Bibliography for ARCL0098: Archaeometallurgy I: Mining and Extractive Metallurgy: Marcos Martinon-Torres

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Alipour, R., & Rehren, T. (2014b). Persian Pulād Production: Chāhak Tradition. Journal of Islamic Archaeology, 1(2), 231–261. https://doi.org/10.1558/jia.v1i2.24174

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Bayley, J. (1996a). Innovation in later medieval urban metalworking. Historical Metallurgy: Journal of the Historical Metallurgy Society, 30(2), 67–71. https://contentstore.cla.co.uk//secure/link?id=fbb26fdc-4a36-e711-80c9-005056af4099

Bayley, J. (1996b). Innovation in later medieval urban metalworking. Historical Metallurgy: Journal of the Historical Metallurgy Society, 30(2), 67–71. https://contentstore.cla.co.uk//secure/link?id=fbb26fdc-4a36-e711-80c9-005056af4099

Bayley, J. (2008a). Medieval precious metal refining: archaeology and contemporary texts compared. In Archaeology, history and science: integrating approaches to ancient materials: Vol. Publications of the Institute of Archaeology, University College London (pp. 131–150). Left Coast Press. http://UCL.eblib.com/patron/FullRecord.aspx?p=677776

Bayley, J. (2008b). Medieval precious metal refining:archaeology and contemporary texts compared. In Archaeology, history and science: integrating approaches to ancient materials: Vol. Publications of the Institute of Archaeology, University College London (pp. 131–150). Left Coast Press. http://www.UCL.eblib.com/patron/Read.aspx?p=677776&pg=1

Bayley, J. & Butcher, S. (2004). Roman brooches in Britain: a technological and typological study based on the Richborough Collection: Vol. Reports of the Research Committee of the Society of Antiquaries. Society of Antiquaries of London.

Bayley, J., Crossley, David W., Ponting, Matthew, & Historical Metallurgy Society. (2008). Metals and metalworking: a research framework for archaeometallurgy: Vol. Occasional publication / Historical Metallurgy Society. Historical Metallurgy Society. http://hist-met.org/publications/hms-occasional-publications.html

Bayley, J., & Rehren, T. (2007). Towards a functional and typological classification of crucibles. In Metals and mines: studies in archaeometallurgy (pp. 46–55). Archetype in association with the British Museum.

Bayley, J., & White, H. (2013). Evidence for workshop practices at the Tudor mint in the Tower of London. In The Renaissance workshop (pp. 138–143). Archetype Publications in association with the British Museum.

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Begemann, F., Kallas, K., Schmitt-Strecker, S., & Pernicka, E. (1999). Tracing ancient tin via isotope analyses. In The beginnings of metallurgy: proceedings of the International Conference ‘The Beginnings of Metallurgy’, Bochum 1995: Vol. Der Anschnitt. Beiheft (pp. 277–284). Deutsches Bergbau-Museum.

Belford, D. (2012). Hot blast iron smelting in the early 19th century: a re-appraisal. Historical Metallurgy: Journal of the Historical Metallurgy Society, 46(1), 9–18.

Benjamin W. Roberts. (2009). Production Networks and Consumer Choice in the Earliest Metal of Western Europe. Journal of World Prehistory, 22(4), 461–481. http://www.jstor.org/stable/25801284

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Biggs, L., Bellina, B., Martinón-Torres, M., & Pryce, T. O. (2013). Prehistoric iron production technologies in the Upper Thai-Malay Peninsula: metallography and slag inclusion analyses of iron artefacts from Khao Sam Kaeo and Phu Khao Thong. Archaeological and Anthropological Sciences, 5(4), 311–329. https://doi.org/10.1007/s12520-012-0115-2

Bisson, Michael S. & Vogel, Joseph O. (2000a). Ancient African metallurgy: the socio-cultural context. AltaMira.

Bisson, Michael S. & Vogel, Joseph O. (2000b). Ancient African metallurgy: the socio-cultural context. AltaMira.

Blakelock, E., Martinón-Torres, M., Veldhuijzen, H. A., & Young, T. (2009a). Slag inclusions in iron objects and the quest for provenance: an experiment and a case study. Journal of Archaeological Science, 36(8), 1745–1757. https://doi.org/10.1016/j.jas.2009.03.032

Blakelock, E., Martinón-Torres, M., Veldhuijzen, H. A., & Young, T. (2009b). Slag inclusions in iron objects and the quest for provenance: an experiment and a case study. Journal of Archaeological Science, 36(8), 1745–1757. https://doi.org/10.1016/j.jas.2009.03.032

Boiurgarit, D., & Thomas, N. (2011). From laboratory to field experiments: shared experience in brass cementation. Historical Metallurgy: Journal of the Historical Metallurgy Society, 45(1), 8–16.

Boni, M., Maio, G. D., Frei, R., & Villa, I. M. (2000). Lead isotopic evidence for a mixed provenance for Roman water pipes from Pompeii. Archaeometry, 42(1), 201–208. https://doi.org/10.1111/j.1475-4754.2000.tb00876.x

Bottaini, C., Vilaça, R., Schiavon, N., Mirão, J., Candeias, A., Bordalo, R., Paternoster, G., & Montero-Ruiz, I. (2016). New insights on Late Bronze Age Cu-metallurgy from Coles de Samuel hoard (Central Portugal): A combined multi-analytical approach. Journal of Archaeological Science: Reports, 7, 344–357. https://doi.org/10.1016/j.jasrep.2016.05.009

Bourgarit, D., & Thomas, N. (2012a). Late medieval copper alloying practices: a view from a Parisian workshop of the 14th century AD. Journal of Archaeological Science, 39(10), 3052–3070. https://doi.org/10.1016/j.jas.2012.04.009

Bourgarit, D., & Thomas, N. (2012b). Late medieval copper alloying practices: a view from a Parisian workshop of the 14th century AD. Journal of Archaeological Science, 39(10), 3052–3070. https://doi.org/10.1016/j.jas.2012.04.009

Branigan, Keith. (1974). Aegean metalwork of the Early and Middle Bronze Age: Vol. Oxford monographs on classical archaeology. Clarendon Press.

Bray, P., Cuenod, A., Gosden, C., & Et al. (2015). Form and flow: the ‘karmic cycle’ of copper. Journal of Archaeological Science, 56, 202–209. https://doi.org/10.1016/j.jas.2014.12.013

Bray, P. J., & Pollard, A. M. (2012). A new interpretative approach to the chemistry of copper-alloy objects: Source, recycling and technology. Antiquity, 86(333), 853–867. http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=9423556&fulltextType=RA&fileId=S0003598X00047967

Brownsword, R. (2004). Medieval metalwork: an analytical study of copper-alloy objects. Historical Metallurgy: Journal of the Historical Metallurgy Society, 38(2), 84–105.

Bryan Hanks and Roger Doonan. (2009). From Scale to Practice: A New Agenda for the Study of Early Metallurgy on the Eurasian Steppe. Journal of World Prehistory, 22(4), 329–356. http://www.jstor.org/stable/25801279

Buchwald, Vagn Fabritius & Kongelige Danske videnskabernes selskab. (2005). Iron and steel in ancient times: Vol. Historisk-filosofiske skrifter. Det Kongelige Danske Videnskabernes Selskab.

Budd et al, P. (1992). The early development of metallurgy in the British Isles. Antiquity, 66(252), 677–686. https://doi.org/10.1017/S0003598X00039375

Budd, P. D., & Ottaway, B. S. (1991). The properties of arsencial copper alloys: implications for the development of Eneolithic metallurgy. In Archaeological sciences 1989: proceedings of a conference on the application of scientific techniques to archaeology, Bradford, September 1989: Vol. Oxbow monograph (pp. 132–142). Oxbow. https://contentstore.cla.co.uk//secure/link?id=9d472646-7736-e711-80c9-005056af4099

Cardale de Schrimpff, Marianne & Bray, Warwick. (2005). Calima and Malagana: art and archaeology in southwestern Colombia. Pro Calima Foundation.

Cech, B. (2012). A roman gold mining district in eastern Austria. Historical Metallurgy: Journal of the Historical Metallurgy Society, 46(2), 66–77.

Cech, B., & Rehren, T. (Eds.). (2014a). Early iron in Europe: Vol. Monographies instrumentum. Éditions Monique Mergoil.

Cech, B., & Rehren, T. (Eds.). (2014b). Early iron in Europe: Vol. Monographies instrumentum. Éditions Monique Mergoil.

Charlton, M. F., Blakelock, E., Martinón-Torres, M., & Young, T. (2012). Investigating the production provenance of iron artifacts with multivariate methods. Journal of Archaeological Science, 39(7), 2280–2293. https://doi.org/10.1016/j.jas.2012.02.037

Charlton, M. F., Crew, P., Rehren, T., & Shennan, S. J. (2010). Explaining the evolution of ironmaking recipes – An example from northwest Wales. Journal of Anthropological Archaeology, 29(3), 352–367. https://doi.org/10.1016/j.jaa.2010.05.001

Chen, K., Liu, S., Li, Y., Mei, J., Shao, A., & Yue, L. (2017). Evidence of arsenical copper smelting in Bronze Age China: A study of metallurgical slag from the Laoniupo site, central Shaanxi. Journal of Archaeological Science, 82, 31–39. https://doi.org/10.1016/j.jas.2017.04.006

Chen, K., Rehren, T., Mei, J., & Zhao, C. (2009). Special alloys from remote frontiers of the Shang Kingdom: scientific study of the Hanzhong bronzes from southwest Shaanxi, China. Journal of Archaeological Science, 36(10), 2108–2118. https://doi.org/10.1016/j.jas.2009.04.016

Chernych, E. N. (2002). Some of the most important aspects and problems of early Metal Age studying. In Die Anfänge der Metallurgie in der alten Welt = The beginnings of metallurgy in the old world: Vol. Forschungen zur Archäometrie und Altertumswissenschaft (pp. 25–31). Verlag Marie Leidorf.

Chernykh, E. N. (1991). Ancient metallurgy in the USSR: the early metal age: Vol. New studies in archaeology. Cambridge University Press.

Chirikure, S. (2010). Indigenous mining and metallurgy in Africa: Vol. Indigenous knowledge library. Cambridge University Press.

Chirikure, S. (2014). Geochemistry of Ancient Metallurgy: Examples from Africa and Elsewhere. In Treatise on Geochemistry (pp. 169–189). Elsevier. https://ucl.primo.exlibrisgroup.com/view/action/uresolver.do?operation=resolveService&package_service_id=14355564180004761&institutionId=4761&customerId=4760&VE=true

Chirikure, Shadreck., Burrett, Rob., & Heimann, R. B. (2009). Beyond furnaces and slags: a review study of bellows and their role in indigenous African metallurgical processes. Azania: Archaeological Research in Africa, 44(2), 195–215. https://doi.org/10.1080/00671990903047108

Cleere, H. (1984). Ironmaking in the economy of the ancient world: The potential of archaeometallurgy. In The Crafts of the blacksmith (pp. 1–6). UISPP Comité pour la Sidérurgie Ancienne and the Ulster Museum.

Cochet, André & Pernot, Michel. (2000). Le plomb en Gaule romaine: techniques de fabrication et produits: Vol. Monographies instrumentum. Monique Mergoil.

Cohen, C. R., Rehren, T., & Van Buren, M. (2009a). When the wind blows: environmental adaptability in current day silver production within the Bolivian Andes. In Proceedings: ISA 2006 : 36th International Symposium on Archaeometry : 2-6 May 2006, Quebec City, Canada: Vol. Cahiers d’archéologie du CELAT. (pp. 465–475). CELAT, Université Laval.

Cohen, C. R., Rehren, Th., & Van Buren, M. (2009b). An archaeo-metallurgical study of the use of European furnaces in colonial Bolivia. In Archaeometallurgy in Europe: 2nd international conference, Aquileia, Italy, 17-21 June 2007 : selected papers (pp. 529–540). AIM.

Coustures, M. P., Beziat, D., Tollon, F., Domergue, C., Long, L., & Rebiscoul, A. (2003). The use of trace element analysis of entrapped slag inclusions to establish ore - Bare iron links: Examples from two Gallo-Roman iron-making sites in France (Les Martys, Montagne Noire, and Les Ferrys, Loiret). Archaeometry, 45(4), 599–613. https://doi.org/10.1046/j.1475-4754.2003.00131.x

Craddock, P. (1995). The development of early mining geology. In Early metal mining and production (pp. 23–31). Edinburgh University Press. https://contentstore.cla.co.uk/secure/link?id=ad40b8ab-6836-e711-80c9-005056af4099

Craddock, P., Catwright, C., Eckstein, K., & et al. (2013). Simple sophistication: Mauryan silver production in North West India. In British Museum Technical Research Bulletin 7 (pp. 79–93). The British Museum (Online). http://www.britishmuseum.org/research/publications/online_journals/technical_research_bulletin/bmtrb_volume_7.aspx

Craddock, P., & Eckstein, K. (2003). Production of brass in Antiquity by direct reduction. In Mining and metal production through the ages (pp. 230–216). British Museum.

Craddock, P., & Hook, D. (2012). An economic history of the post-medieval world in 50 ingots: the British Museum collection of ingots from dated wrecks. The British Museum Technical Research Bulletin, 6, 55–68. http://www.britishmuseum.org/research/publications/online_journals/technical_research_bulletin/bmtrb_volume_6.aspx

Craddock, P. T. (1990). Copper smelting in Bronze Age Britain: Problems and Possibilities. In Early mining in the British Isles: proceedings of the Early Mining Workshop at Plas Tan y Bwlch, Snowdonia National Park Study Centre, 17-19 November, 1989: Vol. Plas Tan y Bwlch occasional paper (pp. 69–71). Plas Tan y Bwlch, Snowdonia National Park Study Centre.

Craddock, P. T. (1991). Mining and smelting in Antiquity. In Science and the past (pp. 57–73). British Museum Press. http://www.jstor.org/stable/10.3138/j.ctt2tv44s.9

Craddock, P. T. (1995a). Early metal mining and production. Edinburgh University Press.

Craddock, P. T. (1995b). Early metal mining and production. Edinburgh University Press.

Craddock, P. T. (2010). New paradigms for old iron: thoughts on E. Zangato & A.F.C Holl’s ‘On the iron front’. Journal of African Archaeology, 8, 29–36.

Craddock, P. T. & British Museum. (1998). 2000 years of zinc and brass: Vol. Occasional paper / British Museum (Rev. ed). British Museum.

Craddock, P. T., Hook, Duncan R., & La Niece, Susan. (2007). Metals and mines: studies in archaeometallurgy. Archetype in association with the British Museum.

Craddock, P. T., & Meeks, N. D. (1987). Iron in Ancient Copper. Archaeometry, 29(2), 187–204. https://doi.org/10.1111/j.1475-4754.1987.tb00411.x

Craddock, P., & Zhou, W. (2003). Traditional Zinc Production in Modern China: Survival and Evolution. In Mining and metal production through the ages (pp. 267–292). British Museum.

Craddock, Paul. (1999). Paradigms of metallurgical innovation in prehistoric Europe. In The Beginnings of Metallurgy: Vol. Der Anschnitt. Beiheft (pp. 175–192). Deutsches Bergbau-Museum.

Crew, P. (1991a). The experimental production of prehistoric bar iron. Historical Metallurgy: Journal of the Historical Metallurgy Society, 25(2), 21–36. https://contentstore.cla.co.uk//secure/link?id=b298f2d5-4a36-e711-80c9-005056af4099

Crew, P. (1991b). The experimental production of prehistoric bar iron. Historical Metallurgy: Journal of the Historical Metallurgy Society, 25(2), 21–36. https://contentstore.cla.co.uk//secure/link?id=b298f2d5-4a36-e711-80c9-005056af4099

Crew, P. (1991c). The iron and copper slags at Baratti, Populonia, Italy. Historical Metallurgy: Journal of the Historical Metallurgy Society, 25, 109–115. http://link.springer.com/article/10.1007%2Fs12520-010-0043-y

Crew, P. (1995). Aspects of the iron supply. In Danebury: an Iron Age hillfort in Hampshire, Vol.6: A hillfort community in perspective: Vol. CBA research report (pp. 276–286). Council for British Archaeology. https://contentstore.cla.co.uk//secure/link?id=5d25630c-8e36-e711-80c9-005056af4099

Crew, Peter & Crew, Susan. (1990). Early mining in the British Isles: proceedings of the Early Mining Workshop at Plas Tan y Bwlch, Snowdonia National Park Study Centre, 17-19 November, 1989: Vol. Plas Tan y Bwlch occasional paper. Plas Tan y Bwlch, Snowdonia National Park Study Centre.

Crossley, D. (1995). The blast furnace at Rockley, South Yorkshire. The Archaeological Journal, 152(1), 381–421. https://doi.org/10.1080/00665983.1995.11021434

David Killick. (2009). Cairo to Cape: The Spread of Metallurgy Through Eastern and Southern Africa. Journal of World Prehistory, 22(4), 399–414. http://www.jstor.org/stable/25801281

Desaulty, A.-M., Dillmann, P., L’Héritiera, M., & Et al. (2009a). Does it come from the Pays de Bray? Examination of an origin hypothesis for the ferrous reinforcements used in French medieval churches using major and trace element analyses. Journal of Archaeological Science, 36(10), 2445–2462. https://doi.org/10.1016/j.jas.2009.07.002

Desaulty, A.-M., Dillmann, P., L’Héritiera, M., & Et al. (2009b). Does it come from the Pays de Bray? Examination of an origin hypothesis for the ferrous reinforcements used in French medieval churches using major and trace element analyses. Journal of Archaeological Science, 36(10), 2445–2462. https://doi.org/10.1016/j.jas.2009.07.002

Diaz-Andreu, M., & Montero, I. (2000). Metallurgy and social dynamics in the later prehistory of Mediterranean Spain. In Metals make the world go round: the supply and circulation of metals in Bronze Age Europe : proceedings of a conference held at the University of Birmingham in June 1997 (pp. 116–132). Oxbow. https://contentstore.cla.co.uk//secure/link?id=9e47c996-8136-e711-80c9-005056af4099

Dieudonne-Glad, N., & Conte, P. (2011). Smithing at the priory of Lavinadiere, Correze, France, 13th and 16th centuries. Historical Metallurgy: Journal of the Historical Metallurgy Society, 45(1), 1–7.

Dillmann, P., perez, A., Vega, E., Arribet-Derion, D., Arnada, R., L’Heritier, M., Neff, D., & Bellot-Gurlet, L. (2012). Understanding the Walloon method of iron refining: archaeological and archaeometric experiments, phase 1. Historical Metallurgy: Journal of the Historical Metallurgy Society, 46(1), 19–31.

Duncan E. Miller and Nikolaas J. Van Der Merwe. (1994). Early Metal Working in Sub-Saharan Africa: A Review of Recent Research. The Journal of African History, 35(1), 1–36. http://www.jstor.org/stable/182719

Dungworth, D. (1997a). Iron Age and Roman Copper Alloys from Northern Britain. Internet Archaeology 2. http://intarch.ac.uk/journal/issue2/dungworth_toc.html

Dungworth, D. (1997b). Iron Age and Roman Copper Alloys from Northern Britain. Internet Archaeology, 2. https://doi.org/10.11141/ia.2.2

Dungworth, D. (1997c). Roman Copper Alloys: Analysis of Artefacts from Northern Britain. Journal of Archaeological Science, 24(10), 901–910. https://doi.org/10.1006/jasc.1996.0169

Dungworth, D. (1997d). Roman Copper Alloys: Analysis of Artefacts from Northern Britain. Journal of Archaeological Science, 24(10), 901–910. https://doi.org/10.1006/jasc.1996.0169

Dungworth, D. (2000). Serendipity in the foundry? Tin oxide inclusions in copper and copper alloys as an indicator of production process. Bulletin of the Metals Museum, 32, 1–5.

Dungworth, D., & Mepham, L. (2012). Prehistoric iron smelting in London: evicence from Shooters Hill. Historical Metallurgy: Journal of the Historical Metallurgy Society, 46(1), 1–8.

Dungworth, D., & Nicholas, M. (2004). Caldarium? An antimony bronze used for medieval and post-medieval cast domestic vessels. Historical Metallurgy: Journal of the Historical Metallurgy Society, 38(1), 24–34. https://contentstore.cla.co.uk/secure/link?id=d060ccd0-7106-e811-80cd-005056af4099

Durali-Mueller, S., Brey, G. P., Wigg-Wolf, D., & Lahaye, Y. (2007). Roman lead mining in Germany: its origin and development through time deduced from lead isotope provenance studies. Journal of Archaeological Science, 34(10), 1555–1567. https://doi.org/10.1016/j.jas.2006.11.009

Edwards, Richard & Atkinson, Keith. (1986). Ore deposit geology and its influence on mineral exploration. Chapman and Hall.

et al, G.-M. (1994). Early copper and Brass in Senegal. In Society, culture, and technology in Africa: Vol. MASCA research papers in science and archaeology (pp. 45–62). MASCA, University of Pennsylvania Museum of Archaeology and Anthropology.

Fang, J. L., & McDonnell, G. (2011). The colour of copper alloys. Historical Metallurgy: Journal of the Historical Metallurgy Society, 45(1), 52–61. https://contentstore.cla.co.uk//secure/link?id=fcb26fdc-4a36-e711-80c9-005056af4099

Farci, C., Martinón-Torres, M., & Álvarez, D. G. (2017). Bronze production in the Iron Age of the Iberian Peninsula: The case of El Castru , Vigaña (Asturias, NW Spain). Journal of Archaeological Science: Reports, 11, 338–351. https://doi.org/10.1016/j.jasrep.2016.12.009

Feuerbach, A., Merkel, j, & Griffiths, D. (1998a). An examination of crucible steel in the manufacture of Damascus steel, including evidence from Merv, Turkmenistan. In Metallurgica Antiqua: in honour of Hans-Gert Bachmann and Robert Maddin: Vol. Anschnitt (pp. 37–44). Deutsches Bergbau-Museum.

Feuerbach, A., Merkel, j, & Griffiths, D. (1998b). An examination of crucible steel in the manufacture of Damascus steel, including evidence from Merv, Turkmenistan. In Metallurgica Antiqua: in honour of Hans-Gert Bachmann and Robert Maddin: Vol. Anschnitt (pp. 37–44). Deutsches Bergbau-Museum.

Frame, L. (2010). Metallurgical investigations at Godin Tepe, Iran, Part I: the metal finds. Journal of Archaeological Science, 37(7), 1700–1715. https://doi.org/10.1016/j.jas.2010.01.030

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Gale, N. H. (1991). Bronze age trade in the Mediterranean: Vol. Studies in Mediterranean archaeology. Åstrom.

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Bibliography for ARCL0098: Archaeometallurgy I: Mining and Extractive Metallurgy: Marcos Martinon-Torres BETA