M. (2014) Provenance of archaeological wool textiles: new case studies, Open Journal of Archaeometry 2(1).CrossRefGoogle Scholar
Frei, K. M. and Frei, R. (2011) The geographic distribution of strontium isotopes in Danish surface waters: a base for provenance studies in archaeology, hydrology and agriculture, Applied Geochemistry 26, 326340.CrossRefGoogle Scholar
Frei, K. M. and Price, T. D. (2012) Strontium isotopes and human mobility in prehistoric Denmark, Archaeological and Anthropological Sciences 4(2), 103114.Google Scholar
Frei, K. M., Frei, R., Mannering, U., Gleba, M., Nosch, M.-L. and Lyngstrøm, H. (2009) Provenance of ancient textiles: a pilot study evaluating the Sr isotope system, Archaeometry 51(2), 252276.CrossRefGoogle Scholar
Frei, K. M., Mannering, U., Price, T. D. and Iversen, R. I. (2015a) Strontium isotope investigations of the Haraldskær woman, ArcheoSciences 5(39), 93101.Google Scholar
Frei, K. M., Mannering, U. and Thrane, H. (2015b) Textiles on the move: the provenance of a Late Bronze Age nettle textile from Lusehøj, Denmark. in Forging Identities: the Mobility of Culture in Bronze Age Europe (BAR International Series 2771), ed. Suchowska-Ducke, P., Reiter, S. S. and Vandkilde, H., Oxford, 5562.Google Scholar
Frei, K. M., Mannering, U., Kristiansen, K., Allentoft, M. E., Wilson, A. S., Skals, I., Tridico, S., Nosch, M.-L., Willerslev, E., Clarke, L. and Frei, R. (2015c) Tracing the dynamic life story of a Bronze Age female, Scientific Reports 5 (art. n. 10431).CrossRefGoogle ScholarPubMed
Frei, K. M., Mannering, U., Vanden Berghe, I. and Kristiansen, K. (2017) Bronze Age wool: provenance and dye investigations of Danish textiles, Antiquity 91, 640654.Google Scholar
Frei, R. and Frei, K. M. (2013) The geographic distribution of Sr isotopes from surface waters and soil extracts over the island of Bornholm (Denmark): a base for provenance studies in archaeology and agriculture, Applied Geochemistry 38, 147160.Google Scholar
Graustein, W. C. (1989) 87Sr/86Sr ratios measure the sources and flow of strontium in terrestrial ecosystems, in Stable Isotopes in Ecological Research, ed. Rundel, P. W., Ehleringer, J. R and Nagy, K. A., New York, 491512.CrossRefGoogle Scholar
Grimstead, D. N., Nugent, S. and Whipple, J. (2017) Why a standardization of strontium isotope baseline environmental data is needed and recommendations for methodology, Advances in Archaeological Practice 5, 184195.Google Scholar
Harding, A. and Fokkens, H. eds. (2013) The Oxford Handbook of the European Bronze Age, Oxford.Google Scholar
Harvig, L., Frei, K. M., Price, T. D. and Lynnerup, N. (2014) Strontium isotope signals in cremated petrous portions as indicator for childhood origin, PLOS ONE 9, e101603.Google Scholar
Hedeager, L. and Kristiansen, K. (1987) Oldtid 4.000 for Kristus-1.000 efter Kristus, in Det danske Landbrugs Historie, ed. Bjørn, C.., Odense, 1157.Google Scholar
Henriksen, M. B. (2009) Brudager Mark: En romertidsgravplads nær Gudme på Sydøstfyn, Odense.Google Scholar
Horwitz, E. P., Chiarizia, R. and Dietz, R. W. (1992) A novel strontium-selective extraction chromatographic resin, Solvent Extraction and Ion Exchange 10, 313336.Google Scholar
Kaul, F. and Varberg, J. (2017) Danish beads of Egyptian and Mesopotamian glass in context, and the amber connection, in New Perspectives on the Bronze Age: Proceedings of the 13th Nordic Bronze Age Symposium Held in Gothenburg 9th to 13th June 2015, ed. Bergerbrant, S. and Wessman, A., Oxford, 375386.CrossRefGoogle Scholar
Kristiansen, K. (2016) Interpreting Bronze Age trade and migration, in Human Mobility and Technological Transfer in the Prehistoric Mediterranean, ed. Kiratzi, E. and Knappett, C., Cambridge, 154180.CrossRefGoogle Scholar
Mannering, U., Gleba, M. and Bloch Hansen, M. (2012) Denmark, in Textiles and Textile Production in Europe: From Prehistory to ad 400 (Ancient textiles Series 11), ed. Gleba, M. and Mannering, U., Oxford, 91118.CrossRefGoogle Scholar
Montgomery, J. (2010) Passports from the past: investigating human dispersals using strontium isotope analysis of tooth enamel, Annals of Human Biology 37, 325346.Google Scholar
Nosch, M.-L. (2014) The Aegean wool economies of the Bronze Age, in Textile Society of America Symposium Proceedings. DigitalCommons@University of Nebraska – Lincoln, NE.Google Scholar
Nyegaard, G. (1996) Faunalevn fra bronzealder. En zooarkæologisk undersøgelse af sydskandinaviske bopladsfund, unpublished PhD thesis, University of Copenhagen.Google Scholar
Price, T. D., Burton, J. H. and Bentley, R. A. (2002) The characterization of biologically available strontium isotope ratios for the study of prehistoric migration, Archaeometry 44, 117135.CrossRefGoogle Scholar
Price, T. D., Frei, R., Brinker, U., Lidke, G., Terberger, T., Frei, K. M. and Jantzen, D. (2017) Multi-isotope proveniencing of human remains from a Bronze Age battlefield in the Tollense valley in northeast Germany, Archaeological and Anthropological Sciences, https://doi.org/10.1007/s12520-017-0529-y.Google Scholar
Randsborg, K. and Christensen, K. (2006) Bronze Age oak-coffin graves: archaeology and dendro-dating, Acta Archaeologica 77, 1246.Google Scholar
Sabatini, S. and Melheim, L. (2017) Nordic-Mediterranean relations in the second millennium bc, in New Perspectives on the Bronze Age. Proceedings of the 13th Nordic Bronze Age Symposium Held in Gothenburg 9th to 13th June 2015, ed. Bergerbrant, S. and Wessman, A., Oxford, 355362.Google Scholar
Stærmose Nielsen, K.-H. (1989) Bronzealdersdragterne som blev en messe vard, Fynske Minder 1989, 3166.Google Scholar
Vandkilde, H., Hansen, S., Kotsakis, K., Kristiansen, K., Müller, J., Sofaer, J. and Sørensen, M. L. S. (2015) Cultural mobility in Bronze Age Europe, in Forging Identities: the Mobility of Culture in Bronze Age Europe (BAR International Series 2771), ed. Suchowska-Ducke, P., Reiter, S. S. and Vandkilde, H., Oxford, 537.Google Scholar
Vretemark, M. (2010) Subsistence strategies, in Organizing Bronze Age Societies: the Mediterranean, Central Europe and Scandinavia Compared, ed. Earle, T. and Kristiansen, K., Cambridge, 155184.Google Scholar

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